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annotate osx/include/capnp/arena.h @ 139:413e081fcc6f

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Rebuild MAD with 64-bit FPM
author Chris Cannam <cannam@all-day-breakfast.com>
date Wed, 30 Nov 2016 20:59:17 +0000
parents 41e769c91eca
children
rev   line source
cannam@134 1 // Copyright (c) 2013-2014 Sandstorm Development Group, Inc. and contributors
cannam@134 2 // Licensed under the MIT License:
cannam@134 3 //
cannam@134 4 // Permission is hereby granted, free of charge, to any person obtaining a copy
cannam@134 5 // of this software and associated documentation files (the "Software"), to deal
cannam@134 6 // in the Software without restriction, including without limitation the rights
cannam@134 7 // to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
cannam@134 8 // copies of the Software, and to permit persons to whom the Software is
cannam@134 9 // furnished to do so, subject to the following conditions:
cannam@134 10 //
cannam@134 11 // The above copyright notice and this permission notice shall be included in
cannam@134 12 // all copies or substantial portions of the Software.
cannam@134 13 //
cannam@134 14 // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
cannam@134 15 // IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
cannam@134 16 // FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
cannam@134 17 // AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
cannam@134 18 // LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
cannam@134 19 // OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
cannam@134 20 // THE SOFTWARE.
cannam@134 21
cannam@134 22 #ifndef CAPNP_ARENA_H_
cannam@134 23 #define CAPNP_ARENA_H_
cannam@134 24
cannam@134 25 #if defined(__GNUC__) && !defined(CAPNP_HEADER_WARNINGS)
cannam@134 26 #pragma GCC system_header
cannam@134 27 #endif
cannam@134 28
cannam@134 29 #ifndef CAPNP_PRIVATE
cannam@134 30 #error "This header is only meant to be included by Cap'n Proto's own source code."
cannam@134 31 #endif
cannam@134 32
cannam@134 33 #include <kj/common.h>
cannam@134 34 #include <kj/mutex.h>
cannam@134 35 #include <kj/exception.h>
cannam@134 36 #include <kj/vector.h>
cannam@134 37 #include "common.h"
cannam@134 38 #include "message.h"
cannam@134 39 #include "layout.h"
cannam@134 40 #include <unordered_map>
cannam@134 41
cannam@134 42 #if !CAPNP_LITE
cannam@134 43 #include "capability.h"
cannam@134 44 #endif // !CAPNP_LITE
cannam@134 45
cannam@134 46 namespace capnp {
cannam@134 47
cannam@134 48 #if !CAPNP_LITE
cannam@134 49 class ClientHook;
cannam@134 50 #endif // !CAPNP_LITE
cannam@134 51
cannam@134 52 namespace _ { // private
cannam@134 53
cannam@134 54 class SegmentReader;
cannam@134 55 class SegmentBuilder;
cannam@134 56 class Arena;
cannam@134 57 class BuilderArena;
cannam@134 58 class ReadLimiter;
cannam@134 59
cannam@134 60 class Segment;
cannam@134 61 typedef kj::Id<uint32_t, Segment> SegmentId;
cannam@134 62
cannam@134 63 class ReadLimiter {
cannam@134 64 // Used to keep track of how much data has been processed from a message, and cut off further
cannam@134 65 // processing if and when a particular limit is reached. This is primarily intended to guard
cannam@134 66 // against maliciously-crafted messages which contain cycles or overlapping structures. Cycles
cannam@134 67 // and overlapping are not permitted by the Cap'n Proto format because in many cases they could
cannam@134 68 // be used to craft a deceptively small message which could consume excessive server resources to
cannam@134 69 // process, perhaps even sending it into an infinite loop. Actually detecting overlaps would be
cannam@134 70 // time-consuming, so instead we just keep track of how many words worth of data structures the
cannam@134 71 // receiver has actually dereferenced and error out if this gets too high.
cannam@134 72 //
cannam@134 73 // This counting takes place as you call getters (for non-primitive values) on the message
cannam@134 74 // readers. If you call the same getter twice, the data it returns may be double-counted. This
cannam@134 75 // should not be a big deal in most cases -- just set the read limit high enough that it will
cannam@134 76 // only trigger in unreasonable cases.
cannam@134 77 //
cannam@134 78 // This class is "safe" to use from multiple threads for its intended use case. Threads may
cannam@134 79 // overwrite each others' changes to the counter, but this is OK because it only means that the
cannam@134 80 // limit is enforced a bit less strictly -- it will still kick in eventually.
