Commit 3d046986 authored by Mircea Trofin's avatar Mircea Trofin Committed by Commit Bot

Revert "Revert "[wasm] A simple allocator datastructure for off-the heap""

This reverts commit ee5c31f3.

Reason for revert: Fixed compiler failure

Original change's description:
> Revert "[wasm] A simple allocator datastructure for off-the heap"
> 
> This reverts commit 110d9ab0.
> 
> Reason for revert: https://build.chromium.org/p/client.v8/builders/V8%20Linux64%20-%20debug%20builder/builds/26607
> 
> Surprising we're seeing a failure on Linux 64 *after* CQ. Is the compiler there different?
> 
> Original change's description:
> > [wasm] A simple allocator datastructure for off-the heap
> > 
> > We'll use this allocator in a follow-up CL to:
> > - allocate speculative sizes of memory for a module that's being
> > compiled (e.g. 2*size of wasm code).
> > - each module will own such a sub-pool, and then use it to allocate
> > contiguous chunks of memory for code.
> > 
> > The underlying assumptions for the chosen allocation strategy is that:
> > - the allocation granularity for pools is 1 page, so that no one page
> > is owned by more than one wasm module
> > - typical pool sizes (given module sizes) are multiple pages.
> > - modules and module instances are typically few and long lived. Typically,
> > we expect one module and one instance. 
> > 
> > This means we shouldn't expect fragmentations that lead to code being
> > non-allocatable, or prohibitively many ranges.
> > 
> > The data structure just manages ranges of addresses. Virtual memory management
> > will be separate, as part of the responsibility of a "WasmHeap"
> > that will be introduced in the future. So will concurrency control.
> > 
> > Bug: 
> > Change-Id: Id99f46d10c25553b013054d994760f3c2a737c39
> > Reviewed-on: https://chromium-review.googlesource.com/669296
> > Commit-Queue: Mircea Trofin <mtrofin@chromium.org>
> > Reviewed-by: Eric Holk <eholk@chromium.org>
> > Reviewed-by: Brad Nelson <bradnelson@chromium.org>
> > Cr-Commit-Position: refs/heads/master@{#48053}
> 
> TBR=bradnelson@chromium.org,mtrofin@chromium.org,eholk@chromium.org
> 
> Change-Id: Id82fa341b77624e4971f24c4757a9a666a65930c
> No-Presubmit: true
> No-Tree-Checks: true
> No-Try: true
> Reviewed-on: https://chromium-review.googlesource.com/670141
> Reviewed-by: Mircea Trofin <mtrofin@chromium.org>
> Commit-Queue: Mircea Trofin <mtrofin@chromium.org>
> Cr-Commit-Position: refs/heads/master@{#48054}

TBR=bradnelson@chromium.org,mtrofin@chromium.org,eholk@chromium.org

Change-Id: Ib6a7a3e6098d2689e60cdca85ec77e57e5295e48
No-Presubmit: true
No-Tree-Checks: true
No-Try: true
Reviewed-on: https://chromium-review.googlesource.com/670142
Commit-Queue: Mircea Trofin <mtrofin@chromium.org>
Reviewed-by: 's avatarMircea Trofin <mtrofin@chromium.org>
Cr-Commit-Position: refs/heads/master@{#48055}
parent ee5c31f3
......@@ -2059,6 +2059,8 @@ v8_source_set("v8_base") {
"src/wasm/wasm-debug.cc",
"src/wasm/wasm-external-refs.cc",
"src/wasm/wasm-external-refs.h",
"src/wasm/wasm-heap.cc",
"src/wasm/wasm-heap.h",
"src/wasm/wasm-interpreter.cc",
"src/wasm/wasm-interpreter.h",
"src/wasm/wasm-js.cc",
......
......@@ -1447,6 +1447,8 @@
'wasm/wasm-debug.cc',
'wasm/wasm-external-refs.cc',
'wasm/wasm-external-refs.h',
'wasm/wasm-heap.cc',
'wasm/wasm-heap.h',
'wasm/wasm-js.cc',
'wasm/wasm-js.h',
'wasm/wasm-limits.h',
......
