美文网首页
objc_msgSend-慢速查找流程

objc_msgSend-慢速查找流程

作者: 伍骁辛 | 来源:发表于2021-05-17 15:39 被阅读0次

    objc_msgSend-快速查找流程中我们讲到,objc_msgSend首先通过汇编快速查找方法缓存,如果找到,调用TailCallCachedImp直接将方法缓存起来然后进行调用就可以了,如果查找不到就跳到CheckMiss,然后走慢速查找流程。接下来我们分析一下objc_msgSend慢速查找流程。

    objc_msgSend查找流程:

    • 获取传入对象所属的类
    • 获取该类的方法缓存表
    • 使用传入的sel选择器在缓存中查询
    • 如果缓存中不存在,则开始慢速查找流程
    • 慢速查找流程,找到后,跳转到IMP映射位置的方法

    objc_msgSend-快速查找流程中我们分析了,先通过GetClassFromIsa_p16获取到传入对象所属的类,然后通过CacheLookup在方法缓存表中查找,如果缓存命中则走CacheHit方法,缓存没命中走CheckMiss方法。

    一、CheckMiss 方法

      .macro CheckMiss
    // miss if bucket->sel == 0
    .if $0 == GETIMP
    cbz p9, LGetImpMiss
    .elseif $0 == NORMAL //传进来的是NORMAL,所以走这里
    cbz p9, __objc_msgSend_uncached
    .elseif $0 == LOOKUP
    cbz p9, __objc_msgLookup_uncached
    .else
    .abort oops
    .endif
    .endmacro
    

    传进来的是NORMAL,所以会走到 __objc_msgSend_uncached 方法

    二、__objc_msgSend_uncached 方法

    STATIC_ENTRY __objc_msgSend_uncached
    UNWIND __objc_msgSend_uncached, FrameWithNoSaves
    
    // THIS IS NOT A CALLABLE C FUNCTION
    // Out-of-band p16 is the class to search
    
    MethodTableLookup
    TailCallFunctionPointer x17
    
    END_ENTRY __objc_msgSend_uncached
    

    紧接着又会来到 MethodTableLookup 方法

    三、MethodTableLookup 方法

    .macro MethodTableLookup
    
    // push frame
    SignLR
    stp fp, lr, [sp, #-16]!
    mov fp, sp
    
    // save parameter registers: x0..x8, q0..q7
    sub sp, sp, #(10*8 + 8*16)
    stp q0, q1, [sp, #(0*16)]
    stp q2, q3, [sp, #(2*16)]
    stp q4, q5, [sp, #(4*16)]
    stp q6, q7, [sp, #(6*16)]
    stp x0, x1, [sp, #(8*16+0*8)]
    stp x2, x3, [sp, #(8*16+2*8)]
    stp x4, x5, [sp, #(8*16+4*8)]
    stp x6, x7, [sp, #(8*16+6*8)]
    str x8,     [sp, #(8*16+8*8)]
    
    // lookUpImpOrForward(obj, sel, cls, LOOKUP_INITIALIZE | LOOKUP_RESOLVER)
    // receiver and selector already in x0 and x1
    mov x2, x16
    mov x3, #3
    bl  _lookUpImpOrForward
    
    // IMP in x0
    mov x17, x0
    
    // restore registers and return
    ldp q0, q1, [sp, #(0*16)]
    ldp q2, q3, [sp, #(2*16)]
    ldp q4, q5, [sp, #(4*16)]
    ldp q6, q7, [sp, #(6*16)]
    ldp x0, x1, [sp, #(8*16+0*8)]
    ldp x2, x3, [sp, #(8*16+2*8)]
    ldp x4, x5, [sp, #(8*16+4*8)]
    ldp x6, x7, [sp, #(8*16+6*8)]
    ldr x8,     [sp, #(8*16+8*8)]
    
    mov sp, fp
    ldp fp, lr, [sp], #16
    AuthenticateLR
    
    .endmacro
    

    接着又会来到 lookUpImpOrForward 方法

    四、lookUpImpOrForward 方法

    IMP lookUpImpOrForward(id inst, SEL sel, Class cls, int behavior)
    {
    const IMP forward_imp = (IMP)_objc_msgForward_impcache;
    IMP imp = nil;
    Class curClass;
    
    runtimeLock.assertUnlocked();
    
