/* * Copyright 2014 Austin English * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA */ #include #include #include #include #define COBJMACROS #define NONAMELESSUNION #include "windef.h" #include "winbase.h" #include "winuser.h" #include "winreg.h" #include "initguid.h" #include "rtworkq.h" #include "ole2.h" #include "propsys.h" #include "d3d11.h" #include "uuids.h" #include "wine/debug.h" #include "wine/list.h" #include "mfplat_private.h" #include "mfreadwrite.h" #include "mfmediaengine.h" #include "propvarutil.h" #include "strsafe.h" #undef INITGUID #include "evr.h" /* mfd3d12 guids are not included in mfuuid */ #define INITGUID #undef EXTERN_GUID #define EXTERN_GUID DEFINE_GUID #include "initguid.h" #include "mfd3d12.h" WINE_DEFAULT_DEBUG_CHANNEL(mfplat); struct local_handler { struct list entry; union { WCHAR *scheme; struct { WCHAR *extension; WCHAR *mime; } bytestream; } u; IMFActivate *activate; }; static CRITICAL_SECTION local_handlers_section = { NULL, -1, 0, 0, 0, 0 }; static struct list local_scheme_handlers = LIST_INIT(local_scheme_handlers); static struct list local_bytestream_handlers = LIST_INIT(local_bytestream_handlers); struct mft_registration { struct list entry; IClassFactory *factory; CLSID clsid; GUID category; WCHAR *name; DWORD flags; MFT_REGISTER_TYPE_INFO *input_types; UINT32 input_types_count; MFT_REGISTER_TYPE_INFO *output_types; UINT32 output_types_count; BOOL local; }; static const char *debugstr_reg_typeinfo(const MFT_REGISTER_TYPE_INFO *info) { return info ? wine_dbg_sprintf("%p{%s,%s}", info, debugstr_mf_guid(&info->guidMajorType), debugstr_mf_guid(&info->guidSubtype)) : wine_dbg_sprintf("%p", info); } static CRITICAL_SECTION local_mfts_section = { NULL, -1, 0, 0, 0, 0 }; static struct list local_mfts = LIST_INIT(local_mfts); struct transform_activate { struct attributes attributes; IMFActivate IMFActivate_iface; IClassFactory *factory; IMFTransform *transform; }; struct system_clock { IMFClock IMFClock_iface; LONG refcount; }; struct system_time_source { IMFPresentationTimeSource IMFPresentationTimeSource_iface; IMFClockStateSink IMFClockStateSink_iface; LONG refcount; MFCLOCK_STATE state; IMFClock *clock; LONGLONG start_offset; float rate; int i_rate; CRITICAL_SECTION cs; }; static void system_time_source_apply_rate(const struct system_time_source *source, LONGLONG *value) { if (source->i_rate) *value *= source->i_rate; else *value *= source->rate; } static struct system_time_source *impl_from_IMFPresentationTimeSource(IMFPresentationTimeSource *iface) { return CONTAINING_RECORD(iface, struct system_time_source, IMFPresentationTimeSource_iface); } static struct system_time_source *impl_from_IMFClockStateSink(IMFClockStateSink *iface) { return CONTAINING_RECORD(iface, struct system_time_source, IMFClockStateSink_iface); } static struct system_clock *impl_from_IMFClock(IMFClock *iface) { return CONTAINING_RECORD(iface, struct system_clock, IMFClock_iface); } static struct transform_activate *impl_from_IMFActivate(IMFActivate *iface) { return CONTAINING_RECORD(iface, struct transform_activate, IMFActivate_iface); } static HRESULT WINAPI transform_activate_QueryInterface(IMFActivate *iface, REFIID riid, void **out) { TRACE("%p, %s, %p.\n", iface, debugstr_guid(riid), out); if (IsEqualIID(riid, &IID_IMFActivate) || IsEqualIID(riid, &IID_IMFAttributes) || IsEqualIID(riid, &IID_IUnknown)) { *out = iface; IMFActivate_AddRef(iface); return S_OK; } WARN("Unsupported %s.\n", debugstr_guid(riid)); *out = NULL; return E_NOINTERFACE; } static ULONG WINAPI transform_activate_AddRef(IMFActivate *iface) { struct transform_activate *activate = impl_from_IMFActivate(iface); ULONG refcount = InterlockedIncrement(&activate->attributes.ref); TRACE("%p, refcount %u.\n", iface, refcount); return refcount; } static ULONG WINAPI transform_activate_Release(IMFActivate *iface) { struct transform_activate *activate = impl_from_IMFActivate(iface); ULONG refcount = InterlockedDecrement(&activate->attributes.ref); TRACE("%p, refcount %u.\n", iface, refcount); if (!refcount) { clear_attributes_object(&activate->attributes); if (activate->factory) IClassFactory_Release(activate->factory); if (activate->transform) IMFTransform_Release(activate->transform); free(activate); } return refcount; } static HRESULT WINAPI transform_activate_GetItem(IMFActivate *iface, REFGUID key, PROPVARIANT *value) { struct transform_activate *activate = impl_from_IMFActivate(iface); TRACE("%p, %s, %p.\n", iface, debugstr_attr(key), value); return attributes_GetItem(&activate->attributes, key, value); } static HRESULT WINAPI transform_activate_GetItemType(IMFActivate *iface, REFGUID key, MF_ATTRIBUTE_TYPE *type) { struct transform_activate *activate = impl_from_IMFActivate(iface); TRACE("%p, %s, %p.\n", iface, debugstr_attr(key), type); return attributes_GetItemType(&activate->attributes, key, type); } static HRESULT WINAPI transform_activate_CompareItem(IMFActivate *iface, REFGUID key, REFPROPVARIANT value, BOOL *result) { struct transform_activate *activate = impl_from_IMFActivate(iface); TRACE("%p, %s, %s, %p.\n", iface, debugstr_attr(key), debugstr_propvar(value), result); return attributes_CompareItem(&activate->attributes, key, value, result); } static HRESULT WINAPI transform_activate_Compare(IMFActivate *iface, IMFAttributes *theirs, MF_ATTRIBUTES_MATCH_TYPE match_type, BOOL *ret) { struct transform_activate *activate = impl_from_IMFActivate(iface); TRACE("%p, %p, %d, %p.\n", iface, theirs, match_type, ret); return attributes_Compare(&activate->attributes, theirs, match_type, ret); } static HRESULT WINAPI transform_activate_GetUINT32(IMFActivate *iface, REFGUID key, UINT32 *value) { struct transform_activate *activate = impl_from_IMFActivate(iface); TRACE("%p, %s, %p.\n", iface, debugstr_attr(key), value); return attributes_GetUINT32(&activate->attributes, key, value); } static HRESULT WINAPI transform_activate_GetUINT64(IMFActivate *iface, REFGUID key, UINT64 *value) { struct transform_activate *activate = impl_from_IMFActivate(iface); TRACE("%p, %s, %p.\n", iface, debugstr_attr(key), value); return attributes_GetUINT64(&activate->attributes, key, value); } static HRESULT WINAPI transform_activate_GetDouble(IMFActivate *iface, REFGUID key, double *value) { struct transform_activate *activate = impl_from_IMFActivate(iface); TRACE("%p, %s, %p.\n", iface, debugstr_attr(key), value); return attributes_GetDouble(&activate->attributes, key, value); } static HRESULT WINAPI transform_activate_GetGUID(IMFActivate *iface, REFGUID key, GUID *value) { struct transform_activate *activate = impl_from_IMFActivate(iface); TRACE("%p, %s, %p.\n", iface, debugstr_attr(key), value); return attributes_GetGUID(&activate->attributes, key, value); } static HRESULT WINAPI transform_activate_GetStringLength(IMFActivate *iface, REFGUID key, UINT32 *length) { struct transform_activate *activate = impl_from_IMFActivate(iface); TRACE("%p, %s, %p.\n", iface, debugstr_attr(key), length); return attributes_GetStringLength(&activate->attributes, key, length); } static HRESULT WINAPI transform_activate_GetString(IMFActivate *iface, REFGUID key, WCHAR *value, UINT32 size, UINT32 *length) { struct transform_activate *activate = impl_from_IMFActivate(iface); TRACE("%p, %s, %p, %d, %p.\n", iface, debugstr_attr(key), value, size, length); return attributes_GetString(&activate->attributes, key, value, size, length); } static HRESULT WINAPI transform_activate_GetAllocatedString(IMFActivate *iface, REFGUID key, WCHAR **value, UINT32 *length) { struct transform_activate *activate = impl_from_IMFActivate(iface); TRACE("%p, %s, %p, %p.\n", iface, debugstr_attr(key), value, length); return attributes_GetAllocatedString(&activate->attributes, key, value, length); } static HRESULT WINAPI transform_activate_GetBlobSize(IMFActivate *iface, REFGUID key, UINT32 *size) { struct transform_activate *activate = impl_from_IMFActivate(iface); TRACE("%p, %s, %p.\n", iface, debugstr_attr(key), size); return attributes_GetBlobSize(&activate->attributes, key, size); } static HRESULT WINAPI transform_activate_GetBlob(IMFActivate *iface, REFGUID key, UINT8 *buf, UINT32 bufsize, UINT32 *blobsize) { struct transform_activate *activate = impl_from_IMFActivate(iface); TRACE("%p, %s, %p, %d, %p.\n", iface, debugstr_attr(key), buf, bufsize, blobsize); return attributes_GetBlob(&activate->attributes, key, buf, bufsize, blobsize); } static HRESULT WINAPI transform_activate_GetAllocatedBlob(IMFActivate *iface, REFGUID key, UINT8 **buf, UINT32 *size) { struct transform_activate *activate = impl_from_IMFActivate(iface); TRACE("%p, %s, %p, %p.\n", iface, debugstr_attr(key), buf, size); return attributes_GetAllocatedBlob(&activate->attributes, key, buf, size); } static HRESULT WINAPI transform_activate_GetUnknown(IMFActivate *iface, REFGUID key, REFIID riid, void **out) { struct transform_activate *activate = impl_from_IMFActivate(iface); TRACE("%p, %s, %s, %p.\n", iface, debugstr_attr(key), debugstr_guid(riid), out); return attributes_GetUnknown(&activate->attributes, key, riid, out); } static HRESULT WINAPI transform_activate_SetItem(IMFActivate *iface, REFGUID key, REFPROPVARIANT value) { struct transform_activate *activate = impl_from_IMFActivate(iface); TRACE("%p, %s, %s.\n", iface, debugstr_attr(key), debugstr_propvar(value)); return attributes_SetItem(&activate->attributes, key, value); } static HRESULT WINAPI transform_activate_DeleteItem(IMFActivate *iface, REFGUID key) { struct transform_activate *activate = impl_from_IMFActivate(iface); TRACE("%p, %s.\n", iface, debugstr_attr(key)); return attributes_DeleteItem(&activate->attributes, key); } static HRESULT WINAPI transform_activate_DeleteAllItems(IMFActivate *iface) { struct transform_activate *activate = impl_from_IMFActivate(iface); TRACE("%p.\n", iface); return attributes_DeleteAllItems(&activate->attributes); } static HRESULT WINAPI transform_activate_SetUINT32(IMFActivate *iface, REFGUID key, UINT32 value) { struct transform_activate *activate = impl_from_IMFActivate(iface); TRACE("%p, %s, %u.\n", iface, debugstr_attr(key), value); return attributes_SetUINT32(&activate->attributes, key, value); } static HRESULT WINAPI transform_activate_SetUINT64(IMFActivate *iface, REFGUID key, UINT64 value) { struct transform_activate *activate = impl_from_IMFActivate(iface); TRACE("%p, %s, %s.\n", iface, debugstr_attr(key), wine_dbgstr_longlong(value)); return attributes_SetUINT64(&activate->attributes, key, value); } static HRESULT WINAPI transform_activate_SetDouble(IMFActivate *iface, REFGUID key, double value) { struct transform_activate *activate = impl_from_IMFActivate(iface); TRACE("%p, %s, %f.\n", iface, debugstr_attr(key), value); return attributes_SetDouble(&activate->attributes, key, value); } static HRESULT WINAPI transform_activate_SetGUID(IMFActivate *iface, REFGUID key, REFGUID value) { struct transform_activate *activate = impl_from_IMFActivate(iface); TRACE("%p, %s, %s.\n", iface, debugstr_attr(key), debugstr_mf_guid(value)); return attributes_SetGUID(&activate->attributes, key, value); } static HRESULT WINAPI transform_activate_SetString(IMFActivate *iface, REFGUID key, const WCHAR *value) { struct transform_activate *activate = impl_from_IMFActivate(iface); TRACE("%p, %s, %s.\n", iface, debugstr_attr(key), debugstr_w(value)); return attributes_SetString(&activate->attributes, key, value); } static HRESULT WINAPI transform_activate_SetBlob(IMFActivate *iface, REFGUID key, const UINT8 *buf, UINT32 size) { struct transform_activate *activate = impl_from_IMFActivate(iface); TRACE("%p, %s, %p, %u.\n", iface, debugstr_attr(key), buf, size); return attributes_SetBlob(&activate->attributes, key, buf, size); } static HRESULT WINAPI transform_activate_SetUnknown(IMFActivate *iface, REFGUID key, IUnknown *unknown) { struct transform_activate *activate = impl_from_IMFActivate(iface); TRACE("%p, %s, %p.\n", iface, debugstr_attr(key), unknown); return attributes_SetUnknown(&activate->attributes, key, unknown); } static HRESULT WINAPI transform_activate_LockStore(IMFActivate *iface) { struct transform_activate *activate = impl_from_IMFActivate(iface); TRACE("%p.\n", iface); return attributes_LockStore(&activate->attributes); } static HRESULT WINAPI transform_activate_UnlockStore(IMFActivate *iface) { struct transform_activate *activate = impl_from_IMFActivate(iface); TRACE("%p.\n", iface); return attributes_UnlockStore(&activate->attributes); } static HRESULT WINAPI transform_activate_GetCount(IMFActivate *iface, UINT32 *count) { struct transform_activate *activate = impl_from_IMFActivate(iface); TRACE("%p, %p.\n", iface, count); return attributes_GetCount(&activate->attributes, count); } static HRESULT WINAPI transform_activate_GetItemByIndex(IMFActivate *iface, UINT32 index, GUID *key, PROPVARIANT *value) { struct transform_activate *activate = impl_from_IMFActivate(iface); TRACE("%p, %u, %p, %p.\n", iface, index, key, value); return attributes_GetItemByIndex(&activate->attributes, index, key, value); } static HRESULT WINAPI transform_activate_CopyAllItems(IMFActivate *iface, IMFAttributes *dest) { struct transform_activate *activate = impl_from_IMFActivate(iface); TRACE("%p, %p.\n", iface, dest); return attributes_CopyAllItems(&activate->attributes, dest); } static HRESULT WINAPI transform_activate_ActivateObject(IMFActivate *iface, REFIID riid, void **obj) { struct transform_activate *activate = impl_from_IMFActivate(iface); CLSID clsid; HRESULT hr; TRACE("%p, %s, %p.\n", iface, debugstr_guid(riid), obj); EnterCriticalSection(&activate->attributes.cs); if (!activate->transform) { if (activate->factory) { if (FAILED(hr = IClassFactory_CreateInstance(activate->factory, NULL, &IID_IMFTransform, (void **)&activate->transform))) { hr = MF_E_INVALIDREQUEST; } } else { if (SUCCEEDED(hr = attributes_GetGUID(&activate->attributes, &MFT_TRANSFORM_CLSID_Attribute, &clsid))) { if (FAILED(hr = CoCreateInstance(&clsid, NULL, CLSCTX_INPROC_SERVER, &IID_IMFTransform, (void **)&activate->transform))) { hr = MF_E_INVALIDREQUEST; } } } } if (activate->transform) hr = IMFTransform_QueryInterface(activate->transform, riid, obj); LeaveCriticalSection(&activate->attributes.cs); return hr; } static HRESULT WINAPI transform_activate_ShutdownObject(IMFActivate *iface) { struct transform_activate *activate = impl_from_IMFActivate(iface); TRACE("%p.