cannam@134 81
cannam@134 82 public:
cannam@134 83 inline explicit ReadLimiter(); // No limit.
cannam@134 84 inline explicit ReadLimiter(WordCount64 limit); // Limit to the given number of words.
cannam@134 85
cannam@134 86 inline void reset(WordCount64 limit);
cannam@134 87
cannam@134 88 KJ_ALWAYS_INLINE(bool canRead(WordCount amount, Arena* arena));
cannam@134 89
cannam@134 90 void unread(WordCount64 amount);
cannam@134 91 // Adds back some words to the limit. Useful when the caller knows they are double-reading
cannam@134 92 // some data.
cannam@134 93
cannam@134 94 private:
cannam@134 95 volatile uint64_t limit;
cannam@134 96 // Current limit, decremented each time catRead() is called. Volatile because multiple threads
cannam@134 97 // could be trying to modify it at once. (This is not real thread-safety, but good enough for
cannam@134 98 // the purpose of this class. See class comment.)
cannam@134 99
cannam@134 100 KJ_DISALLOW_COPY(ReadLimiter);
cannam@134 101 };
cannam@134 102
cannam@134 103 #if !CAPNP_LITE
cannam@134 104 class BrokenCapFactory {
cannam@134 105 // Callback for constructing broken caps. We use this so that we can avoid arena.c++ having a
cannam@134 106 // link-time dependency on capability code that lives in libcapnp-rpc.
cannam@134 107
cannam@134 108 public:
cannam@134 109 virtual kj::Own<ClientHook> newBrokenCap(kj::StringPtr description) = 0;
cannam@134 110 virtual kj::Own<ClientHook> newNullCap() = 0;
cannam@134 111 };
cannam@134 112 #endif // !CAPNP_LITE
cannam@134 113
cannam@134 114 class SegmentReader {
cannam@134 115 public:
cannam@134 116 inline SegmentReader(Arena* arena, SegmentId id, kj::ArrayPtr<const word> ptr,
cannam@134 117 ReadLimiter* readLimiter);
cannam@134 118
cannam@134 119 KJ_ALWAYS_INLINE(bool containsInterval(const void* from, const void* to));
cannam@134 120
cannam@134 121 KJ_ALWAYS_INLINE(bool amplifiedRead(WordCount virtualAmount));
cannam@134 122 // Indicates that the reader should pretend that `virtualAmount` additional data was read even
cannam@134 123 // though no actual pointer was traversed. This is used e.g. when reading a struct list pointer
cannam@134 124 // where the element sizes are zero -- the sender could set the list size arbitrarily high and
cannam@134 125 // cause the receiver to iterate over this list even though the message itself is small, so we
cannam@134 126 // need to defend against DoS attacks based on this.
cannam@134 127
cannam@134 128 inline Arena* getArena();
cannam@134 129 inline SegmentId getSegmentId();
cannam@134 130
cannam@134 131 inline const word* getStartPtr();
cannam@134 132 inline WordCount getOffsetTo(const word* ptr);
cannam@134 133 inline WordCount getSize();
cannam@134 134
cannam@134 135 inline kj::ArrayPtr<const word> getArray();
cannam@134 136
cannam@134 137 inline void unread(WordCount64 amount);
cannam@134 138 // Add back some words to the ReadLimiter.
cannam@134 139
cannam@134 140 private:
cannam@134 141 Arena* arena;
cannam@134 142 SegmentId id;
cannam@134 143 kj::ArrayPtr<const word> ptr;
cannam@134 144 ReadLimiter* readLimiter;
cannam@134 145
cannam@134 146 KJ_DISALLOW_COPY(SegmentReader);
cannam@134 147
cannam@134 148 friend class SegmentBuilder;
cannam@134 149 };
cannam@134 150
cannam@134 151 class SegmentBuilder: public SegmentReader {
cannam@134 152 public:
cannam@134 153 inline SegmentBuilder(BuilderArena* arena, SegmentId id, kj::ArrayPtr<word> ptr,
cannam@134 154 ReadLimiter* readLimiter, size_t wordsUsed = 0);
cannam@134 155 inline SegmentBuilder(BuilderArena* arena, SegmentId id, kj::ArrayPtr<const word> ptr,
cannam@134 156 ReadLimiter* readLimiter);
cannam@134 157 inline SegmentBuilder(BuilderArena* arena, SegmentId id, decltype(nullptr),
cannam@134 158 ReadLimiter* readLimiter);
cannam@134 159
cannam@134 160 KJ_ALWAYS_INLINE(word* allocate(WordCount amount));
cannam@134 161
cannam@134 162 KJ_ALWAYS_INLINE(void checkWritable());
cannam@134 163 // Throw an exception if the segment is read-only (meaning it is a reference to external data).
