gecko-dev/xpcom/string/nsSubstring.cpp

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C++

/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim: set ts=8 sts=2 et sw=2 tw=80: */
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#ifdef DEBUG
#define ENABLE_STRING_STATS
#endif
#include "mozilla/Atomics.h"
#include "mozilla/MemoryReporting.h"
#ifdef ENABLE_STRING_STATS
#include <stdio.h>
#endif
#include <stdlib.h>
#include "nsAString.h"
#include "nsString.h"
#include "nsStringBuffer.h"
#include "nsDependentString.h"
#include "nsPrintfCString.h"
#include "nsMemory.h"
#include "prprf.h"
#include "nsCOMPtr.h"
#include "mozilla/IntegerPrintfMacros.h"
#ifdef XP_WIN
#include <windows.h>
#include <process.h>
#define getpid() _getpid()
#define pthread_self() GetCurrentThreadId()
#else
#include <pthread.h>
#include <unistd.h>
#endif
#ifdef STRING_BUFFER_CANARY
#define CHECK_STRING_BUFFER_CANARY(c) \
do { \
if ((c) != CANARY_OK) { \
MOZ_CRASH_UNSAFE_PRINTF("Bad canary value 0x%x", c); \
} \
} while(0)
#else
#define CHECK_STRING_BUFFER_CANARY(c) \
do { \
} while(0)
#endif
using mozilla::Atomic;
// ---------------------------------------------------------------------------
static const char16_t gNullChar = 0;
char* const nsCharTraits<char>::sEmptyBuffer =
(char*)const_cast<char16_t*>(&gNullChar);
char16_t* const nsCharTraits<char16_t>::sEmptyBuffer =
const_cast<char16_t*>(&gNullChar);
// ---------------------------------------------------------------------------
#ifdef ENABLE_STRING_STATS
class nsStringStats
{
public:
nsStringStats()
: mAllocCount(0)
, mReallocCount(0)
, mFreeCount(0)
, mShareCount(0)
{
}
~nsStringStats()
{
// this is a hack to suppress duplicate string stats printing
// in seamonkey as a result of the string code being linked
// into seamonkey and libxpcom! :-(
if (!mAllocCount && !mAdoptCount) {
return;
}
printf("nsStringStats\n");
printf(" => mAllocCount: % 10d\n", int(mAllocCount));
printf(" => mReallocCount: % 10d\n", int(mReallocCount));
printf(" => mFreeCount: % 10d", int(mFreeCount));
if (mAllocCount > mFreeCount) {
printf(" -- LEAKED %d !!!\n", mAllocCount - mFreeCount);
} else {
printf("\n");
}
printf(" => mShareCount: % 10d\n", int(mShareCount));
printf(" => mAdoptCount: % 10d\n", int(mAdoptCount));
printf(" => mAdoptFreeCount: % 10d", int(mAdoptFreeCount));
if (mAdoptCount > mAdoptFreeCount) {
printf(" -- LEAKED %d !!!\n", mAdoptCount - mAdoptFreeCount);
} else {
printf("\n");
}
printf(" => Process ID: %" PRIuPTR ", Thread ID: %" PRIuPTR "\n",
uintptr_t(getpid()), uintptr_t(pthread_self()));
}
typedef Atomic<int32_t,
mozilla::SequentiallyConsistent,
mozilla::recordreplay::Behavior::DontPreserve> AtomicInt;
AtomicInt mAllocCount;
AtomicInt mReallocCount;
AtomicInt mFreeCount;
AtomicInt mShareCount;
AtomicInt mAdoptCount;
AtomicInt mAdoptFreeCount;
};
static nsStringStats gStringStats;
#define STRING_STAT_INCREMENT(_s) (gStringStats.m ## _s ## Count)++
#else
#define STRING_STAT_INCREMENT(_s)
#endif
// ---------------------------------------------------------------------------
void
ReleaseData(void* aData, nsAString::DataFlags aFlags)
{
if (aFlags & nsAString::DataFlags::REFCOUNTED) {
nsStringBuffer::FromData(aData)->Release();
} else if (aFlags & nsAString::DataFlags::OWNED) {
free(aData);
STRING_STAT_INCREMENT(AdoptFree);
// Treat this as destruction of a "StringAdopt" object for leak
// tracking purposes.