\n", iface); EnterCriticalSection(&activate->attributes.cs); if (activate->transform) { IMFTransform_Release(activate->transform); activate->transform = NULL; } LeaveCriticalSection(&activate->attributes.cs); return S_OK; } static HRESULT WINAPI transform_activate_DetachObject(IMFActivate *iface) { TRACE("%p.\n", iface); return E_NOTIMPL; } static const IMFActivateVtbl transform_activate_vtbl = { transform_activate_QueryInterface, transform_activate_AddRef, transform_activate_Release, transform_activate_GetItem, transform_activate_GetItemType, transform_activate_CompareItem, transform_activate_Compare, transform_activate_GetUINT32, transform_activate_GetUINT64, transform_activate_GetDouble, transform_activate_GetGUID, transform_activate_GetStringLength, transform_activate_GetString, transform_activate_GetAllocatedString, transform_activate_GetBlobSize, transform_activate_GetBlob, transform_activate_GetAllocatedBlob, transform_activate_GetUnknown, transform_activate_SetItem, transform_activate_DeleteItem, transform_activate_DeleteAllItems, transform_activate_SetUINT32, transform_activate_SetUINT64, transform_activate_SetDouble, transform_activate_SetGUID, transform_activate_SetString, transform_activate_SetBlob, transform_activate_SetUnknown, transform_activate_LockStore, transform_activate_UnlockStore, transform_activate_GetCount, transform_activate_GetItemByIndex, transform_activate_CopyAllItems, transform_activate_ActivateObject, transform_activate_ShutdownObject, transform_activate_DetachObject, }; static HRESULT create_transform_activate(IClassFactory *factory, IMFActivate **activate) { struct transform_activate *object; HRESULT hr; if (!(object = calloc(1, sizeof(*object)))) return E_OUTOFMEMORY; if (FAILED(hr = init_attributes_object(&object->attributes, 0))) { free(object); return hr; } object->IMFActivate_iface.lpVtbl = &transform_activate_vtbl; object->factory = factory; if (object->factory) IClassFactory_AddRef(object->factory); *activate = &object->IMFActivate_iface; return S_OK; } HRESULT WINAPI MFCreateTransformActivate(IMFActivate **activate) { TRACE("%p.\n", activate); return create_transform_activate(NULL, activate); } static const WCHAR transform_keyW[] = L"MediaFoundation\\Transforms"; static const WCHAR categories_keyW[] = L"MediaFoundation\\Transforms\\Categories"; static const BYTE guid_conv_table[256] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, /* 0x00 */ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, /* 0x10 */ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, /* 0x20 */ 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 0, 0, 0, 0, 0, 0, /* 0x30 */ 0, 0xa, 0xb, 0xc, 0xd, 0xe, 0xf, 0, 0, 0, 0, 0, 0, 0, 0, 0, /* 0x40 */ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, /* 0x50 */ 0, 0xa, 0xb, 0xc, 0xd, 0xe, 0xf /* 0x60 */ }; static WCHAR* guid_to_string(WCHAR *str, REFGUID guid) { swprintf(str, 39, L"%08x-%04x-%04x-%02x%02x-%02x%02x%02x%02x%02x%02x", guid->Data1, guid->Data2, guid->Data3, guid->Data4[0], guid->Data4[1], guid->Data4[2], guid->Data4[3], guid->Data4[4], guid->Data4[5], guid->Data4[6], guid->Data4[7]); return str; } static inline BOOL is_valid_hex(WCHAR c) { if (!(((c >= '0') && (c <= '9')) || ((c >= 'a') && (c <= 'f')) || ((c >= 'A') && (c <= 'F')))) return FALSE; return TRUE; } static BOOL GUIDFromString(LPCWSTR s, GUID *id) { int i; /* in form XXXXXXXX-XXXX-XXXX-XXXX-XXXXXXXXXXXX */ id->Data1 = 0; for (i = 0; i < 8; i++) { if (!is_valid_hex(s[i])) return FALSE; id->Data1 = (id->Data1 << 4) | guid_conv_table[s[i]]; } if (s[8]!='-') return FALSE; id->Data2 = 0; for (i = 9; i < 13; i++) { if (!is_valid_hex(s[i])) return FALSE; id->Data2 = (id->Data2 << 4) | guid_conv_table[s[i]]; } if (s[13]!='-') return FALSE; id->Data3 = 0; for (i = 14; i < 18; i++) { if (!is_valid_hex(s[i])) return FALSE; id->Data3 = (id->Data3 << 4) | guid_conv_table[s[i]]; } if (s[18]!='-') return FALSE; for (i = 19; i < 36; i+=2) { if (i == 23) { if (s[i]!='-') return FALSE; i++; } if (!is_valid_hex(s[i]) || !is_valid_hex(s[i+1])) return FALSE; id->Data4[(i-19)/2] = guid_conv_table[s[i]] << 4 | guid_conv_table[s[i+1]]; } if (!s[36]) return TRUE; return FALSE; } static HRESULT register_transform(const CLSID *clsid, const WCHAR *name, UINT32 flags, UINT32 cinput, const MFT_REGISTER_TYPE_INFO *input_types, UINT32 coutput, const MFT_REGISTER_TYPE_INFO *output_types, IMFAttributes *attributes) { HRESULT hr = S_OK; HKEY hclsid = 0; WCHAR buffer[64]; WCHAR str[250]; UINT8 *blob; UINT32 size; DWORD ret; guid_to_string(buffer, clsid); swprintf(str, ARRAY_SIZE(str), L"%s\\%s", transform_keyW, buffer); if ((ret = RegCreateKeyW(HKEY_CLASSES_ROOT, str, &hclsid))) hr = HRESULT_FROM_WIN32(ret); if (SUCCEEDED(hr)) { size = (lstrlenW(name) + 1) * sizeof(WCHAR); if ((ret = RegSetValueExW(hclsid, NULL, 0, REG_SZ, (BYTE *)name, size))) hr = HRESULT_FROM_WIN32(ret); } if (SUCCEEDED(hr) && cinput && input_types) { size = cinput * sizeof(MFT_REGISTER_TYPE_INFO); if ((ret = RegSetValueExW(hclsid, L"InputTypes", 0, REG_BINARY, (BYTE *)input_types, size))) hr = HRESULT_FROM_WIN32(ret); } if (SUCCEEDED(hr) && coutput && output_types) { size = coutput * sizeof(MFT_REGISTER_TYPE_INFO); if ((ret = RegSetValueExW(hclsid, L"OutputTypes", 0, REG_BINARY, (BYTE *)output_types, size))) hr = HRESULT_FROM_WIN32(ret); } if (SUCCEEDED(hr) && attributes) { if (SUCCEEDED(hr = MFGetAttributesAsBlobSize(attributes, &size))) { if ((blob = malloc(size))) { if (SUCCEEDED(hr = MFGetAttributesAsBlob(attributes, blob, size))) { if ((ret = RegSetValueExW(hclsid, L"Attributes", 0, REG_BINARY, blob, size))) hr = HRESULT_FROM_WIN32(ret); } free(blob); } else hr = E_OUTOFMEMORY; } } if (SUCCEEDED(hr) && flags) { if ((ret = RegSetValueExW(hclsid, L"MFTFlags", 0, REG_DWORD, (BYTE *)&flags, sizeof(flags)))) hr = HRESULT_FROM_WIN32(ret); } RegCloseKey(hclsid); return hr; } static HRESULT register_category(CLSID *clsid, GUID *category) { HKEY htmp1; WCHAR guid1[64], guid2[64]; WCHAR str[350]; guid_to_string(guid1, category); guid_to_string(guid2, clsid); swprintf(str, ARRAY_SIZE(str), L"%s\\%s\\%s", categories_keyW, guid1, guid2); if (RegCreateKeyW(HKEY_CLASSES_ROOT, str, &htmp1)) return E_FAIL; RegCloseKey(htmp1); return S_OK; } /*********************************************************************** * MFTRegister (mfplat.@) */ HRESULT WINAPI MFTRegister(CLSID clsid, GUID category, LPWSTR name, UINT32 flags, UINT32 cinput, MFT_REGISTER_TYPE_INFO *input_types, UINT32 coutput, MFT_REGISTER_TYPE_INFO *output_types, IMFAttributes *attributes) { HRESULT hr; TRACE("%s, %s, %s, %#x, %u, %p, %u, %p, %p.\n", debugstr_guid(&clsid), debugstr_guid(&category), debugstr_w(name), flags, cinput, input_types, coutput, output_types, attributes); hr = register_transform(&clsid, name, flags, cinput, input_types, coutput, output_types, attributes); if(FAILED(hr)) ERR("Failed to write register transform\n"); if (SUCCEEDED(hr)) hr = register_category(&clsid, &category); return hr; } static void release_mft_registration(struct mft_registration *mft) { if (mft->factory) IClassFactory_Release(mft->factory); free(mft->name); free(mft->input_types); free(mft->output_types); free(mft); } static HRESULT mft_register_local(IClassFactory *factory, REFCLSID clsid, REFGUID category, LPCWSTR name, UINT32 flags, UINT32 input_count, const MFT_REGISTER_TYPE_INFO *input_types, UINT32 output_count, const MFT_REGISTER_TYPE_INFO *output_types) { struct mft_registration *mft, *cur, *unreg_mft = NULL; HRESULT hr = S_OK; if (!factory && !clsid) { WARN("Can't register without factory or CLSID.\n"); return E_FAIL; } if (!(mft = calloc(1, sizeof(*mft)))) return E_OUTOFMEMORY; mft->factory = factory; if (mft->factory) IClassFactory_AddRef(mft->factory); if (clsid) mft->clsid = *clsid; mft->category = *category; if (!(flags & (MFT_ENUM_FLAG_SYNCMFT | MFT_ENUM_FLAG_ASYNCMFT | MFT_ENUM_FLAG_HARDWARE))) flags |= MFT_ENUM_FLAG_SYNCMFT; mft->flags = flags; mft->local = TRUE; if (name && !(mft->name = wcsdup(name))) { hr = E_OUTOFMEMORY; goto failed; } if (input_count && input_types) { mft->input_types_count = input_count; if (!(mft->input_types = calloc(mft->input_types_count, sizeof(*input_types)))) { hr = E_OUTOFMEMORY; goto failed; } memcpy(mft->input_types, input_types, mft->input_types_count * sizeof(*input_types)); } if (output_count && output_types) { mft->output_types_count = output_count; if (!(mft->output_types = calloc(mft->output_types_count, sizeof(*output_types)))) { hr = E_OUTOFMEMORY; goto failed; } memcpy(mft->output_types, output_types, mft->output_types_count * sizeof(*output_types)); } EnterCriticalSection(&local_mfts_section); LIST_FOR_EACH_ENTRY(cur, &local_mfts, struct mft_registration, entry) { if (cur->factory == factory) { unreg_mft = cur; list_remove(&cur->entry); break; } } list_add_tail(&local_mfts, &mft->entry); LeaveCriticalSection(&local_mfts_section); if (unreg_mft) release_mft_registration(unreg_mft); failed: if (FAILED(hr)) release_mft_registration(mft); return hr; } HRESULT WINAPI MFTRegisterLocal(IClassFactory *factory, REFGUID category, LPCWSTR name, UINT32 flags, UINT32 input_count, const MFT_REGISTER_TYPE_INFO *input_types, UINT32 output_count, const MFT_REGISTER_TYPE_INFO *output_types) { TRACE("%p, %s, %s, %#x, %u, %p, %u, %p.\n", factory, debugstr_guid(category), debugstr_w(name), flags, input_count, input_types, output_count, output_types); return mft_register_local(factory, NULL, category, name, flags, input_count, input_types, output_count, output_types); } HRESULT WINAPI MFTRegisterLocalByCLSID(REFCLSID clsid, REFGUID category, LPCWSTR name, UINT32 flags, UINT32 input_count, const MFT_REGISTER_TYPE_INFO *input_types, UINT32 output_count, const MFT_REGISTER_TYPE_INFO *output_types) { TRACE("%s, %s, %s, %#x, %u, %p, %u, %p.\n", debugstr_guid(clsid), debugstr_guid(category), debugstr_w(name), flags, input_count, input_types, output_count, output_types); return mft_register_local(NULL, clsid, category, name, flags, input_count, input_types, output_count, output_types); } static HRESULT mft_unregister_local(IClassFactory *factory, REFCLSID clsid) { struct mft_registration *cur, *cur2; BOOL unregister_all = !factory && !clsid; struct list unreg; list_init(&unreg); EnterCriticalSection(&local_mfts_section); LIST_FOR_EACH_ENTRY_SAFE(cur, cur2, &local_mfts, struct mft_registration, entry) { if (!unregister_all) { if ((factory && cur->factory == factory) || IsEqualCLSID(&cur->clsid, clsid)) { list_remove(&cur->entry); list_add_tail(&unreg, &cur->entry); break; } } else { list_remove(&cur->entry); list_add_tail(&unreg, &cur->entry); } } LeaveCriticalSection(&local_mfts_section); if (!unregister_all && list_empty(&unreg)) return HRESULT_FROM_WIN32(ERROR_NOT_FOUND); LIST_FOR_EACH_ENTRY_SAFE(cur, cur2, &unreg, struct mft_registration, entry) { list_remove(&cur->entry); release_mft_registration(cur); } return S_OK; } HRESULT WINAPI MFTUnregisterLocalByCLSID(CLSID clsid) { TRACE("%s.\n", debugstr_guid(&clsid)); return mft_unregister_local(NULL, &clsid); } HRESULT WINAPI MFTUnregisterLocal(IClassFactory *factory) { TRACE("%p.\n", factory); return mft_unregister_local(factory, NULL); } MFTIME WINAPI MFGetSystemTime(void) { MFTIME mf; GetSystemTimeAsFileTime( (FILETIME*)&mf ); return mf; } static BOOL mft_is_type_info_match(struct mft_registration *mft, const GUID *category, UINT32 flags, IMFPluginControl *plugin_control, const MFT_REGISTER_TYPE_INFO *input_type, const MFT_REGISTER_TYPE_INFO *output_type) { BOOL matching = TRUE; DWORD model; int i; if (!IsEqualGUID(category, &mft->category)) return FALSE; /* Default model is synchronous. */ model = mft->flags & (MFT_ENUM_FLAG_SYNCMFT | MFT_ENUM_FLAG_ASYNCMFT | MFT_ENUM_FLAG_HARDWARE); if (!model) model = MFT_ENUM_FLAG_SYNCMFT; if (!(model & flags & (MFT_ENUM_FLAG_SYNCMFT | MFT_ENUM_FLAG_ASYNCMFT | MFT_ENUM_FLAG_HARDWARE))) return FALSE; /* These flags should be explicitly enabled. */ if (mft->flags & ~flags & (MFT_ENUM_FLAG_FIELDOFUSE | MFT_ENUM_FLAG_TRANSCODE_ONLY)) return FALSE; if (flags & MFT_ENUM_FLAG_SORTANDFILTER && !mft->factory && plugin_control && IMFPluginControl_IsDisabled(plugin_control, MF_Plugin_Type_MFT, &mft->clsid) == S_OK) { return FALSE; } if (input_type) { for (i = 0, matching = FALSE; input_type && i < mft->input_types_count; ++i) { if (!memcmp(&mft->input_types[i], input_type, sizeof(*input_type))) { matching = TRUE; break; } } } if (output_type && matching) { for (i = 0, matching = FALSE; i < mft->output_types_count; ++i) { if (!memcmp(&mft->output_types[i], output_type, sizeof(*output_type))) { matching = TRUE; break; } } } return matching; } static void mft_get_reg_type_info_internal(const WCHAR *clsidW, const WCHAR *typeW, MFT_REGISTER_TYPE_INFO **type, UINT32 *count) { HKEY htransform, hfilter; DWORD reg_type, size; *type = NULL; *count = 0; if (RegOpenKeyW(HKEY_CLASSES_ROOT, transform_keyW, &htransform)) return; if (RegOpenKeyW(htransform, clsidW, &hfilter)) { RegCloseKey(htransform); return; } if (RegQueryValueExW(hfilter, typeW, NULL, ®_type, NULL, &size)) goto out; if (reg_type != REG_BINARY) goto out; if (!size || size % sizeof(**type)) goto out; if (!