react-native/React/Executors/RCTJSCExecutor.m

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/**
* Copyright (c) 2015-present, Facebook, Inc.
* All rights reserved.
*
* This source code is licensed under the BSD-style license found in the
* LICENSE file in the root directory of this source tree. An additional grant
* of patent rights can be found in the PATENTS file in the same directory.
*/
#import "RCTJSCExecutor.h"
#import <pthread.h>
#import <JavaScriptCore/JavaScriptCore.h>
#import <UIKit/UIDevice.h>
#import "RCTAssert.h"
#import "RCTBridge+Private.h"
2015-04-21 12:26:51 +00:00
#import "RCTDefines.h"
#import "RCTDevMenu.h"
#import "RCTJavaScriptLoader.h"
#import "RCTLog.h"
#import "RCTProfile.h"
#import "RCTPerformanceLogger.h"
#import "RCTUtils.h"
#import "RCTJSCProfiler.h"
#import "RCTRedBox.h"
#import "RCTSourceCode.h"
NSString *const RCTJSCThreadName = @"com.facebook.react.JavaScript";
NSString *const RCTJavaScriptContextCreatedNotification = @"RCTJavaScriptContextCreatedNotification";
static NSString *const RCTJSCProfilerEnabledDefaultsKey = @"RCTJSCProfilerEnabled";
typedef struct ModuleData {
uint32_t offset;
uint32_t length;
uint32_t lineNo;
} ModuleData;
@interface RCTJavaScriptContext : NSObject <RCTInvalidating>
@property (nonatomic, strong, readonly) JSContext *context;
@property (nonatomic, assign, readonly) JSGlobalContextRef ctx;
- (instancetype)initWithJSContext:(JSContext *)context
onThread:(NSThread *)javaScriptThread NS_DESIGNATED_INITIALIZER;
@end
@implementation RCTJavaScriptContext
{
RCTJavaScriptContext *_selfReference;
NSThread *_javaScriptThread;
}
- (instancetype)initWithJSContext:(JSContext *)context
onThread:(NSThread *)javaScriptThread
{
if ((self = [super init])) {
_context = context;
_javaScriptThread = javaScriptThread;
/**
* Explicitly introduce a retain cycle here - The RCTJSCExecutor might
* be deallocated while there's still work enqueued in the JS thread, so
* we wouldn't be able kill the JSContext. Instead we create this retain
* cycle, and enqueue the -invalidate message in this object, it then
* releases the JSContext, breaks the cycle and stops the runloop.
*/
_selfReference = self;
}
return self;
}
RCT_NOT_IMPLEMENTED(-(instancetype)init)
- (JSGlobalContextRef)ctx
{
return _context.JSGlobalContextRef;
}
- (BOOL)isValid
{
return _context != nil;
}
- (void)invalidate
{
if (self.isValid) {
RCTAssertThread(_javaScriptThread, @"Must be invalidated on JS thread.");
_context = nil;
_selfReference = nil;
_javaScriptThread = nil;
CFRunLoopStop([[NSRunLoop currentRunLoop] getCFRunLoop]);
}
}
@end
@implementation RCTJSCExecutor
{
RCTJavaScriptContext *_context;
NSThread *_javaScriptThread;
FILE *_bundle;
JSStringRef _bundleURL;
CFMutableDictionaryRef _jsModules;
}
@synthesize valid = _valid;
@synthesize bridge = _bridge;
RCT_EXPORT_MODULE()
static NSString *RCTJSValueToNSString(JSContextRef context, JSValueRef value, JSValueRef *exception)
{
JSStringRef JSString = JSValueToStringCopy(context, value, exception);
if (!JSString) {
return nil;
}
CFStringRef string = JSStringCopyCFString(kCFAllocatorDefault, JSString);
JSStringRelease(JSString);
return (__bridge_transfer NSString *)string;
}
static NSString *RCTJSValueToJSONString(JSContextRef context, JSValueRef value, JSValueRef *exception, unsigned indent)
{
JSStringRef JSString = JSValueCreateJSONString(context, value, indent, exception);
CFStringRef string = JSStringCopyCFString(kCFAllocatorDefault, JSString);
JSStringRelease(JSString);
return (__bridge_transfer NSString *)string;
}
static NSError *RCTNSErrorFromJSError(JSContextRef context, JSValueRef jsError)
{
NSString *errorMessage = jsError ? RCTJSValueToNSString(context, jsError, NULL) : @"Unknown JS error";
NSString *details = jsError ? RCTJSValueToJSONString(context, jsError, NULL, 2) : @"No details";
return [NSError errorWithDomain:@"JS" code:1 userInfo:@{NSLocalizedDescriptionKey: errorMessage, NSLocalizedFailureReasonErrorKey: details}];
}
#if RCT_DEV
static void RCTInstallJSCProfiler(RCTBridge *bridge, JSContextRef context)
{
if (RCTJSCProfilerIsSupported()) {
[bridge.devMenu addItem:[RCTDevMenuItem toggleItemWithKey:RCTJSCProfilerEnabledDefaultsKey title:@"Start Profiling" selectedTitle:@"Stop Profiling" handler:^(BOOL shouldStart) {
if (shouldStart != RCTJSCProfilerIsProfiling(context)) {
if (shouldStart) {
RCTJSCProfilerStart(context);
} else {
NSString *outputFile = RCTJSCProfilerStop(context);
NSData *profileData = [NSData dataWithContentsOfFile:outputFile options:NSDataReadingMappedIfSafe error:NULL];
RCTProfileSendResult(bridge, @"cpu-profile", profileData);
}
}
}]];
}
}
#endif
+ (void)runRunLoopThread
{
@autoreleasepool {
// copy thread name to pthread name
pthread_setname_np([NSThread currentThread].name.UTF8String);
// Set up a dummy runloop source to avoid spinning
CFRunLoopSourceContext noSpinCtx = {0, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL};
CFRunLoopSourceRef noSpinSource = CFRunLoopSourceCreate(NULL, 0, &noSpinCtx);
CFRunLoopAddSource(CFRunLoopGetCurrent(), noSpinSource, kCFRunLoopDefaultMode);
CFRelease(noSpinSource);
// run the run loop
while (kCFRunLoopRunStopped != CFRunLoopRunInMode(kCFRunLoopDefaultMode, ((NSDate *)[NSDate distantFuture]).timeIntervalSinceReferenceDate, NO)) {
2015-03-26 16:44:58 +00:00
RCTAssert(NO, @"not reached assertion"); // runloop spun. that's bad.
