src/third_party/v8/test/mkgrokdump/mkgrokdump.cc - cobalt - Git at Google

 // Copyright 2012 the V8 project authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include <stdio.h>

 #include "include/libplatform/libplatform.h"
 #include "include/v8.h"
 #include "src/execution/frames.h"
 #include "src/execution/isolate.h"
 #include "src/heap/heap-inl.h"
 #include "src/heap/paged-spaces-inl.h"
 #include "src/heap/read-only-heap.h"
 #include "src/heap/spaces.h"
 #include "src/objects/objects-inl.h"

 namespace v8 {

 static const char* kHeader =
     "# Copyright 2019 the V8 project authors. All rights reserved.\n"
     "# Use of this source code is governed by a BSD-style license that can\n"
     "# be found in the LICENSE file.\n"
     "\n"
     "# This file is automatically generated by mkgrokdump and should not\n"
     "# be modified manually.\n"
     "\n"
     "# List of known V8 instance types.\n";

 // Debug builds emit debug code, affecting code object sizes.
 #ifndef DEBUG
 static const char* kBuild = "shipping";
 #else
 static const char* kBuild = "non-shipping";
 #endif

 class MockArrayBufferAllocator : public v8::ArrayBuffer::Allocator {
  public:
   void* Allocate(size_t length) override { return nullptr; }
   void* AllocateUninitialized(size_t length) override { return nullptr; }
   void Free(void* p, size_t) override {}
 };

 static void DumpKnownMap(FILE* out, i::Heap* heap, const char* space_name,
                          i::HeapObject object) {
 #define RO_ROOT_LIST_CASE(type, name, CamelName) \
   if (root_name == nullptr && object == roots.name()) root_name = #CamelName;
 #define MUTABLE_ROOT_LIST_CASE(type, name, CamelName) \
   if (root_name == nullptr && object == heap->name()) root_name = #CamelName;

   i::ReadOnlyRoots roots(heap);
   const char* root_name = nullptr;
   i::Map map = i::Map::cast(object);
   intptr_t root_ptr =
       static_cast<intptr_t>(map.ptr()) & (i::Page::kPageSize - 1);

   READ_ONLY_ROOT_LIST(RO_ROOT_LIST_CASE)
   MUTABLE_ROOT_LIST(MUTABLE_ROOT_LIST_CASE)

   if (root_name == nullptr) return;
   i::PrintF(out, "  (\"%s\", 0x%05" V8PRIxPTR "): (%d, \"%s\"),\n", space_name,
             root_ptr, map.instance_type(), root_name);

 #undef MUTABLE_ROOT_LIST_CASE
 #undef RO_ROOT_LIST_CASE
 }

 static void DumpKnownObject(FILE* out, i::Heap* heap, const char* space_name,
                             i::HeapObject object) {
 #define RO_ROOT_LIST_CASE(type, name, CamelName)        \
   if (root_name == nullptr && object == roots.name()) { \
     root_name = #CamelName;                             \
     root_index = i::RootIndex::k##CamelName;            \
   }
 #define ROOT_LIST_CASE(type, name, CamelName)           \
   if (root_name == nullptr && object == heap->name()) { \
     root_name = #CamelName;                             \
     root_index = i::RootIndex::k##CamelName;            \
   }

   i::ReadOnlyRoots roots(heap);
   const char* root_name = nullptr;
   i::RootIndex root_index = i::RootIndex::kFirstSmiRoot;
   intptr_t root_ptr = object.ptr() & (i::Page::kPageSize - 1);

   STRONG_READ_ONLY_ROOT_LIST(RO_ROOT_LIST_CASE)
   MUTABLE_ROOT_LIST(ROOT_LIST_CASE)

   if (root_name == nullptr) return;
   if (!i::RootsTable::IsImmortalImmovable(root_index)) return;

   i::PrintF(out, "  (\"%s\", 0x%05" V8PRIxPTR "): \"%s\",\n", space_name,
             root_ptr, root_name);