(*type = malloc(size))) goto out; *count = size / sizeof(**type); if (RegQueryValueExW(hfilter, typeW, NULL, ®_type, (BYTE *)*type, &size)) { free(*type); *type = NULL; *count = 0; } out: RegCloseKey(hfilter); RegCloseKey(htransform); } static void mft_get_reg_flags(const WCHAR *clsidW, const WCHAR *nameW, DWORD *flags) { DWORD ret, reg_type, size; HKEY hroot, hmft; *flags = 0; if (RegOpenKeyW(HKEY_CLASSES_ROOT, transform_keyW, &hroot)) return; ret = RegOpenKeyW(hroot, clsidW, &hmft); RegCloseKey(hroot); if (ret) return; reg_type = 0; if (!RegQueryValueExW(hmft, nameW, NULL, ®_type, NULL, &size) && reg_type == REG_DWORD) RegQueryValueExW(hmft, nameW, NULL, ®_type, (BYTE *)flags, &size); RegCloseKey(hmft); } static HRESULT mft_collect_machine_reg(struct list *mfts, const GUID *category, UINT32 flags, IMFPluginControl *plugin_control, const MFT_REGISTER_TYPE_INFO *input_type, const MFT_REGISTER_TYPE_INFO *output_type) { struct mft_registration mft, *cur; HKEY hcategory, hlist; WCHAR clsidW[64]; DWORD ret, size; int index = 0; if (RegOpenKeyW(HKEY_CLASSES_ROOT, categories_keyW, &hcategory)) return E_FAIL; guid_to_string(clsidW, category); ret = RegOpenKeyW(hcategory, clsidW, &hlist); RegCloseKey(hcategory); if (ret) return E_FAIL; size = ARRAY_SIZE(clsidW); while (!RegEnumKeyExW(hlist, index, clsidW, &size, NULL, NULL, NULL, NULL)) { memset(&mft, 0, sizeof(mft)); mft.category = *category; if (!GUIDFromString(clsidW, &mft.clsid)) goto next; mft_get_reg_flags(clsidW, L"MFTFlags", &mft.flags); if (output_type) mft_get_reg_type_info_internal(clsidW, L"OutputTypes", &mft.output_types, &mft.output_types_count); if (input_type) mft_get_reg_type_info_internal(clsidW, L"InputTypes", &mft.input_types, &mft.input_types_count); if (!mft_is_type_info_match(&mft, category, flags, plugin_control, input_type, output_type)) { free(mft.input_types); free(mft.output_types); goto next; } cur = malloc(sizeof(*cur)); /* Reuse allocated type arrays. */ *cur = mft; list_add_tail(mfts, &cur->entry); next: size = ARRAY_SIZE(clsidW); index++; } return S_OK; } static BOOL mft_is_preferred(IMFPluginControl *plugin_control, const CLSID *clsid) { CLSID preferred; WCHAR *selector; int index = 0; while (SUCCEEDED(IMFPluginControl_GetPreferredClsidByIndex(plugin_control, MF_Plugin_Type_MFT, index++, &selector, &preferred))) { CoTaskMemFree(selector); if (IsEqualGUID(&preferred, clsid)) return TRUE; } return FALSE; } static HRESULT mft_enum(GUID category, UINT32 flags, const MFT_REGISTER_TYPE_INFO *input_type, const MFT_REGISTER_TYPE_INFO *output_type, IMFAttributes *attributes, IMFActivate ***activate, UINT32 *count) { IMFPluginControl *plugin_control = NULL; struct list mfts, mfts_sorted, *result = &mfts; struct mft_registration *mft, *mft2; unsigned int obj_count; HRESULT hr; *count = 0; *activate = NULL; if (!flags) flags = MFT_ENUM_FLAG_SYNCMFT | MFT_ENUM_FLAG_LOCALMFT | MFT_ENUM_FLAG_SORTANDFILTER; /* Synchronous processing is default. */ if (!(flags & (MFT_ENUM_FLAG_SYNCMFT | MFT_ENUM_FLAG_ASYNCMFT | MFT_ENUM_FLAG_HARDWARE))) flags |= MFT_ENUM_FLAG_SYNCMFT; if (FAILED(hr = MFGetPluginControl(&plugin_control))) { WARN("Failed to get plugin control instance, hr %#x.\n", hr); return hr; } list_init(&mfts); /* Collect from registry */ mft_collect_machine_reg(&mfts, &category, flags, plugin_control, input_type, output_type); /* Collect locally registered ones. */ if (flags & MFT_ENUM_FLAG_LOCALMFT) { struct mft_registration *local; EnterCriticalSection(&local_mfts_section); LIST_FOR_EACH_ENTRY(local, &local_mfts, struct mft_registration, entry) { if (mft_is_type_info_match(local, &category, flags, plugin_control, input_type, output_type)) { mft = calloc(1, sizeof(*mft)); mft->clsid = local->clsid; mft->factory = local->factory; if (mft->factory) IClassFactory_AddRef(mft->factory); mft->flags = local->flags; mft->local = local->local; list_add_tail(&mfts, &mft->entry); } } LeaveCriticalSection(&local_mfts_section); } list_init(&mfts_sorted); if (flags & MFT_ENUM_FLAG_SORTANDFILTER) { /* Local registrations. */ LIST_FOR_EACH_ENTRY_SAFE(mft, mft2, &mfts, struct mft_registration, entry) { if (mft->local) { list_remove(&mft->entry); list_add_tail(&mfts_sorted, &mft->entry); } } /* FIXME: Sort by merit value, for the ones that got it. Currently not handled. */ /* Preferred transforms. */ LIST_FOR_EACH_ENTRY_SAFE(mft, mft2, &mfts, struct mft_registration, entry) { if (!mft->factory && mft_is_preferred(plugin_control, &mft->clsid)) { list_remove(&mft->entry); list_add_tail(&mfts_sorted, &mft->entry); } } /* Append the rest. */ LIST_FOR_EACH_ENTRY_SAFE(mft, mft2, &mfts, struct mft_registration, entry) { list_remove(&mft->entry); list_add_tail(&mfts_sorted, &mft->entry); } result = &mfts_sorted; } IMFPluginControl_Release(plugin_control); /* Create activation objects from CLSID/IClassFactory. */ obj_count = list_count(result); if (obj_count) { if (!(*activate = CoTaskMemAlloc(obj_count * sizeof(**activate)))) hr = E_OUTOFMEMORY; obj_count = 0; LIST_FOR_EACH_ENTRY_SAFE(mft, mft2, result, struct mft_registration, entry) { IMFActivate *mft_activate; if (*activate) { if (SUCCEEDED(create_transform_activate(mft->factory, &mft_activate))) { (*activate)[obj_count] = mft_activate; if (mft->local) { IMFActivate_SetUINT32(mft_activate, &MFT_PROCESS_LOCAL_Attribute, 1); } else { if (mft->name) IMFActivate_SetString(mft_activate, &MFT_FRIENDLY_NAME_Attribute, mft->name); if (mft->input_types) IMFActivate_SetBlob(mft_activate, &MFT_INPUT_TYPES_Attributes, (const UINT8 *)mft->input_types, sizeof(*mft->input_types) * mft->input_types_count); if (mft->output_types) IMFActivate_SetBlob(mft_activate, &MFT_OUTPUT_TYPES_Attributes, (const UINT8 *)mft->output_types, sizeof(*mft->output_types) * mft->output_types_count); } if (!mft->factory) IMFActivate_SetGUID(mft_activate, &MFT_TRANSFORM_CLSID_Attribute, &mft->clsid); IMFActivate_SetUINT32(mft_activate, &MF_TRANSFORM_FLAGS_Attribute, mft->flags); IMFActivate_SetGUID(mft_activate, &MF_TRANSFORM_CATEGORY_Attribute, &mft->category); obj_count++; } } list_remove(&mft->entry); release_mft_registration(mft); } } if (!obj_count) { CoTaskMemFree(*activate); *activate = NULL; } *count = obj_count; return hr; } /*********************************************************************** * MFTEnum (mfplat.@) */ HRESULT WINAPI MFTEnum(GUID category, UINT32 flags, MFT_REGISTER_TYPE_INFO *input_type, MFT_REGISTER_TYPE_INFO *output_type, IMFAttributes *attributes, CLSID **clsids, UINT32 *count) { struct mft_registration *mft, *mft2; unsigned int mft_count; struct list mfts; HRESULT hr; TRACE("%s, %#x, %s, %s, %p, %p, %p.\n", debugstr_mf_guid(&category), flags, debugstr_reg_typeinfo(input_type), debugstr_reg_typeinfo(output_type), attributes, clsids, count); if (!clsids || !count) return E_INVALIDARG; *count = 0; list_init(&mfts); if (FAILED(hr = mft_collect_machine_reg(&mfts, &category, MFT_ENUM_FLAG_SYNCMFT, NULL, input_type, output_type))) return hr; mft_count = list_count(&mfts); if (mft_count) { if (!(*clsids = CoTaskMemAlloc(mft_count * sizeof(**clsids)))) hr = E_OUTOFMEMORY; mft_count = 0; LIST_FOR_EACH_ENTRY_SAFE(mft, mft2, &mfts, struct mft_registration, entry) { if (*clsids) (*clsids)[mft_count++] = mft->clsid; list_remove(&mft->entry); release_mft_registration(mft); } } if (!mft_count) { CoTaskMemFree(*clsids); *clsids = NULL; } *count = mft_count; return hr; } /*********************************************************************** * MFTEnumEx (mfplat.@) */ HRESULT WINAPI MFTEnumEx(GUID category, UINT32 flags, const MFT_REGISTER_TYPE_INFO *input_type, const MFT_REGISTER_TYPE_INFO *output_type, IMFActivate ***activate, UINT32 *count) { TRACE("%s, %#x, %s, %s, %p, %p.\n", debugstr_mf_guid(&category), flags, debugstr_reg_typeinfo(input_type), debugstr_reg_typeinfo(output_type), activate, count); return mft_enum(category, flags, input_type, output_type, NULL, activate, count); } /*********************************************************************** * MFTEnum2 (mfplat.@) */ HRESULT WINAPI MFTEnum2(GUID category, UINT32 flags, const MFT_REGISTER_TYPE_INFO *input_type, const MFT_REGISTER_TYPE_INFO *output_type, IMFAttributes *attributes, IMFActivate ***activate, UINT32 *count) { TRACE("%s, %#x, %s, %s, %p, %p, %p.\n", debugstr_mf_guid(&category), flags, debugstr_reg_typeinfo(input_type), debugstr_reg_typeinfo(output_type), attributes, activate, count); if (attributes) FIXME("Ignoring attributes.\n"); return mft_enum(category, flags, input_type, output_type, attributes, activate, count); } /*********************************************************************** * MFTUnregister (mfplat.@) */ HRESULT WINAPI MFTUnregister(CLSID clsid) { WCHAR buffer[64], category[MAX_PATH]; HKEY htransform, hcategory, htmp; DWORD size = MAX_PATH; DWORD index = 0; TRACE("(%s)\n", debugstr_guid(&clsid)); guid_to_string(buffer, &clsid); if (!RegOpenKeyW(HKEY_CLASSES_ROOT, transform_keyW, &htransform)) { RegDeleteKeyW(htransform, buffer); RegCloseKey(htransform); } if (!RegOpenKeyW(HKEY_CLASSES_ROOT, categories_keyW, &hcategory)) { while (RegEnumKeyExW(hcategory, index, category, &size, NULL, NULL, NULL, NULL) == ERROR_SUCCESS) { if (!RegOpenKeyW(hcategory, category, &htmp)) { RegDeleteKeyW(htmp, buffer); RegCloseKey(htmp); } size = MAX_PATH; index++; } RegCloseKey(hcategory); } return S_OK; } static HRESULT mft_get_name(HKEY hkey, WCHAR **name) { DWORD size; if (!name) return S_OK; *name = NULL; if (!RegQueryValueExW(hkey, NULL, NULL, NULL, NULL, &size)) { if (!(*name = CoTaskMemAlloc(size))) return E_OUTOFMEMORY; RegQueryValueExW(hkey, NULL, NULL, NULL, (BYTE *)*name, &size); } return S_OK; } static HRESULT mft_get_reg_type_info(const WCHAR *clsid, const WCHAR *key, MFT_REGISTER_TYPE_INFO **ret_types, UINT32 *ret_count) { MFT_REGISTER_TYPE_INFO *types = NULL; UINT32 count = 0; if (!ret_types) return S_OK; mft_get_reg_type_info_internal(clsid, key, &types, &count); if (count) { if (!(*ret_types = CoTaskMemAlloc(count * sizeof(**ret_types)))) { free(types); return E_OUTOFMEMORY; } memcpy(*ret_types, types, count * sizeof(**ret_types)); *ret_count = count; } free(types); return S_OK; } static HRESULT mft_get_attributes(HKEY hkey, IMFAttributes **ret) { IMFAttributes *attributes; UINT8 *blob; DWORD size; HRESULT hr; if (!ret) return S_OK; if (FAILED(hr = MFCreateAttributes(&attributes, 0))) return hr; if (!RegQueryValueExW(hkey, L"Attributes", NULL, NULL, NULL, &size) && size) { if (!(blob = malloc(size))) { IMFAttributes_Release(attributes); return E_OUTOFMEMORY; } if (!RegQueryValueExW(hkey, L"Attributes", NULL, NULL, blob, &size)) { if (FAILED(hr = MFInitAttributesFromBlob(attributes, blob, size))) WARN("Failed to initialize attributes, hr %#x.\n", hr); } free(blob); } if (SUCCEEDED(hr)) { *ret = attributes; IMFAttributes_AddRef(*ret); } IMFAttributes_Release(attributes); return hr; } /*********************************************************************** * MFTGetInfo (mfplat.@) */ HRESULT WINAPI MFTGetInfo(CLSID clsid, WCHAR **name, MFT_REGISTER_TYPE_INFO **input_types, UINT32 *input_types_count, MFT_REGISTER_TYPE_INFO **output_types, UINT32 *output_types_count, IMFAttributes **attributes) { HRESULT hr = S_OK; WCHAR clsidW[64]; HKEY hroot, hmft; DWORD ret; TRACE("%s, %p, %p, %p, %p, %p, %p.\n", debugstr_guid(&clsid), name, input_types, input_types_count, output_types, output_types_count, attributes); guid_to_string(clsidW, &clsid); if ((ret = RegOpenKeyW(HKEY_CLASSES_ROOT, transform_keyW, &hroot))) return HRESULT_FROM_WIN32(ret); ret = RegOpenKeyW(hroot, clsidW, &hmft); RegCloseKey(hroot); if (ret) return HRESULT_FROM_WIN32(ret); if (input_types_count) *input_types_count = 0; if (output_types_count) *output_types_count = 0; hr = mft_get_name(hmft, name); if (SUCCEEDED(hr)) hr = mft_get_reg_type_info(clsidW, L"InputTypes", input_types, input_types_count); if (SUCCEEDED(hr)) hr = mft_get_reg_type_info(clsidW, L"OutputTypes", output_types, output_types_count); if (SUCCEEDED(hr)) hr = mft_get_attributes(hmft, attributes); RegCloseKey(hmft); return hr; } /*********************************************************************** * MFStartup (mfplat.@) */ HRESULT WINAPI MFStartup(ULONG version, DWORD flags) { #define MF_VERSION_XP MAKELONG( MF_API_VERSION, 1 ) #define MF_VERSION_WIN7 MAKELONG( MF_API_VERSION, 2 ) TRACE("%#x, %#x.\n", version, flags); if (version != MF_VERSION_XP && version != MF_VERSION_WIN7) return MF_E_BAD_STARTUP_VERSION; RtwqStartup(); return S_OK; } /*********************************************************************** * MFShutdown (mfplat.@) */ HRESULT WINAPI MFShutdown(void) { TRACE("\n"); RtwqShutdown(); return S_OK; } /*********************************************************************** * MFCopyImage (mfplat.@) */ HRESULT WINAPI MFCopyImage(BYTE *dest, LONG deststride, const BYTE *src, LONG srcstride, DWORD width, DWORD lines) { TRACE("%p, %d, %p, %d, %u, %u.\n", dest, deststride, src, srcstride, width, lines); while (lines--) { memcpy(dest, src, width); dest += deststride; src += srcstride; } return S_OK; } struct guid_def { const GUID *guid; const char *name; }; static int __cdecl debug_compare_guid(const void *a, const void *b) { const GUID *guid = a; const struct guid_def *guid_def = b; return memcmp(guid, guid_def->guid, sizeof(*guid)); } const char *debugstr_attr(const GUID *guid) { static const struct guid_def guid_defs[] = { #define X(g) { &(g), #g } #define MF_READER_WRITER_D3D_MANAGER MF_SOURCE_READER_D3D_MANAGER X(MF_READWRITE_MMCSS_CLASS), X(MF_TOPONODE_MARKIN_HERE), X(MF_MT_H264_SUPPORTED_SYNC_FRAME_TYPES), X(MF_TOPONODE_MARKOUT_HERE), X(EVRConfig_ForceBob), X(MF_TOPONODE_DECODER), X(EVRConfig_AllowDropToBob), X(MF_TOPOLOGY_PROJECTSTART), X(EVRConfig_ForceThrottle), X(MF_VIDEO_MAX_MB_PER_SEC), X(MF_TOPOLOGY_PROJECTSTOP), X(MF_SINK_WRITER_ENCODER_CONFIG), X(EVRConfig_AllowDropToThrottle), X(MF_TOPOLOGY_NO_MARKIN_MARKOUT), X(EVRConfig_ForceHalfInterlace), X(EVRConfig_AllowDropToHalfInterlace), X(EVRConfig_ForceScaling), X(MF_MT_H264_CAPABILITIES), X(EVRConfig_AllowScaling), X(MF_SOURCE_READER_ENABLE_TRANSCODE_ONLY_TRANSFORMS), X(MFT_PREFERRED_ENCODER_PROFILE), X(EVRConfig_ForceBatching), X(EVRConfig_AllowBatching), X(MF_TOPOLOGY_DYNAMIC_CHANGE_NOT_ALLOWED), X(MF_MT_VIDEO_PROFILE), X(MF_MT_DV_AAUX_CTRL_PACK_1), X(MF_MT_ALPHA_MODE), X(MF_MT_MPEG2_TIMECODE), X(MF_PMP_SERVER_CONTEXT), X(MFT_SUPPORT_DYNAMIC_FORMAT_CHANGE), X(MF_MEDIA_ENGINE_TRACK_ID), X(MF_MT_CUSTOM_VIDEO_PRIMARIES), X(MF_MT_TIMESTAMP_CAN_BE_DTS), X(MFT_CODEC_MERIT_Attribute), X(MF_TOPOLOGY_PLAYBACK_MAX_DIMS), X(MF_XVP_DISABLE_FRC), X(MF_LOW_LATENCY), X(MF_READWRITE_ENABLE_HARDWARE_TRANSFORMS), X(MF_MT_MPEG2_FLAGS), X(MF_MEDIA_ENGINE_AUDIO_CATEGORY), X(MF_MT_PIXEL_ASPECT_RATIO), X(MF_VIDEO_PROCESSOR_ALGORITHM), X(MF_TOPOLOGY_ENABLE_XVP_FOR_PLAYBACK), X(MFT_CONNECTED_STREAM_ATTRIBUTE), X(MF_MT_REALTIME_CONTENT), X(MF_MEDIA_ENGINE_CONTENT_PROTECTION_FLAGS), X(MF_MT_WRAPPED_TYPE), X(MF_MT_DRM_FLAGS), X(MF_MT_AVG_BITRATE), X(MF_MT_DECODER_USE_MAX_RESOLUTION), X(MF_MT_MAX_LUMINANCE_LEVEL), X(MFT_CONNECTED_TO_HW_STREAM), X(MF_SA_D3D_AWARE), X(MF_XVP_SAMPLE_LOCK_TIMEOUT), X(MF_MT_MAX_KEYFRAME_SPACING), X(MFT_TRANSFORM_CLSID_Attribute), X(MF_SOURCE_READER_ENABLE_ADVANCED_VIDEO_PROCESSING), X(MF_MT_AM_FORMAT_TYPE), X(MF_SESSION_APPROX_EVENT_OCCURRENCE_TIME), X(MF_MEDIA_ENGINE_SYNCHRONOUS_CLOSE), X(MF_MT_H264_MAX_MB_PER_SEC), X(MF_DEVSOURCE_ATTRIBUTE_SOURCE_TYPE_VIDCAP_MAX_BUFFERS), X(MF_MT_AUDIO_BLOCK_ALIGNMENT), X(MF_PD_PMPHOST_CONTEXT), X(MF_PD_APP_CONTEXT), X(MF_PD_DURATION), X(MF_PD_TOTAL_FILE_SIZE), X(MF_PD_AUDIO_ENCODING_BITRATE), X(MF_PD_VIDEO_ENCODING_BITRATE), X(MFSampleExtension_TargetGlobalLuminance), X(MF_PD_MIME_TYPE), X(MF_MT_H264_SUPPORTED_SLICE_MODES), X(MF_PD_LAST_MODIFIED_TIME), X(VIDEO_ZOOM_RECT), X(MF_PD_PLAYBACK_ELEMENT_ID), X(MF_MEDIA_ENGINE_BROWSER_COMPATIBILITY_MODE_IE9), X(MF_MT_ALL_SAMPLES_INDEPENDENT), X(MF_SA_D3D12_CLEAR_VALUE), X(MF_MT_D3D12_RESOURCE_FLAG_ALLOW_CROSS_ADAPTER), X(MF_PD