}
}
}
- (instancetype)init
{
if (self = [super init]) {
_valid = YES;
_javaScriptThread = [[NSThread alloc] initWithTarget:[self class]
selector:@selector(runRunLoopThread)
object:nil];
_javaScriptThread.name = RCTJSCThreadName;
if ([_javaScriptThread respondsToSelector:@selector(setQualityOfService:)]) {
[_javaScriptThread setQualityOfService:NSOperationQualityOfServiceUserInteractive];
} else {
_javaScriptThread.threadPriority = [NSThread mainThread].threadPriority;
}
[_javaScriptThread start];
}
return self;
}
- (RCTJavaScriptContext *)context
{
RCTAssertThread(_javaScriptThread, @"Must be called on JS thread.");
if (!self.isValid) {
return nil;
}
if (!_context) {
JSContext *context = [JSContext new];
_context = [[RCTJavaScriptContext alloc] initWithJSContext:context onThread:_javaScriptThread];
}
return _context;
}
- (void)addSynchronousHookWithName:(NSString *)name usingBlock:(id)block
{
__weak RCTJSCExecutor *weakSelf = self;
[self executeBlockOnJavaScriptQueue:^{
weakSelf.context.context[name] = block;
}];
}
- (void)setUp
{
__weak RCTJSCExecutor *weakSelf = self;
[self addSynchronousHookWithName:@"noop" usingBlock:^{}];
[self addSynchronousHookWithName:@"nativeLoggingHook" usingBlock:^(NSString *message, NSNumber *logLevel) {
RCTLogLevel level = RCTLogLevelInfo;
if (logLevel) {
level = MAX(level, logLevel.integerValue);
}
_RCTLogJavaScriptInternal(level, message);
}];
[self addSynchronousHookWithName:@"nativeRequireModuleConfig" usingBlock:^NSString *(NSString *moduleName) {
RCTJSCExecutor *strongSelf = weakSelf;
if (!strongSelf.valid) {
return nil;
}
RCT_PROFILE_BEGIN_EVENT(0, @"nativeRequireModuleConfig", nil);
NSArray *config = [strongSelf->_bridge configForModuleName:moduleName];
NSString *result = config ? RCTJSONStringify(config, NULL) : nil;
RCT_PROFILE_END_EVENT(0, @"js_call,config", @{ @"moduleName": moduleName });
return result;
}];
[self addSynchronousHookWithName:@"nativeFlushQueueImmediate" usingBlock:^(NSArray<NSArray *> *calls){
RCTJSCExecutor *strongSelf = weakSelf;
if (!strongSelf.valid || !calls) {
return;
}
RCT_PROFILE_BEGIN_EVENT(0, @"nativeFlushQueueImmediate", nil);
[strongSelf->_bridge handleBuffer:calls batchEnded:NO];
RCT_PROFILE_END_EVENT(0, @"js_call", nil);
}];
[self addSynchronousHookWithName:@"nativePerformanceNow" usingBlock:^{
return @(CACurrentMediaTime() * 1000);
}];
#if RCT_DEV
if (RCTProfileIsProfiling()) {
// Cheating, since it's not a "hook", but meh
[self addSynchronousHookWithName:@"__RCTProfileIsProfiling" usingBlock:@YES];
}
CFMutableDictionaryRef cookieMap = CFDictionaryCreateMutable(NULL, 0, NULL, NULL);
[self addSynchronousHookWithName:@"nativeTraceBeginAsyncSection" usingBlock:^(uint64_t tag, NSString *name, NSUInteger cookie) {
NSUInteger newCookie = RCTProfileBeginAsyncEvent(tag, name, nil);
CFDictionarySetValue(cookieMap, (const void *)cookie, (const void *)newCookie);
}];
[self addSynchronousHookWithName:@"nativeTraceEndAsyncSection" usingBlock:^(uint64_t tag, NSString *name, NSUInteger cookie) {
NSUInteger newCookie = (NSUInteger)CFDictionaryGetValue(cookieMap, (const void *)cookie);
RCTProfileEndAsyncEvent(tag, @"js,async", newCookie, name, @"JS async", nil);
CFDictionaryRemoveValue(cookieMap, (const void *)cookie);
}];
[self addSynchronousHookWithName:@"nativeTraceBeginSection" usingBlock:^(NSNumber *tag, NSString *profileName){
static int profileCounter = 1;
if (!profileName) {
profileName = [NSString stringWithFormat:@"Profile %d", profileCounter++];
}
RCT_PROFILE_BEGIN_EVENT(tag.longLongValue, profileName, nil);
}];
[self addSynchronousHookWithName:@"nativeTraceEndSection" usingBlock:^(NSNumber *tag) {
RCT_PROFILE_END_EVENT(tag.longLongValue, @"console", nil);
}];
__weak RCTBridge *weakBridge = _bridge;
#ifndef __clang_analyzer__
_bridge.flowIDMap = CFDictionaryCreateMutable(NULL, 0, NULL, NULL);
#endif
_bridge.flowIDMapLock = [NSLock new];
[self addSynchronousHookWithName:@"nativeTraceBeginAsyncFlow" usingBlock:^(__unused uint64_t tag, __unused NSString *name, int64_t cookie) {
if (RCTProfileIsProfiling()) {
[weakBridge.flowIDMapLock lock];
int64_t newCookie = [_RCTProfileBeginFlowEvent() longLongValue];
CFDictionarySetValue(weakBridge.flowIDMap, (const void *)cookie, (const void *)newCookie);
[weakBridge.flowIDMapLock unlock];
}
}];
[self addSynchronousHookWithName:@"nativeTraceEndAsyncFlow" usingBlock:^(__unused uint64_t tag, __unused NSString *name, int64_t cookie) {
if (RCTProfileIsProfiling()) {
[weakBridge.flowIDMapLock lock];
int64_t newCookie = (int64_t)CFDictionaryGetValue(weakBridge.flowIDMap, (const void *)cookie);
_RCTProfileEndFlowEvent(@(newCookie));
CFDictionaryRemoveValue(weakBridge.flowIDMap, (const void *)cookie);
[weakBridge.flowIDMapLock unlock];
}
}];
[self executeBlockOnJavaScriptQueue:^{
RCTJSCExecutor *strongSelf = weakSelf;
if (!strongSelf.valid) {
return;
}
JSContext *context = strongSelf.context.context;
RCTInstallJSCProfiler(_bridge, context.JSGlobalContextRef);
[[NSNotificationCenter defaultCenter] postNotificationName:RCTJavaScriptContextCreatedNotification
object:context];
}];
for (NSString *event in @[RCTProfileDidStartProfiling, RCTProfileDidEndProfiling]) {
[[NSNotificationCenter defaultCenter] addObserver:self
selector:@selector(toggleProfilingFlag:)
name:event
object:nil];
}
// Inject handler used by HMR
[self addSynchronousHookWithName:@"nativeInjectHMRUpdate" usingBlock:^(NSString *sourceCode, NSString *sourceCodeURL) {
RCTJSCExecutor *strongSelf = weakSelf;
if (!strongSelf.valid) {
return;
}
JSStringRef execJSString = JSStringCreateWithUTF8CString(sourceCode.UTF8String);
JSStringRef jsURL = JSStringCreateWithUTF8CString(sourceCodeURL.UTF8String);
JSEvaluateScript(strongSelf->_context.ctx, execJSString, NULL, jsURL, 0, NULL);
JSStringRelease(jsURL);
JSStringRelease(execJSString);
}];
#endif
}
- (void)toggleProfilingFlag:(NSNotification *)notification
{
[self executeBlockOnJavaScriptQueue:^{
BOOL enabled = [notification.name isEqualToString:RCTProfileDidStartProfiling];
[_bridge enqueueJSCall:@"Systrace.setEnabled" args:@[enabled ? @YES : @NO]];
}];
}
- (void)invalidate
{
if (!self.isValid) {
return;
}
_valid = NO;
if (_jsModules) {
CFRelease(_jsModules);
fclose(_bundle);
}
#if RCT_DEV
[[NSNotificationCenter defaultCenter] removeObserver:self];
#endif
}
- (void)dealloc
{
[self invalidate];
[_context performSelector:@selector(invalidate)
onThread:_javaScriptThread
withObject:nil
waitUntilDone:NO];
_context = nil;
}
