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GPBMessage.m
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GPBMessage.m
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// Protocol Buffers - Google's data interchange format
// Copyright 2008 Google Inc. All rights reserved.
// https://developers.google.com/protocol-buffers/
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are
// met:
//
// * Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
// * Redistributions in binary form must reproduce the above
// copyright notice, this list of conditions and the following disclaimer
// in the documentation and/or other materials provided with the
// distribution.
// * Neither the name of Google Inc. nor the names of its
// contributors may be used to endorse or promote products derived from
// this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#import "GPBMessage_PackagePrivate.h"
#import <objc/runtime.h>
#import <objc/message.h>
#import <stdatomic.h>
#import "GPBArray_PackagePrivate.h"
#import "GPBCodedInputStream_PackagePrivate.h"
#import "GPBCodedOutputStream_PackagePrivate.h"
#import "GPBDescriptor_PackagePrivate.h"
#import "GPBDictionary_PackagePrivate.h"
#import "GPBExtensionInternals.h"
#import "GPBExtensionRegistry.h"
#import "GPBRootObject_PackagePrivate.h"
#import "GPBUnknownFieldSet_PackagePrivate.h"
#import "GPBUtilities_PackagePrivate.h"
// Direct access is use for speed, to avoid even internally declaring things
// read/write, etc. The warning is enabled in the project to ensure code calling
// protos can turn on -Wdirect-ivar-access without issues.
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wdirect-ivar-access"
NSString *const GPBMessageErrorDomain =
GPBNSStringifySymbol(GPBMessageErrorDomain);
NSString *const GPBErrorReasonKey = @"Reason";
static NSString *const kGPBDataCoderKey = @"GPBData";
//
// PLEASE REMEMBER:
//
// This is the base class for *all* messages generated, so any selector defined,
// *public* or *private* could end up colliding with a proto message field. So
// avoid using selectors that could match a property, use C functions to hide
// them, etc.
//
@interface GPBMessage () {
@package
GPBUnknownFieldSet *unknownFields_;
NSMutableDictionary *extensionMap_;
NSMutableDictionary *autocreatedExtensionMap_;
// If the object was autocreated, we remember the creator so that if we get
// mutated, we can inform the creator to make our field visible.
GPBMessage *autocreator_;
GPBFieldDescriptor *autocreatorField_;
GPBExtensionDescriptor *autocreatorExtension_;
// A lock to provide mutual exclusion from internal data that can be modified
// by *read* operations such as getters (autocreation of message fields and
// message extensions, not setting of values). Used to guarantee thread safety
// for concurrent reads on the message.
// NOTE: OSSpinLock may seem like a good fit here but Apple engineers have
// pointed out that they are vulnerable to live locking on iOS in cases of
// priority inversion:
// http://mjtsai.com/blog/2015/12/16/osspinlock-is-unsafe/
// https://lists.swift.org/pipermail/swift-dev/Week-of-Mon-20151214/000372.html
// Use of readOnlySemaphore_ must be prefaced by a call to
// GPBPrepareReadOnlySemaphore to ensure it has been created. This allows
// readOnlySemaphore_ to be only created when actually needed.