_PREFERRED_LANGUAGE), X(MF_PD_PLAYBACK_BOUNDARY_TIME), X(MF_MEDIA_ENGINE_TELEMETRY_APPLICATION_ID), X(MF_ACTIVATE_MFT_LOCKED), X(MF_MEDIA_ENGINE_VIDEO_OUTPUT_FORMAT), X(MF_SOURCE_READER_ENABLE_VIDEO_PROCESSING), X(MF_MT_FRAME_SIZE), X(MF_MT_H264_SIMULCAST_SUPPORT), X(MF_SINK_WRITER_ASYNC_CALLBACK), X(MF_TOPOLOGY_START_TIME_ON_PRESENTATION_SWITCH), X(MFT_DECODER_EXPOSE_OUTPUT_TYPES_IN_NATIVE_ORDER), X(MF_TOPONODE_WORKQUEUE_MMCSS_PRIORITY), X(MF_MT_FRAME_RATE_RANGE_MAX), X(MF_MT_PALETTE), X(MF_DEVSOURCE_ATTRIBUTE_SOURCE_TYPE_VIDCAP_PROVIDER_DEVICE_ID), X(MF_TOPOLOGY_STATIC_PLAYBACK_OPTIMIZATIONS), X(MF_SA_D3D11_USAGE), X(MF_MEDIA_ENGINE_NEEDKEY_CALLBACK), X(MF_MT_GEOMETRIC_APERTURE), X(MF_MT_ORIGINAL_WAVE_FORMAT_TAG), X(MF_MT_DV_AAUX_SRC_PACK_1), X(MF_MEDIA_ENGINE_STREAM_CONTAINS_ALPHA_CHANNEL), X(MF_MEDIA_ENGINE_MEDIA_PLAYER_MODE), X(MF_MEDIA_ENGINE_EXTENSION), X(MF_MT_D3D12_RESOURCE_FLAG_ALLOW_UNORDERED_ACCESS), X(MF_MT_DEFAULT_STRIDE), X(MF_MT_ARBITRARY_FORMAT), X(MF_TRANSFORM_CATEGORY_Attribute), X(MF_MT_MPEG2_HDCP), X(MF_MT_AUDIO_FLOAT_SAMPLES_PER_SECOND), X(MF_MT_SPATIAL_AUDIO_MAX_DYNAMIC_OBJECTS), X(MF_MT_DECODER_MAX_DPB_COUNT), X(MFSampleExtension_ForwardedDecodeUnits), X(MF_SA_D3D11_SHARED_WITHOUT_MUTEX), X(MF_MT_DV_AAUX_CTRL_PACK_0), X(MF_MT_YUV_MATRIX), X(MF_EVENT_SOURCE_TOPOLOGY_CANCELED), X(MF_MT_MPEG4_CURRENT_SAMPLE_ENTRY), X(MF_MT_MAX_FRAME_AVERAGE_LUMINANCE_LEVEL), X(MF_DEVSOURCE_ATTRIBUTE_SOURCE_TYPE_AUDCAP_ENDPOINT_ID), X(MF_DEVSOURCE_ATTRIBUTE_FRIENDLY_NAME), X(MF_MT_VIDEO_ROTATION), X(MF_DEVSOURCE_ATTRIBUTE_SOURCE_TYPE_AUDCAP_SYMBOLIC_LINK), X(MF_MEDIA_ENGINE_BROWSER_COMPATIBILITY_MODE_IE11), X(MF_MT_USER_DATA), X(MF_ACTIVATE_CUSTOM_VIDEO_MIXER_CLSID), X(MF_MT_MIN_MASTERING_LUMINANCE), X(MF_ACTIVATE_CUSTOM_VIDEO_MIXER_ACTIVATE), X(MF_SA_REQUIRED_SAMPLE_COUNT), X(MF_ACTIVATE_CUSTOM_VIDEO_MIXER_FLAGS), X(MF_ACTIVATE_CUSTOM_VIDEO_PRESENTER_CLSID), X(MF_EVENT_STREAM_METADATA_SYSTEMID), X(MF_ACTIVATE_CUSTOM_VIDEO_PRESENTER_ACTIVATE), X(MF_MT_AUDIO_CHANNEL_MASK), X(MF_SOURCE_READER_DISCONNECT_MEDIASOURCE_ON_SHUTDOWN), X(MF_READWRITE_DISABLE_CONVERTERS), X(MF_MEDIA_ENGINE_BROWSER_COMPATIBILITY_MODE_IE_EDGE), X(MF_ACTIVATE_CUSTOM_VIDEO_PRESENTER_FLAGS), X(MF_SA_D3D12_HEAP_FLAGS), X(MF_MT_MINIMUM_DISPLAY_APERTURE), X(MFSampleExtension_Token), X(MF_DEVSOURCE_ATTRIBUTE_SOURCE_TYPE_VIDCAP_CATEGORY), X(MF_D3D12_SYNCHRONIZATION_OBJECT), X(MF_MT_AUDIO_VALID_BITS_PER_SAMPLE), X(MF_TRANSFORM_ASYNC_UNLOCK), X(MF_DISABLE_FRAME_CORRUPTION_INFO), X(MF_TOPOLOGY_ENUMERATE_SOURCE_TYPES), X(MF_MT_VIDEO_NO_FRAME_ORDERING), X(MF_MEDIA_ENGINE_PLAYBACK_VISUAL), X(MF_MT_VIDEO_CHROMA_SITING), X(MF_AUDIO_RENDERER_ATTRIBUTE_STREAM_CATEGORY), X(MF_SA_BUFFERS_PER_SAMPLE), X(MFSampleExtension_3DVideo_SampleFormat), X(MF_MT_H264_RESOLUTION_SCALING), X(MF_MT_VIDEO_LEVEL), X(MF_SA_D3D12_HEAP_TYPE), X(MF_SAMPLEGRABBERSINK_SAMPLE_TIME_OFFSET), X(MF_MT_SAMPLE_SIZE), X(MF_MT_AAC_PAYLOAD_TYPE), X(MF_TOPOLOGY_PLAYBACK_FRAMERATE), X(MF_SOURCE_READER_D3D11_BIND_FLAGS), X(MF_MT_AUDIO_FOLDDOWN_MATRIX), X(MF_MT_AUDIO_WMADRC_PEAKREF), X(MF_MT_AUDIO_WMADRC_PEAKTARGET), X(MF_TRANSFORM_FLAGS_Attribute), X(MF_MT_H264_SUPPORTED_RATE_CONTROL_MODES), X(MF_PD_SAMI_STYLELIST), X(MF_MT_AUDIO_WMADRC_AVGREF), X(MF_MT_AUDIO_BITS_PER_SAMPLE), X(MF_SD_LANGUAGE), X(MF_MT_AUDIO_WMADRC_AVGTARGET), X(MF_SD_PROTECTED), X(MF_SESSION_TOPOLOADER), X(MF_SESSION_GLOBAL_TIME), X(MF_SESSION_QUALITY_MANAGER), X(MF_SESSION_CONTENT_PROTECTION_MANAGER), X(MF_MT_MPEG4_SAMPLE_DESCRIPTION), X(MF_MT_D3D_RESOURCE_VERSION), X(MF_MT_D3D12_RESOURCE_FLAG_ALLOW_RENDER_TARGET), X(MF_MT_MPEG_START_TIME_CODE), X(MFT_REMUX_MARK_I_PICTURE_AS_CLEAN_POINT), X(MFT_REMUX_MARK_I_PICTURE_AS_CLEAN_POINT), X(MF_READWRITE_MMCSS_PRIORITY_AUDIO), X(MF_MT_H264_MAX_CODEC_CONFIG_DELAY), X(MF_MT_DV_AAUX_SRC_PACK_0), X(MF_BYTESTREAM_ORIGIN_NAME), X(MF_BYTESTREAM_CONTENT_TYPE), X(MF_MT_DEPTH_MEASUREMENT), X(MF_MEDIA_ENGINE_COMPATIBILITY_MODE_WIN10), X(MF_MT_VIDEO_3D_NUM_VIEWS), X(MF_BYTESTREAM_DURATION), X(MF_SD_SAMI_LANGUAGE), X(MF_EVENT_OUTPUT_NODE), X(MF_BYTESTREAM_LAST_MODIFIED_TIME), X(MFT_ENUM_ADAPTER_LUID), X(MF_MT_FRAME_RATE_RANGE_MIN), X(MF_BYTESTREAM_IFO_FILE_URI), X(MF_EVENT_TOPOLOGY_STATUS), X(MF_BYTESTREAM_DLNA_PROFILE_ID), X(MF_DEVSOURCE_ATTRIBUTE_SOURCE_TYPE_AUDCAP_ROLE), X(MF_MT_MAJOR_TYPE), X(MF_SA_REQUIRED_SAMPLE_COUNT_PROGRESSIVE), X(MF_MT_IN_BAND_PARAMETER_SET), X(MF_EVENT_SOURCE_CHARACTERISTICS), X(MF_EVENT_SOURCE_CHARACTERISTICS_OLD), X(MF_SESSION_SERVER_CONTEXT), X(MF_MT_VIDEO_3D_FIRST_IS_LEFT), X(MFT_DECODER_FINAL_VIDEO_RESOLUTION_HINT), X(MF_PD_ADAPTIVE_STREAMING), X(MF_MEDIA_ENGINE_SOURCE_RESOLVER_CONFIG_STORE), X(MF_MEDIA_ENGINE_COMPATIBILITY_MODE_WWA_EDGE), X(MF_MT_H264_SUPPORTED_USAGES), X(MFT_PREFERRED_OUTPUTTYPE_Attribute), X(MFSampleExtension_Timestamp), X(MF_TOPONODE_PRIMARYOUTPUT), X(MF_MT_SUBTYPE), X(MF_TRANSFORM_ASYNC), X(MF_TOPONODE_STREAMID), X(MF_MEDIA_ENGINE_PLAYBACK_HWND), X(MF_TOPONODE_NOSHUTDOWN_ON_REMOVE), X(MF_MT_VIDEO_LIGHTING), X(MF_SD_MUTUALLY_EXCLUSIVE), X(MF_SD_STREAM_NAME), X(MF_MT_DV_VAUX_SRC_PACK), X(MF_TOPONODE_RATELESS), X(MF_EVENT_STREAM_METADATA_CONTENT_KEYIDS), X(MF_TOPONODE_DISABLE_PREROLL), X(MF_SA_D3D11_ALLOW_DYNAMIC_YUV_TEXTURE), X(MF_MT_VIDEO_3D_FORMAT), X(MF_EVENT_STREAM_METADATA_KEYDATA), X(MF_READER_WRITER_D3D_MANAGER), X(MFSampleExtension_3DVideo), X(MF_SA_MINIMUM_OUTPUT_SAMPLE_COUNT_PROGRESSIVE), X(MF_MT_H264_USAGE), X(MF_MEDIA_ENGINE_EME_CALLBACK), X(MF_EVENT_SOURCE_FAKE_START), X(MF_EVENT_SOURCE_PROJECTSTART), X(MF_EVENT_SOURCE_ACTUAL_START), X(MF_MT_D3D12_TEXTURE_LAYOUT), X(MF_MEDIA_ENGINE_CONTENT_PROTECTION_MANAGER), X(MF_MT_AUDIO_SAMPLES_PER_BLOCK), X(MFT_ENUM_HARDWARE_URL_Attribute), X(MF_SOURCE_READER_ASYNC_CALLBACK), X(MF_MT_D3D12_RESOURCE_FLAG_DENY_SHADER_RESOURCE), X(MF_MT_OUTPUT_BUFFER_NUM), X(MF_SA_D3D11_BINDFLAGS), X(MFT_ENCODER_SUPPORTS_CONFIG_EVENT), X(MF_MT_AUDIO_FLAC_MAX_BLOCK_SIZE), X(MFT_FRIENDLY_NAME_Attribute), X(MF_MT_FIXED_SIZE_SAMPLES), X(MFT_SUPPORT_3DVIDEO), X(MFT_SUPPORT_3DVIDEO), X(MFT_INPUT_TYPES_Attributes), X(MF_MT_D3D12_RESOURCE_FLAG_ALLOW_SIMULTANEOUS_ACCESS), X(MF_MT_H264_LAYOUT_PER_STREAM), X(MF_EVENT_SCRUBSAMPLE_TIME), X(MF_MT_SPATIAL_AUDIO_MAX_METADATA_ITEMS), X(MF_MT_MPEG2_ONE_FRAME_PER_PACKET), X(MF_MT_INTERLACE_MODE), X(MF_MEDIA_ENGINE_CALLBACK), X(MF_MT_VIDEO_RENDERER_EXTENSION_PROFILE), X(MF_DEVSOURCE_ATTRIBUTE_SOURCE_TYPE_VIDCAP_HW_SOURCE), X(MF_MT_AUDIO_PREFER_WAVEFORMATEX), X(MF_XVP_CALLER_ALLOCATES_OUTPUT), X(MF_MT_H264_SVC_CAPABILITIES), X(MF_TOPONODE_WORKQUEUE_ITEM_PRIORITY), X(MF_MT_SPATIAL_AUDIO_OBJECT_METADATA_LENGTH), X(MF_MT_SPATIAL_AUDIO_OBJECT_METADATA_FORMAT_ID), X(MF_SAMPLEGRABBERSINK_IGNORE_CLOCK), X(MF_SA_D3D11_SHARED), X(MF_MT_PAN_SCAN_ENABLED), X(MF_MT_D3D12_RESOURCE_FLAG_ALLOW_DEPTH_STENCIL), X(MF_AUDIO_RENDERER_ATTRIBUTE_ENDPOINT_ID), X(MF_MT_DV_VAUX_CTRL_PACK), X(MFSampleExtension_ForwardedDecodeUnitType), X(MF_SA_D3D11_AWARE), X(MF_MT_AUDIO_AVG_BYTES_PER_SECOND), X(MF_SOURCE_READER_MEDIASOURCE_CHARACTERISTICS), X(MF_MT_SPATIAL_AUDIO_MIN_METADATA_ITEM_OFFSET_SPACING), X(MF_TOPONODE_TRANSFORM_OBJECTID), X(MF_DEVSOURCE_ATTRIBUTE_MEDIA_TYPE), X(MF_EVENT_MFT_INPUT_STREAM_ID), X(MF_MT_SOURCE_CONTENT_HINT), X(MFT_ENUM_HARDWARE_VENDOR_ID_Attribute), X(MFT_ENUM_TRANSCODE_ONLY_ATTRIBUTE), X(MF_READWRITE_MMCSS_PRIORITY), X(MF_MT_VIDEO_3D), X(MF_EVENT_START_PRESENTATION_TIME), X(MF_EVENT_SESSIONCAPS), X(MF_EVENT_PRESENTATION_TIME_OFFSET), X(MF_MEDIA_ENGINE_AUDIO_ENDPOINT_ROLE), X(MF_EVENT_SESSIONCAPS_DELTA), X(MF_EVENT_START_PRESENTATION_TIME_AT_OUTPUT), X(MFSampleExtension_DecodeTimestamp), X(MF_MEDIA_ENGINE_COMPATIBILITY_MODE), X(MF_SA_MINIMUM_OUTPUT_SAMPLE_COUNT), X(MF_MT_VIDEO_H264_NO_FMOASO), X(MF_MT_AVG_BIT_ERROR_RATE), X(MF_MT_VIDEO_PRIMARIES), X(MF_SINK_WRITER_DISABLE_THROTTLING), X(MF_MT_H264_RATE_CONTROL_MODES), X(MF_DEVSOURCE_ATTRIBUTE_SOURCE_TYPE_VIDCAP_SYMBOLIC_LINK), X(MF_READWRITE_D3D_OPTIONAL), X(MF_SA_D3D11_HW_PROTECTED), X(MF_MEDIA_ENGINE_DXGI_MANAGER), X(MF_READWRITE_MMCSS_CLASS_AUDIO), X(MF_MEDIA_ENGINE_COREWINDOW), X(MF_SOURCE_READER_DISABLE_CAMERA_PLUGINS), X(MF_MT_MPEG4_TRACK_TYPE), X(MF_ACTIVATE_VIDEO_WINDOW), X(MF_MT_PAN_SCAN_APERTURE), X(MF_TOPOLOGY_RESOLUTION_STATUS), X(MF_MT_ORIGINAL_4CC), X(MF_PD_AUDIO_ISVARIABLEBITRATE), X(MF_AUDIO_RENDERER_ATTRIBUTE_FLAGS), X(MF_MEDIA_ENGINE_BROWSER_COMPATIBILITY_MODE), X(MF_MT_D3D12_CPU_READBACK), X(MF_AUDIO_RENDERER_ATTRIBUTE_SESSION_ID), X(MF_MT_MPEG2_CONTENT_PACKET), X(MFT_PROCESS_LOCAL_Attribute), X(MFT_PROCESS_LOCAL_Attribute), X(MF_MT_PAD_CONTROL_FLAGS), X(MF_MT_VIDEO_NOMINAL_RANGE), X(MF_MT_AAC_AUDIO_PROFILE_LEVEL_INDICATION), X(MF_MT_MPEG_SEQUENCE_HEADER), X(MF_MEDIA_ENGINE_OPM_HWND), X(MF_MT_AUDIO_SAMPLES_PER_SECOND), X(MF_MT_SPATIAL_AUDIO_DATA_PRESENT), X(MF_MT_FRAME_RATE), X(MF_TOPONODE_FLUSH), X(MF_MT_MPEG2_STANDARD), X(MF_TOPONODE_DRAIN), X(MF_MT_TRANSFER_FUNCTION), X(MF_TOPONODE_MEDIASTART), X(MF_TOPONODE_MEDIASTOP), X(MF_SOURCE_READER_MEDIASOURCE_CONFIG), X(MF_TOPONODE_SOURCE), X(MF_TOPONODE_PRESENTATION_DESCRIPTOR), X(MF_TOPONODE_D3DAWARE), X(MF_MT_COMPRESSED), X(MF_TOPONODE_STREAM_DESCRIPTOR), X(MF_TOPONODE_ERRORCODE), X(MF_TOPONODE_SEQUENCE_ELEMENTID), X(MF_EVENT_MFT_CONTEXT), X(MF_MT_FORWARD_CUSTOM_SEI), X(MF_TOPONODE_CONNECT_METHOD), X(MFT_OUTPUT_TYPES_Attributes), X(MF_MT_IMAGE_LOSS_TOLERANT), X(MF_SESSION_REMOTE_SOURCE_MODE), X(MF_MT_DEPTH_VALUE_UNIT), X(MF_MT_AUDIO_NUM_CHANNELS), X(MF_MT_ARBITRARY_HEADER), X(MF_TOPOLOGY_DXVA_MODE), X(MF_TOPONODE_LOCKED), X(MF_TOPONODE_WORKQUEUE_ID), X(MF_MEDIA_ENGINE_CONTINUE_ON_CODEC_ERROR), X(MF_TOPONODE_WORKQUEUE_MMCSS_CLASS), X(MF_TOPONODE_DECRYPTOR), X(MF_EVENT_DO_THINNING), X(MF_TOPONODE_DISCARDABLE), X(MF_TOPOLOGY_HARDWARE_MODE), X(MF_SOURCE_READER_DISABLE_DXVA), X(MF_MT_FORWARD_CUSTOM_NALU), X(MF_MEDIA_ENGINE_BROWSER_COMPATIBILITY_MODE_IE10), X(MF_TOPONODE_ERROR_MAJORTYPE), X(MF_MT_SECURE), X(MFT_FIELDOFUSE_UNLOCK_Attribute), X(MF_TOPONODE_ERROR_SUBTYPE), X(MF_DEVSOURCE_ATTRIBUTE_SOURCE_TYPE), X(MF_AUDIO_RENDERER_ATTRIBUTE_ENDPOINT_ROLE), X(MF_MT_VIDEO_3D_LEFT_IS_BASE), X(MF_TOPONODE_WORKQUEUE_MMCSS_TASKID), #undef MF_READER_WRITER_D3D_MANAGER #undef X }; struct guid_def *ret = NULL; if (guid) ret = bsearch(guid, guid_defs, ARRAY_SIZE(guid_defs), sizeof(*guid_defs), debug_compare_guid); return ret ? wine_dbg_sprintf("%s", ret->name) : wine_dbgstr_guid(guid); } const char *debugstr_mf_guid(const GUID *guid) { static const struct guid_def guid_defs[] = { #define X(g) { &(g), #g } X(MFAudioFormat_ADTS), X(MFAudioFormat_PCM), X(MFAudioFormat_PCM_HDCP), X(MFAudioFormat_Float), X(MFAudioFormat_DTS), X(MFAudioFormat_DRM), X(MFAudioFormat_MSP1), X(MFAudioFormat_Vorbis), X(MFAudioFormat_AAC), X(MFVideoFormat_RGB24), X(MFVideoFormat_ARGB32), X(MFVideoFormat_RGB32), X(MFVideoFormat_RGB565), X(MFVideoFormat_RGB555), X(MF_DEVSOURCE_ATTRIBUTE_SOURCE_TYPE_AUDCAP_GUID), X(MFT_CATEGORY_MULTIPLEXER), X(MFVideoFormat_A2R10G10B10), X(MFT_CATEGORY_VIDEO_EFFECT), X(MFMediaType_Script), X(MFMediaType_Image), X(MFMediaType_HTML), X(MFMediaType_Binary), X(MFVideoFormat_MPEG2), X(MFMediaType_FileTransfer), X(MFVideoFormat_RGB8), X(MFAudioFormat_Dolby_AC3), X(MFVideoFormat_L8), X(MFAudioFormat_LPCM), X(MFVideoFormat_420O), X(MFVideoFormat_AI44), X(MFVideoFormat_AV1), X(MFVideoFormat_AYUV), X(MFVideoFormat_H263), X(MFVideoFormat_H264), X(MFVideoFormat_H265), X(MFVideoFormat_HEVC), X(MFVideoFormat_HEVC_ES), X(MFT_CATEGORY_AUDIO_EFFECT), X(MFVideoFormat_I420), X(MFVideoFormat_IYUV), X(MFT_CATEGORY_VIDEO_DECODER), X(MFVideoFormat_M4S2), X(MFVideoFormat_MJPG), X(MFVideoFormat_MP43), X(MFVideoFormat_MP4S), X(MFVideoFormat_MP4V), X(MFVideoFormat_MPG1), X(MFVideoFormat_MSS1), X(MFVideoFormat_MSS2), X(MFVideoFormat_NV11), X(MFVideoFormat_NV12), X(MFVideoFormat_ORAW), X(MFAudioFormat_Opus), X(MFAudioFormat_MPEG), X(MFVideoFormat_D16), X(MFVideoFormat_P010), X(MFVideoFormat_P016), X(MFVideoFormat_P210), X(MFVideoFormat_P216), X(MFVideoFormat_L16), X(MFAudioFormat_MP3), X(MFVideoFormat_UYVY), X(MFVideoFormat_VP10), X(MFVideoFormat_VP80), X(MFVideoFormat_VP90), X(MFVideoFormat_WMV1), X(MFVideoFormat_WMV2), X(MFVideoFormat_WMV3), X(MFVideoFormat_WVC1), X(MFT_CATEGORY_OTHER), X(MFVideoFormat_Y210), X(MFVideoFormat_Y216), X(MFVideoFormat_Y410), X(MFVideoFormat_Y416), X(MFVideoFormat_Y41P), X(MFVideoFormat_Y41T), X(MFVideoFormat_Y42T), X(MFVideoFormat_YUY2), X(MFVideoFormat_YV12), X(MFVideoFormat_YVU9), X(MFVideoFormat_YVYU), X(MFAudioFormat_WMAudioV8), X(MFAudioFormat_ALAC), X(MFAudioFormat_AMR_NB), X(MFMediaType_Audio), X(MFAudioFormat_WMAudioV9), X(MFAudioFormat_AMR_WB), X(MFAudioFormat_WMAudio_Lossless), X(MFAudioFormat_AMR_WP), X(MFAudioFormat_WMASPDIF), X(MFVideoFormat_DV25), X(MFVideoFormat_DV50), X(MFVideoFormat_DVC), X(MFVideoFormat_DVH1), X(MFVideoFormat_DVHD), X(MFVideoFormat_DVSD), X(MFVideoFormat_DVSL), X(MFVideoFormat_A16B16G16R16F), X(MFVideoFormat_v210), X(MFVideoFormat_v216), X(MFVideoFormat_v410), X(MFMediaType_Video), X(MFAudioFormat_AAC_HDCP), X(MFT_CATEGORY_DEMULTIPLEXER), X(MF_DEVSOURCE_ATTRIBUTE_SOURCE_TYPE_VIDCAP_GUID), X(MFT_CATEGORY_VIDEO_ENCODER), X(MFAudioFormat_Dolby_AC3_HDCP), X(MFMediaType_Subtitle), X(MFMediaType_Stream), X(MFAudioFormat_Dolby_AC3_SPDIF), X(MFAudioFormat_Float_SpatialObjects), X(MFMediaType_SAMI), X(MFAudioFormat_ADTS_HDCP), X(MFAudioFormat_FLAC), X(MFAudioFormat_Dolby_DDPlus), X(MFMediaType_MultiplexedFrames), X(MFT_CATEGORY_AUDIO_DECODER), X(MFAudioFormat_Base_HDCP), X(MFT_CATEGORY_AUDIO_ENCODER), X(MFVideoFormat_Base_HDCP), X(MFVideoFormat_H264_HDCP), X(MFVideoFormat_HEVC_HDCP), X(MFMediaType_Default), X(MFMediaType_Protected), X(MFVideoFormat_H264_ES), X(MFMediaType_Perception), X(MFT_CATEGORY_VIDEO_PROCESSOR), #undef X }; struct guid_def *ret = NULL; if (guid) ret = bsearch(guid, guid_defs, ARRAY_SIZE(guid_defs), sizeof(*guid_defs), debug_compare_guid); return ret ? wine_dbg_sprintf("%s", ret->name) : wine_dbgstr_guid(guid); } struct event_id { DWORD id; const char *name; }; static int __cdecl debug_event_id(const void *a, const void *b) { const DWORD *id = a; const struct event_id *event_id = b; return *id - event_id->id; } static const char *debugstr_eventid(DWORD event) { static const struct event_id { DWORD id; const char *name; } event_ids[] = { #define X(e) { e, #e } X(MEUnknown), X(MEError), X(MEExtendedType), X(MENonFatalError), X(MESessionUnknown), X(MESessionTopologySet), X(MESessionTopologiesCleared), X(MESessionStarted), X(MESessionPaused), X(MESessionStopped), X(MESessionClosed), X(MESessionEnded), X(MESessionRateChanged), X(MESessionScrubSampleComplete), X(MESessionCapabilitiesChanged), X(MESessionTopologyStatus), X(MESessionNotifyPresentationTime), X(MENewPresentation), X(MELicenseAcquisitionStart), X(MELicenseAcquisitionCompleted), X(MEIndividualizationStart), X(MEIndividualizationCompleted), X(MEEnablerProgress), X(MEEnablerCompleted), X(MEPolicyError), X(MEPolicyReport), X(MEBufferingStarted), X(MEBufferingStopped), X(MEConnectStart), X(MEConnectEnd), X(MEReconnectStart), X(MEReconnectEnd), X(MERendererEvent), X(MESessionStreamSinkFormatChanged), X(MESourceUnknown), X(MESourceStarted), X(MEStreamStarted), X(MESourceSeeked), X(MEStreamSeeked), X(MENewStream), X(MEUpdatedStream), X(MESourceStopped), X(MEStreamStopped), X(MESourcePaused), X(MEStreamPaused), X(MEEndOfPresentation), X(MEEndOfStream), X(MEMediaSample), X(MEStreamTick), X(MEStreamThinMode), X(MEStreamFormatChanged), X(MESourceRateChanged), X(MEEndOfPresentationSegment), X(MESourceCharacteristicsChanged), X(MESourceRateChangeRequested), X(MESourceMetadataChanged), X(MESequencerSourceTopologyUpdated), X(MESinkUnknown), X(MEStreamSinkStarted), X(MEStreamSinkStopped), X(MEStreamSinkPaused), X(MEStreamSinkRateChanged), X(MEStreamSinkRequestSample), X(MEStreamSinkMarker), X(MEStreamSinkPrerolled), X(MEStreamSinkScrubSampleComplete), X(MEStreamSinkFormatChanged), X(MEStreamSinkDeviceChanged), X(MEQualityNotify), X(MESinkInvalidated), X(MEAudioSessionNameChanged), X(MEAudioSessionVolumeChanged), X(MEAudioSessionDeviceRemoved), X(MEAudioSessionServerShutdown), X(MEAudioSessionGroupingParamChanged), X(MEAudioSessionIconChanged), X(MEAudioSessionFormatChanged), X(MEAudioSessionDisconnected), X(MEAudioSessionExclusiveModeOverride), X(MECaptureAudioSessionVolumeChanged), X(MECaptureAudioSessionDeviceRemoved), X(MECaptureAudioSessionFormatChanged), X(MECaptureAudioSessionDisconnected), X(MECaptureAudioSessionExclusiveModeOverride), X(MECaptureAudioSessionServerShutdown), X(METrustUnknown), X(MEPolicyChanged), X(MEContentProtectionMessage), X(MEPolicySet), X(MEWMDRMLicenseBackupCompleted), X(MEWMDRMLicenseBackupProgress), X(MEWMDRMLicenseRestoreCompleted), X(MEWMDRMLicenseRestoreProgress), X(MEWMDRMLicenseAcquisitionCompleted), X(MEWMDRMIndividualizationCompleted), X(MEWMDRMIndividualizationProgress), X(MEWMDRMProximityCompleted), X(MEWMDRMLicenseStoreCleaned), X(MEWMDRMRevocationDownloadCompleted), X(METransformUnknown), X(METransformNeedInput), X(METransformHaveOutput), X(METransformDrainComplete), X(METransformMarker), X(METransformInputStreamStateChanged), X(MEByteStreamCharacteristicsChanged), X(MEVideoCaptureDeviceRemoved), X(MEVideoCaptureDevicePreempted), X(MEStreamSinkFormatInvalidated), X(MEEncodingParameters), X(MEContentProtectionMetadata), X(MEDeviceThermalStateChanged), #undef X }; struct event_id *ret = bsearch(&event, event_ids, ARRAY_SIZE(event_ids), sizeof(*event_ids), debug_event_id); return ret ? wine_dbg_sprintf("%s", ret->name) : wine_dbg_sprintf("%u", event); } static inline struct attributes *impl_from_IMFAttributes(IMFAttributes *iface) { return CONTAINING_RECORD(iface, struct attributes, IMFAttributes_iface); } static HRESULT WINAPI mfattributes_QueryInterface(IMFAttributes *iface, REFIID riid, void **out) { TRACE("%p, %s, %p.\n", iface, debugstr_guid(riid), out); if (IsEqualIID(riid, &IID_IMFAttributes) || IsEqualGUID(riid, &IID_IUnknown)) { *out = iface; IMFAttributes_AddRef(iface); return S_OK; } WARN("Unsupported %s.\n", debugstr_guid(riid)); *out = NULL; return E_NOINTERFACE; } static ULONG WINAPI mfattributes_AddRef(IMFAttributes *iface) { struct attributes *attributes = impl_from_IMFAttributes(iface); ULONG refcount = InterlockedIncrement(&attributes->ref); TRACE("%p, refcount %d.\n", iface, refcount); return refcount; } static ULONG WINAPI mfattributes_Release(IMFAttributes *iface) { struct attributes *attributes = impl_from_IMFAttributes(iface); ULONG refcount = InterlockedDecrement(&attributes->ref); TRACE("%p, refcount %d.\n", iface, refcount); if (!refcount) { clear_attributes_object(attributes); free(attributes); } return refcount; } static struct attribute *attributes_find_item(struct attributes *attributes, REFGUID key, size_t *index) { size_t i; for (i = 0; i < attributes->count; ++i) { if (IsEqualGUID(key, &attributes->attributes[i].key)) { if (index) *index = i; return &attributes->attributes[i]; } } return NULL; } static HRESULT attributes_get_item(struct attributes *attributes, const GUID *key, PROPVARIANT *value) { struct attribute *attribute; HRESULT hr; EnterCriticalSection(&attributes->cs); attribute = attributes_find_item(attributes, key, NULL); if (attribute) { if (attribute->value.vt == value->vt && !(value->vt == VT_UNKNOWN && !attribute->value.punkVal)) hr = PropVariantCopy(value, &attribute->value); else hr = MF_E_INVALIDTYPE; } else hr = MF_E_ATTRIBUTENOTFOUND; LeaveCriticalSection(&attributes->cs); return hr; } HRESULT attributes_GetItem(struct attributes *attributes, REFGUID key, PROPVARIANT *value) { struct attribute *attribute; HRESULT hr; EnterCriticalSection(&attributes->cs); if ((attribute = attributes_find_item(attributes, key, NULL))) hr = value ? PropVariantCopy(value, &attribute->value) : S_OK; else hr = MF_E_ATTRIBUTENOTFOUND; LeaveCriticalSection(&attributes->cs); return hr; } HRESULT attributes_GetItemType(struct attributes *attributes, REFGUID key, MF_ATTRIBUTE_TYPE *type) { struct attribute *attribute; HRESULT hr = S_OK; EnterCriticalSection(&attributes->cs); if ((attribute = attributes_find_item(attributes, key, NULL))) { *type = attribute->value.vt; } else hr = MF_E_ATTRIBUTENOTFOUND; LeaveCriticalSection(&attributes->cs); return hr; } HRESULT attributes_CompareItem(struct attributes *attributes, REFGUID key, REFPROPVARIANT value, BOOL *result) { struct attribute *attribute; *result = FALSE; EnterCriticalSection(&attributes->cs); if ((attribute = attributes_find_item(attributes, key, NULL))) { *result = attribute->value.vt == value->vt && !PropVariantCompareEx(&attribute->value, value, PVCU_DEFAULT, PVCF_DEFAULT); } LeaveCriticalSection(&attributes->cs); return S_OK; } HRESULT attributes_Compare(struct attributes *attributes, IMFAttributes *theirs, MF_ATTRIBUTES_MATCH_TYPE match_type, BOOL *ret) { IMFAttributes *smaller, *other; MF_ATTRIBUTE_TYPE type; HRESULT hr = S_OK; UINT32 count; BOOL result; size_t i; if (FAILED(hr = IMFAttributes_GetCount(theirs, &count))) return hr; EnterCriticalSection(&attributes->cs); result = TRUE; switch (match_type) { case MF_ATTRIBUTES_MATCH_OUR_ITEMS: for (i = 0; i < attributes->count; ++i) { if (FAILED(hr = IMFAttributes_CompareItem(theirs, &attributes->attributes[i].key, &attributes->attributes[i].value, &result))) break; if (!result) break; } break; case MF_ATTRIBUTES_MATCH_THEIR_ITEMS: hr = IMFAttributes_Compare(theirs, &attributes->IMFAttributes_iface, MF_ATTRIBUTES_MATCH_OUR_ITEMS, &result); break; case MF_ATTRIBUTES_MATCH_ALL_ITEMS: if (count != attributes->count) { result = FALSE; break; } for (i = 0; i < count; ++i) { if (FAILED(hr = IMFAttributes_CompareItem(theirs, &attributes->attributes[i].key, &attributes->attributes[i].value, &result))) break; if (!result) break; } break; case MF_ATTRIBUTES_MATCH_INTERSECTION: for (i = 0; i < attributes->count; ++i) { if (FAILED(IMFAttributes_GetItemType(theirs, &attributes->attributes[i].key, &type))) continue; if (FAILED(hr = IMFAttributes_CompareItem(theirs, &attributes->attributes[i].key, &attributes->attributes[i].value, &result))) break; if (!result) break; } break; case MF_ATTRIBUTES_MATCH_SMALLER: smaller = attributes->count > count ? theirs : &attributes->IMFAttributes_iface; other = attributes->count > count ? &attributes->IMFAttributes_iface : theirs; hr = IMFAttributes_Compare(smaller, other, MF_ATTRIBUTES_MATCH_OUR_ITEMS, &result); break; default: WARN("Unknown match type %d.\n", match_type); hr = E_INVALIDARG; } LeaveCriticalSection(&attributes->cs); if (SUCCEEDED(hr)) *ret = result; return hr; } HRESULT attributes_GetUINT32(struct attributes *attributes, REFGUID key, UINT32 *value) { PROPVARIANT attrval; HRESULT hr; PropVariantInit(&attrval); attrval.vt = VT_UI4; hr = attributes_get_item(attributes, key, &attrval); if (SUCCEEDED(hr)) *value = attrval.ulVal; return hr; } HRESULT attributes_GetUINT64(struct attributes *attributes, REFGUID key, UINT64 *value) { PROPVARIANT attrval; HRESULT hr; PropVariantInit(&attrval); attrval.vt = VT_UI8; hr = attributes_get_item(attributes, key, &attrval); if (SUCCEEDED(hr)) *value = attrval.uhVal.QuadPart; return hr; } HRESULT attributes_GetDouble(struct attributes *attributes, REFGUID key, double *value) { PROPVARIANT attrval; HRESULT hr; PropVariantInit(&attrval); attrval.vt = VT_R8; hr = attributes_get_item(attributes, key, &attrval); if (SUCCEEDED(hr)) *value = attrval.dblVal; return hr; } HRESULT attributes_GetGUID(struct attributes *attributes, REFGUID key, GUID *value) { struct attribute *attribute; HRESULT hr = S_OK; EnterCriticalSection(&attributes->cs); attribute = attributes_find_item(attributes, key, NULL); if (attribute) { if (attribute->value.vt == MF_ATTRIBUTE_GUID) *value = *attribute->value.puuid; else hr = MF_E_INVALIDTYPE; } else hr = MF_E_ATTRIBUTENOTFOUND; LeaveCriticalSection(&attributes->cs); return hr; } HRESULT attributes_GetStringLength(struct attributes *attributes, REFGUID key, UINT32 *length) { struct attribute *attribute; HRESULT hr = S_OK; EnterCriticalSection(&attributes->cs); attribute = attributes_find_item(attributes, key, NULL); if (attribute) { if (attribute->value.vt == MF_ATTRIBUTE_STRING) *length = lstrlenW(attribute->value.pwszVal); else hr = MF_E_INVALIDTYPE; } else hr = MF_E_ATTRIBUTENOTFOUND; LeaveCriticalSection(&attributes->cs); return hr; } HRESULT attributes_GetString(struct attributes *attributes, REFGUID key, WCHAR *value, UINT32 size, UINT32 *length) { struct attribute *attribute; HRESULT hr = S_OK; EnterCriticalSection(&attributes->cs); attribute = attributes_find_item(attributes, key, NULL); if (attribute) { if (attribute->value.vt == MF_ATTRIBUTE_STRING) { int len = lstrlenW(attribute->value.pwszVal); if (length) *length = len; if (size <= len) hr = STRSAFE_E_INSUFFICIENT_BUFFER; else memcpy(value, attribute->value.pwszVal, (len + 1) * sizeof(WCHAR)); } else hr = MF_E_INVALIDTYPE; } else hr = MF_E_ATTRIBUTENOTFOUND; LeaveCriticalSection(&attributes->cs); return hr; } HRESULT attributes_GetAllocatedString(struct attributes *attributes, REFGUID key, WCHAR **value, UINT32 *length) { PROPVARIANT attrval; HRESULT hr; PropVariantInit(&attrval); attrval.vt = VT_LPWSTR; hr = attributes_get_item(attributes, key, &attrval); if (SUCCEEDED(hr)) { *value = attrval.pwszVal; *length = lstrlenW(*value); } return hr; } HRESULT attributes_GetBlobSize(struct attributes *attributes, REFGUID key, UINT32 *size) { struct attribute *attribute; HRESULT hr = S_OK; EnterCriticalSection(&attributes->cs); attribute = attributes_find_item(attributes, key, NULL); if (attribute) { if (attribute->value.vt == MF_ATTRIBUTE_BLOB) *size = attribute->value.caub.cElems; else hr = MF_E_INVALIDTYPE; } else hr = MF_E_ATTRIBUTENOTFOUND; LeaveCriticalSection(&attributes->cs); return hr; } HRESULT attributes_GetBlob(struct attributes *attributes, REFGUID key, UINT8 *buf, UINT32 bufsize, UINT32 *blobsize) { struct attribute *attribute; HRESULT hr; EnterCriticalSection(&attributes->cs); attribute = attributes_find_item(attributes, key, NULL); if (attribute) { if (attribute->value.vt == MF_ATTRIBUTE_BLOB) { UINT32 size = attribute->value.caub.cElems; if (bufsize >= size) hr = PropVariantToBuffer(&attribute->value, buf, size); else hr = E_NOT_SUFFICIENT_BUFFER; if (blobsize) *blobsize = size; } else hr = MF_E_INVALIDTYPE; } else hr = MF_E_ATTRIBUTENOTFOUND; LeaveCriticalSection(&attributes->cs); return hr; } HRESULT attributes_GetAllocatedBlob(struct attributes *attributes, REFGUID key, UINT8 **buf, UINT32 *size) { PROPVARIANT attrval; HRESULT hr; attrval.vt = VT_VECTOR | VT_UI1; hr = attributes_get_item(attributes, key, &attrval); if (SUCCEEDED(hr)) { *buf = attrval.caub.pElems; *size = attrval.caub.cElems; } return hr; } HRESULT attributes_GetUnknown(struct attributes *attributes, REFGUID key, REFIID riid, void **out) { PROPVARIANT attrval; HRESULT hr; PropVariantInit(&attrval); attrval.vt = VT_UNKNOWN; hr = attributes_get_item(attributes, key, &attrval); if (SUCCEEDED(hr)) hr = IUnknown_QueryInterface(attrval.punkVal, riid, out); PropVariantClear(&attrval); return hr; } static HRESULT attributes_set_item(struct attributes *attributes, REFGUID key, REFPROPVARIANT value) { struct attribute *attribute; EnterCriticalSection(&attributes->cs); attribute = attributes_find_item(attributes, key, NULL); if (!attribute) { if (!mf_array_reserve((void **)&attributes->attributes, &attributes->capacity, attributes->count + 1, sizeof(*attributes->attributes))) { LeaveCriticalSection(&attributes->cs); return E_OUTOFMEMORY; } attributes->attributes[attributes->count].key = *key; attribute = &attributes->attributes[attributes->count++]; } else PropVariantClear(&attribute->value); PropVariantCopy(&attribute->value, value); LeaveCriticalSection(&attributes->cs); return S_OK; } HRESULT attributes_SetItem(struct attributes *attributes, REFGUID key, REFPROPVARIANT value) { PROPVARIANT empty; switch (value->vt) { case MF_ATTRIBUTE_UINT32: case MF_ATTRIBUTE_UINT64: case MF_ATTRIBUTE_DOUBLE: case MF_ATTRIBUTE_GUID: case MF_ATTRIBUTE_STRING: case MF_ATTRIBUTE_BLOB: case MF_ATTRIBUTE_IUNKNOWN: return attributes_set_item(attributes, key, value); default: PropVariantInit(&empty); attributes_set_item(attributes, key, &empty); return MF_E_INVALIDTYPE; } } HRESULT attributes_DeleteItem(struct attributes *attributes, REFGUID key) { struct attribute *attribute; size_t index = 0; EnterCriticalSection(&attributes->cs); if ((attribute = attributes_find_item(attributes, key, &index))) { size_t count; PropVariantClear(&attribute->value); attributes->count--; count = attributes->count - index; if (count) memmove(&attributes->attributes[index], &attributes->attributes[index + 1], count * sizeof(*attributes->attributes)); } LeaveCriticalSection(&attributes->cs); return S_OK; } HRESULT attributes_DeleteAllItems(struct attributes *attributes) { EnterCriticalSection(&attributes->cs); while (attributes->count) { PropVariantClear(&attributes->attributes[--attributes->count].value); } free(attributes->attributes); attributes->attributes = NULL; attributes->capacity = 0; LeaveCriticalSection(&attributes->cs); return S_OK; } HRESULT