Decouple Module System from Native Calls Summary: The JavaScript ecosystem doesn't have the notion of a built-in native module loader. Even Node is decoupled from its module loader. The module loader system is just JS that runs on top of the global `process` object which has all the built-in goodies. Additionally there is no such thing as a global require. That is something unique to our providesModule system. In other module systems such as node, every require is contextual. Even registered npm names are localized by version. The only global namespace that is accessible to the host environment is the global object. Normally module systems attaches itself onto the hooks provided by the host environment on the global object. Currently, we have two forms of dispatch that reaches directly into the module system. executeJSCall which reaches directly into require. Everything now calls through the BatchedBridge module (except one RCTLog edge case that I will fix). I propose that the executors calls directly onto `BatchedBridge` through an instance on the global so that everything is guaranteed to go through it. It becomes the main communication hub. I also propose that we drop the dynamic requires inside of MessageQueue/BatchBridge and instead have the modules register themselves with the bridge. executeJSCall was originally modeled after the XHP equivalent. The XHP equivalent was designed that way because the act of doing the call was the thing that defined a dependency on the module from the page. However, that is not how React Native works. The JS side is driving the dependencies by virtue of requiring new modules and frameworks and the existence of dependencies is driven by the JS side, so this design doesn't make as much sense. The main driver for this is to be able to introduce a new module system like Prepack's module system. However, it also unlocks the possibility to do dead module elimination even in our current module system. It is currently not possible because we don't know which module might be called from native. Since the module system now becomes decoupled we could publish all our providesModule modules as npm/CommonJS modules using a rewrite script. That's what React Core does. That way people could use any CommonJS bundler such as Webpack, Closure Compiler, Rollup or some new innovation to create a JS bundle. This diff expands the executeJSCalls to the BatchedBridge's three individual pieces to make them first class instead of being dynamic. This removes one layer of abstraction. Hopefully we can also remove more of the things that register themselves with the BatchedBridge (various EventEmitters) and instead have everything go through the public protocol. ReactMethod/RCT_EXPORT_METHOD. public Reviewed By: vjeux Differential Revision: D2717535 fb-gh-sync-id: 70114f05483124f5ac5c4570422bb91a60a727f6
2015-12-08 23:57:34 +00:00
- (void)flushedQueue:(RCTJavaScriptCallback)onComplete
{
// TODO: Make this function handle first class instead of dynamically dispatching it. #9317773
[self _executeJSCall:@"flushedQueue" arguments:@[] callback:onComplete];
}
- (void)callFunctionOnModule:(NSString *)module
method:(NSString *)method
arguments:(NSArray *)args
callback:(RCTJavaScriptCallback)onComplete
{
// TODO: Make this function handle first class instead of dynamically dispatching it. #9317773
[self _executeJSCall:@"callFunctionReturnFlushedQueue" arguments:@[module, method, args] callback:onComplete];
}
- (void)invokeCallbackID:(NSNumber *)cbID
arguments:(NSArray *)args
callback:(RCTJavaScriptCallback)onComplete
{
// TODO: Make this function handle first class instead of dynamically dispatching it. #9317773
[self _executeJSCall:@"invokeCallbackAndReturnFlushedQueue" arguments:@[cbID, args] callback:onComplete];
}
- (void)_executeJSCall:(NSString *)method
arguments:(NSArray *)arguments
callback:(RCTJavaScriptCallback)onComplete
{
RCTAssert(onComplete != nil, @"onComplete block should not be nil");
__weak RCTJSCExecutor *weakSelf = self;
[self executeBlockOnJavaScriptQueue:RCTProfileBlock((^{
RCTJSCExecutor *strongSelf = weakSelf;
if (!strongSelf || !strongSelf.isValid) {
return;
}
NSError *error;
NSString *argsString = (arguments.count == 1) ? RCTJSONStringify(arguments[0], &error) : RCTJSONStringify(arguments, &error);
if (!argsString) {
RCTLogError(@"Cannot convert argument to string: %@", error);
onComplete(nil, error);
return;
}
JSValueRef errorJSRef = NULL;
JSValueRef resultJSRef = NULL;
JSGlobalContextRef contextJSRef = JSContextGetGlobalContext(strongSelf->_context.ctx);
JSObjectRef globalObjectJSRef = JSContextGetGlobalObject(strongSelf->_context.ctx);
Decouple Module System from Native Calls Summary: The JavaScript ecosystem doesn't have the notion of a built-in native module loader. Even Node is decoupled from its module loader. The module loader system is just JS that runs on top of the global `process` object which has all the built-in goodies. Additionally there is no such thing as a global require. That is something unique to our providesModule system. In other module systems such as node, every require is contextual. Even registered npm names are localized by version. The only global namespace that is accessible to the host environment is the global object. Normally module systems attaches itself onto the hooks provided by the host environment on the global object. Currently, we have two forms of dispatch that reaches directly into the module system. executeJSCall which reaches directly into require. Everything now calls through the BatchedBridge module (except one RCTLog edge case that I will fix). I propose that the executors calls directly onto `BatchedBridge` through an instance on the global so that everything is guaranteed to go through it. It becomes the main communication hub. I also propose that we drop the dynamic requires inside of MessageQueue/BatchBridge and instead have the modules register themselves with the bridge. executeJSCall was originally modeled after the XHP equivalent. The XHP equivalent was designed that way because the act of doing the call was the thing that defined a dependency on the module from the page. However, that is not how React Native works. The JS side is driving the dependencies by virtue of requiring new modules and frameworks and the existence of dependencies is driven by the JS side, so this design doesn't make as much sense. The main driver for this is to be able to introduce a new module system like Prepack's module system. However, it also unlocks the possibility to do dead module elimination even in our current module system. It is currently not possible because we don't know which module might be called from native. Since the module system now becomes decoupled we could publish all our providesModule modules as npm/CommonJS modules using a rewrite script. That's what React Core does. That way people could use any CommonJS bundler such as Webpack, Closure Compiler, Rollup or some new innovation to create a JS bundle. This diff expands the executeJSCalls to the BatchedBridge's three individual pieces to make them first class instead of being dynamic. This removes one layer of abstraction. Hopefully we can also remove more of the things that register themselves with the BatchedBridge (various EventEmitters) and instead have everything go through the public protocol. ReactMethod/RCT_EXPORT_METHOD. public Reviewed By: vjeux Differential Revision: D2717535 fb-gh-sync-id: 70114f05483124f5ac5c4570422bb91a60a727f6
2015-12-08 23:57:34 +00:00
// get the BatchedBridge object
JSStringRef moduleNameJSStringRef = JSStringCreateWithUTF8CString("__fbBatchedBridge");
JSValueRef moduleJSRef = JSObjectGetProperty(contextJSRef, globalObjectJSRef, moduleNameJSStringRef, &errorJSRef);
JSStringRelease(moduleNameJSStringRef);
