mirror of
https://github.com/dart-lang/sdk
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6c8f4aa190
This is a reland of 5909fd111d
Does a large refactoring on the V8 snapshot profile writer
to clean things up, add more debugging support, and to fix
the problems that surfaced during the original landing.
Other changes:
Changes Serializer::CreateArtificialNodeIfNeeded() to create
artificial nodes for Code objects and immutable arrays.
Fixes CodeSerializationCluster::Trace() to only push needed parts of
discarded code objects, instead of tracing them like full code objects.
Adds test cases to v8_snapshot_profile_writer_test that exercise
the following situations (both separately and together):
* Non-symbolic stack traces are enabled and code and function objects
are dropped when not needed at runtime.
* Creation of the dispatch table is disabled.
TEST=vm/dart{,_2}/v8_snapshot_profile_writer_test
Original change's description:
> [vm] Fix V8 snapshot profile handling of the dispatch table.
>
> Fixes https://github.com/dart-lang/sdk/issues/45702.
>
> TEST=Tests listed in the issue above.
>
> Cq-Include-Trybots: luci.dart.try:vm-kernel-precomp-linux-debug-x64-try
> Change-Id: Ibf5e3ccf3828c01f9dda47de360314dabe8cb8a9
> Reviewed-on: https://dart-review.googlesource.com/c/sdk/+/195272
> Reviewed-by: Daco Harkes <dacoharkes@google.com>
> Commit-Queue: Tess Strickland <sstrickl@google.com>
Change-Id: I8e7030267fe190079a8f68d00fe20bf7170e5719
Cq-Include-Trybots: luci.dart.try:vm-kernel-precomp-linux-debug-x64-try,vm-kernel-precomp-linux-product-x64-try,vm-kernel-precomp-mac-release-simarm64-try,vm-kernel-precomp-linux-debug-x64c-try,vm-kernel-precomp-obfuscate-linux-release-x64-try
Reviewed-on: https://dart-review.googlesource.com/c/sdk/+/195513
Reviewed-by: Daco Harkes <dacoharkes@google.com>
Commit-Queue: Tess Strickland <sstrickl@google.com>
626 lines
23 KiB
C++
626 lines
23 KiB
C++
// Copyright (c) 2017, the Dart project authors. Please see the AUTHORS file
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// for details. All rights reserved. Use of this source code is governed by a
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// BSD-style license that can be found in the LICENSE file.
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#ifndef RUNTIME_VM_IMAGE_SNAPSHOT_H_
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#define RUNTIME_VM_IMAGE_SNAPSHOT_H_
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#include <memory>
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#include <utility>
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#include "platform/assert.h"
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#include "platform/utils.h"
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#include "vm/allocation.h"
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#include "vm/compiler/runtime_api.h"
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#include "vm/datastream.h"
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#include "vm/elf.h"
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#include "vm/globals.h"
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#include "vm/growable_array.h"
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#include "vm/hash_map.h"
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#include "vm/object.h"
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#include "vm/reusable_handles.h"
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#include "vm/type_testing_stubs.h"
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#include "vm/v8_snapshot_writer.h"
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namespace dart {
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// Forward declarations.
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class Code;
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class Dwarf;
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class Instructions;
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class Object;
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class Image : ValueObject {
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public:
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explicit Image(const void* raw_memory)
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: Image(reinterpret_cast<uword>(raw_memory)) {}
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explicit Image(const uword raw_memory)
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: raw_memory_(raw_memory),
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snapshot_size_(FieldValue(raw_memory, HeaderField::ImageSize)),
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extra_info_(ExtraInfo(raw_memory_, snapshot_size_)) {
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ASSERT(Utils::IsAligned(raw_memory, kMaxObjectAlignment));
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}
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// Even though an Image is read-only memory, we must return a void* here.
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// All objects in an Image are pre-marked, though, so the GC will not attempt
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// to change the returned memory.