cannam@134 164
cannam@134 165 KJ_ALWAYS_INLINE(word* getPtrUnchecked(WordCount offset));
cannam@134 166 // Get a writable pointer into the segment. Throws an exception if the segment is read-only (i.e.
cannam@134 167 // a reference to external immutable data).
cannam@134 168
cannam@134 169 inline BuilderArena* getArena();
cannam@134 170
cannam@134 171 inline kj::ArrayPtr<const word> currentlyAllocated();
cannam@134 172
cannam@134 173 inline void reset();
cannam@134 174
cannam@134 175 inline bool isWritable() { return !readOnly; }
cannam@134 176
cannam@134 177 inline void tryTruncate(word* from, word* to);
cannam@134 178 // If `from` points just past the current end of the segment, then move the end back to `to`.
cannam@134 179 // Otherwise, do nothing.
cannam@134 180
cannam@134 181 inline bool tryExtend(word* from, word* to);
cannam@134 182 // If `from` points just past the current end of the segment, and `to` is within the segment
cannam@134 183 // boundaries, then move the end up to `to` and return true. Otherwise, do nothing and return
cannam@134 184 // false.
cannam@134 185
cannam@134 186 private:
cannam@134 187 word* pos;
cannam@134 188 // Pointer to a pointer to the current end point of the segment, i.e. the location where the
cannam@134 189 // next object should be allocated.
cannam@134 190
cannam@134 191 bool readOnly;
cannam@134 192
cannam@134 193 void throwNotWritable();
cannam@134 194
cannam@134 195 KJ_DISALLOW_COPY(SegmentBuilder);
cannam@134 196 };
cannam@134 197
cannam@134 198 class Arena {
cannam@134 199 public:
cannam@134 200 virtual ~Arena() noexcept(false);
cannam@134 201
cannam@134 202 virtual SegmentReader* tryGetSegment(SegmentId id) = 0;
cannam@134 203 // Gets the segment with the given ID, or return nullptr if no such segment exists.
cannam@134 204
cannam@134 205 virtual void reportReadLimitReached() = 0;
cannam@134 206 // Called to report that the read limit has been reached. See ReadLimiter, below. This invokes
cannam@134 207 // the VALIDATE_INPUT() macro which may throw an exception; if it returns normally, the caller
cannam@134 208 // will need to continue with default values.
cannam@134 209 };
cannam@134 210
cannam@134 211 class ReaderArena final: public Arena {
cannam@134 212 public:
cannam@134 213 ReaderArena(MessageReader* message);
cannam@134 214 ~ReaderArena() noexcept(false);
cannam@134 215 KJ_DISALLOW_COPY(ReaderArena);
cannam@134 216
cannam@134 217 // implements Arena ------------------------------------------------
cannam@134 218 SegmentReader* tryGetSegment(SegmentId id) override;
cannam@134 219 void reportReadLimitReached() override;
cannam@134 220
cannam@134 221 private:
cannam@134 222 MessageReader* message;
cannam@134 223 ReadLimiter readLimiter;
cannam@134 224
cannam@134 225 // Optimize for single-segment messages so that small messages are handled quickly.
cannam@134 226 SegmentReader segment0;
cannam@134 227
cannam@134 228 typedef std::unordered_map<uint, kj::Own<SegmentReader>> SegmentMap;
cannam@134 229 kj::MutexGuarded<kj::Maybe<kj::Own<SegmentMap>>> moreSegments;
cannam@134 230 // We need to mutex-guard the segment map because we lazily initialize segments when they are
cannam@134 231 // first requested, but a Reader is allowed to be used concurrently in multiple threads. Luckily
cannam@134 232 // this only applies to large messages.
cannam@134 233 //
cannam@134 234 // TODO(perf): Thread-local thing instead? Some kind of lockless map? Or do sharing of data
cannam@134 235 // in a different way, where you have to construct a new MessageReader in each thread (but
cannam@134 236 // possibly backed by the same data)?