attributes_SetUINT32(struct attributes *attributes, REFGUID key, UINT32 value) { PROPVARIANT attrval; attrval.vt = VT_UI4; attrval.ulVal = value; return attributes_set_item(attributes, key, &attrval); } HRESULT attributes_SetUINT64(struct attributes *attributes, REFGUID key, UINT64 value) { PROPVARIANT attrval; attrval.vt = VT_UI8; attrval.uhVal.QuadPart = value; return attributes_set_item(attributes, key, &attrval); } HRESULT attributes_SetDouble(struct attributes *attributes, REFGUID key, double value) { PROPVARIANT attrval; attrval.vt = VT_R8; attrval.dblVal = value; return attributes_set_item(attributes, key, &attrval); } HRESULT attributes_SetGUID(struct attributes *attributes, REFGUID key, REFGUID value) { PROPVARIANT attrval; attrval.vt = VT_CLSID; attrval.puuid = (CLSID *)value; return attributes_set_item(attributes, key, &attrval); } HRESULT attributes_SetString(struct attributes *attributes, REFGUID key, const WCHAR *value) { PROPVARIANT attrval; attrval.vt = VT_LPWSTR; attrval.pwszVal = (WCHAR *)value; return attributes_set_item(attributes, key, &attrval); } HRESULT attributes_SetBlob(struct attributes *attributes, REFGUID key, const UINT8 *buf, UINT32 size) { PROPVARIANT attrval; attrval.vt = VT_VECTOR | VT_UI1; attrval.caub.cElems = size; attrval.caub.pElems = (UINT8 *)buf; return attributes_set_item(attributes, key, &attrval); } HRESULT attributes_SetUnknown(struct attributes *attributes, REFGUID key, IUnknown *unknown) { PROPVARIANT attrval; attrval.vt = VT_UNKNOWN; attrval.punkVal = unknown; return attributes_set_item(attributes, key, &attrval); } HRESULT attributes_LockStore(struct attributes *attributes) { EnterCriticalSection(&attributes->cs); return S_OK; } HRESULT attributes_UnlockStore(struct attributes *attributes) { LeaveCriticalSection(&attributes->cs); return S_OK; } HRESULT attributes_GetCount(struct attributes *attributes, UINT32 *count) { EnterCriticalSection(&attributes->cs); *count = attributes->count; LeaveCriticalSection(&attributes->cs); return S_OK; } HRESULT attributes_GetItemByIndex(struct attributes *attributes, UINT32 index, GUID *key, PROPVARIANT *value) { HRESULT hr = S_OK; EnterCriticalSection(&attributes->cs); if (index < attributes->count) { *key = attributes->attributes[index].key; if (value) PropVariantCopy(value, &attributes->attributes[index].value); } else hr = E_INVALIDARG; LeaveCriticalSection(&attributes->cs); return hr; } HRESULT attributes_CopyAllItems(struct attributes *attributes, IMFAttributes *dest) { HRESULT hr = S_OK; size_t i; EnterCriticalSection(&attributes->cs); IMFAttributes_LockStore(dest); IMFAttributes_DeleteAllItems(dest); for (i = 0; i < attributes->count; ++i) { hr = IMFAttributes_SetItem(dest, &attributes->attributes[i].key, &attributes->attributes[i].value); if (FAILED(hr)) break; } IMFAttributes_UnlockStore(dest); LeaveCriticalSection(&attributes->cs); return hr; } static HRESULT WINAPI mfattributes_GetItem(IMFAttributes *iface, REFGUID key, PROPVARIANT *value) { struct attributes *attributes = impl_from_IMFAttributes(iface); TRACE("%p, %s, %p.\n", iface, debugstr_attr(key), value); return attributes_GetItem(attributes, key, value); } static HRESULT WINAPI mfattributes_GetItemType(IMFAttributes *iface, REFGUID key, MF_ATTRIBUTE_TYPE *type) { struct attributes *attributes = impl_from_IMFAttributes(iface); TRACE("%p, %s, %p.\n", iface, debugstr_attr(key), type); return attributes_GetItemType(attributes, key, type); } static HRESULT WINAPI mfattributes_CompareItem(IMFAttributes *iface, REFGUID key, REFPROPVARIANT value, BOOL *result) { struct attributes *attributes = impl_from_IMFAttributes(iface); TRACE("%p, %s, %s, %p.\n", iface, debugstr_attr(key), debugstr_propvar(value), result); return attributes_CompareItem(attributes, key, value, result); } static HRESULT WINAPI mfattributes_Compare(IMFAttributes *iface, IMFAttributes *theirs, MF_ATTRIBUTES_MATCH_TYPE match_type, BOOL *ret) { struct attributes *attributes = impl_from_IMFAttributes(iface); TRACE("%p, %p, %d, %p.\n", iface, theirs, match_type, ret); return attributes_Compare(attributes, theirs, match_type, ret); } static HRESULT WINAPI mfattributes_GetUINT32(IMFAttributes *iface, REFGUID key, UINT32 *value) { struct attributes *attributes = impl_from_IMFAttributes(iface); TRACE("%p, %s, %p.\n", iface, debugstr_attr(key), value); return attributes_GetUINT32(attributes, key, value); } static HRESULT WINAPI mfattributes_GetUINT64(IMFAttributes *iface, REFGUID key, UINT64 *value) { struct attributes *attributes = impl_from_IMFAttributes(iface); TRACE("%p, %s, %p.\n", iface, debugstr_attr(key), value); return attributes_GetUINT64(attributes, key, value); } static HRESULT WINAPI mfattributes_GetDouble(IMFAttributes *iface, REFGUID key, double *value) { struct attributes *attributes = impl_from_IMFAttributes(iface); TRACE("%p, %s, %p.\n", iface, debugstr_attr(key), value); return attributes_GetDouble(attributes, key, value); } static HRESULT WINAPI mfattributes_GetGUID(IMFAttributes *iface, REFGUID key, GUID *value) { struct attributes *attributes = impl_from_IMFAttributes(iface); TRACE("%p, %s, %p.\n", iface, debugstr_attr(key), value); return attributes_GetGUID(attributes, key, value); } static HRESULT WINAPI mfattributes_GetStringLength(IMFAttributes *iface, REFGUID key, UINT32 *length) { struct attributes *attributes = impl_from_IMFAttributes(iface); TRACE("%p, %s, %p.\n", iface, debugstr_attr(key), length); return attributes_GetStringLength(attributes, key, length); } static HRESULT WINAPI mfattributes_GetString(IMFAttributes *iface, REFGUID key, WCHAR *value, UINT32 size, UINT32 *length) { struct attributes *attributes = impl_from_IMFAttributes(iface); TRACE("%p, %s, %p, %d, %p.\n", iface, debugstr_attr(key), value, size, length); return attributes_GetString(attributes, key, value, size, length); } static HRESULT WINAPI mfattributes_GetAllocatedString(IMFAttributes *iface, REFGUID key, WCHAR **value, UINT32 *length) { struct attributes *attributes = impl_from_IMFAttributes(iface); TRACE("%p, %s, %p, %p.\n", iface, debugstr_attr(key), value, length); return attributes_GetAllocatedString(attributes, key, value, length); } static HRESULT WINAPI mfattributes_GetBlobSize(IMFAttributes *iface, REFGUID key, UINT32 *size) { struct attributes *attributes = impl_from_IMFAttributes(iface); TRACE("%p, %s, %p.\n", iface, debugstr_attr(key), size); return attributes_GetBlobSize(attributes, key, size); } static HRESULT WINAPI mfattributes_GetBlob(IMFAttributes *iface, REFGUID key, UINT8 *buf, UINT32 bufsize, UINT32 *blobsize) { struct attributes *attributes = impl_from_IMFAttributes(iface); TRACE("%p, %s, %p, %d, %p.\n", iface, debugstr_attr(key), buf, bufsize, blobsize); return attributes_GetBlob(attributes, key, buf, bufsize, blobsize); } static HRESULT WINAPI mfattributes_GetAllocatedBlob(IMFAttributes *iface, REFGUID key, UINT8 **buf, UINT32 *size) { struct attributes *attributes = impl_from_IMFAttributes(iface); TRACE("%p, %s, %p, %p.\n", iface, debugstr_attr(key), buf, size); return attributes_GetAllocatedBlob(attributes, key, buf, size); } static HRESULT WINAPI mfattributes_GetUnknown(IMFAttributes *iface, REFGUID key, REFIID riid, void **out) { struct attributes *attributes = impl_from_IMFAttributes(iface); TRACE("%p, %s, %s, %p.\n", iface, debugstr_attr(key), debugstr_guid(riid), out); return attributes_GetUnknown(attributes, key, riid, out); } static HRESULT WINAPI mfattributes_SetItem(IMFAttributes *iface, REFGUID key, REFPROPVARIANT value) { struct attributes *attributes = impl_from_IMFAttributes(iface); TRACE("%p, %s, %s.\n", iface, debugstr_attr(key), debugstr_propvar(value)); return attributes_SetItem(attributes, key, value); } static HRESULT WINAPI mfattributes_DeleteItem(IMFAttributes *iface, REFGUID key) { struct attributes *attributes = impl_from_IMFAttributes(iface); TRACE("%p, %s.\n", iface, debugstr_attr(key)); return attributes_DeleteItem(attributes, key); } static HRESULT WINAPI mfattributes_DeleteAllItems(IMFAttributes *iface) { struct attributes *attributes = impl_from_IMFAttributes(iface); TRACE("%p.\n", iface); return attributes_DeleteAllItems(attributes); } static HRESULT WINAPI mfattributes_SetUINT32(IMFAttributes *iface, REFGUID key, UINT32 value) { struct attributes *attributes = impl_from_IMFAttributes(iface); TRACE("%p, %s, %u.\n", iface, debugstr_attr(key), value); return attributes_SetUINT32(attributes, key, value); } static HRESULT WINAPI mfattributes_SetUINT64(IMFAttributes *iface, REFGUID key, UINT64 value) { struct attributes *attributes = impl_from_IMFAttributes(iface); TRACE("%p, %s, %s.\n", iface, debugstr_attr(key), wine_dbgstr_longlong(value)); return attributes_SetUINT64(attributes, key, value); } static HRESULT WINAPI mfattributes_SetDouble(IMFAttributes *iface, REFGUID key, double value) { struct attributes *attributes = impl_from_IMFAttributes(iface); TRACE("%p, %s, %f.\n", iface, debugstr_attr(key), value); return attributes_SetDouble(attributes, key, value); } static HRESULT WINAPI mfattributes_SetGUID(IMFAttributes *iface, REFGUID key, REFGUID value) { struct attributes *attributes = impl_from_IMFAttributes(iface); TRACE("%p, %s, %s.\n", iface, debugstr_attr(key), debugstr_mf_guid(value)); return attributes_SetGUID(attributes, key, value); } static HRESULT WINAPI mfattributes_SetString(IMFAttributes *iface, REFGUID key, const WCHAR *value) { struct attributes *attributes = impl_from_IMFAttributes(iface); TRACE("%p, %s, %s.\n", iface, debugstr_attr(key), debugstr_w(value)); return attributes_SetString(attributes, key, value); } static HRESULT WINAPI mfattributes_SetBlob(IMFAttributes *iface, REFGUID key, const UINT8 *buf, UINT32 size) { struct attributes *attributes = impl_from_IMFAttributes(iface); TRACE("%p, %s, %p, %u.\n", iface, debugstr_attr(key), buf, size); return attributes_SetBlob(attributes, key, buf, size); } static HRESULT WINAPI mfattributes_SetUnknown(IMFAttributes *iface, REFGUID key, IUnknown *unknown) { struct attributes *attributes = impl_from_IMFAttributes(iface); TRACE("%p, %s, %p.\n", iface, debugstr_attr(key), unknown); return attributes_SetUnknown(attributes, key, unknown); } static HRESULT WINAPI mfattributes_LockStore(IMFAttributes *iface) { struct attributes *attributes = impl_from_IMFAttributes(iface); TRACE("%p.\n", iface); return attributes_LockStore(attributes); } static HRESULT WINAPI mfattributes_UnlockStore(IMFAttributes *iface) { struct attributes *attributes = impl_from_IMFAttributes(iface); TRACE("%p.\n", iface); return attributes_UnlockStore(attributes); } static HRESULT WINAPI mfattributes_GetCount(IMFAttributes *iface, UINT32 *count) { struct attributes *attributes = impl_from_IMFAttributes(iface); TRACE("%p, %p.\n", iface, count); return attributes_GetCount(attributes, count); } static HRESULT WINAPI mfattributes_GetItemByIndex(IMFAttributes *iface, UINT32 index, GUID *key, PROPVARIANT *value) { struct attributes *attributes = impl_from_IMFAttributes(iface); TRACE("%p, %u, %p, %p.\n", iface, index, key, value); return attributes_GetItemByIndex(attributes, index, key, value); } static HRESULT WINAPI mfattributes_CopyAllItems(IMFAttributes *iface, IMFAttributes *dest) { struct attributes *attributes = impl_from_IMFAttributes(iface); TRACE("%p, %p.\n", iface, dest); return attributes_CopyAllItems(attributes, dest); } static const IMFAttributesVtbl mfattributes_vtbl = { mfattributes_QueryInterface, mfattributes_AddRef, mfattributes_Release, mfattributes_GetItem, mfattributes_GetItemType, mfattributes_CompareItem, mfattributes_Compare, mfattributes_GetUINT32, mfattributes_GetUINT64, mfattributes_GetDouble, mfattributes_GetGUID, mfattributes_GetStringLength, mfattributes_GetString, mfattributes_GetAllocatedString, mfattributes_GetBlobSize, mfattributes_GetBlob, mfattributes_GetAllocatedBlob, mfattributes_GetUnknown, mfattributes_SetItem, mfattributes_DeleteItem, mfattributes_DeleteAllItems, mfattributes_SetUINT32, mfattributes_SetUINT64, mfattributes_SetDouble, mfattributes_SetGUID, mfattributes_SetString, mfattributes_SetBlob, mfattributes_SetUnknown, mfattributes_LockStore, mfattributes_UnlockStore, mfattributes_GetCount, mfattributes_GetItemByIndex, mfattributes_CopyAllItems }; HRESULT init_attributes_object(struct attributes *object, UINT32 size) { object->IMFAttributes_iface.lpVtbl = &mfattributes_vtbl; object->ref = 1; InitializeCriticalSection(&object->cs); object->attributes = NULL; object->count = 0; object->capacity = 0; if (!mf_array_reserve((void **)&object->attributes, &object->capacity, size, sizeof(*object->attributes))) { DeleteCriticalSection(&object->cs); return E_OUTOFMEMORY; } return S_OK; } void clear_attributes_object(struct attributes *object) { size_t i; for (i = 0; i < object->count; i++) PropVariantClear(&object->attributes[i].value); free(object->attributes); DeleteCriticalSection(&object->cs); } /*********************************************************************** * MFCreateAttributes (mfplat.@) */ HRESULT WINAPI MFCreateAttributes(IMFAttributes **attributes, UINT32 size) { struct attributes *object; HRESULT hr; TRACE("%p, %d\n", attributes, size); if (!(object = calloc(1, sizeof(*object)))) return E_OUTOFMEMORY; if (FAILED(hr = init_attributes_object(object, size))) { free(object); return hr; } *attributes = &object->IMFAttributes_iface; return S_OK; } #define ATTRIBUTES_STORE_MAGIC 0x494d4641 /* IMFA */ struct attributes_store_header { DWORD magic; UINT32 count; }; struct attributes_store_item { GUID key; QWORD type; union { double f; UINT32 i32; UINT64 i64; struct { DWORD size; DWORD offset; } subheader; } u; }; /*********************************************************************** * MFGetAttributesAsBlobSize (mfplat.@) */ HRESULT WINAPI MFGetAttributesAsBlobSize(IMFAttributes *attributes, UINT32 *size) { unsigned int i, count, length; HRESULT hr; GUID key; TRACE("%p, %p.