verdnatura-chat/ios/Pods/Flipper-Folly/folly/system/MemoryMapping.h

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/*
* Copyright (c) Facebook, Inc. and its affiliates.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#pragma once
#include <cassert>
#include <folly/File.h>
#include <folly/Range.h>
namespace folly {
/**
* Maps files in memory (read-only).
*
* @author Tudor Bosman (tudorb@fb.com)
*/
class MemoryMapping {
public:
/**
* Lock the pages in memory?
* TRY_LOCK = try to lock, log warning if permission denied
* MUST_LOCK = lock, fail assertion if permission denied.
*/
enum class LockMode {
TRY_LOCK,
MUST_LOCK,
};
struct LockFlags {
LockFlags() {}
bool operator==(const LockFlags& other) const;
/**
* Instead of locking all the pages in the mapping before the call returns,
* only lock those that are currently resident and mark the others to be
* locked at the time they're populated by their first page fault.
*
* Uses mlock2(flags=MLOCK_ONFAULT). Requires Linux >= 4.4.
*/
bool lockOnFault = false;
};
/**
* Map a portion of the file indicated by filename in memory, causing SIGABRT
* on error.
*
* By default, map the whole file. length=-1: map from offset to EOF.
* Unlike the mmap() system call, offset and length don't need to be
* page-aligned. length is clipped to the end of the file if it's too large.
*
* The mapping will be destroyed (and the memory pointed-to by data() will
* likely become inaccessible) when the MemoryMapping object is destroyed.
*/
struct Options {
Options() {}
// Convenience methods; return *this for chaining.
Options& setPageSize(off_t v) {
pageSize = v;
return *this;
}
Options& setShared(bool v) {
shared = v;
return *this;
}
Options& setPrefault(bool v) {
prefault = v;
return *this;
}
Options& setReadable(bool v) {
readable = v;
return *this;
}
Options& setWritable(bool v) {
writable = v;
return *this;
}
Options& setGrow(bool v) {
grow = v;
return *this;
}
// Page size. 0 = use appropriate page size.
// (On Linux, we use a huge page size if the file is on a hugetlbfs
// file system, and the default page size otherwise)
off_t pageSize = 0;
// If shared (default), the memory mapping is shared with other processes
// mapping the same file (or children); if not shared (private), each
// process has its own mapping. Changes in writable, private mappings are
// not reflected to the underlying file. See the discussion of
// MAP_PRIVATE vs MAP_SHARED in the mmap(2) manual page.
bool shared = true;
// Populate page tables; subsequent accesses should not be blocked
// by page faults. This is a hint, as it may not be supported.
bool prefault = false;
// Map the pages readable. Note that mapping pages without read permissions
// is not universally supported (not supported on hugetlbfs on Linux, for
// example)
bool readable = true;
// Map the pages writable.
bool writable = false;
// When mapping a file in writable mode, grow the file to the requested
// length (using ftruncate()) before mapping; if false, truncate the
// mapping to the actual file size instead.
bool grow = false;
// Fix map at this address, if not nullptr. Must be aligned to a multiple
// of the appropriate page size.
void* address = nullptr;
};
// Options to emulate the old WritableMemoryMapping: readable and writable,
// allow growing the file if mapping past EOF.
static Options writable() {
return Options().setWritable(true).setGrow(true);
}
enum AnonymousType {
kAnonymous,
};
/**
* Create an anonymous mapping.
*/
MemoryMapping(AnonymousType, off_t length, Options options = Options());
explicit MemoryMapping(
File file,
off_t offset = 0,
off_t length = -1,
Options options = Options());
explicit MemoryMapping(
const char* name,
off_t offset = 0,
off_t length = -1,
Options options = Options());
explicit MemoryMapping(
int fd,
off_t offset = 0,
off_t length = -1,
Options options = Options());
MemoryMapping(const MemoryMapping&) = delete;
MemoryMapping(MemoryMapping&&) noexcept;
~MemoryMapping();
MemoryMapping& operator=(const MemoryMapping&) = delete;
MemoryMapping& operator=(MemoryMapping&&);
void swap(MemoryMapping& other) noexcept;
/**
* Lock the pages in memory
*/
bool mlock(LockMode mode, LockFlags flags = {});
/**
* Unlock the pages.
* If dontneed is true, the kernel is instructed to release these pages
* (per madvise(MADV_DONTNEED)).
*/
void munlock(bool dontneed = false);
/**
* Hint that these pages will be scanned linearly.
* madvise(MADV_SEQUENTIAL)
*/
void hintLinearScan();
/**
* Advise the kernel about memory access.
*/
void advise(int advice) const;
void advise(int advice, size_t offset, size_t length) const;
/**
* A bitwise cast of the mapped bytes as range of values. Only intended for
* use with POD or in-place usable types.
*/
template <class T>
Range<const T*> asRange() const {
size_t count = data_.size() / sizeof(T);
return Range<const T*>(
static_cast<const T*>(static_cast<const void*>(data_.data())), count);
}
/**
* A range of bytes mapped by this mapping.
*/
ByteRange range() const {
return data_;
}
/**
* A bitwise cast of the mapped bytes as range of mutable values. Only
* intended for use with POD or in-place usable types.
*/
template <class T>
Range<T*> asWritableRange() const {
assert(options_.writable); // you'll segfault anyway...
size_t count = data_.size() / sizeof(T);
return Range<T*>(static_cast<T*>(static_cast<void*>(data_.data())), count);
}
/**
* A range of mutable bytes mapped by this mapping.
*/
MutableByteRange writableRange() const {
assert(options_.writable); // you'll segfault anyway...
return data_;
}
/**
* Return the memory area where the file was mapped.
* Deprecated; use range() instead.
*/
StringPiece data() const {
return asRange<const char>();
}
bool mlocked() const {
return locked_;
}
int fd() const {
return file_.fd();
}
private:
MemoryMapping();
enum InitFlags {
kGrow = 1 << 0,
kAnon = 1 << 1,
};
void init(off_t offset, off_t length);
File file_;
void* mapStart_ = nullptr;
off_t mapLength_ = 0;
Options options_;
bool locked_ = false;
MutableByteRange data_;
};
void swap(MemoryMapping&, MemoryMapping&) noexcept;
/**
* A special case of memcpy() that always copies memory forwards.
* (libc's memcpy() is allowed to copy memory backwards, and will do so
* when using SSSE3 instructions).
*
* Assumes src and dest are aligned to alignof(unsigned long).
*
* Useful when copying from/to memory mappings after hintLinearScan();
* copying backwards renders any prefetching useless (even harmful).
*/
void alignedForwardMemcpy(void* dst, const void* src, size_t size);
/**
* Copy a file using mmap(). Overwrites dest.
*/
void mmapFileCopy(const char* src, const char* dest, mode_t mode = 0666);
/**
* mlock2 is Linux-only and exists since Linux 4.4
* On Linux pre-4.4 and other platforms fail with ENOSYS.
* glibc added the mlock2 wrapper in 2.27
* https://lists.gnu.org/archive/html/info-gnu/2018-02/msg00000.html
*/
int mlock2wrapper(const void* addr, size_t len, MemoryMapping::LockFlags flags);
} // namespace folly