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void* object_start() const {
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return reinterpret_cast<void*>(raw_memory_ + kHeaderSize);
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}
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uword object_size() const { return snapshot_size_ - kHeaderSize; }
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bool contains(uword address) const {
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uword start = reinterpret_cast<uword>(object_start());
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return address >= start && (address - start < object_size());
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}
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// Returns the address of the BSS section, or nullptr if one is not available.
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// Only has meaning for instructions images from precompiled snapshots.
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uword* bss() const;
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// Returns the relocated address of the isolate's instructions, or 0 if
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// one is not available. Only has meaning for instructions images from
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// precompiled snapshots.
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uword instructions_relocated_address() const;
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// Returns the GNU build ID, or nullptr if not available. See
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// build_id_length() for the length of the returned buffer. Only has meaning
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// for instructions images from precompiled snapshots.
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const uint8_t* build_id() const;
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// Returns the length of the GNU build ID returned by build_id(). Only has
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// meaning for instructions images from precompiled snapshots.
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intptr_t build_id_length() const;
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// Returns whether this instructions section was compiled to ELF. Only has
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// meaning for instructions images from precompiled snapshots.
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bool compiled_to_elf() const;
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private:
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// Word-sized fields in an Image object header.
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enum class HeaderField : intptr_t {
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// The size of the image (total of header and payload).
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ImageSize,
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// The offset of the InstructionsSection object in the image. Note this
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// offset is from the start of the _image_, _not_ from its payload start,
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// so we can detect images without an InstructionsSection by a 0 value here.
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InstructionsSectionOffset,
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// If adding more fields, updating kHeaderFields below. (However, more
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// fields _can't_ be added on 64-bit architectures, see the restrictions
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// on kHeaderSize below.)
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};
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// Number of fields described by the HeaderField enum.
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static constexpr intptr_t kHeaderFields =
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static_cast<intptr_t>(HeaderField::InstructionsSectionOffset) + 1;
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static uword FieldValue(uword raw_memory, HeaderField field) {
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return reinterpret_cast<const uword*>(
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raw_memory)[static_cast<intptr_t>(field)];
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}
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// Constants used to denote special values for the offsets in the Image
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// object header and the fields of the InstructionsSection object.
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static constexpr intptr_t kNoInstructionsSection = 0;
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static constexpr intptr_t kNoBssSection = 0;
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static constexpr intptr_t kNoRelocatedAddress = 0;
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static constexpr intptr_t kNoBuildId = 0;
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// The size of the Image object header.
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//
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// Note: Image::kHeaderSize is _not_ an architecture-dependent constant,
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// and so there is no compiler::target::Image::kHeaderSize.
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static constexpr intptr_t kHeaderSize = kMaxObjectAlignment;
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// Explicitly double-checking kHeaderSize is never changed. Increasing the
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// Image header size would mean objects would not start at a place expected
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// by parts of the VM (like the GC) that use Image pages as HeapPages.
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static_assert(kHeaderSize == kMaxObjectAlignment,
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"Image page cannot be used as HeapPage");
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// Make sure that the number of fields in the Image header fit both on the
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// host and target architectures.
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static_assert(kHeaderFields * kWordSize <= kHeaderSize,
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"Too many fields in Image header for host architecture");
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static_assert(kHeaderFields * compiler::target::kWordSize <= kHeaderSize,
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"Too many fields in Image header for target architecture");
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// We don't use a handle or the tagged pointer because this object cannot be
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// moved in memory by the GC.
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static const UntaggedInstructionsSection* ExtraInfo(const uword raw_memory,
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const uword size);
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// Most internal uses would cast this to uword, so just store it as such.
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const uword raw_memory_;
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const intptr_t snapshot_size_;
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const UntaggedInstructionsSection* const extra_info_;
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// For access to private constants.