cannam@134 237 };
cannam@134 238
cannam@134 239 class BuilderArena final: public Arena {
cannam@134 240 // A BuilderArena that does not allow the injection of capabilities.
cannam@134 241
cannam@134 242 public:
cannam@134 243 explicit BuilderArena(MessageBuilder* message);
cannam@134 244 BuilderArena(MessageBuilder* message, kj::ArrayPtr<MessageBuilder::SegmentInit> segments);
cannam@134 245 ~BuilderArena() noexcept(false);
cannam@134 246 KJ_DISALLOW_COPY(BuilderArena);
cannam@134 247
cannam@134 248 inline SegmentBuilder* getRootSegment() { return &segment0; }
cannam@134 249
cannam@134 250 kj::ArrayPtr<const kj::ArrayPtr<const word>> getSegmentsForOutput();
cannam@134 251 // Get an array of all the segments, suitable for writing out. This only returns the allocated
cannam@134 252 // portion of each segment, whereas tryGetSegment() returns something that includes
cannam@134 253 // not-yet-allocated space.
cannam@134 254
cannam@134 255 inline CapTableBuilder* getLocalCapTable() {
cannam@134 256 // Return a CapTableBuilder that merely implements local loopback. That is, you can set
cannam@134 257 // capabilities, then read the same capabilities back, but there is no intent ever to transmit
cannam@134 258 // these capabilities. A MessageBuilder that isn't imbued with some other CapTable uses this
cannam@134 259 // by default.
cannam@134 260 //
cannam@134 261 // TODO(cleanup): It's sort of a hack that this exists. In theory, perhaps, unimbued
cannam@134 262 // MessageBuilders should throw exceptions on any attempt to access capability fields, like
cannam@134 263 // unimbued MessageReaders do. However, lots of code exists which uses MallocMessageBuilder
cannam@134 264 // as a temporary holder for data to be copied in and out (without being serialized), and it
cannam@134 265 // is expected that such data can include capabilities, which is admittedly reasonable.
cannam@134 266 // Therefore, all MessageBuilders must have a cap table by default. Arguably we should
cannam@134 267 // deprecate this usage and instead define a new helper type for this exact purpose.
cannam@134 268
cannam@134 269 return &localCapTable;
cannam@134 270 }
cannam@134 271
cannam@134 272 SegmentBuilder* getSegment(SegmentId id);
cannam@134 273 // Get the segment with the given id. Crashes or throws an exception if no such segment exists.
cannam@134 274
cannam@134 275 struct AllocateResult {
cannam@134 276 SegmentBuilder* segment;
cannam@134 277 word* words;
cannam@134 278 };
cannam@134 279
cannam@134 280 AllocateResult allocate(WordCount amount);
cannam@134 281 // Find a segment with at least the given amount of space available and allocate the space.
cannam@134 282 // Note that allocating directly from a particular segment is much faster, but allocating from
cannam@134 283 // the arena is guaranteed to succeed. Therefore callers should try to allocate from a specific
cannam@134 284 // segment first if there is one, then fall back to the arena.
cannam@134 285
cannam@134 286 SegmentBuilder* addExternalSegment(kj::ArrayPtr<const word> content);
cannam@134 287 // Add a new segment to the arena which points to some existing memory region. The segment is
cannam@134 288 // assumed to be completley full; the arena will never allocate from it. In fact, the segment
cannam@134 289 // is considered read-only. Any attempt to get a Builder pointing into this segment will throw
cannam@134 290 // an exception. Readers are allowed, however.
cannam@134 291 //
cannam@134 292 // This can be used to inject some external data into a message without a copy, e.g. embedding a
cannam@134 293 // large mmap'd file into a message as `Data` without forcing that data to actually be read in
cannam@134 294 // from disk (until the message itself is written out). `Orphanage` provides the public API for
cannam@134 295 // this feature.