// Copyright 2017 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 "src/wasm/wasm-heap.h"
namespace v8 {
namespace internal {
namespace wasm {
DisjointAllocationPool::DisjointAllocationPool(Address start, Address end) {
ranges_.push_back({start, end});
}
void DisjointAllocationPool::Release(DisjointAllocationPool&& other) {
auto dest_it = ranges_.begin();
auto dest_end = ranges_.end();
for (auto src_it = other.ranges_.begin(), src_end = other.ranges_.end();
src_it != src_end;) {
if (dest_it == dest_end) {
// everything else coming from src will be inserted
// at the back of ranges_ from now on.
ranges_.push_back(*src_it);
++src_it;
continue;
}
// Before or adjacent to dest. Insert or merge, and advance
// just src.
if (dest_it->first >= src_it->second) {
if (dest_it->first == src_it->second) {
dest_it->first = src_it->first;
} else {
ranges_.insert(dest_it, {src_it->first, src_it->second});
}
++src_it;
continue;
}
// Src is strictly after dest. Skip over this dest.
if (dest_it->second < src_it->first) {
++dest_it;
continue;
}
// Src is adjacent from above. Merge and advance
// just src, because the next src, if any, is bound to be
// strictly above the newly-formed range.
DCHECK_EQ(dest_it->second, src_it->first);
dest_it->second = src_it->second;
++src_it;
// Now that we merged, maybe this new range is adjacent to
// the next. Since we assume src to have come from the
// same original memory pool, it follows that the next src
// must be above or adjacent to the new bubble.
auto next_dest = dest_it;
++next_dest;
if (next_dest != dest_end && dest_it->second == next_dest->first) {
dest_it->second = next_dest->second;
ranges_.erase(next_dest);
}
// src_it points now at the next, if any, src
DCHECK_IMPLIES(src_it != src_end, src_it->first >= dest_it->second);
}
}
DisjointAllocationPool DisjointAllocationPool::Extract(size_t size,
ExtractionMode mode) {
DisjointAllocationPool ret;
for (auto it = ranges_.begin(), end = ranges_.end(); it != end;) {
auto current = it;
++it;
DCHECK_LT(current->first, current->second);
size_t current_size = reinterpret_cast<size_t>(current->second) -
reinterpret_cast<size_t>(current->first);
if (size == current_size) {
ret.ranges_.push_back(*current);
ranges_.erase(current);
return ret;
}
if (size < current_size) {
ret.ranges_.push_back({current->first, current->first + size});
current->first += size;
DCHECK(current->first < current->second);
return ret;
}
if (mode != kContiguous) {
size -= current_size;
ret.ranges_.push_back(*current);
ranges_.erase(current);
}
}
if (size > 0) {
Release(std::move(ret));
return {};
}
return ret;
}
} // namespace wasm
} // namespace internal
} // namespace v8
// Copyright 2017 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.
#ifndef V8_WASM_HEAP_H_
#define V8_WASM_HEAP_H_
#include <list>
#include "src/base/macros.h"
#include "src/vector.h"
namespace v8 {
namespace internal {
namespace wasm {
// Sorted, disjoint and non-overlapping memory ranges. A range is of the
// form [start, end). So there's no [start, end), [end, other_end),
// because that should have been reduced to [start, other_end).
using AddressRange = std::pair<Address, Address>;
class V8_EXPORT_PRIVATE DisjointAllocationPool final {
public:
enum ExtractionMode : bool { kAny = false, kContiguous = true };
DisjointAllocationPool() {}
explicit DisjointAllocationPool(Address, Address);
DisjointAllocationPool(DisjointAllocationPool&& other) = default;
DisjointAllocationPool& operator=(DisjointAllocationPool&& other) = default;
// Merge the ranges of the parameter into this object. Ordering is
// preserved. The assumption is that the passed parameter is
// not intersecting this object - for example, it was obtained
// from a previous Allocate{Pool}.
void Release(DisjointAllocationPool&&);
// Allocate a contiguous range of size {size}. Return an empty pool on
// failure.
DisjointAllocationPool Allocate(size_t size) {
return Extract(size, kContiguous);
}
// Allocate a sub-pool of size {size}. Return an empty pool on failure.