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friend class AssemblyImageWriter;
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friend class BlobImageWriter;
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friend class ImageWriter;
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DISALLOW_COPY_AND_ASSIGN(Image);
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};
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class ImageReader : public ZoneAllocated {
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public:
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ImageReader(const uint8_t* data_image, const uint8_t* instructions_image);
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ApiErrorPtr VerifyAlignment() const;
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ONLY_IN_PRECOMPILED(uword GetBareInstructionsAt(uint32_t offset) const);
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ONLY_IN_PRECOMPILED(uword GetBareInstructionsEnd() const);
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InstructionsPtr GetInstructionsAt(uint32_t offset) const;
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ObjectPtr GetObjectAt(uint32_t offset) const;
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private:
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const uint8_t* data_image_;
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const uint8_t* instructions_image_;
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DISALLOW_COPY_AND_ASSIGN(ImageReader);
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};
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struct ObjectOffsetPair {
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public:
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ObjectOffsetPair() : ObjectOffsetPair(NULL, 0) {}
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ObjectOffsetPair(ObjectPtr obj, int32_t off) : object(obj), offset(off) {}
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ObjectPtr object;
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int32_t offset;
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};
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class ObjectOffsetTrait {
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public:
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// Typedefs needed for the DirectChainedHashMap template.
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typedef ObjectPtr Key;
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typedef int32_t Value;
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typedef ObjectOffsetPair Pair;
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static Key KeyOf(Pair kv) { return kv.object; }
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static Value ValueOf(Pair kv) { return kv.offset; }
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static uword Hash(Key key);
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static inline bool IsKeyEqual(Pair pair, Key key);
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};
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typedef DirectChainedHashMap<ObjectOffsetTrait> ObjectOffsetMap;
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// A command which instructs the image writer to emit something into the ".text"
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// segment.
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//
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// For now this supports
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//
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// * emitting the instructions of a [Code] object
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// * emitting a trampoline of a certain size
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//
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struct ImageWriterCommand {
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enum Opcode {
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InsertInstructionOfCode,
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InsertBytesOfTrampoline,
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};
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ImageWriterCommand(intptr_t expected_offset, CodePtr code)
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: expected_offset(expected_offset),
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op(ImageWriterCommand::InsertInstructionOfCode),
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insert_instruction_of_code({code}) {}
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ImageWriterCommand(intptr_t expected_offset,
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uint8_t* trampoline_bytes,
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intptr_t trampoine_length)
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: expected_offset(expected_offset),
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op(ImageWriterCommand::InsertBytesOfTrampoline),
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insert_trampoline_bytes({trampoline_bytes, trampoine_length}) {}
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// The offset (relative to the very first [ImageWriterCommand]) we expect
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// this [ImageWriterCommand] to have.
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intptr_t expected_offset;
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Opcode op;
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union {
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struct {
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CodePtr code;
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} insert_instruction_of_code;
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struct {
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uint8_t* buffer;
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intptr_t buffer_length;
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} insert_trampoline_bytes;
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};
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};
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class ImageWriter : public ValueObject {
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public:
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explicit ImageWriter(Thread* thread);
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virtual ~ImageWriter() {}
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// Alignment constants used in writing ELF or assembly snapshots.
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// BSS sections contain word-sized data.
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static constexpr intptr_t kBssAlignment = compiler::target::kWordSize;
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// ROData sections contain objects wrapped in an Image object.
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static constexpr intptr_t kRODataAlignment = kMaxObjectAlignment;
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// Text sections contain objects (even in bare instructions mode) wrapped
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// in an Image object, and for now we also align them to the same page
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// size assumed by Elf objects.
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static_assert(Elf::kPageSize >= kMaxObjectAlignment,
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"Page alignment must be consistent with max object alignment");
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static constexpr intptr_t kTextAlignment = Elf::kPageSize;
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void ResetOffsets() {
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next_data_offset_ = Image::kHeaderSize;
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next_text_offset_ = Image::kHeaderSize;
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#if defined(DART_PRECOMPILER)
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if (FLAG_precompiled_mode) {
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// We reserve space for the initial InstructionsSection object. It is
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// manually serialized since it includes offsets to other snapshot parts.