Decouple Module System from Native Calls Summary: The JavaScript ecosystem doesn't have the notion of a built-in native module loader. Even Node is decoupled from its module loader. The module loader system is just JS that runs on top of the global `process` object which has all the built-in goodies. Additionally there is no such thing as a global require. That is something unique to our providesModule system. In other module systems such as node, every require is contextual. Even registered npm names are localized by version. The only global namespace that is accessible to the host environment is the global object. Normally module systems attaches itself onto the hooks provided by the host environment on the global object. Currently, we have two forms of dispatch that reaches directly into the module system. executeJSCall which reaches directly into require. Everything now calls through the BatchedBridge module (except one RCTLog edge case that I will fix). I propose that the executors calls directly onto `BatchedBridge` through an instance on the global so that everything is guaranteed to go through it. It becomes the main communication hub. I also propose that we drop the dynamic requires inside of MessageQueue/BatchBridge and instead have the modules register themselves with the bridge. executeJSCall was originally modeled after the XHP equivalent. The XHP equivalent was designed that way because the act of doing the call was the thing that defined a dependency on the module from the page. However, that is not how React Native works. The JS side is driving the dependencies by virtue of requiring new modules and frameworks and the existence of dependencies is driven by the JS side, so this design doesn't make as much sense. The main driver for this is to be able to introduce a new module system like Prepack's module system. However, it also unlocks the possibility to do dead module elimination even in our current module system. It is currently not possible because we don't know which module might be called from native. Since the module system now becomes decoupled we could publish all our providesModule modules as npm/CommonJS modules using a rewrite script. That's what React Core does. That way people could use any CommonJS bundler such as Webpack, Closure Compiler, Rollup or some new innovation to create a JS bundle. This diff expands the executeJSCalls to the BatchedBridge's three individual pieces to make them first class instead of being dynamic. This removes one layer of abstraction. Hopefully we can also remove more of the things that register themselves with the BatchedBridge (various EventEmitters) and instead have everything go through the public protocol. ReactMethod/RCT_EXPORT_METHOD. public Reviewed By: vjeux Differential Revision: D2717535 fb-gh-sync-id: 70114f05483124f5ac5c4570422bb91a60a727f6
2015-12-08 23:57:34 +00:00
if (moduleJSRef != NULL && errorJSRef == NULL && !JSValueIsUndefined(contextJSRef, moduleJSRef)) {
// get method
JSStringRef methodNameJSStringRef = JSStringCreateWithCFString((__bridge CFStringRef)method);
JSValueRef methodJSRef = JSObjectGetProperty(contextJSRef, (JSObjectRef)moduleJSRef, methodNameJSStringRef, &errorJSRef);
JSStringRelease(methodNameJSStringRef);
if (methodJSRef != NULL && errorJSRef == NULL && !JSValueIsUndefined(contextJSRef, methodJSRef)) {
Decouple Module System from Native Calls Summary: The JavaScript ecosystem doesn't have the notion of a built-in native module loader. Even Node is decoupled from its module loader. The module loader system is just JS that runs on top of the global `process` object which has all the built-in goodies. Additionally there is no such thing as a global require. That is something unique to our providesModule system. In other module systems such as node, every require is contextual. Even registered npm names are localized by version. The only global namespace that is accessible to the host environment is the global object. Normally module systems attaches itself onto the hooks provided by the host environment on the global object. Currently, we have two forms of dispatch that reaches directly into the module system. executeJSCall which reaches directly into require. Everything now calls through the BatchedBridge module (except one RCTLog edge case that I will fix). I propose that the executors calls directly onto `BatchedBridge` through an instance on the global so that everything is guaranteed to go through it. It becomes the main communication hub. I also propose that we drop the dynamic requires inside of MessageQueue/BatchBridge and instead have the modules register themselves with the bridge. executeJSCall was originally modeled after the XHP equivalent. The XHP equivalent was designed that way because the act of doing the call was the thing that defined a dependency on the module from the page. However, that is not how React Native works. The JS side is driving the dependencies by virtue of requiring new modules and frameworks and the existence of dependencies is driven by the JS side, so this design doesn't make as much sense. The main driver for this is to be able to introduce a new module system like Prepack's module system. However, it also unlocks the possibility to do dead module elimination even in our current module system. It is currently not possible because we don't know which module might be called from native. Since the module system now becomes decoupled we could publish all our providesModule modules as npm/CommonJS modules using a rewrite script. That's what React Core does. That way people could use any CommonJS bundler such as Webpack, Closure Compiler, Rollup or some new innovation to create a JS bundle. This diff expands the executeJSCalls to the BatchedBridge's three individual pieces to make them first class instead of being dynamic. This removes one layer of abstraction. Hopefully we can also remove more of the things that register themselves with the BatchedBridge (various EventEmitters) and instead have everything go through the public protocol. ReactMethod/RCT_EXPORT_METHOD. public Reviewed By: vjeux Differential Revision: D2717535 fb-gh-sync-id: 70114f05483124f5ac5c4570422bb91a60a727f6
2015-12-08 23:57:34 +00:00
// direct method invoke with no arguments
if (arguments.count == 0) {
resultJSRef = JSObjectCallAsFunction(contextJSRef, (JSObjectRef)methodJSRef, (JSObjectRef)moduleJSRef, 0, NULL, &errorJSRef);
}
Decouple Module System from Native Calls Summary: The JavaScript ecosystem doesn't have the notion of a built-in native module loader. Even Node is decoupled from its module loader. The module loader system is just JS that runs on top of the global `process` object which has all the built-in goodies. Additionally there is no such thing as a global require. That is something unique to our providesModule system. In other module systems such as node, every require is contextual. Even registered npm names are localized by version. The only global namespace that is accessible to the host environment is the global object. Normally module systems attaches itself onto the hooks provided by the host environment on the global object. Currently, we have two forms of dispatch that reaches directly into the module system. executeJSCall which reaches directly into require. Everything now calls through the BatchedBridge module (except one RCTLog edge case that I will fix). I propose that the executors calls directly onto `BatchedBridge` through an instance on the global so that everything is guaranteed to go through it. It becomes the main communication hub. I also propose that we drop the dynamic requires inside of MessageQueue/BatchBridge and instead have the modules register themselves with the bridge. executeJSCall was originally modeled after the XHP equivalent. The XHP equivalent was designed that way because the act of doing the call was the thing that defined a dependency on the module from