    // Optimistic cache lookup
    if (fastpath(behavior & LOOKUP_CACHE)) {
        imp = cache_getImp(cls, sel);
        if (imp) goto done_nolock;
    }
    
    runtimeLock.lock();
    
    
    // TODO: this check is quite costly during process startup.
    checkIsKnownClass(cls);
    
    if (slowpath(!cls->isRealized())) {
        cls = realizeClassMaybeSwiftAndLeaveLocked(cls, runtimeLock);
        // runtimeLock may have been dropped but is now locked again
    }
    
    if (slowpath((behavior & LOOKUP_INITIALIZE) && !cls->isInitialized())) {
        cls = initializeAndLeaveLocked(cls, inst, runtimeLock);
    
    }
    
    runtimeLock.assertLocked();
    curClass = cls;
    
    for (unsigned attempts = unreasonableClassCount();;) {
        // curClass method list.
        Method meth = getMethodNoSuper_nolock(curClass, sel);
        if (meth) {
            imp = meth->imp;
            goto done;
        }
    
        if (slowpath((curClass = curClass->superclass) == nil)) {
            imp = forward_imp;
            break;
        }
    
        // Halt if there is a cycle in the superclass chain.
        if (slowpath(--attempts == 0)) {
            _objc_fatal("Memory corruption in class list.");
        }
    
        // Superclass cache.
        imp = cache_getImp(curClass, sel); // 有问题???? cache_getImp - lookup - lookUpImpOrForward
        if (slowpath(imp == forward_imp)) {
            break;
        }
        if (fastpath(imp)) {
            goto done;
        }
    }
    
    if (slowpath(behavior & LOOKUP_RESOLVER)) {
        behavior ^= LOOKUP_RESOLVER;
        return resolveMethod_locked(inst, sel, cls, behavior);
    }
    
     done:
    log_and_fill_cache(cls, imp, sel, inst, curClass);
    runtimeLock.unlock();
    done_nolock:
    if (slowpath((behavior & LOOKUP_NIL) && imp == forward_imp)) {
        return nil;
    }
    return imp;
    }
    
    4.1 判断缓存是否存在,存在则直接通过cls和sel直接获取imp,并返回。
    if (fastpath(behavior & LOOKUP_CACHE)) {
       imp = cache_getImp(cls, sel);
       if (imp) goto done_nolock;
     }
    
    4.2 相关类信息判断
    • 根据所有已知类的列表检查给定的类,有问题直接内部抛出异常。

    • 判断类是否已经被实现,未实现则去实现,这部分后面类的加载篇章会详细分析,主要是按照superclass和isa走向去递归实现父类和元类,同时准备好对象方法和类方法的查找链。

    • 判断类是否被初始化,未初始化则去初始化。

      checkIsKnownClass(cls);
      
      if (slowpath(!cls->isRealized())) {
       cls = realizeClassMaybeSwiftAndLeaveLocked(cls, runtimeLock);
      }
      
      if (slowpath((behavior & LOOKUP_INITIALIZE) && !cls->isInitialized())) {
      cls = initializeAndLeaveLocked(cls, inst, runtimeLock);
      }
      
    4.3 查找本类的方法列表
    4.3.1 利用 getMethodNoSuper_nolock 查找本类的方法列表,如果找到了,进入 goto done;
    4.3.2 getMethodNoSuper_nolock 方法

    调用调用 search_method_list_inline 方法 对本类方法列表进行查找

    static method_t *
    getMethodNoSuper_nolock(Class cls, SEL sel)
    {
    runtimeLock.assertLocked();
    