MOZ_LOG_DTOR(aData, "StringAdopt", 1);
}
// otherwise, nothing to do.
}
// ---------------------------------------------------------------------------
// XXX or we could make nsStringBuffer be a friend of nsTAString
class nsAStringAccessor : public nsAString
{
private:
nsAStringAccessor(); // NOT IMPLEMENTED
public:
char_type* data() const
{
return mData;
}
size_type length() const
{
return mLength;
}
DataFlags flags() const
{
return mDataFlags;
}
void set(char_type* aData, size_type aLen, DataFlags aDataFlags)
{
ReleaseData(mData, mDataFlags);
SetData(aData, aLen, aDataFlags);
}
};
class nsACStringAccessor : public nsACString
{
private:
nsACStringAccessor(); // NOT IMPLEMENTED
public:
char_type* data() const
{
return mData;
}
size_type length() const
{
return mLength;
}
DataFlags flags() const
{
return mDataFlags;
}
void set(char_type* aData, size_type aLen, DataFlags aDataFlags)
{
ReleaseData(mData, mDataFlags);
SetData(aData, aLen, aDataFlags);
}
};
// ---------------------------------------------------------------------------
void
nsStringBuffer::AddRef()
{
// Memory synchronization is not required when incrementing a
// reference count. The first increment of a reference count on a
// thread is not important, since the first use of the object on a
// thread can happen before it. What is important is the transfer
// of the pointer to that thread, which may happen prior to the
// first increment on that thread. The necessary memory
// synchronization is done by the mechanism that transfers the
// pointer between threads.
#ifdef NS_BUILD_REFCNT_LOGGING
uint32_t count =
#endif
mRefCount.fetch_add(1, std::memory_order_relaxed)
#ifdef NS_BUILD_REFCNT_LOGGING
+ 1
#endif
;
STRING_STAT_INCREMENT(Share);
NS_LOG_ADDREF(this, count, "nsStringBuffer", sizeof(*this));
}
void
nsStringBuffer::Release()
{
CHECK_STRING_BUFFER_CANARY(mCanary);
// Since this may be the last release on this thread, we need
// release semantics so that prior writes on this thread are visible
// to the thread that destroys the object when it reads mValue with
// acquire semantics.
uint32_t count = mRefCount.fetch_sub(1, std::memory_order_release) - 1;
NS_LOG_RELEASE(this, count, "nsStringBuffer");
if (count == 0) {
// We're going to destroy the object on this thread, so we need
// acquire semantics to synchronize with the memory released by
// the last release on other threads, that is, to ensure that
// writes prior to that release are now visible on this thread.
count = mRefCount.load(std::memory_order_acquire);
#ifdef STRING_BUFFER_CANARY
mCanary = CANARY_POISON;
#endif
STRING_STAT_INCREMENT(Free);
free(this); // we were allocated with |malloc|
}
}
/**
* Alloc returns a pointer to a new string header with set capacity.
*/
already_AddRefed<nsStringBuffer>
nsStringBuffer::Alloc(size_t aSize)
{
NS_ASSERTION(aSize != 0, "zero capacity allocation not allowed");
NS_ASSERTION(sizeof(nsStringBuffer) + aSize <= size_t(uint32_t(-1)) &&
sizeof(nsStringBuffer) + aSize > aSize,
"mStorageSize will truncate");
nsStringBuffer* hdr =
(nsStringBuffer*)malloc(sizeof(nsStringBuffer) + aSize);
if (hdr) {
STRING_STAT_INCREMENT(Alloc);
hdr->mRefCount = 1;
hdr->mStorageSize = aSize;
#ifdef STRING_BUFFER_CANARY
hdr->mCanary = CANARY_OK;
#endif
NS_LOG_ADDREF(hdr, 1, "nsStringBuffer", sizeof(*hdr));
}
return dont_AddRef(hdr);
}
nsStringBuffer*
nsStringBuffer::Realloc(nsStringBuffer* aHdr, size_t aSize)
{
STRING_STAT_INCREMENT(Realloc);
CHECK_STRING_BUFFER_CANARY(aHdr->mCanary);
NS_ASSERTION(aSize != 0, "zero capacity allocation not allowed");
NS_ASSERTION(sizeof(nsStringBuffer) + aSize <= size_t(uint32_t(-1)) &&
sizeof(nsStringBuffer) + aSize > aSize,
"mStorageSize will truncate");
// no point in trying to save ourselves if we hit this assertion
NS_ASSERTION(!aHdr->IsReadonly(), "|Realloc| attempted on readonly string");
// Treat this as a release and addref for refcounting purposes, since we
// just asserted that the refcount is 1. If we don't do that, refcount
// logging will claim we've leaked all sorts of stuff.