the page. However, that is not how React Native works. The JS side is driving the dependencies by virtue of requiring new modules and frameworks and the existence of dependencies is driven by the JS side, so this design doesn't make as much sense. The main driver for this is to be able to introduce a new module system like Prepack's module system. However, it also unlocks the possibility to do dead module elimination even in our current module system. It is currently not possible because we don't know which module might be called from native. Since the module system now becomes decoupled we could publish all our providesModule modules as npm/CommonJS modules using a rewrite script. That's what React Core does. That way people could use any CommonJS bundler such as Webpack, Closure Compiler, Rollup or some new innovation to create a JS bundle. This diff expands the executeJSCalls to the BatchedBridge's three individual pieces to make them first class instead of being dynamic. This removes one layer of abstraction. Hopefully we can also remove more of the things that register themselves with the BatchedBridge (various EventEmitters) and instead have everything go through the public protocol. ReactMethod/RCT_EXPORT_METHOD. public Reviewed By: vjeux Differential Revision: D2717535 fb-gh-sync-id: 70114f05483124f5ac5c4570422bb91a60a727f6
2015-12-08 23:57:34 +00:00
// direct method invoke with 1 argument
else if(arguments.count == 1) {
JSStringRef argsJSStringRef = JSStringCreateWithCFString((__bridge CFStringRef)argsString);
JSValueRef argsJSRef = JSValueMakeFromJSONString(contextJSRef, argsJSStringRef);
resultJSRef = JSObjectCallAsFunction(contextJSRef, (JSObjectRef)methodJSRef, (JSObjectRef)moduleJSRef, 1, &argsJSRef, &errorJSRef);
JSStringRelease(argsJSStringRef);
Decouple Module System from Native Calls Summary: The JavaScript ecosystem doesn't have the notion of a built-in native module loader. Even Node is decoupled from its module loader. The module loader system is just JS that runs on top of the global `process` object which has all the built-in goodies. Additionally there is no such thing as a global require. That is something unique to our providesModule system. In other module systems such as node, every require is contextual. Even registered npm names are localized by version. The only global namespace that is accessible to the host environment is the global object. Normally module systems attaches itself onto the hooks provided by the host environment on the global object. Currently, we have two forms of dispatch that reaches directly into the module system. executeJSCall which reaches directly into require. Everything now calls through the BatchedBridge module (except one RCTLog edge case that I will fix). I propose that the executors calls directly onto `BatchedBridge` through an instance on the global so that everything is guaranteed to go through it. It becomes the main communication hub. I also propose that we drop the dynamic requires inside of MessageQueue/BatchBridge and instead have the modules register themselves with the bridge. executeJSCall was originally modeled after the XHP equivalent. The XHP equivalent was designed that way because the act of doing the call was the thing that defined a dependency on the module from the page. However, that is not how React Native works. The JS side is driving the dependencies by virtue of requiring new modules and frameworks and the existence of dependencies is driven by the JS side, so this design doesn't make as much sense. The main driver for this is to be able to introduce a new module system like Prepack's module system. However, it also unlocks the possibility to do dead module elimination even in our current module system. It is currently not possible because we don't know which module might be called from native. Since the module system now becomes decoupled we could publish all our providesModule modules as npm/CommonJS modules using a rewrite script. That's what React Core does. That way people could use any CommonJS bundler such as Webpack, Closure Compiler, Rollup or some new innovation to create a JS bundle. This diff expands the executeJSCalls to the BatchedBridge's three individual pieces to make them first class instead of being dynamic. This removes one layer of abstraction. Hopefully we can also remove more of the things that register themselves with the BatchedBridge (various EventEmitters) and instead have everything go through the public protocol. ReactMethod/RCT_EXPORT_METHOD. public Reviewed By: vjeux Differential Revision: D2717535 fb-gh-sync-id: 70114f05483124f5ac5c4570422bb91a60a727f6
2015-12-08 23:57:34 +00:00
} else {
// apply invoke with array of arguments
JSStringRef applyNameJSStringRef = JSStringCreateWithUTF8CString("apply");
JSValueRef applyJSRef = JSObjectGetProperty(contextJSRef, (JSObjectRef)methodJSRef, applyNameJSStringRef, &errorJSRef);
JSStringRelease(applyNameJSStringRef);
Decouple Module System from Native Calls Summary: The JavaScript ecosystem doesn't have the notion of a built-in native module loader. Even Node is decoupled from its module loader. The module loader system is just JS that runs on top of the global `process` object which has all the built-in goodies. Additionally there is no such thing as a global require. That is something unique to our providesModule system. In other module systems such as node, every require is contextual. Even registered npm names are localized by version. The only global namespace that is accessible to the host environment is the global object. Normally module systems attaches itself onto the hooks provided by the host environment on the global object. Currently, we have two forms of dispatch that reaches directly into the module system. executeJSCall which reaches directly into require. Everything now calls through the BatchedBridge module (except one RCTLog edge case that I will fix). I propose that the executors calls directly onto `BatchedBridge` through an instance on the global so that everything is guaranteed to go through it. It becomes the main communication hub. I also propose that we drop the dynamic requires inside of MessageQueue/BatchBridge and instead have the modules register themselves with the bridge. executeJSCall was originally modeled after the XHP equivalent. The XHP equivalent was designed that way because the act of doing the call was the thing that defined a dependency on the module from the page. However, that is not how React Native works. The JS side is driving the dependencies by virtue of requiring new modules and frameworks and the existence of dependencies is driven by the JS side, so this design doesn't make as much sense. The main driver for this is to be able to introduce a new module system like Prepack's module system. However, it also unlocks the possibility to do dead module elimination even in our current module system. It is currently not possible because we don't know which module might be called from native. Since the module system now becomes decoupled we could publish all our providesModule modules as npm/CommonJS modules using a rewrite script. That's what React Core does. That way people could use any CommonJS bundler such as Webpack, Closure Compiler, Rollup or some new innovation to create a JS bundle. This diff expands the executeJSCalls to the BatchedBridge's three individual pieces to make them first class instead of being dynamic. This removes one layer of abstraction. Hopefully we can also remove more of the things that register themselves with the BatchedBridge (various EventEmitters) and instead have everything go through the public protocol. ReactMethod/RCT_EXPORT_METHOD. public Reviewed By: vjeux Differential Revision: D2717535 fb-gh-sync-id: 70114f05483124f5ac5c4570422bb91a60a727f6