    ASSERT(cls->isRealized());
    // fixme nil cls? 
    // fixme nil sel?
    
    auto const methods = cls->data()->methods();
    for (auto mlists = methods.beginLists(),
              end = methods.endLists();
         mlists != end;
         ++mlists)
    {
        // <rdar://problem/46904873> getMethodNoSuper_nolock is the hottest
        // caller of search_method_list, inlining it turns
        // getMethodNoSuper_nolock into a frame-less function and eliminates
        // any store from this codepath.
        method_t *m = search_method_list_inline(*mlists, sel);
        if (m) return m;
    }
    
    return nil;
    }
    
    4.3.3 search_method_list_inline 方法

    调用 findMethodInSortedMethodList 方法 对本类方法列表进行二分查找

    search_method_list_inline(const method_list_t *mlist, SEL sel)
    {
    int methodListIsFixedUp = mlist->isFixedUp();
    int methodListHasExpectedSize = mlist->entsize() == sizeof(method_t);
    
    if (fastpath(methodListIsFixedUp && methodListHasExpectedSize)) {
        return findMethodInSortedMethodList(sel, mlist);
    } else {
        // Linear search of unsorted method list
        for (auto& meth : *mlist) {
            if (meth.name == sel) return &meth;
        }
    }
    
    #if DEBUG
    // sanity-check negative results
    if (mlist->isFixedUp()) {
        for (auto& meth : *mlist) {
            if (meth.name == sel) {
                _objc_fatal("linear search worked when binary search did not");
            }
        }
    }
    #endif
    
     return nil;
    }
    
    4.3.4 findMethodInSortedMethodList 方法

    对本类方法列表进行二分查找

      findMethodInSortedMethodList(SEL key, const method_list_t *list)
     {
    ASSERT(list);
    
    const method_t * const first = &list->first;
    const method_t *base = first;
    const method_t *probe;
    uintptr_t keyValue = (uintptr_t)key;
    uint32_t count;
    
    for (count = list->count; count != 0; count >>= 1) {
        probe = base + (count >> 1);
        
        uintptr_t probeValue = (uintptr_t)probe->name;
        
        if (keyValue == probeValue) {
            // `probe` is a match.
            // Rewind looking for the *first* occurrence of this value.
            // This is required for correct category overrides.
            while (probe > first && keyValue == (uintptr_t)probe[-1].name) {
                probe--;
            }
            return (method_t *)probe;
        }
        
          if (keyValue > probeValue) {
             base = probe + 1;
             count--;
          }
        }
    
      return nil;
    }
    
    4.4 done 方法
    • 如果找到了,进入本方法,调用 log_and_fill_cache 方法

      done:
      log_and_fill_cache(cls, imp, sel, inst, curClass);
      runtimeLock.unlock();
      
    4.5 log_and_fill_cache 方法
    • 利用 cache_fill 方法 写入到缓存里面,为了下次直接从缓存里面快速查找到。

       static void
       log_and_fill_cache(Class cls, IMP imp, SEL sel, id receiver, Class implementer)
      {
        #if SUPPORT_MESSAGE_LOGGING
        if (slowpath(objcMsgLogEnabled && implementer)) {
        bool cacheIt = logMessageSend(implementer->isMetaClass(), 
                                      cls->nameForLogging(),
                                      implementer->nameForLogging(), 
                                      sel);
        if (!cacheIt) return;
       }
       #endif
       // objc_msgSend -> 二分查找自己 -> cache_fill -> objc_msgSend
       //
       cache_fill(cls, sel, imp, receiver);
      }
      
    4.6 递归查找父类的缓存
    4.6.1 查找本类的方法列表 如果找不到,就递归查找父类的缓存
    • 调用 cache_getImp 方法 找到父类

      // Superclass cache.
      imp = cache_getImp(curClass, sel); // 有问题???? cache_getImp -     lookUpImpOrForward
      
