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author | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-28 14:29:10 +0000 |
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committer | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-28 14:29:10 +0000 |
commit | 2aa4a82499d4becd2284cdb482213d541b8804dd (patch) | |
tree | b80bf8bf13c3766139fbacc530efd0dd9d54394c /accessible/windows/msaa/AccessibleWrap.cpp | |
parent | Initial commit. (diff) | |
download | firefox-2aa4a82499d4becd2284cdb482213d541b8804dd.tar.xz firefox-2aa4a82499d4becd2284cdb482213d541b8804dd.zip |
Adding upstream version 86.0.1.upstream/86.0.1upstream
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to '')
-rw-r--r-- | accessible/windows/msaa/AccessibleWrap.cpp | 1773 |
1 files changed, 1773 insertions, 0 deletions
diff --git a/accessible/windows/msaa/AccessibleWrap.cpp b/accessible/windows/msaa/AccessibleWrap.cpp new file mode 100644 index 0000000000..6c9afbe642 --- /dev/null +++ b/accessible/windows/msaa/AccessibleWrap.cpp @@ -0,0 +1,1773 @@ +/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ +/* vim: set ts=2 et sw=2 tw=80: */ +/* This Source Code Form is subject to the terms of the Mozilla Public + * License, v. 2.0. If a copy of the MPL was not distributed with this + * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ + +#include "AccessibleWrap.h" +#include "Accessible-inl.h" + +#include "Compatibility.h" +#include "DocAccessible-inl.h" +#include "mozilla/a11y/DocAccessibleParent.h" +#include "EnumVariant.h" +#include "GeckoCustom.h" +#include "nsAccUtils.h" +#include "nsCoreUtils.h" +#include "nsIAccessibleEvent.h" +#include "nsWindowsHelpers.h" +#include "nsWinUtils.h" +#include "mozilla/a11y/ProxyAccessible.h" +#include "ProxyWrappers.h" +#include "ServiceProvider.h" +#include "Relation.h" +#include "Role.h" +#include "RootAccessible.h" +#include "sdnAccessible.h" +#include "States.h" + +#ifdef A11Y_LOG +# include "Logging.h" +#endif + +#include "nsIFrame.h" +#include "nsIScrollableFrame.h" +#include "mozilla/PresShell.h" +#include "mozilla/dom/NodeInfo.h" +#include "mozilla/dom/BrowserBridgeParent.h" +#include "mozilla/dom/BrowserParent.h" +#include "nsNameSpaceManager.h" +#include "nsTextFormatter.h" +#include "nsView.h" +#include "nsViewManager.h" +#include "nsEventMap.h" +#include "nsArrayUtils.h" +#include "mozilla/Preferences.h" +#include "mozilla/ReverseIterator.h" +#include "mozilla/mscom/AsyncInvoker.h" +#include "mozilla/mscom/Interceptor.h" + +#include "oleacc.h" + +using namespace mozilla; +using namespace mozilla::a11y; + +const uint32_t USE_ROLE_STRING = 0; + +/* For documentation of the accessibility architecture, + * see http://lxr.mozilla.org/seamonkey/source/accessible/accessible-docs.html + */ + +//#define DEBUG_LEAKS + +#ifdef DEBUG_LEAKS +static gAccessibles = 0; +#endif + +MsaaIdGenerator AccessibleWrap::sIDGen; +StaticAutoPtr<nsTArray<AccessibleWrap::HandlerControllerData>> + AccessibleWrap::sHandlerControllers; + +static const VARIANT kVarChildIdSelf = {{{VT_I4}}}; + +static const int32_t kIEnumVariantDisconnected = -1; + +//////////////////////////////////////////////////////////////////////////////// +// AccessibleWrap +//////////////////////////////////////////////////////////////////////////////// +AccessibleWrap::AccessibleWrap(nsIContent* aContent, DocAccessible* aDoc) + : Accessible(aContent, aDoc), mID(kNoID) {} + +AccessibleWrap::~AccessibleWrap() { + if (mID != kNoID) { + sIDGen.ReleaseID(WrapNotNull(this)); + } +} + +ITypeInfo* AccessibleWrap::gTypeInfo = nullptr; + +NS_IMPL_ISUPPORTS_INHERITED0(AccessibleWrap, Accessible) + +void AccessibleWrap::Shutdown() { + if (mID != kNoID) { + auto doc = static_cast<DocAccessibleWrap*>(mDoc.get()); + // Accessibles can be shut down twice in some cases. When this happens, + // doc will be null. + if (doc) { + doc->RemoveID(mID); + } + } + + if (XRE_IsContentProcess()) { + // Bug 1434822: To improve performance for cross-process COM, we disable COM + // garbage collection. However, this means we never receive Release calls + // from clients, so defunct accessibles can never be deleted. Since we + // know when an accessible is shutting down, we can work around this by + // forcing COM to disconnect this object from all of its remote clients, + // which will cause associated references to be released. + IUnknown* unk = static_cast<IAccessible*>(this); + mscom::Interceptor::DisconnectRemotesForTarget(unk); + // If an accessible was retrieved via IAccessibleHypertext::hyperlink*, + // it will have a different Interceptor that won't be matched by the above + // call, even though it's the same object. Therefore, call it again with + // the IAccessibleHyperlink pointer. We can remove this horrible hack once + // bug 1440267 is fixed. + unk = static_cast<IAccessibleHyperlink*>(this); + mscom::Interceptor::DisconnectRemotesForTarget(unk); + for (auto& assocUnk : mAssociatedCOMObjectsForDisconnection) { + mscom::Interceptor::DisconnectRemotesForTarget(assocUnk); + } + mAssociatedCOMObjectsForDisconnection.Clear(); + } + + Accessible::Shutdown(); +} + +//----------------------------------------------------- +// IUnknown interface methods - see iunknown.h for documentation +//----------------------------------------------------- + +// Microsoft COM QueryInterface +STDMETHODIMP +AccessibleWrap::QueryInterface(REFIID iid, void** ppv) { + if (!ppv) return E_INVALIDARG; + + *ppv = nullptr; + + if (IID_IClientSecurity == iid) { + // Some code might QI(IID_IClientSecurity) to detect whether or not we are + // a proxy. Right now that can potentially happen off the main thread, so we + // look for this condition immediately so that we don't trigger other code + // that might not be thread-safe. + return E_NOINTERFACE; + } + + if (IID_IUnknown == iid) + *ppv = static_cast<IAccessible*>(this); + else if (IID_IDispatch == iid || IID_IAccessible == iid) + *ppv = static_cast<IAccessible*>(this); + else if (IID_IEnumVARIANT == iid && !IsProxy()) { + // Don't support this interface for leaf elements. + if (!HasChildren() || nsAccUtils::MustPrune(this)) return E_NOINTERFACE; + + *ppv = static_cast<IEnumVARIANT*>(new ChildrenEnumVariant(this)); + } else if (IID_IServiceProvider == iid) + *ppv = new ServiceProvider(this); + else if (IID_ISimpleDOMNode == iid && !IsProxy()) { + if (IsDefunct() || (!HasOwnContent() && !IsDoc())) return E_NOINTERFACE; + + *ppv = static_cast<ISimpleDOMNode*>(new sdnAccessible(WrapNotNull(this))); + } + + if (nullptr == *ppv) { + HRESULT hr = ia2Accessible::QueryInterface(iid, ppv); + if (SUCCEEDED(hr)) return hr; + } + + if (nullptr == *ppv && !IsProxy()) { + HRESULT hr = ia2AccessibleComponent::QueryInterface(iid, ppv); + if (SUCCEEDED(hr)) return hr; + } + + if (nullptr == *ppv) { + HRESULT hr = ia2AccessibleHyperlink::QueryInterface(iid, ppv); + if (SUCCEEDED(hr)) return hr; + } + + if (nullptr == *ppv && !IsProxy()) { + HRESULT hr = ia2AccessibleValue::QueryInterface(iid, ppv); + if (SUCCEEDED(hr)) return hr; + } + + if (!