2015-12-08 23:57:34 +00:00
if (applyJSRef != NULL && errorJSRef == NULL) {
// invoke apply
JSStringRef argsJSStringRef = JSStringCreateWithCFString((__bridge CFStringRef)argsString);
JSValueRef argsJSRef = JSValueMakeFromJSONString(contextJSRef, argsJSStringRef);
Decouple Module System from Native Calls Summary: The JavaScript ecosystem doesn't have the notion of a built-in native module loader. Even Node is decoupled from its module loader. The module loader system is just JS that runs on top of the global `process` object which has all the built-in goodies. Additionally there is no such thing as a global require. That is something unique to our providesModule system. In other module systems such as node, every require is contextual. Even registered npm names are localized by version. The only global namespace that is accessible to the host environment is the global object. Normally module systems attaches itself onto the hooks provided by the host environment on the global object. Currently, we have two forms of dispatch that reaches directly into the module system. executeJSCall which reaches directly into require. Everything now calls through the BatchedBridge module (except one RCTLog edge case that I will fix). I propose that the executors calls directly onto `BatchedBridge` through an instance on the global so that everything is guaranteed to go through it. It becomes the main communication hub. I also propose that we drop the dynamic requires inside of MessageQueue/BatchBridge and instead have the modules register themselves with the bridge. executeJSCall was originally modeled after the XHP equivalent. The XHP equivalent was designed that way because the act of doing the call was the thing that defined a dependency on the module from the page. However, that is not how React Native works. The JS side is driving the dependencies by virtue of requiring new modules and frameworks and the existence of dependencies is driven by the JS side, so this design doesn't make as much sense. The main driver for this is to be able to introduce a new module system like Prepack's module system. However, it also unlocks the possibility to do dead module elimination even in our current module system. It is currently not possible because we don't know which module might be called from native. Since the module system now becomes decoupled we could publish all our providesModule modules as npm/CommonJS modules using a rewrite script. That's what React Core does. That way people could use any CommonJS bundler such as Webpack, Closure Compiler, Rollup or some new innovation to create a JS bundle. This diff expands the executeJSCalls to the BatchedBridge's three individual pieces to make them first class instead of being dynamic. This removes one layer of abstraction. Hopefully we can also remove more of the things that register themselves with the BatchedBridge (various EventEmitters) and instead have everything go through the public protocol. ReactMethod/RCT_EXPORT_METHOD. public Reviewed By: vjeux Differential Revision: D2717535 fb-gh-sync-id: 70114f05483124f5ac5c4570422bb91a60a727f6
2015-12-08 23:57:34 +00:00
JSValueRef args[2];
args[0] = JSValueMakeNull(contextJSRef);
args[1] = argsJSRef;
Decouple Module System from Native Calls Summary: The JavaScript ecosystem doesn't have the notion of a built-in native module loader. Even Node is decoupled from its module loader. The module loader system is just JS that runs on top of the global `process` object which has all the built-in goodies. Additionally there is no such thing as a global require. That is something unique to our providesModule system. In other module systems such as node, every require is contextual. Even registered npm names are localized by version. The only global namespace that is accessible to the host environment is the global object. Normally module systems attaches itself onto the hooks provided by the host environment on the global object. Currently, we have two forms of dispatch that reaches directly into the module system. executeJSCall which reaches directly into require. Everything now calls through the BatchedBridge module (except one RCTLog edge case that I will fix). I propose that the executors calls directly onto `BatchedBridge` through an instance on the global so that everything is guaranteed to go through it. It becomes the main communication hub. I also propose that we drop the dynamic requires inside of MessageQueue/BatchBridge and instead have the modules register themselves with the bridge. executeJSCall was originally modeled after the XHP equivalent. The XHP equivalent was designed that way because the act of doing the call was the thing that defined a dependency on the module from the page. However, that is not how React Native works. The JS side is driving the dependencies by virtue of requiring new modules and frameworks and the existence of dependencies is driven by the JS side, so this design doesn't make as much sense. The main driver for this is to be able to introduce a new module system like Prepack's module system. However, it also unlocks the possibility to do dead module elimination even in our current module system. It is currently not possible because we don't know which module might be called from native. Since the module system now becomes decoupled we could publish all our providesModule modules as npm/CommonJS modules using a rewrite script. That's what React Core does. That way people could use any CommonJS bundler such as Webpack, Closure Compiler, Rollup or some new innovation to create a JS bundle. This diff expands the executeJSCalls to the BatchedBridge's three individual pieces to make them first class instead of being dynamic. This removes one layer of abstraction. Hopefully we can also remove more of the things that register themselves with the BatchedBridge (various EventEmitters) and instead have everything go through the public protocol. ReactMethod/RCT_EXPORT_METHOD. public Reviewed By: vjeux Differential Revision: D2717535 fb-gh-sync-id: 70114f05483124f5ac5c4570422bb91a60a727f6
2015-12-08 23:57:34 +00:00
resultJSRef = JSObjectCallAsFunction(contextJSRef, (JSObjectRef)applyJSRef, (JSObjectRef)methodJSRef, 2, args, &errorJSRef);
JSStringRelease(argsJSStringRef);
}
}
} else {
if (!errorJSRef && JSValueIsUndefined(contextJSRef, methodJSRef)) {
error = RCTErrorWithMessage([NSString stringWithFormat:@"Unable to execute JS call: method %@ is undefined", method]);
}
}
} else {
if (!errorJSRef && JSValueIsUndefined(contextJSRef, moduleJSRef)) {
error = RCTErrorWithMessage(@"Unable to execute JS call: __fbBatchedBridge is undefined");
}
}
if (errorJSRef || error) {
if (!error) {
error = RCTNSErrorFromJSError(contextJSRef, errorJSRef);
}
onComplete(nil, error);
return;
}
// Looks like making lots of JSC API calls is slower than communicating by using a JSON
// string. Also it ensures that data stuctures don't have cycles and non-serializable fields.