cannam@134 296
cannam@134 297 // implements Arena ------------------------------------------------
cannam@134 298 SegmentReader* tryGetSegment(SegmentId id) override;
cannam@134 299 void reportReadLimitReached() override;
cannam@134 300
cannam@134 301 private:
cannam@134 302 MessageBuilder* message;
cannam@134 303 ReadLimiter dummyLimiter;
cannam@134 304
cannam@134 305 class LocalCapTable: public CapTableBuilder {
cannam@134 306 #if !CAPNP_LITE
cannam@134 307 public:
cannam@134 308 kj::Maybe<kj::Own<ClientHook>> extractCap(uint index) override;
cannam@134 309 uint injectCap(kj::Own<ClientHook>&& cap) override;
cannam@134 310 void dropCap(uint index) override;
cannam@134 311
cannam@134 312 private:
cannam@134 313 kj::Vector<kj::Maybe<kj::Own<ClientHook>>> capTable;
cannam@134 314 #endif // ! CAPNP_LITE
cannam@134 315 };
cannam@134 316
cannam@134 317 LocalCapTable localCapTable;
cannam@134 318
cannam@134 319 SegmentBuilder segment0;
cannam@134 320 kj::ArrayPtr<const word> segment0ForOutput;
cannam@134 321
cannam@134 322 struct MultiSegmentState {
cannam@134 323 kj::Vector<kj::Own<SegmentBuilder>> builders;
cannam@134 324 kj::Vector<kj::ArrayPtr<const word>> forOutput;
cannam@134 325 };
cannam@134 326 kj::Maybe<kj::Own<MultiSegmentState>> moreSegments;
cannam@134 327
cannam@134 328 SegmentBuilder* segmentWithSpace = nullptr;
cannam@134 329 // When allocating, look for space in this segment first before resorting to allocating a new
cannam@134 330 // segment. This is not necessarily the last segment because addExternalSegment() may add a
cannam@134 331 // segment that is already-full, in which case we don't update this pointer.
cannam@134 332
cannam@134 333 template <typename T> // Can be `word` or `const word`.
cannam@134 334 SegmentBuilder* addSegmentInternal(kj::ArrayPtr<T> content);
cannam@134 335 };
cannam@134 336
cannam@134 337 // =======================================================================================
cannam@134 338
cannam@134 339 inline ReadLimiter::ReadLimiter()
cannam@134 340 : limit(kj::maxValue) {}
cannam@134 341
cannam@134 342 inline ReadLimiter::ReadLimiter(WordCount64 limit): limit(limit / WORDS) {}
cannam@134 343
cannam@134 344 inline void ReadLimiter::reset(WordCount64 limit) { this->limit = limit / WORDS; }
cannam@134 345
cannam@134 346 inline bool ReadLimiter::canRead(WordCount amount, Arena* arena) {
cannam@134 347 // Be careful not to store an underflowed value into `limit`, even if multiple threads are
cannam@134 348 // decrementing it.
cannam@134 349 uint64_t current = limit;
cannam@134 350 if (KJ_UNLIKELY(amount / WORDS > current)) {
cannam@134 351 arena->reportReadLimitReached();
cannam@134 352 return false;
cannam@134 353 } else {
cannam@134 354 limit = current - amount / WORDS;
cannam@134 355 return true;
cannam@134 356 }
cannam@134 357 }
cannam@134 358
cannam@134 359 // -------------------------------------------------------------------
cannam@134 360
cannam@134 361 inline SegmentReader::SegmentReader(Arena* arena, SegmentId id, kj::ArrayPtr<const word> ptr,
cannam@134 362 ReadLimiter* readLimiter)
cannam@134 363 : arena(arena), id(id), ptr(ptr), readLimiter(readLimiter) {}
cannam@134 364
cannam@134 365 inline bool SegmentReader::containsInterval(const void* from, const void* to) {
cannam@134 366 return from >= this->ptr.begin() && to <= this->ptr.end() && from <= to &&
cannam@134 367 readLimiter->canRead(
cannam@134 368 intervalLength(reinterpret_cast<const byte*>(from),
cannam@134 369 reinterpret_cast<const byte*>(to)) / BYTES_PER_WORD,
cannam@134 370 arena);
cannam@134 371 }
cannam@134 372
cannam@134 373 inline bool SegmentReader::amplifiedRead(WordCount virtualAmount) {
cannam@134 374 return readLimiter->canRead(virtualAmount, arena);
cannam@134 375 }
cannam@134 376
cannam@134 377 inline Arena* SegmentReader::getArena() { return arena; }
cannam@134 378 inline SegmentId SegmentReader::getSegmentId() { return id; }
cannam@134 379 inline const word* SegmentReader::getStartPtr() { return ptr.begin(); }
cannam@134 380 inline WordCount SegmentReader::getOffsetTo(const word* ptr) {
cannam@134 381 return intervalLength(this->ptr.begin(), ptr);
cannam@134 382 }
cannam@134 383 inline WordCount SegmentReader::getSize() { return ptr.size() * WORDS; }
cannam@134 384 inline kj::ArrayPtr<const word> SegmentReader::getArray() { return ptr; }
cannam@134 385 inline void SegmentReader::unread(WordCount64 amount) { readLimiter->unread(amount); }
cannam@134 386
cannam@134 387 // -------------------------------------------------------------------
cannam@134 388
cannam@134 389 inline SegmentBuilder::SegmentBuilder(
cannam@134 390 BuilderArena* arena, SegmentId id, kj::ArrayPtr<word> ptr, ReadLimiter* readLimiter,
cannam@134 391 size_t wordsUsed)
cannam@134 392 : SegmentReader(arena, id, ptr, readLimiter), pos(ptr.begin() + wordsUsed), readOnly(false) {}
cannam@134 393 inline SegmentBuilder::SegmentBuilder(
cannam@134 394 BuilderArena* arena, SegmentId id, kj::ArrayPtr<const word> ptr, ReadLimiter* readLimiter)
cannam@134 395 : SegmentReader(arena, id, ptr, readLimiter),
cannam@134 396 // const_cast is safe here because the member won't ever be dereferenced because it appears
cannam@134 397 // to point to the end of the segment anyway.