*ppv && iid == IID_IGeckoCustom) { + RefPtr<GeckoCustom> gkCrap = new GeckoCustom(this); + gkCrap.forget(ppv); + return S_OK; + } + + if (nullptr == *ppv) return E_NOINTERFACE; + + (reinterpret_cast<IUnknown*>(*ppv))->AddRef(); + return S_OK; +} + +//----------------------------------------------------- +// IAccessible methods +//----------------------------------------------------- + +STDMETHODIMP +AccessibleWrap::get_accParent(IDispatch __RPC_FAR* __RPC_FAR* ppdispParent) { + if (!ppdispParent) return E_INVALIDARG; + + *ppdispParent = nullptr; + + if (IsDefunct()) return CO_E_OBJNOTCONNECTED; + + Accessible* xpParentAcc = Parent(); + if (!xpParentAcc) return S_FALSE; + + *ppdispParent = NativeAccessible(xpParentAcc); + return S_OK; +} + +STDMETHODIMP +AccessibleWrap::get_accChildCount(long __RPC_FAR* pcountChildren) { + if (!pcountChildren) return E_INVALIDARG; + + *pcountChildren = 0; + + if (IsDefunct()) return CO_E_OBJNOTCONNECTED; + + if (nsAccUtils::MustPrune(this)) return S_OK; + + *pcountChildren = ChildCount(); + return S_OK; +} + +STDMETHODIMP +AccessibleWrap::get_accChild( + /* [in] */ VARIANT varChild, + /* [retval][out] */ IDispatch __RPC_FAR* __RPC_FAR* ppdispChild) { + if (!ppdispChild) return E_INVALIDARG; + + *ppdispChild = nullptr; + if (IsDefunct()) return CO_E_OBJNOTCONNECTED; + + // IAccessible::accChild is used to return this accessible or child accessible + // at the given index or to get an accessible by child ID in the case of + // document accessible. + // The getting an accessible by child ID is used by + // AccessibleObjectFromEvent() called by AT when AT handles our MSAA event. + bool isDefunct = false; + RefPtr<IAccessible> child = GetIAccessibleFor(varChild, &isDefunct); + if (!child) { + return E_INVALIDARG; + } + + if (isDefunct) { + return CO_E_OBJNOTCONNECTED; + } + + child.forget(ppdispChild); + return S_OK; +} + +/** + * This function is a helper for implementing IAccessible methods that accept + * a Child ID as a parameter. If the child ID is CHILDID_SELF, the function + * returns S_OK but a null *aOutInterface. Otherwise, *aOutInterface points + * to the resolved IAccessible. + * + * The CHILDID_SELF case is special because in that case we actually execute + * the implementation of the IAccessible method, whereas in the non-self case, + * we delegate the method call to that object for execution. + * + * A sample invocation of this would look like: + * + * RefPtr<IAccessible> accessible; + * HRESULT hr = ResolveChild(varChild, getter_AddRefs(accessible)); + * if (FAILED(hr)) { + * return hr; + * } + * + * if (accessible) { + * return accessible->get_accFoo(kVarChildIdSelf, pszName); + * } + * + * // Implementation for CHILDID_SELF case goes here + */ +HRESULT +AccessibleWrap::ResolveChild(const VARIANT& aVarChild, + IAccessible** aOutInterface) { + MOZ_ASSERT(aOutInterface); + *aOutInterface = nullptr; + + if (aVarChild.vt != VT_I4) { + return E_INVALIDARG; + } + + if (IsDefunct()) { + return CO_E_OBJNOTCONNECTED; + } + + if (aVarChild.lVal == CHILDID_SELF) { + return S_OK; + } + + bool isDefunct = false; + RefPtr<IAccessible> accessible = GetIAccessibleFor(aVarChild, &isDefunct); + if (!accessible) { + return E_INVALIDARG; + } + + if (isDefunct) { + return CO_E_OBJNOTCONNECTED; + } + + accessible.forget(aOutInterface); + return S_OK; +} + +STDMETHODIMP +AccessibleWrap::get_accName( + /* [optional][in] */ VARIANT varChild, + /* [retval][out] */ BSTR __RPC_FAR* pszName) { + if (!pszName || varChild.vt != VT_I4) return E_INVALIDARG; + + *pszName = nullptr; + + RefPtr<IAccessible> accessible; + HRESULT hr = ResolveChild(varChild, getter_AddRefs(accessible)); + if (FAILED(hr)) { + return hr; + } + + if (accessible) { + return accessible->get_accName(kVarChildIdSelf, pszName); + } + + nsAutoString name; + Name(name); + + // The name was not provided, e.g. no alt attribute for an image. A screen + // reader may choose to invent its own accessible name, e.g. from an image src + // attribute. Refer to eNoNameOnPurpose return value. + if (name.IsVoid()) return S_FALSE; + + *pszName = ::SysAllocStringLen(name.get(), name.Length()); + if (!*pszName) return E_OUTOFMEMORY; + return S_OK; +} + +STDMETHODIMP +AccessibleWrap::get_accValue( + /* [optional][in] */ VARIANT varChild, + /* [retval][out] */ BSTR __RPC_FAR* pszValue) { + if (!pszValue) return E_INVALIDARG; + + *pszValue = nullptr; + + RefPtr<IAccessible> accessible; + HRESULT hr = ResolveChild(varChild, getter_AddRefs(accessible)); + if (FAILED(hr)) { + return hr; + } + + if (accessible) { + return accessible->get_accValue(kVarChildIdSelf, pszValue); + } + + nsAutoString value; + Value(value); + + // See bug 438784: need to expose URL on doc's value attribute. For this, + // reverting part of fix for bug 425693 to make this MSAA method behave + // IAccessible2-style. + if (value.IsEmpty()) return S_FALSE; + + *pszValue = ::SysAllocStringLen(value.get(), value.Length()); + if (!*pszValue) return E_OUTOFMEMORY; + return S_OK; +} + +STDMETHODIMP +AccessibleWrap::get_accDescription(VARIANT varChild, + BSTR __RPC_FAR* pszDescription) { + if (!pszDescription) return E_INVALIDARG; + + *pszDescription = nullptr; + + RefPtr<IAccessible> accessible; + HRESULT hr = ResolveChild(varChild, getter_AddRefs(accessible)); + if (FAILED(hr)) { + return hr; + } + + if (accessible) { + return accessible->get_accDescription(kVarChildIdSelf, pszDescription); + } + + nsAutoString description; + Description(description); + + *pszDescription = + ::SysAllocStringLen(description.get(), description.Length()); + return *pszDescription ? S_OK : E_OUTOFMEMORY; +} + +STDMETHODIMP +AccessibleWrap::get_accRole( + /* [optional][in] */ VARIANT varChild, + /* [retval][out] */ VARIANT __RPC_FAR* pvarRole) { + if (!pvarRole) return E_INVALIDARG; + + VariantInit(pvarRole); + + RefPtr<IAccessible> accessible; + HRESULT hr = ResolveChild(varChild, getter_AddRefs(accessible)); + if (FAILED(hr)) { + return hr; + } + + if (accessible) { + return