// see [RCTJSCExecutorTests testDeserializationPerf]
id objcValue;
// We often return `null` from JS when there is nothing for native side. JSONKit takes an extra hundred microseconds
// to handle this simple case, so we are adding a shortcut to make executeJSCall method even faster
if (!JSValueIsNull(contextJSRef, resultJSRef)) {
JSStringRef jsJSONString = JSValueCreateJSONString(contextJSRef, resultJSRef, 0, nil);
if (jsJSONString) {
NSString *objcJSONString = (__bridge_transfer NSString *)JSStringCopyCFString(kCFAllocatorDefault, jsJSONString);
JSStringRelease(jsJSONString);
objcValue = RCTJSONParse(objcJSONString, NULL);
}
}
onComplete(objcValue, nil);
Decouple Module System from Native Calls Summary: The JavaScript ecosystem doesn't have the notion of a built-in native module loader. Even Node is decoupled from its module loader. The module loader system is just JS that runs on top of the global `process` object which has all the built-in goodies. Additionally there is no such thing as a global require. That is something unique to our providesModule system. In other module systems such as node, every require is contextual. Even registered npm names are localized by version. The only global namespace that is accessible to the host environment is the global object. Normally module systems attaches itself onto the hooks provided by the host environment on the global object. Currently, we have two forms of dispatch that reaches directly into the module system. executeJSCall which reaches directly into require. Everything now calls through the BatchedBridge module (except one RCTLog edge case that I will fix). I propose that the executors calls directly onto `BatchedBridge` through an instance on the global so that everything is guaranteed to go through it. It becomes the main communication hub. I also propose that we drop the dynamic requires inside of MessageQueue/BatchBridge and instead have the modules register themselves with the bridge. executeJSCall was originally modeled after the XHP equivalent. The XHP equivalent was designed that way because the act of doing the call was the thing that defined a dependency on the module from the page. However, that is not how React Native works. The JS side is driving the dependencies by virtue of requiring new modules and frameworks and the existence of dependencies is driven by the JS side, so this design doesn't make as much sense. The main driver for this is to be able to introduce a new module system like Prepack's module system. However, it also unlocks the possibility to do dead module elimination even in our current module system. It is currently not possible because we don't know which module might be called from native. Since the module system now becomes decoupled we could publish all our providesModule modules as npm/CommonJS modules using a rewrite script. That's what React Core does. That way people could use any CommonJS bundler such as Webpack, Closure Compiler, Rollup or some new innovation to create a JS bundle. This diff expands the executeJSCalls to the BatchedBridge's three individual pieces to make them first class instead of being dynamic. This removes one layer of abstraction. Hopefully we can also remove more of the things that register themselves with the BatchedBridge (various EventEmitters) and instead have everything go through the public protocol. ReactMethod/RCT_EXPORT_METHOD. public Reviewed By: vjeux Differential Revision: D2717535 fb-gh-sync-id: 70114f05483124f5ac5c4570422bb91a60a727f6
2015-12-08 23:57:34 +00:00
}), 0, @"js_call", (@{@"method": method, @"args": arguments}))];
}
- (void)executeApplicationScript:(NSData *)script
2015-04-19 19:55:46 +00:00
sourceURL:(NSURL *)sourceURL
onComplete:(RCTJavaScriptCompleteBlock)onComplete
{
RCTAssertParam(script);
RCTAssertParam(sourceURL);
2015-04-19 19:55:46 +00:00
// The RAM bundle has a magic number in the 4 first bytes `(0xFB0BD1E5)`.
uint32_t magicNumber = NSSwapLittleIntToHost(*((uint32_t *)script.bytes));
BOOL isRAMBundle = magicNumber == RCTRAMBundleMagicNumber;
if (isRAMBundle) {
NSError *error;
script = [self loadRAMBundle:sourceURL error:&error];
if (error) {
if (onComplete) {
onComplete(error);
}
return;
}
} else {
// JSStringCreateWithUTF8CString expects a null terminated C string.
// RAM Bundling already provides a null terminated one.
NSMutableData *nullTerminatedScript = [NSMutableData dataWithCapacity:script.length + 1];
[nullTerminatedScript appendData:script];
[nullTerminatedScript appendBytes:"" length:1];
script = nullTerminatedScript;
}
_bundleURL = JSStringCreateWithUTF8CString(sourceURL.absoluteString.UTF8String);
__weak RCTJSCExecutor *weakSelf = self;
[self executeBlockOnJavaScriptQueue:RCTProfileBlock((^{
RCTJSCExecutor *strongSelf = weakSelf;
if (!strongSelf || !strongSelf.isValid) {
return;
}
RCTPerformanceLoggerStart(RCTPLScriptExecution);
JSValueRef jsError = NULL;
JSStringRef execJSString = JSStringCreateWithUTF8CString(script.bytes);
JSValueRef result = JSEvaluateScript(strongSelf->_context.ctx, execJSString, NULL, _bundleURL, 0, &jsError);
JSStringRelease(execJSString);
RCTPerformanceLoggerEnd(RCTPLScriptExecution);
2015-04-19 19:55:46 +00:00
if (onComplete) {
NSError *error;
if (!result) {
error = RCTNSErrorFromJSError(strongSelf->_context.ctx, jsError);
}
onComplete(error);
}
}), 0, @"js_call", (@{ @"url": sourceURL.absoluteString }))];
}
- (void)executeBlockOnJavaScriptQueue:(dispatch_block_t)block
{
if ([NSThread currentThread] != _javaScriptThread) {
[self performSelector:@selector(executeBlockOnJavaScriptQueue:)
onThread:_javaScriptThread withObject:block waitUntilDone:NO];
} else {
block();
}
2015-04-28 15:02:56 +00:00
}
- (void)executeAsyncBlockOnJavaScriptQueue:(dispatch_block_t)block
{
[self performSelector:@selector(executeBlockOnJavaScriptQueue:)
onThread:_javaScriptThread
withObject:block
waitUntilDone:NO];
}
- (void)injectJSONText:(NSString *)script
asGlobalObjectNamed:(NSString *)objectName
callback:(RCTJavaScriptCompleteBlock)onComplete
{
2015-04-21 12:26:51 +00:00
if (RCT_DEBUG) {
RCTAssert(RCTJSONParse(script, NULL) != nil, @"%@ wasn't valid JSON!", script);
}
__weak RCTJSCExecutor *weakSelf = self;
[self executeBlockOnJavaScriptQueue:RCTProfileBlock((^{
RCTJSCExecutor *strongSelf = weakSelf;