_Atomic(dispatch_semaphore_t) readOnlySemaphore_;
}
@end
static id CreateArrayForField(GPBFieldDescriptor *field,
GPBMessage *autocreator)
__attribute__((ns_returns_retained));
static id GetOrCreateArrayIvarWithField(GPBMessage *self,
GPBFieldDescriptor *field,
GPBFileSyntax syntax);
static id GetArrayIvarWithField(GPBMessage *self, GPBFieldDescriptor *field);
static id CreateMapForField(GPBFieldDescriptor *field,
GPBMessage *autocreator)
__attribute__((ns_returns_retained));
static id GetOrCreateMapIvarWithField(GPBMessage *self,
GPBFieldDescriptor *field,
GPBFileSyntax syntax);
static id GetMapIvarWithField(GPBMessage *self, GPBFieldDescriptor *field);
static NSMutableDictionary *CloneExtensionMap(NSDictionary *extensionMap,
NSZone *zone)
__attribute__((ns_returns_retained));
#ifdef DEBUG
static NSError *MessageError(NSInteger code, NSDictionary *userInfo) {
return [NSError errorWithDomain:GPBMessageErrorDomain
code:code
userInfo:userInfo];
}
#endif
static NSError *ErrorFromException(NSException *exception) {
NSError *error = nil;
if ([exception.name isEqual:GPBCodedInputStreamException]) {
NSDictionary *exceptionInfo = exception.userInfo;
error = exceptionInfo[GPBCodedInputStreamUnderlyingErrorKey];
}
if (!error) {
NSString *reason = exception.reason;
NSDictionary *userInfo = nil;
if ([reason length]) {
userInfo = @{ GPBErrorReasonKey : reason };
}
error = [NSError errorWithDomain:GPBMessageErrorDomain
code:GPBMessageErrorCodeOther
userInfo:userInfo];
}
return error;
}
static void CheckExtension(GPBMessage *self,
GPBExtensionDescriptor *extension) {
if (![self isKindOfClass:extension.containingMessageClass]) {
[NSException
raise:NSInvalidArgumentException
format:@"Extension %@ used on wrong class (%@ instead of %@)",
extension.singletonName,
[self class], extension.containingMessageClass];
}
}
static NSMutableDictionary *CloneExtensionMap(NSDictionary *extensionMap,
NSZone *zone) {
if (extensionMap.count == 0) {
return nil;
}
NSMutableDictionary *result = [[NSMutableDictionary allocWithZone:zone]
initWithCapacity:extensionMap.count];
for (GPBExtensionDescriptor *extension in extensionMap) {
id value = [extensionMap objectForKey:extension];
BOOL isMessageExtension = GPBExtensionIsMessage(extension);
if (extension.repeated) {
if (isMessageExtension) {
NSMutableArray *list =
[[NSMutableArray alloc] initWithCapacity:[value count]];
for (GPBMessage *listValue in value) {
GPBMessage *copiedValue = [listValue copyWithZone:zone];
[list addObject:copiedValue];
[copiedValue release];
}
[result setObject:list forKey:extension];
[list release];
} else {
NSMutableArray *copiedValue = [value mutableCopyWithZone:zone];
[result setObject:copiedValue forKey:extension];
[copiedValue release];
}
} else {
if (isMessageExtension) {
GPBMessage *copiedValue = [value copyWithZone:zone];
[result setObject:copiedValue forKey:extension];
[copiedValue release];
} else {
[result setObject:value forKey:extension];
}
}
}
return result;
}
static id CreateArrayForField(GPBFieldDescriptor *field,
GPBMessage *autocreator) {
id result;
GPBDataType fieldDataType = GPBGetFieldDataType(field);
switch (fieldDataType) {
case GPBDataTypeBool:
result = [[GPBBoolArray alloc] init];
break;
case GPBDataTypeFixed32:
case GPBDataTypeUInt32:
result = [[GPBUInt32Array alloc] init];
break;
case GPBDataTypeInt32:
case GPBDataTypeSFixed32:
case GPBDataTypeSInt32:
result = [[GPBInt32Array alloc] init];
break;
case GPBDataTypeFixed64:
case GPBDataTypeUInt64:
result = [[GPBUInt64Array alloc] init];
break;
case GPBDataTypeInt64:
case GPBDataTypeSFixed64:
case GPBDataTypeSInt64:
result = [[GPBInt64Array alloc] init];
break;
case GPBDataTypeFloat:
result = [[GPBFloatArray alloc] init];
break;
case GPBDataTypeDouble:
result = [[GPBDoubleArray alloc] init];
break;
case GPBDataTypeEnum:
result = [[GPBEnumArray alloc]
initWithValidationFunction:field.enumDescriptor.enumVerifier];
break;
case GPBDataTypeBytes:
case GPBDataTypeGroup:
case GPBDataTypeMessage:
case GPBDataTypeString:
if (autocreator) {
result = [[GPBAutocreatedArray alloc] init];
} else {
result = [[NSMutableArray alloc] init];
}
break;
}
if (autocreator) {
if (GPBDataTypeIsObject(fieldDataType)) {
GPBAutocreatedArray *autoArray = result;
autoArray->_autocreator = autocreator;
} else {
GPBInt32Array *gpbArray = result;
gpbArray->_autocreator = autocreator;
}
}
return result;
}
static id CreateMapForField(GPBFieldDescriptor *field,
GPBMessage *autocreator) {
id result;
GPBDataType keyDataType = field.mapKeyDataType;
GPBDataType valueDataType = GPBGetFieldDataType(field);
switch (keyDataType) {
case GPBDataTypeBool:
switch (valueDataType) {
case GPBDataTypeBool:
result = [[GPBBoolBoolDictionary alloc] init];
break;
case GPBDataTypeFixed32:
case GPBDataTypeUInt32:
result = [[GPBBoolUInt32Dictionary alloc] init];
break;
case GPBDataTypeInt32:
case GPBDataTypeSFixed32:
case GPBDataTypeSInt32:
result = [[GPBBoolInt32Dictionary alloc] init];
break;
case GPBDataTypeFixed64:
case GPBDataTypeUInt64:
result = [[GPBBoolUInt64Dictionary alloc] init];
break;
case GPBDataTypeInt64:
case GPBDataTypeSFixed64:
case GPBDataTypeSInt64:
result = [[GPBBoolInt64Dictionary alloc] init];
break;
case GPBDataTypeFloat:
result = [[GPBBoolFloatDictionary alloc] init];
break;
case GPBDataTypeDouble:
result = [[GPBBoolDoubleDictionary alloc] init];
break;
case GPBDataTypeEnum:
result = [[GPBBoolEnumDictionary alloc]
initWithValidationFunction:field.enumDescriptor.enumVerifier];
break;
case GPBDataTypeBytes:
case GPBDataTypeMessage:
case GPBDataTypeString:
result = [[GPBBoolObjectDictionary alloc] init];
break;
case GPBDataTypeGroup:
NSCAssert(NO, @"shouldn't happen");
return nil;
}
break;
case GPBDataTypeFixed32:
case GPBDataTypeUInt32:
switch (valueDataType) {
case GPBDataTypeBool:
result = [[GPBUInt32BoolDictionary alloc] init];
break;
case GPBDataTypeFixed32:
case GPBDataTypeUInt32:
result = [[GPBUInt32UInt32Dictionary alloc] init];
break;
case GPBDataTypeInt32:
case GPBDataTypeSFixed32:
case GPBDataTypeSInt32:
result = [[GPBUInt32Int32Dictionary alloc] init];
break;
case GPBDataTypeFixed64:
case GPBDataTypeUInt64:
result = [[GPBUInt32UInt64Dictionary alloc] init];
break;
case GPBDataTypeInt64:
case GPBDataTypeSFixed64:
case GPBDataTypeSInt64:
result = [[GPBUInt32Int64Dictionary alloc] init];
break;
case GPBDataTypeFloat:
result = [[GPBUInt32FloatDictionary alloc] init];
break;
case GPBDataTypeDouble:
result = [[GPBUInt32DoubleDictionary alloc] init];
break;
case GPBDataTypeEnum:
result = [[GPBUInt32EnumDictionary alloc]
initWithValidationFunction:field.enumDescriptor.enumVerifier];
break;
case GPBDataTypeBytes:
case GPBDataTypeMessage:
case GPBDataTypeString:
result = [[GPBUInt32ObjectDictionary alloc] init];
break;
case GPBDataTypeGroup:
NSCAssert(NO, @"shouldn't happen");
return nil;
}
break;
case GPBDataTypeInt32:
case GPBDataTypeSFixed32:
case GPBDataTypeSInt32:
switch (valueDataType) {
case GPBDataTypeBool:
result = [[GPBInt32BoolDictionary alloc] init];
break;
case GPBDataTypeFixed32:
case GPBDataTypeUInt32:
result = [[GPBInt32UInt32Dictionary alloc] init];
break;
case GPBDataTypeInt32:
case GPBDataTypeSFixed32:
case GPBDataTypeSInt32:
result = [[GPBInt32Int32Dictionary alloc] init];