    • cache_getImp 方法

      STATIC_ENTRY _cache_getImp
      
      GetClassFromIsa_p16 p0
      CacheLookup GETIMP, _cache_getImp
      
      LGetImpMiss:
       mov  p0, #0
       ret
      
       END_ENTRY _cache_getImp
      
    4.7 递归父类缓存查找不到,利用 imp = forward_imp
    if (slowpath((curClass = curClass->superclass) == nil)) {
    // No implementation found, and method resolver didn't help.
    // Use forwarding.
    imp = forward_imp;
    break;
    }
    if (slowpath(imp == forward_imp)) {
    // Found a forward:: entry in a superclass.
    // Stop searching, but don't cache yet; call method
    // resolver for this class first.
    break;
    }
    
    4.7.1 forward_imp
    • const IMP forward_imp = (IMP)_objc_msgForward_impcache;
    4.7.2 _objc_msgForward_impcache
    • _objc_msgForward_impcache 方法 调用 __objc_msgForward 方法

    • __objc_msgForward 方法 调用 TailCallFunctionPointer x17

      STATIC_ENTRY __objc_msgForward_impcache
      
      // No stret specialization.
      b  __objc_msgForward
      
      END_ENTRY __objc_msgForward_impcache
      
      
      ENTRY __objc_msgForward
      
      adrp  x17, __objc_forward_handler@PAGE
      ldr  p17, [x17, __objc_forward_handler@PAGEOFF]
      TailCallFunctionPointer x17
      
      END_ENTRY __objc_msgForward
      
    4.7.3 TailCallFunctionPointer 方法

    TailCallFunctionPointer 方法 就是返回指针的值,返回 x17 的值,x17 的值是 __objc_forward_handler 方法 确定的

    .macro TailCallFunctionPointer
    // $0 = function pointer value
    braaz   $0
    .endmacro
    
    4.7.4 __objc_forward_handler 方法
     objc_defaultForwardHandler(id self, SEL sel)
    {
       _objc_fatal("%c[%s %s]: unrecognized selector sent to instance %p "
                "(no message forward handler is installed)", 
                class_isMetaClass(object_getClass(self)) ? '+' : '-', 
                object_getClassName(self), sel_getName(sel), self);
    }
    void *_objc_forward_handler = (void*)objc_defaultForwardHandler;
    

    如果方法没有实现,imp 会置换成 forward_imp , forward_imp 最终会走到 __objc_forward_handler 方法 返回 unrecognized selector sent to instance ... 信息,我们查看一下方法没有实现的报错信息会发现,报错信息的模板原来在这。

    Terminating app due to uncaught exception 'NSInvalidArgumentException', reason: '-[LGPerson say666]: unrecognized selector sent to instance 0x1007738f0'
    

    4.8 动态方法决议

    在4.7中将 imp 置换成 forward_imp 后,会 break 跳出循环,走到动态方法决议这里:

     if (slowpath(behavior & LOOKUP_RESOLVER)) {
        behavior ^= LOOKUP_RESOLVER;
        return resolveMethod_locked(inst, sel, cls, behavior);
     }
    
    4.8.1 resolveMethod_locked 方法
    resolveMethod_locked(id inst, SEL sel, Class cls, int behavior)
    {
    runtimeLock.assertLocked();
    ASSERT(cls->isRealized());
    // 方法没有你怎么不知道
    // 报错
    // 给你一次机会
    runtimeLock.unlock();
    
    if (! cls->isMetaClass()) {
        // try [cls resolveInstanceMethod:sel]
        resolveInstanceMethod(inst, sel, cls);
    } 
    else {
        // try [nonMetaClass resolveClassMethod:sel]
        // and [cls resolveInstanceMethod:sel]
        resolveClassMethod(inst, sel, cls);
        if (!lookUpImpOrNil(inst, sel, cls)) {
            resolveInstanceMethod(inst, sel, cls);
        }
    }
    