 #undef ROOT_LIST_CASE
 #undef RO_ROOT_LIST_CASE
 }

 static void DumpSpaceFirstPageAddress(FILE* out, i::BaseSpace* space,
                                       i::Address first_page) {
   const char* name = space->name();
   i::Tagged_t compressed = i::CompressTagged(first_page);
   uintptr_t unsigned_compressed = static_cast<uint32_t>(compressed);
   i::PrintF(out, "  0x%08" V8PRIxPTR ": \"%s\",\n", unsigned_compressed, name);
 }

 template <typename SpaceT>
 static void DumpSpaceFirstPageAddress(FILE* out, SpaceT* space) {
   i::Address first_page = space->FirstPageAddress();
   DumpSpaceFirstPageAddress(out, space, first_page);
 }

 static int DumpHeapConstants(FILE* out, const char* argv0) {
   // Start up V8.
   std::unique_ptr<v8::Platform> platform = v8::platform::NewDefaultPlatform();
   v8::V8::InitializePlatform(platform.get());
   v8::V8::Initialize();
   v8::V8::InitializeExternalStartupData(argv0);
   Isolate::CreateParams create_params;
   MockArrayBufferAllocator mock_arraybuffer_allocator;
   create_params.array_buffer_allocator = &mock_arraybuffer_allocator;
   Isolate* isolate = Isolate::New(create_params);
   {
     Isolate::Scope scope(isolate);
     i::Heap* heap = reinterpret_cast<i::Isolate*>(isolate)->heap();
     i::ReadOnlyHeap* read_only_heap =
         reinterpret_cast<i::Isolate*>(isolate)->read_only_heap();
     i::PrintF(out, "%s", kHeader);
 #define DUMP_TYPE(T) i::PrintF(out, "  %d: \"%s\",\n", i::T, #T);
     i::PrintF(out, "INSTANCE_TYPES = {\n");
     INSTANCE_TYPE_LIST(DUMP_TYPE)
     i::PrintF(out, "}\n");
 #undef DUMP_TYPE

     {
       // Dump the KNOWN_MAP table to the console.
       i::PrintF(out, "\n# List of known V8 maps.\n");
       i::PrintF(out, "KNOWN_MAPS = {\n");
       i::ReadOnlyHeapObjectIterator ro_iterator(read_only_heap);
       for (i::HeapObject object = ro_iterator.Next(); !object.is_null();
            object = ro_iterator.Next()) {
         if (!object.IsMap()) continue;
         DumpKnownMap(out, heap, i::BaseSpace::GetSpaceName(i::RO_SPACE),
                      object);
       }
       i::PagedSpaceObjectIterator iterator(heap, heap->map_space());
       for (i::HeapObject object = iterator.Next(); !object.is_null();
            object = iterator.Next()) {
         if (!object.IsMap()) continue;
         DumpKnownMap(out, heap, i::BaseSpace::GetSpaceName(i::MAP_SPACE),
                      object);
       }
       i::PrintF(out, "}\n");
     }

     {
       // Dump the KNOWN_OBJECTS table to the console.
       i::PrintF(out, "\n# List of known V8 objects.\n");
       i::PrintF(out, "KNOWN_OBJECTS = {\n");
       i::ReadOnlyHeapObjectIterator ro_iterator(read_only_heap);
       for (i::HeapObject object = ro_iterator.Next(); !object.is_null();
            object = ro_iterator.Next()) {
         // Skip read-only heap maps, they will be reported elsewhere.
         if (object.IsMap()) continue;
         DumpKnownObject(out, heap, i::BaseSpace::GetSpaceName(i::RO_SPACE),
                         object);
       }

       i::PagedSpaceIterator spit(heap);
       for (i::PagedSpace* s = spit.Next(); s != nullptr; s = spit.Next()) {
         i::PagedSpaceObjectIterator it(heap, s);
         // Code objects are generally platform-dependent.
         if (s->identity() == i::CODE_SPACE || s->identity() == i::MAP_SPACE)
           continue;
         const char* sname = s->name();
         for (i::HeapObject o = it.Next(); !o.is_null(); o = it.Next()) {
           DumpKnownObject(out, heap, sname, o);
         }
       }
       i::PrintF(out, "}\n");
     }