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// In bare instructions mode, it contains all the payloads and so we
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// start after the header, whereas in non-bare mode, it contains no
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// payload and Instructions start after it.
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next_text_offset_ +=
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FLAG_use_bare_instructions
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? compiler::target::InstructionsSection::HeaderSize()
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: compiler::target::InstructionsSection::InstanceSize(0);
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}
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#endif
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objects_.Clear();
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instructions_.Clear();
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}
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// Will start preparing the ".text" segment by interpreting the provided
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// [ImageWriterCommand]s.
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void PrepareForSerialization(GrowableArray<ImageWriterCommand>* commands);
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bool IsROSpace() const {
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return offset_space_ == IdSpace::kVmData ||
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offset_space_ == IdSpace::kVmText ||
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offset_space_ == IdSpace::kIsolateData ||
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offset_space_ == IdSpace::kIsolateText;
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}
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int32_t GetTextOffsetFor(InstructionsPtr instructions, CodePtr code);
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uint32_t GetDataOffsetFor(ObjectPtr raw_object);
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void Write(NonStreamingWriteStream* clustered_stream, bool vm);
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intptr_t data_size() const { return next_data_offset_; }
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intptr_t text_size() const { return next_text_offset_; }
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intptr_t GetTextObjectCount() const;
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void GetTrampolineInfo(intptr_t* count, intptr_t* size) const;
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void DumpStatistics();
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void SetProfileWriter(V8SnapshotProfileWriter* profile_writer) {
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profile_writer_ = profile_writer;
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}
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void ClearProfileWriter() { profile_writer_ = nullptr; }
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void TraceInstructions(const Instructions& instructions);
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static intptr_t SizeInSnapshot(ObjectPtr object);
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static intptr_t SizeInSnapshot(const Object& object) {
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return SizeInSnapshot(object.ptr());
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}
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// Returns nullptr if there is no profile writer.
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const char* ObjectTypeForProfile(const Object& object) const;
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static const char* TagObjectTypeAsReadOnly(Zone* zone, const char* type);
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enum class ProgramSection {
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Text, // Instructions.
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Data, // Read-only data.
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Bss, // Statically allocated variables initialized at load.
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BuildId, // GNU build ID (when applicable)
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};
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protected:
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virtual void WriteBss(bool vm) = 0;
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virtual void WriteROData(NonStreamingWriteStream* clustered_stream, bool vm);
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void WriteText(bool vm);
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// Returns the standard Dart dynamic symbol name for the given VM isolate (if
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// vm is true) or application isolate (otherwise) section. Some sections are
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// shared by both.
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const char* SectionSymbol(ProgramSection section, bool vm) const;
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static uword GetMarkedTags(classid_t cid,
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intptr_t size,
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bool is_canonical = false);
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static uword GetMarkedTags(const Object& obj);
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void DumpInstructionStats();
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void DumpInstructionsSizes();
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struct InstructionsData {
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InstructionsData(InstructionsPtr insns, CodePtr code, intptr_t text_offset)
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: raw_insns_(insns),
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raw_code_(code),
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text_offset_(text_offset),
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trampoline_bytes(nullptr),
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trampoline_length(0) {}
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InstructionsData(uint8_t* trampoline_bytes,
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intptr_t trampoline_length,
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intptr_t text_offset)
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: raw_insns_(nullptr),
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raw_code_(nullptr),
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text_offset_(text_offset),
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trampoline_bytes(trampoline_bytes),
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trampoline_length(trampoline_length) {}
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union {
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InstructionsPtr raw_insns_;
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const Instructions* insns_;
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};
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union {
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CodePtr raw_code_;
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const Code* code_;
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};
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intptr_t text_offset_;
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uint8_t* trampoline_bytes;
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intptr_t trampoline_length;
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};
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struct ObjectData {
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explicit ObjectData(ObjectPtr raw_obj) : raw_obj_(raw_obj) {}
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union {
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ObjectPtr raw_obj_;
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const Object* obj_;
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};
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};
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// Methods abstracting out the particulars of the underlying concrete writer.