DisjointAllocationPool AllocatePool(size_t size) {
return Extract(size, kAny);
}
bool IsEmpty() const { return ranges_.empty(); }
const std::list<AddressRange>& ranges() const { return ranges_; }
private:
// Extract out a total of {size}. By default, the return may
// be more than one range. If kContiguous is passed, the return
// will be one range. If the operation fails, this object is
// unchanged, and the return {IsEmpty()}
DisjointAllocationPool Extract(size_t size, ExtractionMode mode);
std::list<AddressRange> ranges_;
DISALLOW_COPY_AND_ASSIGN(DisjointAllocationPool)
};
} // namespace wasm
} // namespace internal
} // namespace v8
#endif
......@@ -157,6 +157,7 @@ v8_executable("unittests") {
"wasm/loop-assignment-analysis-unittest.cc",
"wasm/module-decoder-unittest.cc",
"wasm/streaming-decoder-unittest.cc",
"wasm/wasm-heap-unittest.cc",
"wasm/wasm-macro-gen-unittest.cc",
"wasm/wasm-module-builder-unittest.cc",
"wasm/wasm-opcodes-unittest.cc",
......
......@@ -154,6 +154,7 @@
'wasm/control-transfer-unittest.cc',
'wasm/decoder-unittest.cc',
'wasm/function-body-decoder-unittest.cc',
'wasm/wasm-heap-unittest.cc',
'wasm/leb-helper-unittest.cc',
'wasm/loop-assignment-analysis-unittest.cc',
'wasm/module-decoder-unittest.cc',
......
// Copyright 2017 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 "test/unittests/test-utils.h"
#include "testing/gmock/include/gmock/gmock.h"
#include "src/wasm/wasm-heap.h"
namespace v8 {
namespace internal {
namespace wasm {
class DisjointAllocationPoolTest : public testing::Test {
public:
Address A(size_t n) { return reinterpret_cast<Address>(n); }
void CheckLooksLike(const DisjointAllocationPool& mem,
std::vector<std::pair<size_t, size_t>> expectation);
DisjointAllocationPool Make(std::vector<std::pair<size_t, size_t>> model);
};
void DisjointAllocationPoolTest::CheckLooksLike(
const DisjointAllocationPool& mem,
std::vector<std::pair<size_t, size_t>> expectation) {
const auto& ranges = mem.ranges();
CHECK_EQ(ranges.size(), expectation.size());
auto iter = expectation.begin();
for (auto it = ranges.begin(), e = ranges.end(); it != e; ++it, ++iter) {
CHECK_EQ(it->first, A(iter->first));
CHECK_EQ(it->second, A(iter->second));
}
}
DisjointAllocationPool DisjointAllocationPoolTest::Make(
std::vector<std::pair<size_t, size_t>> model) {
DisjointAllocationPool ret;
for (auto& pair : model) {
ret.Release(DisjointAllocationPool(A(pair.first), A(pair.second)));
}
return ret;
}
TEST_F(DisjointAllocationPoolTest, Construct) {
DisjointAllocationPool a;
CHECK(a.IsEmpty());
CHECK_EQ(a.ranges().size(), 0);
DisjointAllocationPool b = Make({{1, 5}});
CHECK(!b.IsEmpty());
CHECK_EQ(b.ranges().size(), 1);
a.Release(std::move(b));
CheckLooksLike(a, {{1, 5}});
DisjointAllocationPool c;
a.Release(std::move(c));
CheckLooksLike(a, {{1, 5}});
DisjointAllocationPool e, f;
e.Release(std::move(f));
CHECK(e.IsEmpty());
}
TEST_F(DisjointAllocationPoolTest, SimpleExtract) {
DisjointAllocationPool a = Make({{1, 5}});
DisjointAllocationPool b = a.AllocatePool(2);