     if (COMPRESS_POINTERS_BOOL) {
       // Dump a list of addresses for the first page of each space that contains
       // objects in the other tables above. This is only useful if two
       // assumptions hold:
       // 1. Those pages are positioned deterministically within the heap
       //    reservation block during snapshot deserialization.
       // 2. Those pages cannot ever be moved (such as by compaction).
       i::PrintF(out,
                 "\n# Lower 32 bits of first page addresses for various heap "
                 "spaces.\n");
       i::PrintF(out, "HEAP_FIRST_PAGES = {\n");
       i::PagedSpaceIterator it(heap);
       for (i::PagedSpace* s = it.Next(); s != nullptr; s = it.Next()) {
         // Code page is different on Windows vs Linux (bug v8:9844), so skip it.
         if (s->identity() == i::CODE_SPACE) {
           continue;
         }
         DumpSpaceFirstPageAddress(out, s);
       }
       DumpSpaceFirstPageAddress(out, read_only_heap->read_only_space());
       i::PrintF(out, "}\n");
     }

     // Dump frame markers
     i::PrintF(out, "\n# List of known V8 Frame Markers.\n");
 #define DUMP_MARKER(T, class) i::PrintF(out, "  \"%s\",\n", #T);
     i::PrintF(out, "FRAME_MARKERS = (\n");
     STACK_FRAME_TYPE_LIST(DUMP_MARKER)
     i::PrintF(out, ")\n");
 #undef DUMP_MARKER
   }

   i::PrintF(out, "\n# This set of constants is generated from a %s build.\n",
             kBuild);

   // Teardown.
   isolate->Dispose();
   v8::V8::ShutdownPlatform();
   return 0;
 }

 }  // namespace v8

 int main(int argc, char* argv[]) {
   FILE* out = stdout;
   if (argc > 2 && strcmp(argv[1], "--outfile") == 0) {
     out = fopen(argv[2], "wb");
   }
   return v8::DumpHeapConstants(out, argv[0]);
 }
	// Copyright 2012 the V8 project authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include <stdio.h>

	#include "include/libplatform/libplatform.h"
	#include "include/v8.h"
	#include "src/execution/frames.h"
	#include "src/execution/isolate.h"
	#include "src/heap/heap-inl.h"
	#include "src/heap/paged-spaces-inl.h"
	#include "src/heap/read-only-heap.h"
	#include "src/heap/spaces.h"
	#include "src/objects/objects-inl.h"

	namespace v8 {

	static const char* kHeader =
	"# Copyright 2019 the V8 project authors. All rights reserved.\n"
	"# Use of this source code is governed by a BSD-style license that can\n"
	"# be found in the LICENSE file.\n"
	"\n"
	"# This file is automatically generated by mkgrokdump and should not\n"
	"# be modified manually.\n"
	"\n"
	"# List of known V8 instance types.\n";

	// Debug builds emit debug code, affecting code object sizes.
	#ifndef DEBUG
	static const char* kBuild = "shipping";
	#else
	static const char* kBuild = "non-shipping";
	#endif

	class MockArrayBufferAllocator : public v8::ArrayBuffer::Allocator {
	public:
	void* Allocate(size_t length) override { return nullptr; }
	void* AllocateUninitialized(size_t length) override { return nullptr; }
	void Free(void* p, size_t) override {}
	};

	static void DumpKnownMap(FILE* out, i::Heap* heap, const char* space_name,
	i::HeapObject object) {
	#define RO_ROOT_LIST_CASE(type, name, CamelName) \
	if (root_name == nullptr && object == roots.name()) root_name = #CamelName;
	#define MUTABLE_ROOT_LIST_CASE(type, name, CamelName) \
	if (root_name == nullptr && object == heap->name()) root_name = #CamelName;

	i::ReadOnlyRoots roots(heap);
	const char* root_name = nullptr;
	i::Map map = i::Map::cast(object);
	intptr_t root_ptr =
	static_cast<intptr_t>(map.ptr()) & (i::Page::kPageSize - 1);