accessible->get_accRole(kVarChildIdSelf, pvarRole); + } + + a11y::role geckoRole; +#ifdef DEBUG + NS_ASSERTION(nsAccUtils::IsTextInterfaceSupportCorrect(this), + "Does not support Text when it should"); +#endif + + geckoRole = Role(); + + uint32_t msaaRole = 0; + +#define ROLE(_geckoRole, stringRole, atkRole, macRole, macSubrole, _msaaRole, \ + ia2Role, androidClass, nameRule) \ + case roles::_geckoRole: \ + msaaRole = _msaaRole; \ + break; + + switch (geckoRole) { +#include "RoleMap.h" + default: + MOZ_CRASH("Unknown role."); + } + +#undef ROLE + + // Special case, if there is a ROLE_ROW inside of a ROLE_TREE_TABLE, then call + // the MSAA role a ROLE_OUTLINEITEM for consistency and compatibility. We need + // this because ARIA has a role of "row" for both grid and treegrid + if (geckoRole == roles::ROW) { + Accessible* xpParent = Parent(); + if (xpParent && xpParent->Role() == roles::TREE_TABLE) + msaaRole = ROLE_SYSTEM_OUTLINEITEM; + } + + // -- Try enumerated role + if (msaaRole != USE_ROLE_STRING) { + pvarRole->vt = VT_I4; + pvarRole->lVal = msaaRole; // Normal enumerated role + return S_OK; + } + + // -- Try BSTR role + // Could not map to known enumerated MSAA role like ROLE_BUTTON + // Use BSTR role to expose role attribute or tag name + namespace + nsIContent* content = GetContent(); + if (!content) return E_FAIL; + + if (content->IsElement()) { + nsAutoString roleString; + // Try the role attribute. + content->AsElement()->GetAttr(kNameSpaceID_None, nsGkAtoms::role, + roleString); + + if (roleString.IsEmpty()) { + // No role attribute (or it is an empty string). + // Use the tag name. + dom::Document* document = content->GetUncomposedDoc(); + if (!document) return E_FAIL; + + dom::NodeInfo* nodeInfo = content->NodeInfo(); + nodeInfo->GetName(roleString); + + // Only append name space if different from that of current document. + if (!nodeInfo->NamespaceEquals(document->GetDefaultNamespaceID())) { + nsAutoString nameSpaceURI; + nodeInfo->GetNamespaceURI(nameSpaceURI); + roleString += u", "_ns + nameSpaceURI; + } + } + + if (!roleString.IsEmpty()) { + pvarRole->vt = VT_BSTR; + pvarRole->bstrVal = ::SysAllocString(roleString.get()); + return S_OK; + } + } + + return E_FAIL; +} + +STDMETHODIMP +AccessibleWrap::get_accState( + /* [optional][in] */ VARIANT varChild, + /* [retval][out] */ VARIANT __RPC_FAR* pvarState) { + if (!pvarState) return E_INVALIDARG; + + VariantInit(pvarState); + pvarState->vt = VT_I4; + pvarState->lVal = 0; + + RefPtr<IAccessible> accessible; + HRESULT hr = ResolveChild(varChild, getter_AddRefs(accessible)); + if (FAILED(hr)) { + return hr; + } + + if (accessible) { + return accessible->get_accState(kVarChildIdSelf, pvarState); + } + + // MSAA only has 31 states and the lowest 31 bits of our state bit mask + // are the same states as MSAA. + // Note: we map the following Gecko states to different MSAA states: + // REQUIRED -> ALERT_LOW + // ALERT -> ALERT_MEDIUM + // INVALID -> ALERT_HIGH + // CHECKABLE -> MARQUEED + + uint64_t state = State(); + + uint32_t msaaState = 0; + nsAccUtils::To32States(state, &msaaState, nullptr); + pvarState->lVal = msaaState; + return S_OK; +} + +STDMETHODIMP +AccessibleWrap::get_accHelp( + /* [optional][in] */ VARIANT varChild, + /* [retval][out] */ BSTR __RPC_FAR* pszHelp) { + if (!pszHelp) return E_INVALIDARG; + + *pszHelp = nullptr; + return S_FALSE; +} + +STDMETHODIMP +AccessibleWrap::get_accHelpTopic( + /* [out] */ BSTR __RPC_FAR* pszHelpFile, + /* [optional][in] */ VARIANT varChild, + /* [retval][out] */ long __RPC_FAR* pidTopic) { + if (!pszHelpFile || !pidTopic) return E_INVALIDARG; + + *pszHelpFile = nullptr; + *pidTopic = 0; + return S_FALSE; +} + +STDMETHODIMP +AccessibleWrap::get_accKeyboardShortcut( + /* [optional][in] */ VARIANT varChild, + /* [retval][out] */ BSTR __RPC_FAR* pszKeyboardShortcut) { + if (!pszKeyboardShortcut) return E_INVALIDARG; + *pszKeyboardShortcut = nullptr; + + RefPtr<IAccessible> accessible; + HRESULT hr = ResolveChild(varChild, getter_AddRefs(accessible)); + if (FAILED(hr)) { + return hr; + } + + if (accessible) { + return accessible->get_accKeyboardShortcut(kVarChildIdSelf, + pszKeyboardShortcut); + } + + KeyBinding keyBinding = AccessKey(); + if (keyBinding.IsEmpty()) keyBinding = KeyboardShortcut(); + + nsAutoString shortcut; + keyBinding.ToString(shortcut); + + *pszKeyboardShortcut = ::SysAllocStringLen(shortcut.get(), shortcut.Length()); + return *pszKeyboardShortcut ? S_OK : E_OUTOFMEMORY; +} + +STDMETHODIMP +AccessibleWrap::get_accFocus( + /* [retval][out] */ VARIANT __RPC_FAR* pvarChild) { + if (!pvarChild) return E_INVALIDARG; + + VariantInit(pvarChild); + + // clang-format off + // VT_EMPTY: None. This object does not have the keyboard focus itself + // and does not contain a child that has the keyboard focus. + // VT_I4: lVal is CHILDID_SELF. The object itself has the keyboard focus. + // VT_I4: lVal contains the child ID of the child element with the keyboard focus. + // VT_DISPATCH: pdispVal member is the address of the IDispatch interface + // for the child object with the keyboard focus. + // clang-format on + if (IsDefunct()) return CO_E_OBJNOTCONNECTED; + + // Return the current IAccessible child that has focus + Accessible* focusedAccessible = FocusedChild(); + + if (focusedAccessible == this) { + pvarChild->vt = VT_I4; + pvarChild->lVal = CHILDID_SELF; + } else if (focusedAccessible) { + pvarChild->vt = VT_DISPATCH; + pvarChild->pdispVal = NativeAccessible(focusedAccessible); + } else { + pvarChild->vt = VT_EMPTY; // No focus or focus is not a child + } + + return S_OK; +} + +/** + * This helper class implements IEnumVARIANT for a nsTArray containing + * accessible objects. + */ +class AccessibleEnumerator final : public IEnumVARIANT { + public: + explicit AccessibleEnumerator(const nsTArray<Accessible*>& aArray) + : mArray(aArray.Clone()), mCurIndex(0) {} + AccessibleEnumerator(const AccessibleEnumerator& toCopy) + : mArray(toCopy.mArray.Clone()), mCurIndex(toCopy.mCurIndex) {} + ~AccessibleEnumerator() {} + + // IUnknown + DECL_IUNKNOWN + + // IEnumVARIANT + STDMETHODIMP Next(unsigned long celt, VARIANT FAR* rgvar, + unsigned long FAR* pceltFetched); + STDMETHODIMP Skip(unsigned long celt); + STDMETHODIMP Reset() { + mCurIndex = 0; + return S_OK; + } + STDMETHODIMP Clone(IEnumVARIANT FAR* FAR* ppenum); + + private: + nsTArray<Accessible*> mArray; + uint32_t mCurIndex; +}; + +STDMETHODIMP +AccessibleEnumerator::QueryInterface(REFIID iid, void** ppvObject) { + if (iid == IID_IEnumVARIANT) { + *ppvObject = static_cast<IEnumVARIANT*>(this); + AddRef(); + return S_OK; + } + if (iid == IID_IUnknown) { + *ppvObject = static_cast<IUnknown*>(this); + AddRef(); + return S_OK; + } + + *ppvObject = nullptr; + return E_NOINTERFACE; +} + +STDMETHODIMP +AccessibleEnumerator::Next(unsigned long celt, VARIANT FAR* rgvar, + unsigned long FAR* pceltFetched) { + uint32_t length = mArray.Length(); + HRESULT hr = S_OK; + + // Can't get more elements than there are... + if (celt > length - mCurIndex) { + hr = S_FALSE; + celt = length - mCurIndex; + } + + // Copy the elements of the array into rgvar. + for (uint32_t i = 0; i < celt; ++i, ++mCurIndex) { + rgvar[i].vt = VT_DISPATCH; + rgvar[i].pdispVal = AccessibleWrap::NativeAccessible(mArray[mCurIndex]); + } + + if (pceltFetched) *pceltFetched = celt; + + return hr; +} + +STDMETHODIMP +AccessibleEnumerator::Clone(IEnumVARIANT FAR* FAR* ppenum) { + *ppenum = new AccessibleEnumerator(*this); + if (!