NS_LOG_RELEASE(aHdr, 0, "nsStringBuffer");
aHdr = (nsStringBuffer*)realloc(aHdr, sizeof(nsStringBuffer) + aSize);
if (aHdr) {
NS_LOG_ADDREF(aHdr, 1, "nsStringBuffer", sizeof(*aHdr));
aHdr->mStorageSize = aSize;
}
return aHdr;
}
nsStringBuffer*
nsStringBuffer::FromString(const nsAString& aStr)
{
const nsAStringAccessor* accessor =
static_cast<const nsAStringAccessor*>(&aStr);
if (!(accessor->flags() & nsAString::DataFlags::REFCOUNTED)) {
return nullptr;
}
return FromData(accessor->data());
}
nsStringBuffer*
nsStringBuffer::FromString(const nsACString& aStr)
{
const nsACStringAccessor* accessor =
static_cast<const nsACStringAccessor*>(&aStr);
if (!(accessor->flags() & nsACString::DataFlags::REFCOUNTED)) {
return nullptr;
}
return FromData(accessor->data());
}
void
nsStringBuffer::ToString(uint32_t aLen, nsAString& aStr,
bool aMoveOwnership)
{
char16_t* data = static_cast<char16_t*>(Data());
nsAStringAccessor* accessor = static_cast<nsAStringAccessor*>(&aStr);
MOZ_DIAGNOSTIC_ASSERT(data[aLen] == char16_t(0),
"data should be null terminated");
nsAString::DataFlags flags =
nsAString::DataFlags::REFCOUNTED | nsAString::DataFlags::TERMINATED;
if (!aMoveOwnership) {
AddRef();
}
accessor->set(data, aLen, flags);
}
void
nsStringBuffer::ToString(uint32_t aLen, nsACString& aStr,
bool aMoveOwnership)
{
char* data = static_cast<char*>(Data());
nsACStringAccessor* accessor = static_cast<nsACStringAccessor*>(&aStr);
MOZ_DIAGNOSTIC_ASSERT(data[aLen] == char(0),
"data should be null terminated");
nsACString::DataFlags flags =
nsACString::DataFlags::REFCOUNTED | nsACString::DataFlags::TERMINATED;
if (!aMoveOwnership) {
AddRef();
}
accessor->set(data, aLen, flags);
}
size_t
nsStringBuffer::SizeOfIncludingThisIfUnshared(mozilla::MallocSizeOf aMallocSizeOf) const
{
return IsReadonly() ? 0 : aMallocSizeOf(this);
}
size_t
nsStringBuffer::SizeOfIncludingThisEvenIfShared(mozilla::MallocSizeOf aMallocSizeOf) const
{
return aMallocSizeOf(this);
}
#ifdef STRING_BUFFER_CANARY
void
nsStringBuffer::FromDataCanaryCheckFailed() const
{
MOZ_CRASH_UNSAFE_PRINTF("Bad canary value 0x%x in FromData", mCanary);
}
#endif
// ---------------------------------------------------------------------------
// define nsAString
#include "nsTSubstring.cpp"
// Provide rust bindings to the nsA[C]String types
extern "C" {
// This is a no-op on release, so we ifdef it out such that using it in release
// results in a linker error.