CheckLooksLike(a, {{3, 5}});
CheckLooksLike(b, {{1, 3}});
a.Release(std::move(b));
CheckLooksLike(a, {{1, 5}});
CHECK_EQ(a.ranges().size(), 1);
CHECK_EQ(a.ranges().front().first, A(1));
CHECK_EQ(a.ranges().front().second, A(5));
}
TEST_F(DisjointAllocationPoolTest, ExtractAll) {
DisjointAllocationPool a(A(1), A(5));
DisjointAllocationPool b = a.AllocatePool(4);
CheckLooksLike(b, {{1, 5}});
CHECK(a.IsEmpty());
a.Release(std::move(b));
CheckLooksLike(a, {{1, 5}});
}
TEST_F(DisjointAllocationPoolTest, ExtractAccross) {
DisjointAllocationPool a = Make({{1, 5}, {10, 20}});
DisjointAllocationPool b = a.AllocatePool(5);
CheckLooksLike(a, {{11, 20}});
CheckLooksLike(b, {{1, 5}, {10, 11}});
a.Release(std::move(b));
CheckLooksLike(a, {{1, 5}, {10, 20}});
}
TEST_F(DisjointAllocationPoolTest, ReassembleOutOfOrder) {
DisjointAllocationPool a = Make({{1, 5}, {10, 15}});
DisjointAllocationPool b = Make({{7, 8}, {20, 22}});
a.Release(std::move(b));
CheckLooksLike(a, {{1, 5}, {7, 8}, {10, 15}, {20, 22}});
DisjointAllocationPool c = Make({{1, 5}, {10, 15}});
DisjointAllocationPool d = Make({{7, 8}, {20, 22}});
d.Release(std::move(c));
CheckLooksLike(d, {{1, 5}, {7, 8}, {10, 15}, {20, 22}});
}
TEST_F(DisjointAllocationPoolTest, FailToExtract) {
DisjointAllocationPool a = Make({{1, 5}});
DisjointAllocationPool b = a.AllocatePool(5);
CheckLooksLike(a, {{1, 5}});
CHECK(b.IsEmpty());
}
TEST_F(DisjointAllocationPoolTest, FailToExtractExact) {
DisjointAllocationPool a = Make({{1, 5}, {10, 14}});
DisjointAllocationPool b = a.Allocate(5);
CheckLooksLike(a, {{1, 5}, {10, 14}});
CHECK(b.IsEmpty());
}
TEST_F(DisjointAllocationPoolTest, ExtractExact) {
DisjointAllocationPool a = Make({{1, 5}, {10, 15}});
DisjointAllocationPool b = a.Allocate(5);
CheckLooksLike(a, {{1, 5}});
CheckLooksLike(b, {{10, 15}});
}
TEST_F(DisjointAllocationPoolTest, Merging) {
DisjointAllocationPool a = Make({{10, 15}, {20, 25}});
a.Release(Make({{15, 20}}));
CheckLooksLike(a, {{10, 25}});
}
TEST_F(DisjointAllocationPoolTest, MergingMore) {
DisjointAllocationPool a = Make({{10, 15}, {20, 25}, {30, 35}});
a.Release(Make({{15, 20}, {25, 30}}));
CheckLooksLike(a, {{10, 35}});
}
TEST_F(DisjointAllocationPoolTest, MergingSkip) {
DisjointAllocationPool a = Make({{10, 15}, {20, 25}, {30, 35}});
a.Release(Make({{25, 30}}));
CheckLooksLike(a, {{10, 15}, {20, 35}});
}
TEST_F(DisjointAllocationPoolTest, MergingSkipLargerSrc) {
DisjointAllocationPool a = Make({{10, 15}, {20, 25}, {30, 35}});
a.Release(Make({{25, 30}, {35, 40}}));
CheckLooksLike(a, {{10, 15}, {20, 40}});
}
TEST_F(DisjointAllocationPoolTest, MergingSkipLargerSrcWithGap) {
DisjointAllocationPool a = Make({{10, 15}, {20, 25}, {30, 35}});
a.Release(Make({{25, 30}, {36, 40}}));
CheckLooksLike(a, {{10, 15}, {20, 35}, {36, 40}});
}
} // namespace wasm
} // namespace internal
} // namespace v8
Markdown is supported
0% or
You are about to add 0 people to the discussion. Proceed with caution.
Finish editing this message first!
Please register or to comment