\n", attributes, size); IMFAttributes_LockStore(attributes); hr = IMFAttributes_GetCount(attributes, &count); *size = sizeof(struct attributes_store_header); for (i = 0; i < count; ++i) { MF_ATTRIBUTE_TYPE type; hr = IMFAttributes_GetItemByIndex(attributes, i, &key, NULL); if (FAILED(hr)) break; *size += sizeof(struct attributes_store_item); IMFAttributes_GetItemType(attributes, &key, &type); switch (type) { case MF_ATTRIBUTE_GUID: *size += sizeof(GUID); break; case MF_ATTRIBUTE_STRING: IMFAttributes_GetStringLength(attributes, &key, &length); *size += (length + 1) * sizeof(WCHAR); break; case MF_ATTRIBUTE_BLOB: IMFAttributes_GetBlobSize(attributes, &key, &length); *size += length; break; case MF_ATTRIBUTE_UINT32: case MF_ATTRIBUTE_UINT64: case MF_ATTRIBUTE_DOUBLE: case MF_ATTRIBUTE_IUNKNOWN: default: ; } } IMFAttributes_UnlockStore(attributes); return hr; } struct attr_serialize_context { UINT8 *buffer; UINT8 *ptr; UINT32 size; }; static void attributes_serialize_write(struct attr_serialize_context *context, const void *value, unsigned int size) { memcpy(context->ptr, value, size); context->ptr += size; } static BOOL attributes_serialize_write_item(struct attr_serialize_context *context, struct attributes_store_item *item, const void *value) { switch (item->type) { case MF_ATTRIBUTE_UINT32: case MF_ATTRIBUTE_UINT64: case MF_ATTRIBUTE_DOUBLE: attributes_serialize_write(context, item, sizeof(*item)); break; case MF_ATTRIBUTE_GUID: case MF_ATTRIBUTE_STRING: case MF_ATTRIBUTE_BLOB: item->u.subheader.offset = context->size - item->u.subheader.size; attributes_serialize_write(context, item, sizeof(*item)); memcpy(context->buffer + item->u.subheader.offset, value, item->u.subheader.size); context->size -= item->u.subheader.size; break; default: return FALSE; } return TRUE; } /*********************************************************************** * MFGetAttributesAsBlob (mfplat.@) */ HRESULT WINAPI MFGetAttributesAsBlob(IMFAttributes *attributes, UINT8 *buffer, UINT size) { struct attributes_store_header header; struct attr_serialize_context context; unsigned int required_size, i; PROPVARIANT value; UINT32 count; HRESULT hr; TRACE("%p, %p, %u.\n", attributes, buffer, size); if (FAILED(hr = MFGetAttributesAsBlobSize(attributes, &required_size))) return hr; if (required_size > size) return MF_E_BUFFERTOOSMALL; context.buffer = buffer; context.ptr = buffer; context.size = required_size; IMFAttributes_LockStore(attributes); header.magic = ATTRIBUTES_STORE_MAGIC; header.count = 0; /* Will be updated later */ IMFAttributes_GetCount(attributes, &count); attributes_serialize_write(&context, &header, sizeof(header)); for (i = 0; i < count; ++i) { struct attributes_store_item item; const void *data = NULL; hr = IMFAttributes_GetItemByIndex(attributes, i, &item.key, &value); if (FAILED(hr)) break; item.type = value.vt; switch (value.vt) { case MF_ATTRIBUTE_UINT32: case MF_ATTRIBUTE_UINT64: item.u.i64 = value.uhVal.QuadPart; break; case MF_ATTRIBUTE_DOUBLE: item.u.f = value.dblVal; break; case MF_ATTRIBUTE_GUID: item.u.subheader.size = sizeof(*value.puuid); data = value.puuid; break; case MF_ATTRIBUTE_STRING: item.u.subheader.size = (lstrlenW(value.pwszVal) + 1) * sizeof(WCHAR); data = value.pwszVal; break; case MF_ATTRIBUTE_BLOB: item.u.subheader.size = value.caub.cElems; data = value.caub.pElems; break; case MF_ATTRIBUTE_IUNKNOWN: break; default: WARN("Unknown attribute type %#x.\n", value.vt); } if (attributes_serialize_write_item(&context, &item, data)) header.count++; PropVariantClear(&value); } memcpy(context.buffer, &header, sizeof(header)); IMFAttributes_UnlockStore(attributes); return S_OK; } static HRESULT attributes_deserialize_read(struct attr_serialize_context *context, void *value, unsigned int size) { if (context->size < (context->ptr - context->buffer) + size) return E_INVALIDARG; memcpy(value, context->ptr, size); context->ptr += size; return S_OK; } /*********************************************************************** * MFInitAttributesFromBlob (mfplat.@) */ HRESULT WINAPI MFInitAttributesFromBlob(IMFAttributes *dest, const UINT8 *buffer, UINT size) { struct attr_serialize_context context; struct attributes_store_header header; struct attributes_store_item item; IMFAttributes *attributes; unsigned int i; HRESULT hr; TRACE("%p, %p, %u.\n", dest, buffer, size); context.buffer = (UINT8 *)buffer; context.ptr = (UINT8 *)buffer; context.size = size; /* Validate buffer structure. */ if (FAILED(hr = attributes_deserialize_read(&context, &header, sizeof(header)))) return hr; if (header.magic != ATTRIBUTES_STORE_MAGIC) return E_UNEXPECTED; if (FAILED(hr = MFCreateAttributes(&attributes, header.count))) return hr; for (i = 0; i < header.count; ++i) { if (FAILED(hr = attributes_deserialize_read(&context, &item, sizeof(item)))) break; hr = E_UNEXPECTED; switch (item.type) { case MF_ATTRIBUTE_UINT32: hr = IMFAttributes_SetUINT32(attributes, &item.key, item.u.i32); break; case MF_ATTRIBUTE_UINT64: hr = IMFAttributes_SetUINT64(attributes, &item.key, item.u.i64); break; case MF_ATTRIBUTE_DOUBLE: hr = IMFAttributes_SetDouble(attributes, &item.key, item.u.f); break; case MF_ATTRIBUTE_GUID: if (item.u.subheader.size == sizeof(GUID) && item.u.subheader.offset + item.u.subheader.size <= context.size) { hr = IMFAttributes_SetGUID(attributes, &item.key, (const GUID *)(context.buffer + item.u.subheader.offset)); } break; case MF_ATTRIBUTE_STRING: if (item.u.subheader.size >= sizeof(WCHAR) && item.u.subheader.offset + item.u.subheader.size <= context.size) { hr = IMFAttributes_SetString(attributes, &item.key, (const WCHAR *)(context.buffer + item.u.subheader.offset)); } break; case MF_ATTRIBUTE_BLOB: if (item.u.subheader.size > 0 && item.u.subheader.offset + item.u.subheader.size <= context.size) { hr = IMFAttributes_SetBlob(attributes, &item.key, context.buffer + item.u.subheader.offset, item.u.subheader.size); } break; default: ; } if (FAILED(hr)) break; } if (SUCCEEDED(hr)) { IMFAttributes_DeleteAllItems(dest); hr = IMFAttributes_CopyAllItems(attributes, dest); } IMFAttributes_Release(attributes); return hr; } struct bytestream { struct attributes attributes; IMFByteStream IMFByteStream_iface; IMFGetService IMFGetService_iface; IRtwqAsyncCallback read_callback; IRtwqAsyncCallback write_callback; IStream *stream; HANDLE hfile; QWORD position; DWORD capabilities; struct list pending; CRITICAL_SECTION cs; }; static inline struct bytestream *impl_from_IMFByteStream(IMFByteStream *iface) { return CONTAINING_RECORD(iface, struct bytestream, IMFByteStream_iface); } static struct bytestream *impl_bytestream_from_IMFGetService(IMFGetService *iface) { return CONTAINING_RECORD(iface, struct bytestream, IMFGetService_iface); } static struct bytestream *impl_from_read_callback_IRtwqAsyncCallback(IRtwqAsyncCallback *iface) { return CONTAINING_RECORD(iface, struct bytestream, read_callback); } static struct bytestream *impl_from_write_callback_IRtwqAsyncCallback(IRtwqAsyncCallback *iface) { return CONTAINING_RECORD(iface, struct bytestream, write_callback); } enum async_stream_op_type { ASYNC_STREAM_OP_READ, ASYNC_STREAM_OP_WRITE, }; struct async_stream_op { IUnknown IUnknown_iface; LONG refcount; union { const BYTE *src; BYTE *dest; } u; QWORD position; ULONG requested_length; ULONG actual_length; IMFAsyncResult *caller; struct list entry; enum async_stream_op_type type; }; static struct async_stream_op *impl_async_stream_op_from_IUnknown(IUnknown *iface) { return CONTAINING_RECORD(iface, struct async_stream_op, IUnknown_iface); } static HRESULT WINAPI async_stream_op_QueryInterface(IUnknown *iface, REFIID riid, void **obj) { if (IsEqualIID(riid, &IID_IUnknown)) { *obj = iface; IUnknown_AddRef(iface); return S_OK; } WARN("Unsupported %s.\n", debugstr_guid(riid)); *obj = NULL; return E_NOINTERFACE; } static ULONG WINAPI async_stream_op_AddRef(IUnknown *iface) { struct async_stream_op *op = impl_async_stream_op_from_IUnknown(iface); ULONG refcount = InterlockedIncrement(&op->refcount); TRACE("%p, refcount %d.\n", iface, refcount); return refcount; } static ULONG WINAPI async_stream_op_Release(IUnknown *iface) { struct async_stream_op *op = impl_async_stream_op_from_IUnknown(iface); ULONG refcount = InterlockedDecrement(&op->refcount); TRACE("%p, refcount %d.\n", iface, refcount); if (!refcount) { if (op->caller) IMFAsyncResult_Release(op->caller); free(op); } return refcount; } static const IUnknownVtbl async_stream_op_vtbl = { async_stream_op_QueryInterface, async_stream_op_AddRef, async_stream_op_Release, }; static HRESULT bytestream_create_io_request(struct bytestream *stream, enum async_stream_op_type type, const BYTE *data, ULONG size, IMFAsyncCallback *callback, IUnknown *state) { struct async_stream_op *op; IRtwqAsyncResult *request; HRESULT hr; op = malloc(sizeof(*op)); if (!op) return E_OUTOFMEMORY; op->IUnknown_iface.lpVtbl = &async_stream_op_vtbl; op->refcount = 1; op->u.src = data; op->position = stream->position; op->requested_length = size; op->type = type; if (FAILED(hr = RtwqCreateAsyncResult((IUnknown *)&stream->IMFByteStream_iface, (IRtwqAsyncCallback *)callback, state, (IRtwqAsyncResult **)&op->caller))) { goto failed; } if (FAILED(hr = RtwqCreateAsyncResult(&op->IUnknown_iface, type == ASYNC_STREAM_OP_READ ? &stream->read_callback : &stream->write_callback, NULL, &request))) goto failed; RtwqPutWorkItem(MFASYNC_CALLBACK_QUEUE_STANDARD, 0, request); IRtwqAsyncResult_Release(request); failed: IUnknown_Release(&op->IUnknown_iface); return hr; } static HRESULT bytestream_complete_io_request(struct bytestream *stream, enum async_stream_op_type type, IMFAsyncResult *result, ULONG *actual_length) { struct async_stream_op *op = NULL, *cur; HRESULT hr; EnterCriticalSection(&stream->cs); LIST_FOR_EACH_ENTRY(cur, &stream->pending, struct async_stream_op, entry) { if (cur->caller == result && cur->type == type) { op = cur; list_remove(&cur->entry); break; } } LeaveCriticalSection(&stream->cs); if (!op) return E_INVALIDARG; if (SUCCEEDED(hr = IMFAsyncResult_GetStatus(result))) *actual_length = op->actual_length; IUnknown_Release(&op->IUnknown_iface); return hr; } static HRESULT WINAPI bytestream_callback_QueryInterface(IRtwqAsyncCallback *iface, REFIID riid, void **obj) { if (IsEqualIID(riid, &IID_IRtwqAsyncCallback) || IsEqualIID(riid, &IID_IUnknown)) { *obj = iface; IRtwqAsyncCallback_AddRef(iface); return S_OK; } WARN("Unsupported %s.\n", debugstr_guid(riid)); *obj = NULL; return E_NOINTERFACE; } static ULONG WINAPI bytestream_read_callback_AddRef(IRtwqAsyncCallback *iface) { struct bytestream *stream = impl_from_read_callback_IRtwqAsyncCallback(iface); return IMFByteStream_AddRef(&stream->IMFByteStream_iface); } static ULONG WINAPI bytestream_read_callback_Release(IRtwqAsyncCallback *iface) { struct bytestream *stream = impl_from_read_callback_IRtwqAsyncCallback(iface); return IMFByteStream_Release(&stream->IMFByteStream_iface); } static HRESULT WINAPI bytestream_callback_GetParameters(IRtwqAsyncCallback *iface, DWORD *flags, DWORD *queue) { return E_NOTIMPL; } static ULONG WINAPI bytestream_write_callback_AddRef(IRtwqAsyncCallback *iface) { struct bytestream *stream = impl_from_write_callback_IRtwqAsyncCallback(iface); return IMFByteStream_AddRef(&stream->IMFByteStream_iface); } static ULONG WINAPI bytestream_write_callback_Release(IRtwqAsyncCallback *iface) { struct bytestream *stream = impl_from_write_callback_IRtwqAsyncCallback(iface); return IMFByteStream_Release(&stream->IMFByteStream_iface); } static HRESULT WINAPI bytestream_QueryInterface(IMFByteStream *iface, REFIID riid, void **out) { struct bytestream *stream = impl_from_IMFByteStream(iface); TRACE("%p, %s, %p.\n", iface, debugstr_guid(riid), out); if (IsEqualIID(riid, &IID_IMFByteStream) || IsEqualIID(riid, &IID_IUnknown)) { *out = &stream->IMFByteStream_iface; } else if (IsEqualIID(riid, &IID_IMFAttributes)) { *out = &stream->attributes.IMFAttributes_iface; } else if (stream->IMFGetService_iface.lpVtbl && IsEqualIID(riid, &IID_IMFGetService)) { *out = &stream->IMFGetService_iface; } else { WARN("Unsupported %s.\n", debugstr_guid(riid)); *out = NULL; return E_NOINTERFACE; } IUnknown_AddRef((IUnknown*)*out); return S_OK; } static ULONG WINAPI bytestream_AddRef(IMFByteStream *iface) { struct bytestream *stream = impl_from_IMFByteStream(iface); ULONG refcount = InterlockedIncrement(&stream->attributes.ref); TRACE("%p, refcount %d.\n", iface, refcount); return refcount; } static ULONG WINAPI bytestream_Release(IMFByteStream *iface) { struct bytestream *stream = impl_from_IMFByteStream(iface); ULONG refcount = InterlockedDecrement(&stream->attributes.ref); struct async_stream_op *cur, *cur2; TRACE("%p, refcount %d.\n", iface, refcount); if (!refcount) { clear_attributes_object(&stream->attributes); LIST_FOR_EACH_ENTRY_SAFE(cur, cur2, &stream->pending, struct async_stream_op, entry) { list_remove(&cur->entry); IUnknown_Release(&cur->IUnknown_iface); } DeleteCriticalSection(&stream->cs); if (stream->stream) IStream_Release(stream->stream); if (stream->hfile) CloseHandle(stream->hfile); free(stream); } return refcount; } static HRESULT WINAPI bytestream_stream_GetCapabilities(IMFByteStream *iface, DWORD *capabilities) { struct bytestream *stream = impl_from_IMFByteStream(iface); STATSTG stat; HRESULT hr; TRACE("%p, %p.\n", iface, capabilities); if (FAILED(hr = IStream_Stat(stream->stream, &stat, STATFLAG_NONAME))) return hr; *capabilities = MFBYTESTREAM_IS_READABLE | MFBYTESTREAM_IS_SEEKABLE; if (stat.grfMode & (STGM_WRITE | STGM_READWRITE)) *capabilities |= MFBYTESTREAM_IS_WRITABLE; return S_OK; } static HRESULT WINAPI bytestream_GetCapabilities(IMFByteStream *iface, DWORD *capabilities) { struct bytestream *stream = impl_from_IMFByteStream(iface); TRACE("%p, %p.\n", iface, capabilities); *capabilities = stream->capabilities; return S_OK; } static HRESULT WINAPI bytestream_SetLength(IMFByteStream *iface, QWORD length) { FIXME("%p, %s\n", iface, wine_dbgstr_longlong(length)); return E_NOTIMPL; } static HRESULT WINAPI bytestream_file_GetCurrentPosition(IMFByteStream *iface, QWORD *position) { struct bytestream *stream = impl_from_IMFByteStream(iface); TRACE("%p, %p.\n", iface, position); if (!position) return E_INVALIDARG; *position = stream->position; return S_OK; } static HRESULT WINAPI bytestream_file_GetLength(IMFByteStream *iface, QWORD *length) { struct bytestream *stream = impl_from_IMFByteStream(iface); LARGE_INTEGER li; TRACE("%p, %p.\n", iface, length); if (!length) return E_INVALIDARG; if (GetFileSizeEx(stream->hfile, &li)) *length = li.QuadPart; else return HRESULT_FROM_WIN32(GetLastError()); return S_OK; } static HRESULT WINAPI bytestream_file_IsEndOfStream(IMFByteStream *iface, BOOL *ret) { struct bytestream *stream = impl_from_IMFByteStream(iface); LARGE_INTEGER position, length; HRESULT hr = S_OK; TRACE("%p, %p.\n", iface, ret); EnterCriticalSection(&stream->cs); position.QuadPart = 0; if (SetFilePointerEx(stream->hfile, position, &length, FILE_END)) *ret = stream->position >= length.QuadPart; else hr = HRESULT_FROM_WIN32(GetLastError()); LeaveCriticalSection(&stream->cs); return hr; } static HRESULT WINAPI bytestream_file_Read(IMFByteStream *iface, BYTE *buffer, ULONG size, ULONG *read_len) { struct bytestream *stream = impl_from_IMFByteStream(iface); LARGE_INTEGER position; HRESULT hr = S_OK; BOOL ret; TRACE("%p, %p, %u, %p.