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// Marks the entrance into a particular ProgramSection for either the VM
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// isolate (if vm is true) or application isolate (if not). Returns false if
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// this section should not be written.
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virtual bool EnterSection(ProgramSection name,
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bool vm,
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intptr_t alignment) = 0;
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// Marks the exit from a particular ProgramSection, allowing subclasses to
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// do any post-writing work.
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virtual void ExitSection(ProgramSection name, bool vm, intptr_t size) = 0;
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// Writes a prologue to the text section that describes how to interpret
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// Dart stack frames using DWARF's Call Frame Information (CFI).
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virtual void FrameUnwindPrologue() = 0;
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// Writes an epilogue to the text section that marks the end of instructions
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// covered by the CFI information in the prologue.
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virtual void FrameUnwindEpilogue() = 0;
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// Writes a target uword-sized value to the section contents.
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virtual intptr_t WriteTargetWord(word value) = 0;
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// Writes a sequence of bytes of length [size] from address [bytes] to the
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// section contents.
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virtual intptr_t WriteBytes(const void* bytes, intptr_t size) = 0;
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// Pads the section contents to a given alignment with zeroes.
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virtual intptr_t Align(intptr_t alignment, intptr_t offset) = 0;
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#if defined(DART_PRECOMPILER)
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// Writes a target word-sized value that depends on the final relocated
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// addresses of the sections named by the two symbols. If T is the final
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// relocated address of the target section and S is the final relocated
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// address of the source, the final value is:
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// (T + target_offset + target_addend) - (S + source_offset)
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virtual intptr_t Relocation(intptr_t section_offset,
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const char* source_symbol,
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intptr_t source_offset,
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const char* target_symbol,
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intptr_t target_offset,
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intptr_t target_addend) = 0;
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// Returns the final relocated address for the section represented by the
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// symbol. May not be supported by some writers.
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virtual uword RelocatedAddress(const char* symbol) = 0;
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// Creates a static symbol for the given Code object when appropriate.
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virtual void AddCodeSymbol(const Code& code,
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const char* symbol,
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intptr_t section_offset) = 0;
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// Overloaded convenience versions of the above virtual methods.
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// An overload of Relocation where the target and source offsets and
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// target addend are 0.
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intptr_t Relocation(intptr_t section_offset,
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const char* source_symbol,
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const char* target_symbol) {
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return Relocation(section_offset, source_symbol, 0, target_symbol, 0, 0);
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}
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#endif
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// Writes a fixed-sized value of type T to the section contents.
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template <typename T>
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intptr_t WriteFixed(T value) {
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return WriteBytes(&value, sizeof(value));
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}
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// Like Align, but instead of padding with zeroes, the appropriate break
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// instruction for the target architecture is used.
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intptr_t AlignWithBreakInstructions(intptr_t alignment, intptr_t offset);
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Heap* heap_; // Used for mapping InstructionsPtr to object ids.
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intptr_t next_data_offset_;
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intptr_t next_text_offset_;
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GrowableArray<ObjectData> objects_;
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GrowableArray<InstructionsData> instructions_;
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IdSpace offset_space_ = IdSpace::kSnapshot;
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V8SnapshotProfileWriter* profile_writer_ = nullptr;
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const char* const image_type_;
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const char* const instructions_section_type_;
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const char* const instructions_type_;
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const char* const trampoline_type_;
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// Used to make sure Code symbols are unique across text sections.
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intptr_t unique_symbol_counter_ = 0;
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template <class T>
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friend class TraceImageObjectScope;
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friend class SnapshotTextObjectNamer; // For InstructionsData.