#ifdef DEBUG
void Gecko_IncrementStringAdoptCount(void* aData)
{
MOZ_LOG_CTOR(aData, "StringAdopt", 1);
}
#elif defined(MOZ_DEBUG_RUST)
void Gecko_IncrementStringAdoptCount(void *aData)
{
}
#endif
void Gecko_FinalizeCString(nsACString* aThis)
{
aThis->~nsACString();
}
void Gecko_AssignCString(nsACString* aThis, const nsACString* aOther)
{
aThis->Assign(*aOther);
}
void Gecko_TakeFromCString(nsACString* aThis, nsACString* aOther)
{
aThis->Assign(std::move(*aOther));
}
void Gecko_AppendCString(nsACString* aThis, const nsACString* aOther)
{
aThis->Append(*aOther);
}
void Gecko_SetLengthCString(nsACString* aThis, uint32_t aLength)
{
aThis->SetLength(aLength);
}
bool Gecko_FallibleAssignCString(nsACString* aThis, const nsACString* aOther)
{
return aThis->Assign(*aOther, mozilla::fallible);
}
bool Gecko_FallibleTakeFromCString(nsACString* aThis, nsACString* aOther)
{
return aThis->Assign(std::move(*aOther), mozilla::fallible);
}
bool Gecko_FallibleAppendCString(nsACString* aThis, const nsACString* aOther)
{
return aThis->Append(*aOther, mozilla::fallible);
}
bool Gecko_FallibleSetLengthCString(nsACString* aThis, uint32_t aLength)
{
return aThis->SetLength(aLength, mozilla::fallible);
}
char* Gecko_BeginWritingCString(nsACString* aThis)
{
return aThis->BeginWriting();
}
char* Gecko_FallibleBeginWritingCString(nsACString* aThis)
{
return aThis->BeginWriting(mozilla::fallible);
}
uint32_t
Gecko_StartBulkWriteCString(nsACString* aThis,
uint32_t aCapacity,
uint32_t aUnitsToPreserve,
bool aAllowShrinking)
{
return aThis->StartBulkWriteImpl(aCapacity, aUnitsToPreserve, aAllowShrinking).unwrapOr(UINT32_MAX);
}
void Gecko_FinalizeString(nsAString* aThis)
{
aThis->~nsAString();
}
void Gecko_AssignString(nsAString* aThis, const nsAString* aOther)
{
aThis->Assign(*aOther);
}
void Gecko_TakeFromString(nsAString* aThis, nsAString* aOther)
{
aThis->Assign(std::move(*aOther));
}
void Gecko_AppendString(nsAString* aThis, const nsAString* aOther)
{
aThis->Append(*aOther);
}
void Gecko_SetLengthString(nsAString* aThis, uint32_t aLength)
{
aThis->SetLength(aLength);
}
bool Gecko_FallibleAssignString(nsAString* aThis, const nsAString* aOther)
{
return aThis->Assign(*aOther, mozilla::fallible);
}
bool Gecko_FallibleTakeFromString(nsAString* aThis, nsAString* aOther)
{
return aThis->Assign(std::move(*aOther), mozilla::fallible);
}
bool Gecko_FallibleAppendString(nsAString* aThis, const nsAString* aOther)
{
return aThis->Append(*aOther, mozilla::fallible);
}
bool Gecko_FallibleSetLengthString(nsAString* aThis, uint32_t aLength)
{
return aThis->SetLength(aLength, mozilla::fallible);
}
char16_t* Gecko_BeginWritingString(nsAString* aThis)
{
return aThis->BeginWriting();
}
char16_t* Gecko_FallibleBeginWritingString(nsAString* aThis)
{
return aThis->BeginWriting(mozilla::fallible);
}
uint32_t
Gecko_StartBulkWriteString(nsAString* aThis,
uint32_t aCapacity,
uint32_t aUnitsToPreserve,
bool aAllowShrinking)
{
return aThis->StartBulkWriteImpl(aCapacity, aUnitsToPreserve, aAllowShrinking).unwrapOr(UINT32_MAX);
}
} // extern "C"