break;
case GPBDataTypeFixed64:
case GPBDataTypeUInt64:
result = [[GPBInt32UInt64Dictionary alloc] init];
break;
case GPBDataTypeInt64:
case GPBDataTypeSFixed64:
case GPBDataTypeSInt64:
result = [[GPBInt32Int64Dictionary alloc] init];
break;
case GPBDataTypeFloat:
result = [[GPBInt32FloatDictionary alloc] init];
break;
case GPBDataTypeDouble:
result = [[GPBInt32DoubleDictionary alloc] init];
break;
case GPBDataTypeEnum:
result = [[GPBInt32EnumDictionary alloc]
initWithValidationFunction:field.enumDescriptor.enumVerifier];
break;
case GPBDataTypeBytes:
case GPBDataTypeMessage:
case GPBDataTypeString:
result = [[GPBInt32ObjectDictionary alloc] init];
break;
case GPBDataTypeGroup:
NSCAssert(NO, @"shouldn't happen");
return nil;
}
break;
case GPBDataTypeFixed64:
case GPBDataTypeUInt64:
switch (valueDataType) {
case GPBDataTypeBool:
result = [[GPBUInt64BoolDictionary alloc] init];
break;
case GPBDataTypeFixed32:
case GPBDataTypeUInt32:
result = [[GPBUInt64UInt32Dictionary alloc] init];
break;
case GPBDataTypeInt32:
case GPBDataTypeSFixed32:
case GPBDataTypeSInt32:
result = [[GPBUInt64Int32Dictionary alloc] init];
break;
case GPBDataTypeFixed64:
case GPBDataTypeUInt64:
result = [[GPBUInt64UInt64Dictionary alloc] init];
break;
case GPBDataTypeInt64:
case GPBDataTypeSFixed64:
case GPBDataTypeSInt64:
result = [[GPBUInt64Int64Dictionary alloc] init];
break;
case GPBDataTypeFloat:
result = [[GPBUInt64FloatDictionary alloc] init];
break;
case GPBDataTypeDouble:
result = [[GPBUInt64DoubleDictionary alloc] init];
break;
case GPBDataTypeEnum:
result = [[GPBUInt64EnumDictionary alloc]
initWithValidationFunction:field.enumDescriptor.enumVerifier];
break;
case GPBDataTypeBytes:
case GPBDataTypeMessage:
case GPBDataTypeString:
result = [[GPBUInt64ObjectDictionary alloc] init];
break;
case GPBDataTypeGroup:
NSCAssert(NO, @"shouldn't happen");
return nil;
}
break;
case GPBDataTypeInt64:
case GPBDataTypeSFixed64:
case GPBDataTypeSInt64:
switch (valueDataType) {
case GPBDataTypeBool:
result = [[GPBInt64BoolDictionary alloc] init];
break;
case GPBDataTypeFixed32:
case GPBDataTypeUInt32:
result = [[GPBInt64UInt32Dictionary alloc] init];
break;
case GPBDataTypeInt32:
case GPBDataTypeSFixed32:
case GPBDataTypeSInt32:
result = [[GPBInt64Int32Dictionary alloc] init];
break;
case GPBDataTypeFixed64:
case GPBDataTypeUInt64:
result = [[GPBInt64UInt64Dictionary alloc] init];
break;
case GPBDataTypeInt64:
case GPBDataTypeSFixed64:
case GPBDataTypeSInt64:
result = [[GPBInt64Int64Dictionary alloc] init];
break;
case GPBDataTypeFloat:
result = [[GPBInt64FloatDictionary alloc] init];
break;
case GPBDataTypeDouble:
result = [[GPBInt64DoubleDictionary alloc] init];
break;
case GPBDataTypeEnum:
result = [[GPBInt64EnumDictionary alloc]
initWithValidationFunction:field.enumDescriptor.enumVerifier];
break;
case GPBDataTypeBytes:
case GPBDataTypeMessage:
case GPBDataTypeString:
result = [[GPBInt64ObjectDictionary alloc] init];
break;
case GPBDataTypeGroup:
NSCAssert(NO, @"shouldn't happen");
return nil;
}
break;
case GPBDataTypeString:
switch (valueDataType) {
case GPBDataTypeBool:
result = [[GPBStringBoolDictionary alloc] init];
break;
case GPBDataTypeFixed32:
case GPBDataTypeUInt32:
result = [[GPBStringUInt32Dictionary alloc] init];
break;
case GPBDataTypeInt32:
case GPBDataTypeSFixed32:
case GPBDataTypeSInt32:
result = [[GPBStringInt32Dictionary alloc] init];
break;
case GPBDataTypeFixed64:
case GPBDataTypeUInt64:
result = [[GPBStringUInt64Dictionary alloc] init];
break;
case GPBDataTypeInt64:
case GPBDataTypeSFixed64:
case GPBDataTypeSInt64:
