Chromium Code Reviews Chromium Code Reviews
Issue 2377943003:
Fixed zapping of contents (Closed)
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| 1 // Copyright 2012 the V8 project authors. All rights reserved. | 1 // Copyright 2012 the V8 project authors. All rights reserved. |
| 2 // Use of this source code is governed by a BSD-style license that can be | 2 // Use of this source code is governed by a BSD-style license that can be |
| 3 // found in the LICENSE file. | 3 // found in the LICENSE file. |
| 4 | 4 |
| 5 #include "src/zone/zone.h" | 5 #include "src/zone/zone.h" |
| 6 | 6 |
| 7 #include <cstring> | 7 #include <cstring> |
| 8 | 8 |
| 9 #include "src/v8.h" | 9 #include "src/v8.h" |
| 10 | 10 |
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| 85 DCHECK(redzone_position + kASanRedzoneBytes == position_); | 85 DCHECK(redzone_position + kASanRedzoneBytes == position_); |
| 86 ASAN_POISON_MEMORY_REGION(redzone_position, kASanRedzoneBytes); | 86 ASAN_POISON_MEMORY_REGION(redzone_position, kASanRedzoneBytes); |
| 87 | 87 |
| 88 // Check that the result has the proper alignment and return it. | 88 // Check that the result has the proper alignment and return it. |
| 89 DCHECK(IsAddressAligned(result, kAlignment, 0)); | 89 DCHECK(IsAddressAligned(result, kAlignment, 0)); |
| 90 allocation_size_ += size; | 90 allocation_size_ += size; |
| 91 return reinterpret_cast<void*>(result); | 91 return reinterpret_cast<void*>(result); |
| 92 } | 92 } |
| 93 | 93 |
| 94 void Zone::DeleteAll() { | 94 void Zone::DeleteAll() { |
| 95 #ifdef DEBUG | |
| 96 // Constant byte value used for zapping dead memory in debug mode. | |
| 97 static const unsigned char kZapDeadByte = 0xcd; | |
| 98 #endif | |
| 99 | |
| 100 // Find a segment with a suitable size to keep around. | 95 // Find a segment with a suitable size to keep around. |
| 101 Segment* keep = nullptr; | 96 Segment* keep = nullptr; |
| 102 // Traverse the chained list of segments, zapping (in debug mode) | 97 // Traverse the chained list of segments, zapping (in debug mode) |
| 103 // and freeing every segment except the one we wish to keep. | 98 // and freeing every segment except the one we wish to keep. |
| 104 for (Segment* current = segment_head_; current;) { | 99 for (Segment* current = segment_head_; current;) { |
| 105 Segment* next = current->next(); | 100 Segment* next = current->next(); |
| 106 if (!keep && current->size() <= kMaximumKeptSegmentSize) { | 101 if (!keep && current->size() <= kMaximumKeptSegmentSize) { |
| 107 // Unlink the segment we wish to keep from the list. | 102 // Unlink the segment we wish to keep from the list. |
| 108 keep = current; | 103 keep = current; |
| 109 keep->set_next(nullptr); | 104 keep->set_next(nullptr); |
| 110 } else { | 105 } else { |
| 111 size_t size = current->size(); | 106 size_t size = current->size(); |
| 112 #ifdef DEBUG | 107 #ifdef DEBUG |
| 113 // Un-poison first so the zapping doesn't trigger ASan complaints. | 108 // Un-poison first so the zapping doesn't trigger ASan complaints. |
| 114 ASAN_UNPOISON_MEMORY_REGION(current, size); | 109 ASAN_UNPOISON_MEMORY_REGION(current, size); |
| 115 // Zap the entire current segment (including the header). | |
| 116 memset(current, kZapDeadByte, size); | |
| 117 #endif | 110 #endif |
| 111 current->ZapContents(); | |
| 118 segment_bytes_allocated_ -= size; | 112 segment_bytes_allocated_ -= size; |
| 119 allocator_->FreeSegment(current); | 113 allocator_->FreeSegment(current); |
| 120 } | 114 } |
| 121 current = next; | 115 current = next; |
| 122 } | 116 } |
| 123 | 117 |
| 124 // If we have found a segment we want to keep, we must recompute the | 118 // If we have found a segment we want to keep, we must recompute the |
| 125 // variables 'position' and 'limit' to prepare for future allocate | 119 // variables 'position' and 'limit' to prepare for future allocate |