*ppenum) return E_OUTOFMEMORY; + NS_ADDREF(*ppenum); + return S_OK; +} + +STDMETHODIMP +AccessibleEnumerator::Skip(unsigned long celt) { + uint32_t length = mArray.Length(); + // Check if we can skip the requested number of elements + if (celt > length - mCurIndex) { + mCurIndex = length; + return S_FALSE; + } + mCurIndex += celt; + return S_OK; +} + +/** + * This method is called when a client wants to know which children of a node + * are selected. Note that this method can only find selected children for + * accessible object which implement SelectAccessible. + * + * The VARIANT return value arguement is expected to either contain a single + * IAccessible or an IEnumVARIANT of IAccessibles. We return the IEnumVARIANT + * regardless of the number of children selected, unless there are none selected + * in which case we return an empty VARIANT. + * + * We get the selected options from the select's accessible object and wrap + * those in an AccessibleEnumerator which we then put in the return VARIANT. + * + * returns a VT_EMPTY VARIANT if: + * - there are no selected children for this object + * - the object is not the type that can have children selected + */ +STDMETHODIMP +AccessibleWrap::get_accSelection(VARIANT __RPC_FAR* pvarChildren) { + if (!pvarChildren) return E_INVALIDARG; + + VariantInit(pvarChildren); + pvarChildren->vt = VT_EMPTY; + + if (IsDefunct()) return CO_E_OBJNOTCONNECTED; + + if (!IsSelect()) { + return S_OK; + } + + AutoTArray<Accessible*, 10> selectedItems; + SelectedItems(&selectedItems); + uint32_t count = selectedItems.Length(); + if (count == 1) { + pvarChildren->vt = VT_DISPATCH; + pvarChildren->pdispVal = NativeAccessible(selectedItems[0]); + } else if (count > 1) { + RefPtr<AccessibleEnumerator> pEnum = + new AccessibleEnumerator(selectedItems); + AssociateCOMObjectForDisconnection(pEnum); + pvarChildren->vt = + VT_UNKNOWN; // this must be VT_UNKNOWN for an IEnumVARIANT + NS_ADDREF(pvarChildren->punkVal = pEnum); + } + // If count == 0, vt is already VT_EMPTY, so there's nothing else to do. + + return S_OK; +} + +STDMETHODIMP +AccessibleWrap::get_accDefaultAction( + /* [optional][in] */ VARIANT varChild, + /* [retval][out] */ BSTR __RPC_FAR* pszDefaultAction) { + if (!pszDefaultAction) return E_INVALIDARG; + + *pszDefaultAction = nullptr; + + RefPtr<IAccessible> accessible; + HRESULT hr = ResolveChild(varChild, getter_AddRefs(accessible)); + if (FAILED(hr)) { + return hr; + } + + if (accessible) { + return accessible->get_accDefaultAction(kVarChildIdSelf, pszDefaultAction); + } + + nsAutoString defaultAction; + ActionNameAt(0, defaultAction); + + *pszDefaultAction = + ::SysAllocStringLen(defaultAction.get(), defaultAction.Length()); + return *pszDefaultAction ? S_OK : E_OUTOFMEMORY; +} + +STDMETHODIMP +AccessibleWrap::accSelect( + /* [in] */ long flagsSelect, + /* [optional][in] */ VARIANT varChild) { + RefPtr<IAccessible> accessible; + HRESULT hr = ResolveChild(varChild, getter_AddRefs(accessible)); + if (FAILED(hr)) { + return hr; + } + + if (accessible) { + return accessible->accSelect(flagsSelect, kVarChildIdSelf); + } + + if (flagsSelect & SELFLAG_TAKEFOCUS) { + if (XRE_IsContentProcess()) { + // In this case we might have been invoked while the IPC MessageChannel is + // waiting on a sync reply. We cannot dispatch additional IPC while that + // is happening, so we dispatch TakeFocus from the main thread to + // guarantee that we are outside any IPC. + nsCOMPtr<nsIRunnable> runnable = mozilla::NewRunnableMethod( + "Accessible::TakeFocus", this, &Accessible::TakeFocus); + NS_DispatchToMainThread(runnable, NS_DISPATCH_NORMAL); + return S_OK; + } + TakeFocus(); + return S_OK; + } + + if (flagsSelect & SELFLAG_TAKESELECTION) { + TakeSelection(); + return S_OK; + } + + if (flagsSelect & SELFLAG_ADDSELECTION) { + SetSelected(true); + return S_OK; + } + + if (flagsSelect & SELFLAG_REMOVESELECTION) { + SetSelected(false); + return S_OK; + } + + return E_FAIL; +} + +STDMETHODIMP +AccessibleWrap::accLocation( + /* [out] */ long __RPC_FAR* pxLeft, + /* [out] */ long __RPC_FAR* pyTop, + /* [out] */ long __RPC_FAR* pcxWidth, + /* [out] */ long __RPC_FAR* pcyHeight, + /* [optional][in] */ VARIANT varChild) { + if (!pxLeft || !pyTop || !pcxWidth || !pcyHeight) return E_INVALIDARG; + + *pxLeft = 0; + *pyTop = 0; + *pcxWidth = 0; + *pcyHeight = 0; + + RefPtr<IAccessible> accessible; + HRESULT hr = ResolveChild(varChild, getter_AddRefs(accessible)); + if (FAILED(hr)) { + return hr; + } + + if (accessible) { + return accessible->accLocation(pxLeft, pyTop, pcxWidth, pcyHeight, + kVarChildIdSelf); + } + + if (IsDefunct()) { + return CO_E_OBJNOTCONNECTED; + } + + nsIntRect rect = Bounds(); + + *pxLeft = rect.X(); + *pyTop = rect.Y(); + *pcxWidth = rect.Width(); + *pcyHeight = rect.Height(); + return S_OK; +} + +STDMETHODIMP +AccessibleWrap::accNavigate( + /* [in] */ long navDir, + /* [optional][in] */ VARIANT varStart, + /* [retval][out] */ VARIANT __RPC_FAR* pvarEndUpAt) { + if (!pvarEndUpAt) return E_INVALIDARG; + + VariantInit(pvarEndUpAt); + + RefPtr<IAccessible> accessible; + HRESULT hr = ResolveChild(varStart, getter_AddRefs(accessible)); + if (FAILED(hr)) { + return hr; + } + + if (accessible) { + return accessible->accNavigate(navDir, kVarChildIdSelf, pvarEndUpAt); + } + + Accessible* navAccessible = nullptr; + Maybe<RelationType> xpRelation; + +#define RELATIONTYPE(geckoType, stringType, atkType, msaaType, ia2Type) \ + case msaaType: \ + xpRelation.emplace(RelationType::geckoType); \ + break; + + switch (navDir) { + case NAVDIR_FIRSTCHILD: + if (IsProxy()) { + if (!nsAccUtils::MustPrune(Proxy())) { + navAccessible = WrapperFor(Proxy()->FirstChild()); + } + } else { + if (!nsAccUtils::MustPrune(this)) navAccessible = FirstChild(); + } + break; + case NAVDIR_LASTCHILD: + if (IsProxy()) { + if (!nsAccUtils::MustPrune(Proxy())) { + navAccessible = WrapperFor(Proxy()->LastChild()); + } + } else { + if (!nsAccUtils::MustPrune(this)) navAccessible = LastChild(); + } + break; + case NAVDIR_NEXT: + navAccessible = + IsProxy() ? WrapperFor(Proxy()->NextSibling()) : NextSibling(); + break; + case NAVDIR_PREVIOUS: + navAccessible = + IsProxy() ? WrapperFor(Proxy()->PrevSibling()) : PrevSibling(); + break; + case NAVDIR_DOWN: + case NAVDIR_LEFT: + case NAVDIR_RIGHT: + case NAVDIR_UP: + return E_NOTIMPL; + + // MSAA relationship extensions to accNavigate +#include "RelationTypeMap.h" + + default: + return E_INVALIDARG; + } + +#undef RELATIONTYPE + + pvarEndUpAt->vt = VT_EMPTY; + + if (xpRelation) { + Relation rel = RelationByType(*xpRelation); + navAccessible = rel.Next(); + } + + if (!navAccessible) return E_FAIL; + + pvarEndUpAt->pdispVal = NativeAccessible(navAccessible); + pvarEndUpAt->vt = VT_DISPATCH; + return S_OK; +} + +STDMETHODIMP +AccessibleWrap::accHitTest( + /* [in] */ long xLeft, + /* [in] */ long yTop, + /* [retval][out] */ VARIANT __RPC_FAR* pvarChild) { + if (!pvarChild) return E_INVALIDARG; + + VariantInit(pvarChild); + + if (IsDefunct()) return CO_E_OBJNOTCONNECTED; + + Accessible* accessible = ChildAtPoint(xLeft, yTop, eDirectChild); + + // if we got a child + if (accessible) { + // if the child is us + if (accessible == this) { + pvarChild->vt = VT_I4; + pvarChild->lVal = CHILDID_SELF; + } else { // its not create an Accessible for it. + pvarChild->vt = VT_DISPATCH; + pvarChild->pdispVal = NativeAccessible(accessible); + } + } else { + // no child at that point + pvarChild->vt = VT_EMPTY; + return S_FALSE; + } + return S_OK; +} + +STDMETHODIMP +AccessibleWrap::accDoDefaultAction( + /* [optional][in] */ VARIANT varChild) { + RefPtr<IAccessible> accessible; + HRESULT hr = ResolveChild(varChild, getter_AddRefs(accessible)); + if (FAILED(hr)) { + return hr; + } + + if (accessible) { + return accessible->accDoDefaultAction(kVarChildIdSelf); + } + + return DoAction(0) ? S_OK : E_INVALIDARG; +} + +STDMETHODIMP +AccessibleWrap::put_accName( + /* [optional][in] */ VARIANT varChild, + /* [in] */ BSTR szName) { + return E_NOTIMPL; +} + +STDMETHODIMP +AccessibleWrap::put_accValue( + /* [optional][in] */ VARIANT varChild, + /* [in] */ BSTR szValue) { + RefPtr<IAccessible> accessible; + HRESULT hr = ResolveChild(varChild, getter_AddRefs(accessible)); + if (FAILED(hr)) { + return hr; + } + + if (accessible) { + return accessible->put_accValue(kVarChildIdSelf, szValue); + } + + HyperTextAccessible* ht = AsHyperText(); + if (!ht) { + return E_NOTIMPL; + } + + uint32_t length = ::SysStringLen(szValue); + nsAutoString text(szValue, length); + ht->ReplaceText(text); + return S_OK; +} + +//////////////////////////////////////////////////////////////////////////////// +// IDispatch + +STDMETHODIMP +AccessibleWrap::GetTypeInfoCount(UINT* pctinfo) { + if (!pctinfo) return E_INVALIDARG; + + *pctinfo = 1; + return S_OK; +} + +STDMETHODIMP +AccessibleWrap::GetTypeInfo(UINT iTInfo, LCID lcid, ITypeInfo** ppTInfo) { + if (!ppTInfo) return E_INVALIDARG; + + *ppTInfo = nullptr; + + if (iTInfo != 0) return DISP_E_BADINDEX; + + ITypeInfo* typeInfo = GetTI(lcid); + if (!typeInfo) return E_FAIL; + + typeInfo->AddRef(); + *ppTInfo = typeInfo; + + return S_OK; +} + +STDMETHODIMP +AccessibleWrap::GetIDsOfNames(REFIID riid, LPOLESTR* rgszNames, UINT cNames, + LCID lcid, DISPID* rgDispId) { + ITypeInfo* typeInfo = GetTI(lcid); + if (!typeInfo) return E_FAIL; + + HRESULT hr = DispGetIDsOfNames(typeInfo, rgszNames, cNames, rgDispId); + return hr; +} + +STDMETHODIMP +AccessibleWrap::Invoke(DISPID dispIdMember, REFIID riid, LCID lcid, WORD wFlags, + DISPPARAMS* pDispParams, VARIANT* pVarResult, + EXCEPINFO* pExcepInfo, UINT* puArgErr) { + ITypeInfo* typeInfo = GetTI(lcid); + if (!typeInfo) return E_FAIL; + + return typeInfo->Invoke(static_cast<IAccessible*>(this), dispIdMember, wFlags, + pDispParams, pVarResult, pExcepInfo, puArgErr); +} + +void AccessibleWrap::GetNativeInterface(void** aOutAccessible) { + *aOutAccessible = static_cast<IAccessible*>(this); + NS_ADDREF_THIS(); +} + +void AccessibleWrap::SetID(uint32_t aID) { + MOZ_ASSERT(XRE_IsParentProcess() && IsProxy()); + mID = aID; +} + +static bool IsHandlerInvalidationNeeded(uint32_t aEvent) { + // We want to return true for any events that would indicate that something + // in the handler cache is out of date. + switch (aEvent) { + case EVENT_OBJECT_STATECHANGE: + case EVENT_OBJECT_LOCATIONCHANGE: + case EVENT_OBJECT_NAMECHANGE: + case EVENT_OBJECT_DESCRIPTIONCHANGE: + case EVENT_OBJECT_VALUECHANGE: + case EVENT_OBJECT_FOCUS: + case IA2_EVENT_ACTION_CHANGED: + case IA2_EVENT_DOCUMENT_LOAD_COMPLETE: + case IA2_EVENT_DOCUMENT_LOAD_STOPPED: + case IA2_EVENT_DOCUMENT_ATTRIBUTE_CHANGED: + case IA2_EVENT_DOCUMENT_CONTENT_CHANGED: + case IA2_EVENT_PAGE_CHANGED: + case IA2_EVENT_TEXT_ATTRIBUTE_CHANGED: + case IA2_EVENT_TEXT_CHANGED: + case IA2_EVENT_TEXT_INSERTED: + case IA2_EVENT_TEXT_REMOVED: + case IA2_EVENT_TEXT_UPDATED: + case IA2_EVENT_OBJECT_ATTRIBUTE_CHANGED: + return true; + default: + return false; + } +} + +void AccessibleWrap::FireWinEvent(Accessible* aTarget, uint32_t aEventType) { + MOZ_ASSERT(XRE_IsParentProcess()); + static_assert(sizeof(gWinEventMap) / sizeof(gWinEventMap[0]) == + nsIAccessibleEvent::EVENT_LAST_ENTRY, + "MSAA event map skewed"); + + NS_ASSERTION(aEventType > 0 && aEventType < ArrayLength(gWinEventMap), + "invalid event type"); + + uint32_t winEvent = gWinEventMap[aEventType]; + if (!winEvent) return; + + int32_t childID = GetChildIDFor(aTarget); + if (!childID) return; // Can't fire an event without a child ID + + HWND hwnd = GetHWNDFor(aTarget); + if (!hwnd) { + return; + } + + if (IsHandlerInvalidationNeeded(winEvent)) { + InvalidateHandlers(); + } + + // Fire MSAA event for client area window. + ::NotifyWinEvent(winEvent, hwnd, OBJID_CLIENT, childID); +} + +//////////////////////////////////////////////////////////////////////////////// +// Accessible + +nsresult AccessibleWrap::HandleAccEvent(AccEvent* aEvent) { + nsresult rv = Accessible::HandleAccEvent(aEvent); + NS_ENSURE_SUCCESS(rv, rv); + + if (IPCAccessibilityActive()) { + return NS_OK; + } + + uint32_t eventType = aEvent->GetEventType(); + + // Means