result = [[GPBStringInt64Dictionary alloc] init];
break;
case GPBDataTypeFloat:
result = [[GPBStringFloatDictionary alloc] init];
break;
case GPBDataTypeDouble:
result = [[GPBStringDoubleDictionary alloc] init];
break;
case GPBDataTypeEnum:
result = [[GPBStringEnumDictionary alloc]
initWithValidationFunction:field.enumDescriptor.enumVerifier];
break;
case GPBDataTypeBytes:
case GPBDataTypeMessage:
case GPBDataTypeString:
if (autocreator) {
result = [[GPBAutocreatedDictionary alloc] init];
} else {
result = [[NSMutableDictionary alloc] init];
}
break;
case GPBDataTypeGroup:
NSCAssert(NO, @"shouldn't happen");
return nil;
}
break;
case GPBDataTypeFloat:
case GPBDataTypeDouble:
case GPBDataTypeEnum:
case GPBDataTypeBytes:
case GPBDataTypeGroup:
case GPBDataTypeMessage:
NSCAssert(NO, @"shouldn't happen");
return nil;
}
if (autocreator) {
if ((keyDataType == GPBDataTypeString) &&
GPBDataTypeIsObject(valueDataType)) {
GPBAutocreatedDictionary *autoDict = result;
autoDict->_autocreator = autocreator;
} else {
GPBInt32Int32Dictionary *gpbDict = result;
gpbDict->_autocreator = autocreator;
}
}
return result;
}
#if !defined(__clang_analyzer__)
// These functions are blocked from the analyzer because the analyzer sees the
// GPBSetRetainedObjectIvarWithFieldInternal() call as consuming the array/map,
// so use of the array/map after the call returns is flagged as a use after
// free.
// But GPBSetRetainedObjectIvarWithFieldInternal() is "consuming" the retain
// count be holding onto the object (it is transfering it), the object is
// still valid after returning from the call. The other way to avoid this
// would be to add a -retain/-autorelease, but that would force every
// repeated/map field parsed into the autorelease pool which is both a memory
// and performance hit.
static id GetOrCreateArrayIvarWithField(GPBMessage *self,
GPBFieldDescriptor *field,
GPBFileSyntax syntax) {
id array = GPBGetObjectIvarWithFieldNoAutocreate(self, field);
if (!array) {
// No lock needed, this is called from places expecting to mutate
// so no threading protection is needed.
array = CreateArrayForField(field, nil);
GPBSetRetainedObjectIvarWithFieldInternal(self, field, array, syntax);
}
return array;
}
// This is like GPBGetObjectIvarWithField(), but for arrays, it should
// only be used to wire the method into the class.
static id GetArrayIvarWithField(GPBMessage *self, GPBFieldDescriptor *field) {
id array = GPBGetObjectIvarWithFieldNoAutocreate(self, field);
if (!array) {
// Check again after getting the lock.
GPBPrepareReadOnlySemaphore(self);
dispatch_semaphore_wait(self->readOnlySemaphore_, DISPATCH_TIME_FOREVER);
array = GPBGetObjectIvarWithFieldNoAutocreate(self, field);
if (!array) {
array = CreateArrayForField(field, self);
GPBSetAutocreatedRetainedObjectIvarWithField(self, field, array);
}
dispatch_semaphore_signal(self->readOnlySemaphore_);
}
return array;
}
static id GetOrCreateMapIvarWithField(GPBMessage *self,
GPBFieldDescriptor *field,
GPBFileSyntax syntax) {
id dict = GPBGetObjectIvarWithFieldNoAutocreate(self, field);
if (!dict) {
// No lock needed, this is called from places expecting to mutate
// so no threading protection is needed.
dict = CreateMapForField(field, nil);
GPBSetRetainedObjectIvarWithFieldInternal(self, field, dict, syntax);
}
return dict;
}
// This is like GPBGetObjectIvarWithField(), but for maps, it should
// only be used to wire the method into the class.
static id GetMapIvarWithField(GPBMessage *self, GPBFieldDescriptor *field) {
id dict = GPBGetObjectIvarWithFieldNoAutocreate(self, field);
if (!dict) {
// Check again after getting the lock.