	READ_ONLY_ROOT_LIST(RO_ROOT_LIST_CASE)
	MUTABLE_ROOT_LIST(MUTABLE_ROOT_LIST_CASE)

	if (root_name == nullptr) return;
	i::PrintF(out, " (\"%s\", 0x%05" V8PRIxPTR "): (%d, \"%s\"),\n", space_name,
	root_ptr, map.instance_type(), root_name);

	#undef MUTABLE_ROOT_LIST_CASE
	#undef RO_ROOT_LIST_CASE
	}

	static void DumpKnownObject(FILE* out, i::Heap* heap, const char* space_name,
	i::HeapObject object) {
	#define RO_ROOT_LIST_CASE(type, name, CamelName) \
	if (root_name == nullptr && object == roots.name()) { \
	root_name = #CamelName; \
	root_index = i::RootIndex::k##CamelName; \
	}
	#define ROOT_LIST_CASE(type, name, CamelName) \
	if (root_name == nullptr && object == heap->name()) { \
	root_name = #CamelName; \
	root_index = i::RootIndex::k##CamelName; \
	}

	i::ReadOnlyRoots roots(heap);
	const char* root_name = nullptr;
	i::RootIndex root_index = i::RootIndex::kFirstSmiRoot;
	intptr_t root_ptr = object.ptr() & (i::Page::kPageSize - 1);

	STRONG_READ_ONLY_ROOT_LIST(RO_ROOT_LIST_CASE)
	MUTABLE_ROOT_LIST(ROOT_LIST_CASE)

	if (root_name == nullptr) return;
	if (!i::RootsTable::IsImmortalImmovable(root_index)) return;

	i::PrintF(out, " (\"%s\", 0x%05" V8PRIxPTR "): \"%s\",\n", space_name,
	root_ptr, root_name);

	#undef ROOT_LIST_CASE
	#undef RO_ROOT_LIST_CASE
	}

	static void DumpSpaceFirstPageAddress(FILE* out, i::BaseSpace* space,
	i::Address first_page) {
	const char* name = space->name();
	i::Tagged_t compressed = i::CompressTagged(first_page);
	uintptr_t unsigned_compressed = static_cast<uint32_t>(compressed);
	i::PrintF(out, " 0x%08" V8PRIxPTR ": \"%s\",\n", unsigned_compressed, name);
	}

	template <typename SpaceT>
	static void DumpSpaceFirstPageAddress(FILE* out, SpaceT* space) {
	i::Address first_page = space->FirstPageAddress();
	DumpSpaceFirstPageAddress(out, space, first_page);
	}

	static int DumpHeapConstants(FILE* out, const char* argv0) {
	// Start up V8.
	std::unique_ptr<v8::Platform> platform = v8::platform::NewDefaultPlatform();
	v8::V8::InitializePlatform(platform.get());
	v8::V8::Initialize();
	v8::V8::InitializeExternalStartupData(argv0);
	Isolate::CreateParams create_params;
	MockArrayBufferAllocator mock_arraybuffer_allocator;
	create_params.array_buffer_allocator = &mock_arraybuffer_allocator;
	Isolate* isolate = Isolate::New(create_params);
	{
	Isolate::Scope scope(isolate);
	i::Heap* heap = reinterpret_cast<i::Isolate*>(isolate)->heap();
	i::ReadOnlyHeap* read_only_heap =
	reinterpret_cast<i::Isolate*>(isolate)->read_only_heap();
	i::PrintF(out, "%s", kHeader);
	#define DUMP_TYPE(T) i::PrintF(out, " %d: \"%s\",\n", i::T, #T);
	i::PrintF(out, "INSTANCE_TYPES = {\n");
	INSTANCE_TYPE_LIST(DUMP_TYPE)
	i::PrintF(out, "}\n");
	#undef DUMP_TYPE