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private:
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DISALLOW_COPY_AND_ASSIGN(ImageWriter);
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};
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|
|
|
#if defined(DART_PRECOMPILER)
|
|
#define AutoTraceImage(object, section_offset, stream) \
|
|
TraceImageObjectScope<std::remove_pointer<decltype(stream)>::type> \
|
|
AutoTraceImageObjectScopeVar##__COUNTER__(this, section_offset, stream, \
|
|
object);
|
|
|
|
template <typename T>
|
|
class TraceImageObjectScope : ValueObject {
|
|
public:
|
|
TraceImageObjectScope(ImageWriter* writer,
|
|
intptr_t section_offset,
|
|
const T* stream,
|
|
const Object& object)
|
|
: writer_(ASSERT_NOTNULL(writer)),
|
|
stream_(ASSERT_NOTNULL(stream)),
|
|
section_offset_(section_offset),
|
|
start_offset_(stream_->Position() - section_offset),
|
|
object_type_(writer->ObjectTypeForProfile(object)),
|
|
object_name_(object.IsString() ? object.ToCString() : nullptr) {}
|
|
|
|
~TraceImageObjectScope() {
|
|
if (writer_->profile_writer_ == nullptr) return;
|
|
ASSERT(writer_->IsROSpace());
|
|
writer_->profile_writer_->SetObjectTypeAndName(
|
|
{writer_->offset_space_, start_offset_}, object_type_, object_name_);
|
|
writer_->profile_writer_->AttributeBytesTo(
|
|
{writer_->offset_space_, start_offset_},
|
|
stream_->Position() - section_offset_ - start_offset_);
|
|
}
|
|
|
|
private:
|
|
ImageWriter* const writer_;
|
|
const T* const stream_;
|
|
const intptr_t section_offset_;
|
|
const intptr_t start_offset_;
|
|
const char* const object_type_;
|
|
const char* const object_name_;
|
|
|
|
DISALLOW_COPY_AND_ASSIGN(TraceImageObjectScope);
|
|
};
|
|
|
|
class SnapshotTextObjectNamer : ValueObject {
|
|
public:
|
|
explicit SnapshotTextObjectNamer(Zone* zone)
|
|
: zone_(ASSERT_NOTNULL(zone)),
|
|
owner_(Object::Handle(zone)),
|
|
string_(String::Handle(zone)),
|
|
insns_(Instructions::Handle(zone)),
|
|
store_(IsolateGroup::Current()->object_store()) {}
|
|
|
|
const char* StubNameForType(const AbstractType& type) const;
|
|
|
|
const char* SnapshotNameFor(intptr_t code_index, const Code& code);
|
|
const char* SnapshotNameFor(intptr_t index,
|
|
const ImageWriter::InstructionsData& data);
|
|
|
|
private:
|
|
Zone* const zone_;
|
|
Object& owner_;
|
|
String& string_;
|
|
Instructions& insns_;
|
|
ObjectStore* const store_;
|
|
TypeTestingStubNamer namer_;
|
|
|
|
DISALLOW_COPY_AND_ASSIGN(SnapshotTextObjectNamer);
|
|
};
|
|
|
|
class AssemblyImageWriter : public ImageWriter {
|
|
public:
|
|
AssemblyImageWriter(Thread* thread,
|
|
BaseWriteStream* stream,
|
|
bool strip = false,
|
|
Elf* debug_elf = nullptr);
|
|
void Finalize();
|
|
|
|
private:
|
|
virtual void WriteBss(bool vm);
|
|
virtual void WriteROData(NonStreamingWriteStream* clustered_stream, bool vm);
|
|
|
|
virtual bool EnterSection(ProgramSection section,
|
|
bool vm,
|
|
intptr_t alignment);
|
|
virtual void ExitSection(ProgramSection name, bool vm, intptr_t size);
|
|
virtual intptr_t WriteTargetWord(word value);
|
|
virtual intptr_t WriteBytes(const void* bytes, intptr_t size);
|
|
virtual intptr_t Align(intptr_t alignment, intptr_t offset = 0);
|
|
virtual intptr_t Relocation(intptr_t section_offset,
|
|
const char* source_symbol,
|
|
intptr_t source_offset,
|
|
const char* target_symbol,
|
|
intptr_t target_offset,
|
|
intptr_t target_addend);
|
|
// We can't generate the relocated address in assembly, so it'll be
|
|
// retrieved and stored in the BSS during BSS initialization instead.