GPBPrepareReadOnlySemaphore(self);
dispatch_semaphore_wait(self->readOnlySemaphore_, DISPATCH_TIME_FOREVER);
dict = GPBGetObjectIvarWithFieldNoAutocreate(self, field);
if (!dict) {
dict = CreateMapForField(field, self);
GPBSetAutocreatedRetainedObjectIvarWithField(self, field, dict);
}
dispatch_semaphore_signal(self->readOnlySemaphore_);
}
return dict;
}
#endif // !defined(__clang_analyzer__)
GPBMessage *GPBCreateMessageWithAutocreator(Class msgClass,
GPBMessage *autocreator,
GPBFieldDescriptor *field) {
GPBMessage *message = [[msgClass alloc] init];
message->autocreator_ = autocreator;
message->autocreatorField_ = [field retain];
return message;
}
static GPBMessage *CreateMessageWithAutocreatorForExtension(
Class msgClass, GPBMessage *autocreator, GPBExtensionDescriptor *extension)
__attribute__((ns_returns_retained));
static GPBMessage *CreateMessageWithAutocreatorForExtension(
Class msgClass, GPBMessage *autocreator,
GPBExtensionDescriptor *extension) {
GPBMessage *message = [[msgClass alloc] init];
message->autocreator_ = autocreator;
message->autocreatorExtension_ = [extension retain];
return message;
}
BOOL GPBWasMessageAutocreatedBy(GPBMessage *message, GPBMessage *parent) {
return (message->autocreator_ == parent);
}
void GPBBecomeVisibleToAutocreator(GPBMessage *self) {
// Message objects that are implicitly created by accessing a message field
// are initially not visible via the hasX selector. This method makes them
// visible.
if (self->autocreator_) {
// This will recursively make all parent messages visible until it reaches a
// super-creator that's visible.
if (self->autocreatorField_) {
GPBFileSyntax syntax = [self->autocreator_ descriptor].file.syntax;
GPBSetObjectIvarWithFieldInternal(self->autocreator_,
self->autocreatorField_, self, syntax);
} else {
[self->autocreator_ setExtension:self->autocreatorExtension_ value:self];
}
}
}
void GPBAutocreatedArrayModified(GPBMessage *self, id array) {
// When one of our autocreated arrays adds elements, make it visible.
GPBDescriptor *descriptor = [[self class] descriptor];
for (GPBFieldDescriptor *field in descriptor->fields_) {
if (field.fieldType == GPBFieldTypeRepeated) {
id curArray = GPBGetObjectIvarWithFieldNoAutocreate(self, field);
if (curArray == array) {
if (GPBFieldDataTypeIsObject(field)) {
GPBAutocreatedArray *autoArray = array;
autoArray->_autocreator = nil;
} else {
GPBInt32Array *gpbArray = array;
gpbArray->_autocreator = nil;
}
GPBBecomeVisibleToAutocreator(self);
return;
}
}
}
NSCAssert(NO, @"Unknown autocreated %@ for %@.", [array class], self);
}
void GPBAutocreatedDictionaryModified(GPBMessage *self, id dictionary) {
// When one of our autocreated dicts adds elements, make it visible.
GPBDescriptor *descriptor = [[self class] descriptor];
for (GPBFieldDescriptor *field in descriptor->fields_) {
if (field.fieldType == GPBFieldTypeMap) {
id curDict = GPBGetObjectIvarWithFieldNoAutocreate(self, field);
if (curDict == dictionary) {
if ((field.mapKeyDataType == GPBDataTypeString) &&
GPBFieldDataTypeIsObject(field)) {
GPBAutocreatedDictionary *autoDict = dictionary;
autoDict->_autocreator = nil;
} else {
GPBInt32Int32Dictionary *gpbDict = dictionary;
gpbDict->_autocreator = nil;
}
GPBBecomeVisibleToAutocreator(self);
return;
}
}
}
NSCAssert(NO, @"Unknown autocreated %@ for %@.", [dictionary class], self);
}
void GPBClearMessageAutocreator(GPBMessage *self) {
if ((self == nil) || !self->autocreator_) {
return;
}
#if defined(DEBUG) && DEBUG && !defined(NS_BLOCK_ASSERTIONS)
// Either the autocreator must have its "has" flag set to YES, or it must be
// NO and not equal to ourselves.