we're not active. + NS_ENSURE_TRUE(!IsDefunct(), NS_ERROR_FAILURE); + + Accessible* accessible = aEvent->GetAccessible(); + if (!accessible) return NS_OK; + + if (eventType == nsIAccessibleEvent::EVENT_TEXT_CARET_MOVED || + eventType == nsIAccessibleEvent::EVENT_FOCUS) { + UpdateSystemCaretFor(accessible); + } + + FireWinEvent(accessible, eventType); + + return NS_OK; +} + +DocProxyAccessibleWrap* AccessibleWrap::DocProxyWrapper() const { + MOZ_ASSERT(IsProxy()); + + ProxyAccessible* proxy = Proxy(); + if (!proxy) { + return nullptr; + } + + AccessibleWrap* acc = WrapperFor(proxy->Document()); + MOZ_ASSERT(acc->IsDoc()); + + return static_cast<DocProxyAccessibleWrap*>(acc); +} + +//////////////////////////////////////////////////////////////////////////////// +// AccessibleWrap + +//------- Helper methods --------- + +int32_t AccessibleWrap::GetChildIDFor(Accessible* aAccessible) { + // A child ID of the window is required, when we use NotifyWinEvent, + // so that the 3rd party application can call back and get the IAccessible + // the event occurred on. + + if (!aAccessible) { + return 0; + } + + // Chrome should use mID which has been generated by the content process. + if (aAccessible->IsProxy()) { + const uint32_t id = static_cast<AccessibleWrap*>(aAccessible)->mID; + MOZ_ASSERT(id != kNoID); + return id; + } + + if (!aAccessible->Document()) return 0; + + uint32_t* id = &static_cast<AccessibleWrap*>(aAccessible)->mID; + if (*id != kNoID) return *id; + + *id = sIDGen.GetID(); + + MOZ_ASSERT(!aAccessible->IsProxy()); + DocAccessibleWrap* doc = + static_cast<DocAccessibleWrap*>(aAccessible->Document()); + doc->AddID(*id, static_cast<AccessibleWrap*>(aAccessible)); + + return *id; +} + +HWND AccessibleWrap::GetHWNDFor(Accessible* aAccessible) { + if (!aAccessible) { + return nullptr; + } + + if (aAccessible->IsProxy()) { + ProxyAccessible* proxy = aAccessible->Proxy(); + if (!proxy) { + return nullptr; + } + + // If window emulation is enabled, retrieve the emulated window from the + // containing document document proxy. + if (nsWinUtils::IsWindowEmulationStarted()) { + DocAccessibleParent* doc = proxy->Document(); + HWND hWnd = doc->GetEmulatedWindowHandle(); + if (hWnd) { + return hWnd; + } + } + + // Accessibles in child processes are said to have the HWND of the window + // their tab is within. Popups are always in the parent process, and so + // never proxied, which means this is basically correct. + Accessible* outerDoc = proxy->OuterDocOfRemoteBrowser(); + if (!outerDoc) { + // In some cases, the outer document accessible may be unattached from its + // document at this point, if it is scheduled for removal. Do not assert + // in such case. An example: putting aria-hidden="true" on HTML:iframe + // element will destroy iframe's document asynchroniously, but + // the document may be a target of selection events until then, and thus + // it may attempt to deliever these events to MSAA clients. + return nullptr; + } + + return GetHWNDFor(outerDoc); + } + + DocAccessible* document = aAccessible->Document(); + if (!document) return nullptr; + + // Popup lives in own windows, use its HWND until the popup window is + // hidden to make old JAWS versions work with collapsed comboboxes (see + // discussion in bug 379678). + nsIFrame* frame = aAccessible->GetFrame(); + if (frame) { + nsIWidget* widget = frame->GetNearestWidget(); + if (widget && widget->IsVisible()) { + if (nsViewManager* vm = document->PresShellPtr()->GetViewManager()) { + nsCOMPtr<nsIWidget> rootWidget; + vm->GetRootWidget(getter_AddRefs(rootWidget)); + // Make sure the accessible belongs to popup. If not then use + // document HWND (which might be different from root widget in the + // case of window emulation). + if (rootWidget != widget) + return static_cast<HWND>(widget->GetNativeData(NS_NATIVE_WINDOW)); + } + } + } + + return static_cast<HWND>(document->GetNativeWindow()); +} + +IDispatch* AccessibleWrap::NativeAccessible(Accessible* aAccessible) { + if (!aAccessible) { + NS_WARNING("Not passing in an aAccessible"); + return nullptr; + } + + IAccessible* msaaAccessible = nullptr; + aAccessible->GetNativeInterface(reinterpret_cast<void**>(&msaaAccessible)); + return static_cast<IDispatch*>(msaaAccessible); +} + +static Accessible* GetAccessibleInSubtree(DocAccessible* aDoc, uint32_t aID) { + Accessible* child = + static_cast<DocAccessibleWrap*>(aDoc)->GetAccessibleByID(aID); + if (child) return child; + + uint32_t childDocCount = aDoc->ChildDocumentCount(); + for (uint32_t i = 0; i < childDocCount; i++) { + child = GetAccessibleInSubtree(aDoc->GetChildDocumentAt(i), aID); + if (child) return child; + } + + return nullptr; +} + +static already_AddRefed<IDispatch> GetProxiedAccessibleInSubtree( + const DocAccessibleParent* aDoc, const VARIANT& aVarChild) { + auto wrapper = static_cast<DocProxyAccessibleWrap*>(WrapperFor(aDoc)); + RefPtr<IAccessible> comProxy; + int32_t docWrapperChildId = AccessibleWrap::GetChildIDFor(wrapper); + // Only document accessible proxies at the top level of their content process + // are created with a pointer to their COM proxy. + if (aDoc->IsTopLevelInContentProcess()) { + wrapper->GetNativeInterface(getter_AddRefs(comProxy)); + } else { + auto tab = static_cast<dom::BrowserParent*>(aDoc->Manager()); + MOZ_ASSERT(tab); + DocAccessibleParent* topLevelDoc = tab->GetTopLevelDocAccessible(); + MOZ_ASSERT(topLevelDoc && topLevelDoc->IsTopLevelInContentProcess()); + VARIANT docId = {{{VT_I4}}}; + docId.lVal = docWrapperChildId; + RefPtr<IDispatch> disp = GetProxiedAccessibleInSubtree(topLevelDoc, docId); + if (!disp) { + return nullptr; + } + + DebugOnly<HRESULT> hr = + disp->QueryInterface(IID_IAccessible, getter_AddRefs(comProxy)); + MOZ_ASSERT(SUCCEEDED(hr)); + } + + MOZ_ASSERT(comProxy); + if (!comProxy) { + return nullptr; + } + + if (docWrapperChildId == aVarChild.lVal) { + return comProxy.forget(); + } + + RefPtr<IDispatch> disp; + if (FAILED(comProxy->get_accChild(aVarChild, getter_AddRefs(disp)))) { + return nullptr; + } + + return disp.forget(); +} + +bool AccessibleWrap::IsRootForHWND() { + if (IsRoot()) { + return true; + } + HWND thisHwnd = GetHWNDFor(this); + AccessibleWrap* parent = static_cast<AccessibleWrap*>(Parent()); + MOZ_ASSERT(parent); + HWND parentHwnd = GetHWNDFor(parent); + return thisHwnd != parentHwnd; +} + +already_AddRefed<IAccessible> AccessibleWrap::GetIAccessibleFor( + const VARIANT& aVarChild, bool* aIsDefunct) { + if (aVarChild.vt != VT_I4) return nullptr; + + VARIANT