    // chances are that calling the resolver have populated the cache
    // so attempt using it
    return lookUpImpOrForward(inst, sel, cls, behavior | LOOKUP_CACHE);
    }
    
    4.8.2 resolveInstanceMethod 方法`
    • 我们发现在 resolveInstanceMethod 方法 中将 IMP imp = lookUpImpOrNil(inst, sel, cls); ,所以我们跳进 lookUpImpOrNil 方法 看一下会发现又回到了 lookUpImpOrForward 方法 ,那对之前做了什么产生了好奇。

    • 往上走我们发现有下面两行代码
      BOOL (*msg)(Class, SEL, SEL) = (typeof(msg))objc_msgSend; bool resolved = msg(cls, resolve_sel, sel);

    • 如果我们实现 resolveInstanceMethod 方法 将方法的 imp 进行赋值,然后再回到 lookUpImpOrForward 方法 之后 imp 有值,就不会报错了。

      static void resolveInstanceMethod(id inst, SEL sel, Class cls)
      {
      runtimeLock.assertUnlocked();
      ASSERT(cls->isRealized());
      SEL resolve_sel = @selector(resolveInstanceMethod:);
      
       if (!lookUpImpOrNil(cls, resolve_sel, cls->ISA())) {
        // Resolver not implemented.
        return;
       }
      
       BOOL (*msg)(Class, SEL, SEL) = (typeof(msg))objc_msgSend;
       bool resolved = msg(cls, resolve_sel, sel);
      
       // Cache the result (good or bad) so the resolver doesn't fire next time.
       // +resolveInstanceMethod adds to self a.k.a. cls
       IMP imp = lookUpImpOrNil(inst, sel, cls);
      
       if (resolved  &&  PrintResolving) {
        if (imp) {
            _objc_inform("RESOLVE: method %c[%s %s] "
                         "dynamically resolved to %p", 
                         cls->isMetaClass() ? '+' : '-', 
                         cls->nameForLogging(), sel_getName(sel), imp);
        }
        else {
            // Method resolver didn't add anything?
            _objc_inform("RESOLVE: +[%s resolveInstanceMethod:%s] returned YES"
                         ", but no new implementation of %c[%s %s] was found",
                         cls->nameForLogging(), sel_getName(sel), 
                         cls->isMetaClass() ? '+' : '-', 
                         cls->nameForLogging(), sel_getName(sel));
         }
       }
      }
      
    4.8.3 动态方法决议实现
    #import "LGPerson.h"
    #import <objc/message.h>
    
    @implementation LGPerson
    
    - (void)askHelp{
    NSLog(@"%s",__func__);
    }
    
    + (BOOL)resolveInstanceMethod:(SEL)sel{
    
    if (sel == @selector(say666)) {
        NSLog(@"%@ 来了老弟",NSStringFromSelector(sel));
        
        IMP imp           = class_getMethodImplementation(self, @selector(askHelp));
        Method sayAskHelpMethod = class_getInstanceMethod(self, @selector(askHelp));
        const char *type  = method_getTypeEncoding(sayAskHelpMethod);
        return class_addMethod(self, sel, imp, type);
    }
    
      return [super resolveInstanceMethod:sel];
    }
    

    5. 总结

    • 当在 objc_msgSend 缓存中没有找到方法,就会来到 CheckMiss -> __objc_msgSend_uncached -> MethodTableLookup -> lookUpImpOrForward 进行慢速查找流程。
    • 在 lookUpImpOrForward 里面会先去本类当中查找方法 getMethodNoSuper_nolock ,本类没有找到就会去递归的去父类当中查找。
    • 如果本类和父类都没有找到,就会进行动态方法决议 _class_resolveMethod ,这是苹果爸爸给我们的最后的机会。

    最终到 _objc_forward_handler 方法 崩溃报错 unrecognized selector sent to instance ...。

    相关文章

      网友评论

          本文标题:objc_msgSend-慢速查找流程

          本文链接:https://www.haomeiwen.com/subject/cdtjjltx.html