BOOL autocreatorHas =
(self->autocreatorField_
? GPBGetHasIvarField(self->autocreator_, self->autocreatorField_)
: [self->autocreator_ hasExtension:self->autocreatorExtension_]);
GPBMessage *autocreatorFieldValue =
(self->autocreatorField_
? GPBGetObjectIvarWithFieldNoAutocreate(self->autocreator_,
self->autocreatorField_)
: [self->autocreator_->autocreatedExtensionMap_
objectForKey:self->autocreatorExtension_]);
NSCAssert(autocreatorHas || autocreatorFieldValue != self,
@"Cannot clear autocreator because it still refers to self, self: %@.",
self);
#endif // DEBUG && !defined(NS_BLOCK_ASSERTIONS)
self->autocreator_ = nil;
[self->autocreatorField_ release];
self->autocreatorField_ = nil;
[self->autocreatorExtension_ release];
self->autocreatorExtension_ = nil;
}
// Call this before using the readOnlySemaphore_. This ensures it is created only once.
void GPBPrepareReadOnlySemaphore(GPBMessage *self) {
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wdirect-ivar-access"
// Create the semaphore on demand (rather than init) as developers might not cause them
// to be needed, and the heap usage can add up. The atomic swap is used to avoid needing
// another lock around creating it.
if (self->readOnlySemaphore_ == nil) {
dispatch_semaphore_t worker = dispatch_semaphore_create(1);
dispatch_semaphore_t expected = nil;
if (!atomic_compare_exchange_strong(&self->readOnlySemaphore_, &expected, worker)) {
dispatch_release(worker);
}
#if defined(__clang_analyzer__)
// The Xcode 9.2 (and 9.3 beta) static analyzer thinks worker is leaked
// (doesn't seem to know about atomic_compare_exchange_strong); so just
// for the analyzer, let it think worker is also released in this case.
else { dispatch_release(worker); }
#endif
}
#pragma clang diagnostic pop
}
static GPBUnknownFieldSet *GetOrMakeUnknownFields(GPBMessage *self) {
if (!self->unknownFields_) {
self->unknownFields_ = [[GPBUnknownFieldSet alloc] init];
GPBBecomeVisibleToAutocreator(self);
}
return self->unknownFields_;
}
@implementation GPBMessage
+ (void)initialize {
Class pbMessageClass = [GPBMessage class];
if ([self class] == pbMessageClass) {
// This is here to start up the "base" class descriptor.
[self descriptor];
// Message shares extension method resolving with GPBRootObject so insure
// it is started up at the same time.
(void)[GPBRootObject class];
} else if ([self superclass] == pbMessageClass) {
// This is here to start up all the "message" subclasses. Just needs to be
// done for the messages, not any of the subclasses.
// This must be done in initialize to enforce thread safety of start up of
// the protocol buffer library.
// Note: The generated code for -descriptor calls
// +[GPBDescriptor allocDescriptorForClass:...], passing the GPBRootObject
// subclass for the file. That call chain is what ensures that *Root class
// is started up to support extension resolution off the message class
// (+resolveClassMethod: below) in a thread safe manner.
[self descriptor];
}
}
+ (instancetype)allocWithZone:(NSZone *)zone {
// Override alloc to allocate our classes with the additional storage
// required for the instance variables.
GPBDescriptor *descriptor = [self descriptor];
return NSAllocateObject(self, descriptor->storageSize_, zone);
}
+ (instancetype)alloc {
return [self allocWithZone:nil];
}
+ (GPBDescriptor *)descriptor {
// This is thread safe because it is called from +initialize.
static GPBDescriptor *descriptor = NULL;
static GPBFileDescriptor *fileDescriptor = NULL;
if (!descriptor) {
// Use a dummy file that marks it as proto2 syntax so when used generically
// it supports unknowns/etc.