if (!strongSelf || !strongSelf.isValid) {
return;
}
JSStringRef execJSString = JSStringCreateWithCFString((__bridge CFStringRef)script);
JSValueRef valueToInject = JSValueMakeFromJSONString(strongSelf->_context.ctx, execJSString);
JSStringRelease(execJSString);
if (!valueToInject) {
NSString *errorDesc = [NSString stringWithFormat:@"Can't make JSON value from script '%@'", script];
RCTLogError(@"%@", errorDesc);
2015-04-19 19:55:46 +00:00
if (onComplete) {
NSError *error = [NSError errorWithDomain:@"JS" code:2 userInfo:@{NSLocalizedDescriptionKey: errorDesc}];
onComplete(error);
}
return;
}
JSObjectRef globalObject = JSContextGetGlobalObject(strongSelf->_context.ctx);
JSStringRef JSName = JSStringCreateWithCFString((__bridge CFStringRef)objectName);
JSObjectSetProperty(strongSelf->_context.ctx, globalObject, JSName, valueToInject, kJSPropertyAttributeNone, NULL);
JSStringRelease(JSName);
2015-04-19 19:55:46 +00:00
if (onComplete) {
onComplete(nil);
}
}), 0, @"js_call,json_call", (@{@"objectName": objectName}))];
}
static int streq(const char *a, const char *b)
{
return strcmp(a, b) == 0;
}
static void freeModule(__unused CFAllocatorRef allocator, void *ptr)
{
free(ptr);
}
static uint32_t readUint32(const void **ptr) {
uint32_t data;
memcpy(&data, *ptr, sizeof(uint32_t));
data = NSSwapLittleIntToHost(data);
*ptr += sizeof(uint32_t);
return data;
}
static int readBundle(FILE *fd, size_t offset, size_t length, void *ptr) {
if (fseek(fd, offset, SEEK_SET) != 0) {
return 1;
}
if (fread(ptr, sizeof(uint8_t), length, fd) != length) {
return 1;
}
return 0;
}
- (void)registerNativeRequire
{
RCTPerformanceLoggerSet(RCTPLRAMNativeRequiresCount, 0);
RCTPerformanceLoggerSet(RCTPLRAMNativeRequiresSize, 0);
__weak RCTJSCExecutor *weakSelf = self;
[self addSynchronousHookWithName:@"nativeRequire" usingBlock:^(NSString *moduleName) {
RCTJSCExecutor *strongSelf = weakSelf;
if (!strongSelf || !moduleName) {
return;
}
RCT_PROFILE_BEGIN_EVENT(0, [@"nativeRequire_" stringByAppendingString:moduleName], nil);
ModuleData *data = (ModuleData *)CFDictionaryGetValue(strongSelf->_jsModules, moduleName.UTF8String);
char bytes[data->length];
if (readBundle(strongSelf->_bundle, data->offset, data->length, bytes) != 0) {
RCTFatal(RCTErrorWithMessage(@"Error loading RAM module"));
return;
}
JSStringRef code = JSStringCreateWithUTF8CString(bytes);
JSValueRef jsError = NULL;
JSValueRef result = JSEvaluateScript(strongSelf->_context.ctx, code, NULL, strongSelf->_bundleURL, data->lineNo, NULL);
CFDictionaryRemoveValue(strongSelf->_jsModules, moduleName.UTF8String);
JSStringRelease(code);
RCT_PROFILE_END_EVENT(0, @"js_call", nil);
RCTPerformanceLoggerAdd(RCTPLRAMNativeRequiresCount, 1);
RCTPerformanceLoggerAdd(RCTPLRAMNativeRequiresSize, data->length);
if (!result) {
dispatch_async(dispatch_get_main_queue(), ^{
RCTFatal(RCTNSErrorFromJSError(strongSelf->_context.ctx, jsError));
[strongSelf invalidate];
});
}
}];
}
- (NSData *)loadRAMBundle:(NSURL *)sourceURL error:(NSError **)error
{
RCTPerformanceLoggerStart(RCTPLRAMBundleLoad);
_bundle = fopen(sourceURL.path.UTF8String, "r");
if (!_bundle) {
if (error) {
*error = RCTErrorWithMessage([NSString stringWithFormat:@"Bundle %@ cannot be opened: %d", sourceURL.path, errno]);
}
return nil;
}
[self registerNativeRequire];
// once a module has been loaded free its space from the heap, remove it from the index and release the module name
CFDictionaryKeyCallBacks keyCallbacks = { 0, NULL, (CFDictionaryReleaseCallBack)freeModule, NULL, (CFDictionaryEqualCallBack)streq, (CFDictionaryHashCallBack)strlen };
CFDictionaryValueCallBacks valueCallbacks = { 0, NULL, (CFDictionaryReleaseCallBack)freeModule, NULL, NULL };
_jsModules = CFDictionaryCreateMutable(NULL, 0, &keyCallbacks, &valueCallbacks);
uint32_t currentOffset = sizeof(uint32_t); // skip magic number
uint32_t tableLength;
if (readBundle(_bundle, currentOffset, sizeof(tableLength), &tableLength) != 0) {
if (error) {
*error = RCTErrorWithMessage(@"Error loading RAM Bundle");
}
return nil;
}
tableLength = NSSwapLittleIntToHost(tableLength);
currentOffset += sizeof(uint32_t); // skip table length
// base offset to add to every module's offset to skip the header of the RAM bundle
uint32_t baseOffset = 4 + tableLength;
char tableStart[tableLength];
if (readBundle(_bundle, currentOffset, tableLength, tableStart) != 0) {
if (error) {
*error = RCTErrorWithMessage(@"Error loading RAM Bundle");
}
return nil;
}
void *tableCursor = tableStart;
void *endOfTable = tableCursor + tableLength;
while (tableCursor < endOfTable) {
uint32_t nameLength = strlen((const char *)tableCursor);
char *name = malloc(nameLength + 1);
if (!name) {
if (error) {
*error = RCTErrorWithMessage(@"Error loading RAM Bundle");
}
return nil;
}
strcpy(name, tableCursor);
// the space allocated for each module's metada gets freed when the module is injected into JSC on `nativeRequire`
ModuleData *moduleData = malloc(sizeof(ModuleData));
tableCursor += nameLength + 1; // null byte terminator
moduleData->offset = baseOffset + readUint32((const void **)&tableCursor);
moduleData->length = readUint32((const void **)&tableCursor);
moduleData->lineNo = readUint32((const void **)&tableCursor);
CFDictionarySetValue(_jsModules, name, moduleData);
}
ModuleData *startupData = ((ModuleData *)CFDictionaryGetValue(_jsModules, ""));
void *startupCode;
if (!(startupCode = malloc(startupData->length))) {
if (error) {
*error = RCTErrorWithMessage(@"Error loading RAM Bundle");
}
return nil;
}
if (readBundle(_bundle, startupData->offset, startupData->length, startupCode) != 0) {
if (error) {
*error = RCTErrorWithMessage(@"Error loading RAM Bundle");
}
free(startupCode);
return nil;
}
RCTPerformanceLoggerEnd(RCTPLRAMBundleLoad);
RCTPerformanceLoggerSet(RCTPLRAMStartupCodeSize, startupData->length);
return [NSData dataWithBytesNoCopy:startupCode length:startupData->length freeWhenDone:YES];
}
RCT_EXPORT_METHOD(setContextName:(nonnull NSString *)name)
{
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wtautological-pointer-compare"
if (JSGlobalContextSetName != NULL) {
#pragma clang diagnostic pop
JSStringRef JSName = JSStringCreateWithCFString((__bridge CFStringRef)name);
JSGlobalContextSetName(_context.ctx, JSName);
JSStringRelease(JSName);
}
}
@end