varChild = aVarChild; + + MOZ_ASSERT(aIsDefunct); + *aIsDefunct = false; + + RefPtr<IAccessible> result; + + if (varChild.lVal == CHILDID_SELF) { + *aIsDefunct = IsDefunct(); + if (*aIsDefunct) { + return nullptr; + } + GetNativeInterface(getter_AddRefs(result)); + if (result) { + return result.forget(); + } + // If we're not a proxy, there's nothing more we can do to attempt to + // resolve the IAccessible, so we just fail. + if (!IsProxy()) { + return nullptr; + } + // Otherwise, since we're a proxy and we have a null native interface, this + // indicates that we need to obtain a COM proxy. To do this, we'll replace + // CHILDID_SELF with our real MSAA ID and continue the search from there. + varChild.lVal = GetExistingID(); + } + + if (varChild.ulVal != GetExistingID() && + (IsProxy() ? nsAccUtils::MustPrune(Proxy()) + : nsAccUtils::MustPrune(this))) { + // This accessible should have no subtree in platform, return null for its + // children. + return nullptr; + } + + // If the MSAA ID is not a chrome id then we already know that we won't + // find it here and should look remotely instead. This handles the case when + // accessible is part of the chrome process and is part of the xul browser + // window and the child id points in the content documents. Thus we need to + // make sure that it is never called on proxies. + // Bug 1422674: We must only handle remote ids here (< 0), not child indices. + // Child indices (> 0) are handled below for both local and remote children. + if (XRE_IsParentProcess() && !IsProxy() && varChild.lVal < 0 && + !sIDGen.IsChromeID(varChild.lVal)) { + if (!IsRootForHWND()) { + // Bug 1422201, 1424657: accChild with a remote id is only valid on the + // root accessible for an HWND. + // Otherwise, we might return remote accessibles which aren't descendants + // of this accessible. This would confuse clients which use accChild to + // check whether something is a descendant of a document. + return nullptr; + } + return GetRemoteIAccessibleFor(varChild); + } + + if (varChild.lVal > 0) { + // Gecko child indices are 0-based in contrast to indices used in MSAA. + MOZ_ASSERT(!IsProxy()); + Accessible* xpAcc = GetChildAt(varChild.lVal - 1); + if (!xpAcc) { + return nullptr; + } + *aIsDefunct = xpAcc->IsDefunct(); + static_cast<AccessibleWrap*>(xpAcc)->GetNativeInterface( + getter_AddRefs(result)); + return result.forget(); + } + + // If lVal negative then it is treated as child ID and we should look for + // accessible through whole accessible subtree including subdocuments. + // Otherwise we treat lVal as index in parent. + // First handle the case that both this accessible and the id'd one are in + // this process. + if (!IsProxy()) { + DocAccessible* document = Document(); + Accessible* child = + GetAccessibleInSubtree(document, static_cast<uint32_t>(varChild.lVal)); + + // If it is a document then just return an accessible. + if (child && IsDoc()) { + *aIsDefunct = child->IsDefunct(); + static_cast<AccessibleWrap*>(child)->GetNativeInterface( + getter_AddRefs(result)); + return result.forget(); + } + + // Otherwise check whether the accessible is a child (this path works for + // ARIA documents and popups). + Accessible* parent = child; + while (parent && parent != document) { + if (parent == this) { + *aIsDefunct = child->IsDefunct(); + static_cast<AccessibleWrap*>(child)->GetNativeInterface( + getter_AddRefs(result)); + return result.forget(); + } + + parent = parent->Parent(); + } + } + + // Now see about the case that both this accessible and the target one are + // proxied. + if (IsProxy()) { + DocAccessibleParent* proxyDoc = Proxy()->Document(); + RefPtr<IDispatch> disp = GetProxiedAccessibleInSubtree(proxyDoc, varChild); + if (!disp) { + return nullptr; + } + + MOZ_ASSERT(mscom::IsProxy(disp)); + DebugOnly<HRESULT> hr = + disp->QueryInterface(IID_IAccessible, getter_AddRefs(result)); + MOZ_ASSERT(SUCCEEDED(hr)); + return result.forget(); + } + + return nullptr; +} + +/** + * Visit DocAccessibleParent descendants of `aBrowser` that are at the top + * level of their content process. + * That is, IsTopLevelInContentProcess() will be true for each visited actor. + * Each visited actor will be an embedded document in a different content + * process to its embedder. + * The DocAccessibleParent for `aBrowser` itself is excluded. + * `aCallback` will be called for each DocAccessibleParent. + * The callback should return true to continue traversal, false to cease. + */ +template <typename Callback> +static bool VisitDocAccessibleParentDescendantsAtTopLevelInContentProcess( + dom::BrowserParent* aBrowser, Callback aCallback) { + // We can't use BrowserBridgeParent::VisitAllDescendants because it doesn't + // provide a way to stop the search. + const auto& bridges = aBrowser->ManagedPBrowserBridgeParent(); + for (auto iter = bridges.ConstIter(); !iter.Done(); iter.Next()) { + auto bridge = static_cast<dom::BrowserBridgeParent*>(iter.Get()->GetKey()); + dom::BrowserParent* childBrowser = bridge->GetBrowserParent(); + DocAccessibleParent* childDocAcc = childBrowser->GetTopLevelDocAccessible(); + if (!childDocAcc || childDocAcc->IsShutdown()) { + continue; + } + if (!aCallback(childDocAcc)) { + return false; // Stop traversal. + } + if (!VisitDocAccessibleParentDescendantsAtTopLevelInContentProcess( + childBrowser, aCallback)) { + return false; // Stop traversal. + } + } + return true; // Continue traversal. +} + +already_AddRefed<IAccessible> AccessibleWrap::GetRemoteIAccessibleFor( + const VARIANT& aVarChild) { + a11y::RootAccessible* root = RootAccessible(); + const nsTArray<DocAccessibleParent*>* remoteDocs = + DocManager::TopLevelRemoteDocs(); + if (!remoteDocs) { + return nullptr; + } + + RefPtr<IAccessible> result; + + // We intentionally leave the call to remoteDocs->Length() inside the loop + // condition because it is possible for reentry to occur in the call to + // GetProxiedAccessibleInSubtree() such that remoteDocs->Length() is mutated. + for (size_t i = 0; i < remoteDocs->Length(); i++) { + DocAccessibleParent* topRemoteDoc = remoteDocs->ElementAt(i); + + Accessible* outerDoc = topRemoteDoc->OuterDocOfRemoteBrowser(); + if (!outerDoc) { + continue; + } + + if (outerDoc->RootAccessible() != root) { + continue; + } + + RefPtr<IDispatch> disp; + auto checkDoc = [&aVarChild, + &disp](DocAccessibleParent* aRemoteDoc) -> bool { + uint32_t remoteDocMsaaId = WrapperFor(aRemoteDoc)->GetExistingID(); + if (!sIDGen.IsSameContentProcessFor(aVarChild.lVal, remoteDocMsaaId)) { + return