	{
	// Dump the KNOWN_MAP table to the console.
	i::PrintF(out, "\n# List of known V8 maps.\n");
	i::PrintF(out, "KNOWN_MAPS = {\n");
	i::ReadOnlyHeapObjectIterator ro_iterator(read_only_heap);
	for (i::HeapObject object = ro_iterator.Next(); !object.is_null();
	object = ro_iterator.Next()) {
	if (!object.IsMap()) continue;
	DumpKnownMap(out, heap, i::BaseSpace::GetSpaceName(i::RO_SPACE),
	object);
	}
	i::PagedSpaceObjectIterator iterator(heap, heap->map_space());
	for (i::HeapObject object = iterator.Next(); !object.is_null();
	object = iterator.Next()) {
	if (!object.IsMap()) continue;
	DumpKnownMap(out, heap, i::BaseSpace::GetSpaceName(i::MAP_SPACE),
	object);
	}
	i::PrintF(out, "}\n");
	}

	{
	// Dump the KNOWN_OBJECTS table to the console.
	i::PrintF(out, "\n# List of known V8 objects.\n");
	i::PrintF(out, "KNOWN_OBJECTS = {\n");
	i::ReadOnlyHeapObjectIterator ro_iterator(read_only_heap);
	for (i::HeapObject object = ro_iterator.Next(); !object.is_null();
	object = ro_iterator.Next()) {
	// Skip read-only heap maps, they will be reported elsewhere.
	if (object.IsMap()) continue;
	DumpKnownObject(out, heap, i::BaseSpace::GetSpaceName(i::RO_SPACE),
	object);
	}

	i::PagedSpaceIterator spit(heap);
	for (i::PagedSpace* s = spit.Next(); s != nullptr; s = spit.Next()) {
	i::PagedSpaceObjectIterator it(heap, s);
	// Code objects are generally platform-dependent.
	if (s->identity() == i::CODE_SPACE \|\| s->identity() == i::MAP_SPACE)
	continue;
	const char* sname = s->name();
	for (i::HeapObject o = it.Next(); !o.is_null(); o = it.Next()) {
	DumpKnownObject(out, heap, sname, o);
	}
	}
	i::PrintF(out, "}\n");
	}

	if (COMPRESS_POINTERS_BOOL) {
	// Dump a list of addresses for the first page of each space that contains
	// objects in the other tables above. This is only useful if two
	// assumptions hold:
	// 1. Those pages are positioned deterministically within the heap
	// reservation block during snapshot deserialization.
	// 2. Those pages cannot ever be moved (such as by compaction).
	i::PrintF(out,
	"\n# Lower 32 bits of first page addresses for various heap "
	"spaces.\n");
	i::PrintF(out, "HEAP_FIRST_PAGES = {\n");
	i::PagedSpaceIterator it(heap);
	for (i::PagedSpace* s = it.Next(); s != nullptr; s = it.Next()) {
	// Code page is different on Windows vs Linux (bug v8:9844), so skip it.
	if (s->identity() == i::CODE_SPACE) {
	continue;
	}
	DumpSpaceFirstPageAddress(out, s);
	}
	DumpSpaceFirstPageAddress(out, read_only_heap->read_only_space());
	i::PrintF(out, "}\n");
	}

	// Dump frame markers
	i::PrintF(out, "\n# List of known V8 Frame Markers.\n");
	#define DUMP_MARKER(T, class) i::PrintF(out, " \"%s\",\n", #T);
	i::PrintF(out, "FRAME_MARKERS = (\n");
	STACK_FRAME_TYPE_LIST(DUMP_MARKER)
	i::PrintF(out, ")\n");
	#undef DUMP_MARKER
	}

	i::PrintF(out, "\n# This set of constants is generated from a %s build.\n",
	kBuild);

	// Teardown.
	isolate->Dispose();
	v8::V8::ShutdownPlatform();
	return 0;
	}

	} // namespace v8

	int main(int argc, char* argv[]) {
	FILE* out = stdout;
	if (argc > 2 && strcmp(argv[1], "--outfile") == 0) {
	out = fopen(argv[2], "wb");
	}
	return v8::DumpHeapConstants(out, argv[0]);
	}