cannam@134 398 pos(const_cast<word*>(ptr.end())),
cannam@134 399 readOnly(true) {}
cannam@134 400 inline SegmentBuilder::SegmentBuilder(BuilderArena* arena, SegmentId id, decltype(nullptr),
cannam@134 401 ReadLimiter* readLimiter)
cannam@134 402 : SegmentReader(arena, id, nullptr, readLimiter), pos(nullptr), readOnly(false) {}
cannam@134 403
cannam@134 404 inline word* SegmentBuilder::allocate(WordCount amount) {
cannam@134 405 if (intervalLength(pos, ptr.end()) < amount) {
cannam@134 406 // Not enough space in the segment for this allocation.
cannam@134 407 return nullptr;
cannam@134 408 } else {
cannam@134 409 // Success.
cannam@134 410 word* result = pos;
cannam@134 411 pos = pos + amount;
cannam@134 412 return result;
cannam@134 413 }
cannam@134 414 }
cannam@134 415
cannam@134 416 inline void SegmentBuilder::checkWritable() {
cannam@134 417 if (KJ_UNLIKELY(readOnly)) throwNotWritable();
cannam@134 418 }
cannam@134 419
cannam@134 420 inline word* SegmentBuilder::getPtrUnchecked(WordCount offset) {
cannam@134 421 return const_cast<word*>(ptr.begin() + offset);
cannam@134 422 }
cannam@134 423
cannam@134 424 inline BuilderArena* SegmentBuilder::getArena() {
cannam@134 425 // Down-cast safe because SegmentBuilder's constructor always initializes its SegmentReader base
cannam@134 426 // class with an Arena pointer that actually points to a BuilderArena.
cannam@134 427 return static_cast<BuilderArena*>(arena);
cannam@134 428 }
cannam@134 429
cannam@134 430 inline kj::ArrayPtr<const word> SegmentBuilder::currentlyAllocated() {
cannam@134 431 return kj::arrayPtr(ptr.begin(), pos - ptr.begin());
cannam@134 432 }
cannam@134 433
cannam@134 434 inline void SegmentBuilder::reset() {
cannam@134 435 word* start = getPtrUnchecked(0 * WORDS);
cannam@134 436 memset(start, 0, (pos - start) * sizeof(word));
cannam@134 437 pos = start;
cannam@134 438 }
cannam@134 439
cannam@134 440 inline void SegmentBuilder::tryTruncate(word* from, word* to) {
cannam@134 441 if (pos == from) pos = to;
cannam@134 442 }
cannam@134 443
cannam@134 444 inline bool SegmentBuilder::tryExtend(word* from, word* to) {
cannam@134 445 // Careful about overflow.
cannam@134 446 if (pos == from && to <= ptr.end() && to >= from) {
cannam@134 447 pos = to;
cannam@134 448 return true;
cannam@134 449 } else {
cannam@134 450 return false;
cannam@134 451 }
cannam@134 452 }
cannam@134 453
cannam@134 454 } // namespace _ (private)
cannam@134 455 } // namespace capnp
cannam@134 456
cannam@134 457 #endif // CAPNP_ARENA_H_