| 126 // attempts. Otherwise, we must clear the position and limit to | 120 // attempts. Otherwise, we must clear the position and limit to |
| 127 // force a new segment to be allocated on demand. | 121 // force a new segment to be allocated on demand. |
| 128 if (keep) { | 122 if (keep) { |
| 129 Address start = keep->start(); | 123 Address start = keep->start(); |
| 130 position_ = RoundUp(start, kAlignment); | 124 position_ = RoundUp(start, kAlignment); |
| 131 limit_ = keep->end(); | 125 limit_ = keep->end(); |
| 132 // Un-poison so we can re-use the segment later. | 126 // Un-poison so we can re-use the segment later. |
| 133 ASAN_UNPOISON_MEMORY_REGION(start, keep->capacity()); | 127 ASAN_UNPOISON_MEMORY_REGION(start, keep->capacity()); |
|
Michael Lippautz
2016/09/29 09:44:47
All other unpoison operations are within #ifdef DE
| |
| 134 #ifdef DEBUG | 128 keep->ZapContents(); |
| 135 // Zap the contents of the kept segment (but not the header). | |
| 136 memset(start, kZapDeadByte, keep->capacity()); | |
| 137 #endif | |
| 138 } else { | 129 } else { |
| 139 position_ = limit_ = 0; | 130 position_ = limit_ = 0; |
| 140 } | 131 } |
| 141 | 132 |
| 142 allocation_size_ = 0; | 133 allocation_size_ = 0; |
| 143 // Update the head segment to be the kept segment (if any). | 134 // Update the head segment to be the kept segment (if any). |
| 144 segment_head_ = keep; | 135 segment_head_ = keep; |
| 145 } | 136 } |
| 146 | 137 |
| 147 void Zone::DeleteKeptSegment() { | 138 void Zone::DeleteKeptSegment() { |
| 148 #ifdef DEBUG | |
| 149 // Constant byte value used for zapping dead memory in debug mode. | |
| 150 static const unsigned char kZapDeadByte = 0xcd; | |
| 151 #endif | |
| 152 | |
| 153 DCHECK(segment_head_ == nullptr || segment_head_->next() == nullptr); | 139 DCHECK(segment_head_ == nullptr || segment_head_->next() == nullptr); |
| 154 if (segment_head_ != nullptr) { | 140 if (segment_head_ != nullptr) { |
| 155 size_t size = segment_head_->size(); | 141 size_t size = segment_head_->size(); |
| 156 #ifdef DEBUG | 142 #ifdef DEBUG |
| 157 // Un-poison first so the zapping doesn't trigger ASan complaints. | 143 // Un-poison first so the zapping doesn't trigger ASan complaints. |
| 158 ASAN_UNPOISON_MEMORY_REGION(segment_head_, size); | 144 ASAN_UNPOISON_MEMORY_REGION(segment_head_, size); |
| 159 // Zap the entire kept segment (including the header). | |
| 160 memset(segment_head_, kZapDeadByte, size); | |
| 161 #endif | 145 #endif |
| 146 segment_head_->ZapContents(); | |
| 162 segment_bytes_allocated_ -= size; | 147 segment_bytes_allocated_ -= size; |
| 163 allocator_->FreeSegment(segment_head_); | 148 allocator_->FreeSegment(segment_head_); |
| 164 segment_head_ = nullptr; | 149 segment_head_ = nullptr; |
| 165 } | 150 } |
| 166 | 151 |
| 167 DCHECK(segment_bytes_allocated_ == 0); | 152 DCHECK(segment_bytes_allocated_ == 0); |
| 168 } | 153 } |
| 169 | 154 |
| 170 // Creates a new segment, sets it size, and pushes it to the front | 155 // Creates a new segment, sets it size, and pushes it to the front |
| 171 // of the segment chain. Returns the new segment. | 156 // of the segment chain. Returns the new segment. |
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| 230 // size bytes + header and alignment padding) | 215 // size bytes + header and alignment padding) |
| 231 DCHECK(reinterpret_cast<uintptr_t>(position_) >= | 216 DCHECK(reinterpret_cast<uintptr_t>(position_) >= |
| 232 reinterpret_cast<uintptr_t>(result)); | 217 reinterpret_cast<uintptr_t>(result)); |
| 233 limit_ = segment->end(); | 218 limit_ = segment->end(); |
| 234 DCHECK(position_ <= limit_); | 219 DCHECK(position_ <= limit_); |
| 235 return result; | 220 return result; |
| 236 } | 221 } |
| 237 | 222 |
| 238 } // namespace internal | 223 } // namespace internal |
| 239 } // namespace v8 | 224 } // namespace v8 |
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