fileDescriptor =
[[GPBFileDescriptor alloc] initWithPackage:@"internal"
syntax:GPBFileSyntaxProto2];
descriptor = [GPBDescriptor allocDescriptorForClass:[GPBMessage class]
rootClass:Nil
file:fileDescriptor
fields:NULL
fieldCount:0
storageSize:0
flags:0];
}
return descriptor;
}
+ (instancetype)message {
return [[[self alloc] init] autorelease];
}
- (instancetype)init {
if ((self = [super init])) {
messageStorage_ = (GPBMessage_StoragePtr)(
((uint8_t *)self) + class_getInstanceSize([self class]));
}
return self;
}
- (instancetype)initWithData:(NSData *)data error:(NSError **)errorPtr {
return [self initWithData:data extensionRegistry:nil error:errorPtr];
}
- (instancetype)initWithData:(NSData *)data
extensionRegistry:(GPBExtensionRegistry *)extensionRegistry
error:(NSError **)errorPtr {
if ((self = [self init])) {
@try {
[self mergeFromData:data extensionRegistry:extensionRegistry];
if (errorPtr) {
*errorPtr = nil;
}
}
@catch (NSException *exception) {
[self release];
self = nil;
if (errorPtr) {
*errorPtr = ErrorFromException(exception);
}
}
#ifdef DEBUG
if (self && !self.initialized) {
[self release];
self = nil;
if (errorPtr) {
*errorPtr = MessageError(GPBMessageErrorCodeMissingRequiredField, nil);
}
}
#endif
}
return self;
}
- (instancetype)initWithCodedInputStream:(GPBCodedInputStream *)input
extensionRegistry:
(GPBExtensionRegistry *)extensionRegistry
error:(NSError **)errorPtr {
if ((self = [self init])) {
@try {
[self mergeFromCodedInputStream:input extensionRegistry:extensionRegistry];
if (errorPtr) {
*errorPtr = nil;
}
}
@catch (NSException *exception) {
[self release];
self = nil;
if (errorPtr) {
*errorPtr = ErrorFromException(exception);
}
}
#ifdef DEBUG
if (self && !self.initialized) {
[self release];
self = nil;
if (errorPtr) {
*errorPtr = MessageError(GPBMessageErrorCodeMissingRequiredField, nil);
}
}
#endif
}
return self;
}
- (void)dealloc {
[self internalClear:NO];
NSCAssert(!autocreator_, @"Autocreator was not cleared before dealloc.");
if (readOnlySemaphore_) {
dispatch_release(readOnlySemaphore_);
}
[super dealloc];
}
- (void)copyFieldsInto:(GPBMessage *)message
zone:(NSZone *)zone
descriptor:(GPBDescriptor *)descriptor {
// Copy all the storage...
memcpy(message->messageStorage_, messageStorage_, descriptor->storageSize_);
GPBFileSyntax syntax = descriptor.file.syntax;
// Loop over the fields doing fixup...
for (GPBFieldDescriptor *field in descriptor->fields_) {
if (GPBFieldIsMapOrArray(field)) {
id value = GPBGetObjectIvarWithFieldNoAutocreate(self, field);
if (value) {
// We need to copy the array/map, but the catch is for message fields,
// we also need to ensure all the messages as those need copying also.
id newValue;
if (GPBFieldDataTypeIsMessage(field)) {
if (field.fieldType == GPBFieldTypeRepeated) {
NSArray *existingArray = (NSArray *)value;
NSMutableArray *newArray =
[[NSMutableArray alloc] initWithCapacity:existingArray.count];
newValue = newArray;
for (GPBMessage *msg in existingArray) {
GPBMessage *copiedMsg = [msg copyWithZone:zone];
[newArray addObject:copiedMsg];
[copiedMsg release];
}
} else {
if (field.mapKeyDataType == GPBDataTypeString) {
// Map is an NSDictionary.
NSDictionary *existingDict = value;
NSMutableDictionary *newDict = [[NSMutableDictionary alloc]
initWithCapacity:existingDict.count];
newValue = newDict;
[existingDict enumerateKeysAndObjectsUsingBlock:^(NSString *key,
GPBMessage *msg,
BOOL *stop) {
#pragma unused(stop)
GPBMessage *copiedMsg = [msg copyWithZone:zone];
[newDict setObject:copiedMsg forKey:key];
[copiedMsg release];
}];
} else {
// Is one of the GPB*ObjectDictionary classes. Type doesn't
// matter, just need one to invoke the selector.
GPBInt32ObjectDictionary *existingDict = value;
newValue = [existingDict deepCopyWithZone:zone];
}
}
} else {
// Not messages (but is a map/array)...
if (field.fieldType == GPBFieldTypeRepeated) {
if (GPBFieldDataTypeIsObject(field)) {
// NSArray
newValue = [value mutableCopyWithZone:zone];
} else {
// GPB*Array
newValue = [value copyWithZone:zone];
}
} else {
if ((field.mapKeyDataType == GPBDataTypeString) &&
GPBFieldDataTypeIsObject(field)) {
// NSDictionary
newValue = [value mutableCopyWithZone:zone];
} else {
// Is one of the GPB*Dictionary classes. Type doesn't matter,
// just need one to invoke the selector.
GPBInt32Int32Dictionary *existingDict = value;