true; // Continue the search. + } + if ((disp = GetProxiedAccessibleInSubtree(aRemoteDoc, aVarChild))) { + return false; // Found it! Stop traversal! + } + return true; // Continue the search. + }; + + // Check the top level document for this id. + checkDoc(topRemoteDoc); + if (!disp) { + // The top level document doesn't contain this id. Recursively check any + // out-of-process iframe documents it embeds. + VisitDocAccessibleParentDescendantsAtTopLevelInContentProcess( + static_cast<dom::BrowserParent*>(topRemoteDoc->Manager()), checkDoc); + } + + if (!disp) { + continue; + } + + DebugOnly<HRESULT> hr = + disp->QueryInterface(IID_IAccessible, getter_AddRefs(result)); + // QI can fail on rare occasions if the Accessible dies after we fetched + // disp but before we QI. + NS_WARNING_ASSERTION(SUCCEEDED(hr), "QI failed on remote IDispatch"); + return result.forget(); + } + + return nullptr; +} + +void AccessibleWrap::UpdateSystemCaretFor(Accessible* aAccessible) { + // Move the system caret so that Windows Tablet Edition and tradional ATs with + // off-screen model can follow the caret + ::DestroyCaret(); + + HyperTextAccessible* text = aAccessible->AsHyperText(); + if (!text) return; + + nsIWidget* widget = nullptr; + LayoutDeviceIntRect caretRect = text->GetCaretRect(&widget); + + if (!widget) { + return; + } + + HWND caretWnd = + reinterpret_cast<HWND>(widget->GetNativeData(NS_NATIVE_WINDOW)); + UpdateSystemCaretFor(caretWnd, caretRect); +} + +/* static */ +void AccessibleWrap::UpdateSystemCaretFor( + ProxyAccessible* aProxy, const LayoutDeviceIntRect& aCaretRect) { + ::DestroyCaret(); + + // The HWND should be the real widget HWND, not an emulated HWND. + // We get the HWND from the proxy's outer doc to bypass window emulation. + Accessible* outerDoc = aProxy->OuterDocOfRemoteBrowser(); + UpdateSystemCaretFor(GetHWNDFor(outerDoc), aCaretRect); +} + +/* static */ +void AccessibleWrap::UpdateSystemCaretFor( + HWND aCaretWnd, const LayoutDeviceIntRect& aCaretRect) { + if (!aCaretWnd || aCaretRect.IsEmpty()) { + return; + } + + // Create invisible bitmap for caret, otherwise its appearance interferes + // with Gecko caret + nsAutoBitmap caretBitMap(CreateBitmap(1, aCaretRect.Height(), 1, 1, nullptr)); + if (::CreateCaret(aCaretWnd, caretBitMap, 1, + aCaretRect.Height())) { // Also destroys the last caret + ::ShowCaret(aCaretWnd); + RECT windowRect; + ::GetWindowRect(aCaretWnd, &windowRect); + ::SetCaretPos(aCaretRect.X() - windowRect.left, + aCaretRect.Y() - windowRect.top); + } +} + +ITypeInfo* AccessibleWrap::GetTI(LCID lcid) { + if (gTypeInfo) return gTypeInfo; + + ITypeLib* typeLib = nullptr; + HRESULT hr = LoadRegTypeLib(LIBID_Accessibility, 1, 0, lcid, &typeLib); + if (FAILED(hr)) return nullptr; + + hr = typeLib->GetTypeInfoOfGuid(IID_IAccessible, &gTypeInfo); + typeLib->Release(); + + if (FAILED(hr)) return nullptr; + + return gTypeInfo; +} + +/* static */ +uint32_t AccessibleWrap::GetContentProcessIdFor( + dom::ContentParentId aIPCContentId) { + return sIDGen.GetContentProcessIDFor(aIPCContentId); +} + +/* static */ +void AccessibleWrap::ReleaseContentProcessIdFor( + dom::ContentParentId aIPCContentId) { + sIDGen.ReleaseContentProcessIDFor(aIPCContentId); +} + +/* static */ +void AccessibleWrap::SetHandlerControl(DWORD aPid, + RefPtr<IHandlerControl> aCtrl) { + MOZ_ASSERT(XRE_IsParentProcess() && NS_IsMainThread()); + + if (!sHandlerControllers) { + sHandlerControllers = new nsTArray<HandlerControllerData>(); + ClearOnShutdown(&sHandlerControllers); + } + + HandlerControllerData ctrlData(aPid, std::move(aCtrl)); + if (sHandlerControllers->Contains(ctrlData)) { + return; + } + + sHandlerControllers->AppendElement(std::move(ctrlData)); +} + +/* static */ +void AccessibleWrap::InvalidateHandlers() { + static const HRESULT kErrorServerDied = + HRESULT_FROM_WIN32(RPC_S_SERVER_UNAVAILABLE); + + MOZ_ASSERT(XRE_IsParentProcess()); + MOZ_ASSERT(NS_IsMainThread()); + + if (!sHandlerControllers || sHandlerControllers->IsEmpty()) { + return; + } + + // We iterate in reverse so that we may safely remove defunct elements while + // executing the loop. + for (auto& controller : Reversed(*sHandlerControllers)) { + MOZ_ASSERT(controller.mPid); + MOZ_ASSERT(controller.mCtrl); + + ASYNC_INVOKER_FOR(IHandlerControl) + invoker(controller.mCtrl, Some(controller.mIsProxy)); + + HRESULT hr = ASYNC_INVOKE(invoker, Invalidate); + + if (hr == CO_E_OBJNOTCONNECTED || hr == kErrorServerDied) { + sHandlerControllers->RemoveElement(controller); + } else { + Unused << NS_WARN_IF(FAILED(hr)); + } + } +} + +bool AccessibleWrap::DispatchTextChangeToHandler(bool aIsInsert, + const nsString& aText, + int32_t aStart, + uint32_t aLen) { + MOZ_ASSERT(XRE_IsParentProcess()); + MOZ_ASSERT(NS_IsMainThread()); + + if (!sHandlerControllers || sHandlerControllers->IsEmpty()) { + return false; + } + + HWND hwnd = GetHWNDFor(this); + MOZ_ASSERT(hwnd); + if (!hwnd) { + return false; + } + + long msaaId = GetChildIDFor(this); + + DWORD ourPid = ::GetCurrentProcessId(); + + // The handler ends up calling NotifyWinEvent, which should only be done once + // since it broadcasts the same event to every process who is subscribed. + // OTOH, if our chrome process contains a handler, we should prefer to + // broadcast the event from that process, as we want any DLLs injected by ATs + // to receive the event synchronously. Otherwise we simply choose the first + // handler in the list, for the lack of a better heuristic. + + nsTArray<HandlerControllerData>::index_type ctrlIndex = + sHandlerControllers->IndexOf(ourPid); + + if (ctrlIndex == nsTArray<HandlerControllerData>::NoIndex) { + ctrlIndex = 0; + } + + HandlerControllerData& controller = sHandlerControllers->ElementAt(ctrlIndex); + MOZ_ASSERT(controller.mPid); + MOZ_ASSERT(controller.mCtrl); + + VARIANT_BOOL isInsert = aIsInsert ? VARIANT_TRUE : VARIANT_FALSE; + + IA2TextSegment textSegment{::SysAllocStringLen(aText.get(), aText.Length()), + aStart, aStart + static_cast<long>(aLen)}; + + ASYNC_INVOKER_FOR(IHandlerControl) + invoker(controller.mCtrl, Some(controller.mIsProxy)); + + HRESULT hr = ASYNC_INVOKE(invoker, OnTextChange, PtrToLong(hwnd), msaaId, + isInsert, &textSegment); + + ::SysFreeString(textSegment.text); + + return SUCCEEDED(hr); +} + +/* static */ +void AccessibleWrap::AssignChildIDTo(NotNull<sdnAccessible*> aSdnAcc) { + aSdnAcc->SetUniqueID(sIDGen.GetID()); +} + +/* static */ +void AccessibleWrap::ReleaseChildID(NotNull<sdnAccessible*> aSdnAcc) { + sIDGen.ReleaseID(aSdnAcc); +} |