|
|
virtual uword RelocatedAddress(const char* symbol) {
|
|
return Image::kNoRelocatedAddress;
|
|
}
|
|
virtual void FrameUnwindPrologue();
|
|
virtual void FrameUnwindEpilogue();
|
|
virtual void AddCodeSymbol(const Code& code,
|
|
const char* symbol,
|
|
intptr_t offset);
|
|
|
|
BaseWriteStream* const assembly_stream_;
|
|
Dwarf* const assembly_dwarf_;
|
|
Elf* const debug_elf_;
|
|
|
|
// Used in Relocation to output "(.)" for relocations involving the current
|
|
// section position and creating local symbols in AddCodeSymbol.
|
|
const char* current_section_symbol_ = nullptr;
|
|
|
|
DISALLOW_COPY_AND_ASSIGN(AssemblyImageWriter);
|
|
};
|
|
#endif
|
|
|
|
class BlobImageWriter : public ImageWriter {
|
|
public:
|
|
BlobImageWriter(Thread* thread,
|
|
NonStreamingWriteStream* vm_instructions,
|
|
NonStreamingWriteStream* isolate_instructions,
|
|
Elf* debug_elf = nullptr,
|
|
Elf* elf = nullptr);
|
|
|
|
private:
|
|
virtual void WriteBss(bool vm);
|
|
virtual void WriteROData(NonStreamingWriteStream* clustered_stream, bool vm);
|
|
|
|
virtual bool EnterSection(ProgramSection section,
|
|
bool vm,
|
|
intptr_t alignment);
|
|
virtual void ExitSection(ProgramSection name, bool vm, intptr_t size);
|
|
virtual intptr_t WriteTargetWord(word value);
|
|
virtual intptr_t WriteBytes(const void* bytes, intptr_t size);
|
|
virtual intptr_t Align(intptr_t alignment, intptr_t offset);
|
|
// TODO(rmacnak): Generate .debug_frame / .eh_frame / .arm.exidx to
|
|
// provide unwinding information.
|
|
virtual void FrameUnwindPrologue() {}
|
|
virtual void FrameUnwindEpilogue() {}
|
|
#if defined(DART_PRECOMPILER)
|
|
virtual intptr_t Relocation(intptr_t section_offset,
|
|
const char* source_symbol,
|
|
intptr_t source_offset,
|
|
const char* target_symbol,
|
|
intptr_t target_offset,
|
|
intptr_t target_addend);
|
|
virtual uword RelocatedAddress(const char* symbol);
|
|
virtual void AddCodeSymbol(const Code& code,
|
|
const char* symbol,
|
|
intptr_t offset);
|
|
#endif
|
|
|
|
NonStreamingWriteStream* const vm_instructions_;
|
|
NonStreamingWriteStream* const isolate_instructions_;
|
|
Elf* const elf_;
|
|
Elf* const debug_elf_;
|
|
|
|
// Used to detect relocations or relocated address requests involving the
|
|
// current section and creating local symbols in AddCodeSymbol.
|
|
const char* current_section_symbol_ = nullptr;
|
|
// Set on section entrance to the stream that should be used by the writing
|
|
// methods.
|
|
NonStreamingWriteStream* current_section_stream_ = nullptr;
|
|
|
|
DISALLOW_COPY_AND_ASSIGN(BlobImageWriter);
|
|
};
|
|
|
|
} // namespace dart
|
|
|
|
#endif // RUNTIME_VM_IMAGE_SNAPSHOT_H_
|