\n", iface, buffer, size, read_len); EnterCriticalSection(&stream->cs); position.QuadPart = stream->position; if ((ret = SetFilePointerEx(stream->hfile, position, NULL, FILE_BEGIN))) { if ((ret = ReadFile(stream->hfile, buffer, size, read_len, NULL))) stream->position += *read_len; } if (!ret) hr = HRESULT_FROM_WIN32(GetLastError()); LeaveCriticalSection(&stream->cs); return hr; } static HRESULT WINAPI bytestream_BeginRead(IMFByteStream *iface, BYTE *data, ULONG size, IMFAsyncCallback *callback, IUnknown *state) { struct bytestream *stream = impl_from_IMFByteStream(iface); TRACE("%p, %p, %u, %p, %p.\n", iface, data, size, callback, state); return bytestream_create_io_request(stream, ASYNC_STREAM_OP_READ, data, size, callback, state); } static HRESULT WINAPI bytestream_EndRead(IMFByteStream *iface, IMFAsyncResult *result, ULONG *byte_read) { struct bytestream *stream = impl_from_IMFByteStream(iface); TRACE("%p, %p, %p.\n", iface, result, byte_read); return bytestream_complete_io_request(stream, ASYNC_STREAM_OP_READ, result, byte_read); } static HRESULT WINAPI bytestream_Write(IMFByteStream *iface, const BYTE *data, ULONG count, ULONG *written) { FIXME("%p, %p, %u, %p\n", iface, data, count, written); return E_NOTIMPL; } static HRESULT WINAPI bytestream_BeginWrite(IMFByteStream *iface, const BYTE *data, ULONG size, IMFAsyncCallback *callback, IUnknown *state) { struct bytestream *stream = impl_from_IMFByteStream(iface); TRACE("%p, %p, %u, %p, %p.\n", iface, data, size, callback, state); return bytestream_create_io_request(stream, ASYNC_STREAM_OP_WRITE, data, size, callback, state); } static HRESULT WINAPI bytestream_EndWrite(IMFByteStream *iface, IMFAsyncResult *result, ULONG *written) { struct bytestream *stream = impl_from_IMFByteStream(iface); TRACE("%p, %p, %p.\n", iface, result, written); return bytestream_complete_io_request(stream, ASYNC_STREAM_OP_WRITE, result, written); } static HRESULT WINAPI bytestream_Seek(IMFByteStream *iface, MFBYTESTREAM_SEEK_ORIGIN seek, LONGLONG offset, DWORD flags, QWORD *current) { FIXME("%p, %u, %s, 0x%08x, %p\n", iface, seek, wine_dbgstr_longlong(offset), flags, current); return E_NOTIMPL; } static HRESULT WINAPI bytestream_Flush(IMFByteStream *iface) { FIXME("%p\n", iface); return E_NOTIMPL; } static HRESULT WINAPI bytestream_Close(IMFByteStream *iface) { FIXME("%p\n", iface); return E_NOTIMPL; } static HRESULT WINAPI bytestream_SetCurrentPosition(IMFByteStream *iface, QWORD position) { struct bytestream *stream = impl_from_IMFByteStream(iface); TRACE("%p, %s.\n", iface, wine_dbgstr_longlong(position)); EnterCriticalSection(&stream->cs); stream->position = position; LeaveCriticalSection(&stream->cs); return S_OK; } static const IMFByteStreamVtbl bytestream_file_vtbl = { bytestream_QueryInterface, bytestream_AddRef, bytestream_Release, bytestream_GetCapabilities, bytestream_file_GetLength, bytestream_SetLength, bytestream_file_GetCurrentPosition, bytestream_SetCurrentPosition, bytestream_file_IsEndOfStream, bytestream_file_Read, bytestream_BeginRead, bytestream_EndRead, bytestream_Write, bytestream_BeginWrite, bytestream_EndWrite, bytestream_Seek, bytestream_Flush, bytestream_Close }; static HRESULT WINAPI bytestream_stream_GetLength(IMFByteStream *iface, QWORD *length) { struct bytestream *stream = impl_from_IMFByteStream(iface); STATSTG statstg; HRESULT hr; TRACE("%p, %p.\n", iface, length); if (FAILED(hr = IStream_Stat(stream->stream, &statstg, STATFLAG_NONAME))) return hr; *length = statstg.cbSize.QuadPart; return S_OK; } static HRESULT WINAPI bytestream_stream_SetLength(IMFByteStream *iface, QWORD length) { struct bytestream *stream = impl_from_IMFByteStream(iface); ULARGE_INTEGER size; HRESULT hr; TRACE("%p, %s.\n", iface, wine_dbgstr_longlong(length)); EnterCriticalSection(&stream->cs); size.QuadPart = length; hr = IStream_SetSize(stream->stream, size); LeaveCriticalSection(&stream->cs); return hr; } static HRESULT WINAPI bytestream_stream_GetCurrentPosition(IMFByteStream *iface, QWORD *position) { struct bytestream *stream = impl_from_IMFByteStream(iface); TRACE("%p, %p.\n", iface, position); *position = stream->position; return S_OK; } static HRESULT WINAPI bytestream_stream_IsEndOfStream(IMFByteStream *iface, BOOL *ret) { struct bytestream *stream = impl_from_IMFByteStream(iface); STATSTG statstg; HRESULT hr; TRACE("%p, %p.\n", iface, ret); EnterCriticalSection(&stream->cs); if (SUCCEEDED(hr = IStream_Stat(stream->stream, &statstg, STATFLAG_NONAME))) *ret = stream->position >= statstg.cbSize.QuadPart; LeaveCriticalSection(&stream->cs); return hr; } static HRESULT WINAPI bytestream_stream_Read(IMFByteStream *iface, BYTE *buffer, ULONG size, ULONG *read_len) { struct bytestream *stream = impl_from_IMFByteStream(iface); LARGE_INTEGER position; HRESULT hr; TRACE("%p, %p, %u, %p.\n", iface, buffer, size, read_len); EnterCriticalSection(&stream->cs); position.QuadPart = stream->position; if (SUCCEEDED(hr = IStream_Seek(stream->stream, position, STREAM_SEEK_SET, NULL))) { if (SUCCEEDED(hr = IStream_Read(stream->stream, buffer, size, read_len))) stream->position += *read_len; } LeaveCriticalSection(&stream->cs); return hr; } static HRESULT WINAPI bytestream_stream_Write(IMFByteStream *iface, const BYTE *buffer, ULONG size, ULONG *written) { struct bytestream *stream = impl_from_IMFByteStream(iface); LARGE_INTEGER position; HRESULT hr; TRACE("%p, %p, %u, %p.\n", iface, buffer, size, written); EnterCriticalSection(&stream->cs); position.QuadPart = stream->position; if (SUCCEEDED(hr = IStream_Seek(stream->stream, position, STREAM_SEEK_SET, NULL))) { if (SUCCEEDED(hr = IStream_Write(stream->stream, buffer, size, written))) stream->position += *written; } LeaveCriticalSection(&stream->cs); return hr; } static HRESULT WINAPI bytestream_stream_Seek(IMFByteStream *iface, MFBYTESTREAM_SEEK_ORIGIN origin, LONGLONG offset, DWORD flags, QWORD *current) { struct bytestream *stream = impl_from_IMFByteStream(iface); HRESULT hr = S_OK; TRACE("%p, %u, %s, %#x, %p.\n", iface, origin, wine_dbgstr_longlong(offset), flags, current); EnterCriticalSection(&stream->cs); switch (origin) { case msoBegin: stream->position = offset; break; case msoCurrent: stream->position += offset; break; default: WARN("Unknown origin mode %d.\n", origin); hr = E_INVALIDARG; } *current = stream->position; LeaveCriticalSection(&stream->cs); return hr; } static HRESULT WINAPI bytestream_stream_Flush(IMFByteStream *iface) { struct bytestream *stream = impl_from_IMFByteStream(iface); TRACE("%p.\n", iface); return IStream_Commit(stream->stream, STGC_DEFAULT); } static HRESULT WINAPI bytestream_stream_Close(IMFByteStream *iface) { TRACE("%p.\n", iface); return S_OK; } static const IMFByteStreamVtbl bytestream_stream_vtbl = { bytestream_QueryInterface, bytestream_AddRef, bytestream_Release, bytestream_stream_GetCapabilities, bytestream_stream_GetLength, bytestream_stream_SetLength, bytestream_stream_GetCurrentPosition, bytestream_SetCurrentPosition, bytestream_stream_IsEndOfStream, bytestream_stream_Read, bytestream_BeginRead, bytestream_EndRead, bytestream_stream_Write, bytestream_BeginWrite, bytestream_EndWrite, bytestream_stream_Seek, bytestream_stream_Flush, bytestream_stream_Close, }; static inline struct bytestream *impl_from_IMFByteStream_IMFAttributes(IMFAttributes *iface) { return CONTAINING_RECORD(iface, struct bytestream, attributes.IMFAttributes_iface); } static HRESULT WINAPI bytestream_attributes_QueryInterface(IMFAttributes *iface, REFIID riid, void **out) { struct bytestream *stream = impl_from_IMFByteStream_IMFAttributes(iface); return IMFByteStream_QueryInterface(&stream->IMFByteStream_iface, riid, out); } static ULONG WINAPI bytestream_attributes_AddRef(IMFAttributes *iface) { struct bytestream *stream = impl_from_IMFByteStream_IMFAttributes(iface); return IMFByteStream_AddRef(&stream->IMFByteStream_iface); } static ULONG WINAPI bytestream_attributes_Release(IMFAttributes *iface) { struct bytestream *stream = impl_from_IMFByteStream_IMFAttributes(iface); return IMFByteStream_Release(&stream->IMFByteStream_iface); } static const IMFAttributesVtbl bytestream_attributes_vtbl = { bytestream_attributes_QueryInterface, bytestream_attributes_AddRef, bytestream_attributes_Release, mfattributes_GetItem, mfattributes_GetItemType, mfattributes_CompareItem, mfattributes_Compare, mfattributes_GetUINT32, mfattributes_GetUINT64, mfattributes_GetDouble, mfattributes_GetGUID, mfattributes_GetStringLength, mfattributes_GetString, mfattributes_GetAllocatedString, mfattributes_GetBlobSize, mfattributes_GetBlob, mfattributes_GetAllocatedBlob, mfattributes_GetUnknown, mfattributes_SetItem, mfattributes_DeleteItem, mfattributes_DeleteAllItems, mfattributes_SetUINT32, mfattributes_SetUINT64, mfattributes_SetDouble, mfattributes_SetGUID, mfattributes_SetString, mfattributes_SetBlob, mfattributes_SetUnknown, mfattributes_LockStore, mfattributes_UnlockStore, mfattributes_GetCount, mfattributes_GetItemByIndex, mfattributes_CopyAllItems }; static HRESULT WINAPI bytestream_stream_read_callback_Invoke(IRtwqAsyncCallback *iface, IRtwqAsyncResult *result) { struct bytestream *stream = impl_from_read_callback_IRtwqAsyncCallback(iface); struct async_stream_op *op; LARGE_INTEGER position; IUnknown *object; HRESULT hr; if (FAILED(hr = IRtwqAsyncResult_GetObject(result, &object))) return hr; op = impl_async_stream_op_from_IUnknown(object); EnterCriticalSection(&stream->cs); position.QuadPart = op->position; if (SUCCEEDED(hr = IStream_Seek(stream->stream, position, STREAM_SEEK_SET, NULL))) { if (SUCCEEDED(hr = IStream_Read(stream->stream, op->u.dest, op->requested_length, &op->actual_length))) stream->position += op->actual_length; } IMFAsyncResult_SetStatus(op->caller, hr); list_add_tail(&stream->pending, &op->entry); LeaveCriticalSection(&stream->cs); MFInvokeCallback(op->caller); return S_OK; } static HRESULT WINAPI bytestream_stream_write_callback_Invoke(IRtwqAsyncCallback *iface, IRtwqAsyncResult *result) { struct bytestream *stream = impl_from_read_callback_IRtwqAsyncCallback(iface); struct async_stream_op *op; LARGE_INTEGER position; IUnknown *object; HRESULT hr; if (FAILED(hr = IRtwqAsyncResult_GetObject(result, &object))) return hr; op = impl_async_stream_op_from_IUnknown(object); EnterCriticalSection(&stream->cs); position.QuadPart = op->position; if (SUCCEEDED(hr = IStream_Seek(stream->stream, position, STREAM_SEEK_SET, NULL))) { if (SUCCEEDED(hr = IStream_Write(stream->stream, op->u.src, op->requested_length, &op->actual_length))) stream->position += op->actual_length; } IMFAsyncResult_SetStatus(op->caller, hr); list_add_tail(&stream->pending, &op->entry); LeaveCriticalSection(&stream->cs); MFInvokeCallback(op->caller); return S_OK; } static const IRtwqAsyncCallbackVtbl bytestream_stream_read_callback_vtbl = { bytestream_callback_QueryInterface, bytestream_read_callback_AddRef, bytestream_read_callback_Release, bytestream_callback_GetParameters, bytestream_stream_read_callback_Invoke, }; static const IRtwqAsyncCallbackVtbl bytestream_stream_write_callback_vtbl = { bytestream_callback_QueryInterface, bytestream_write_callback_AddRef, bytestream_write_callback_Release, bytestream_callback_GetParameters, bytestream_stream_write_callback_Invoke, }; /*********************************************************************** * MFCreateMFByteStreamOnStream (mfplat.@) */ HRESULT WINAPI MFCreateMFByteStreamOnStream(IStream *stream, IMFByteStream **bytestream) { struct bytestream *object; LARGE_INTEGER position; STATSTG stat; HRESULT hr; TRACE("%p, %p.\n", stream, bytestream); if (!(object = calloc(1, sizeof(*object)))) return E_OUTOFMEMORY; if (FAILED(hr = init_attributes_object(&object->attributes, 0))) { free(object); return hr; } object->IMFByteStream_iface.lpVtbl = &bytestream_stream_vtbl; object->attributes.IMFAttributes_iface.lpVtbl = &bytestream_attributes_vtbl; object->read_callback.lpVtbl = &bytestream_stream_read_callback_vtbl; object->write_callback.lpVtbl = &bytestream_stream_write_callback_vtbl; InitializeCriticalSection(&object->cs); list_init(&object->pending); object->stream = stream; IStream_AddRef(object->stream); position.QuadPart = 0; IStream_Seek(object->stream, position, STREAM_SEEK_SET, NULL); if (SUCCEEDED(IStream_Stat(object->stream, &stat, 0))) { if (stat.pwcsName) { IMFAttributes_SetString(&object->attributes.IMFAttributes_iface, &MF_BYTESTREAM_ORIGIN_NAME, stat.pwcsName); CoTaskMemFree(stat.pwcsName); } } *bytestream = &object->IMFByteStream_iface; return S_OK; } static HRESULT WINAPI bytestream_file_read_callback_Invoke(IRtwqAsyncCallback *iface, IRtwqAsyncResult *result) { FIXME("%p, %p.\n", iface, result); return E_NOTIMPL; } static HRESULT WINAPI bytestream_file_write_callback_Invoke(IRtwqAsyncCallback *iface, IRtwqAsyncResult *result) { FIXME("%p, %p.\n", iface, result); return E_NOTIMPL; } static const IRtwqAsyncCallbackVtbl bytestream_file_read_callback_vtbl = { bytestream_callback_QueryInterface, bytestream_read_callback_AddRef, bytestream_read_callback_Release, bytestream_callback_GetParameters, bytestream_file_read_callback_Invoke, }; static const IRtwqAsyncCallbackVtbl bytestream_file_write_callback_vtbl = { bytestream_callback_QueryInterface, bytestream_write_callback_AddRef, bytestream_write_callback_Release, bytestream_callback_GetParameters, bytestream_file_write_callback_Invoke, }; static HRESULT WINAPI bytestream_file_getservice_QueryInterface(IMFGetService *iface, REFIID riid, void **obj) { struct bytestream *stream = impl_bytestream_from_IMFGetService(iface); return IMFByteStream_QueryInterface(&stream->IMFByteStream_iface, riid, obj); } static ULONG WINAPI bytestream_file_getservice_AddRef(IMFGetService *iface) { struct bytestream *stream = impl_bytestream_from_IMFGetService(iface); return IMFByteStream_AddRef(&stream->IMFByteStream_iface); } static ULONG WINAPI bytestream_file_getservice_Release(IMFGetService *iface) { struct bytestream *stream = impl_bytestream_from_IMFGetService(iface); return IMFByteStream_Release(&stream->IMFByteStream_iface); } static HRESULT WINAPI bytestream_file_getservice_GetService(IMFGetService *iface, REFGUID service, REFIID riid, void **obj) { FIXME("%p, %s, %s, %p.\n", iface, debugstr_guid(service), debugstr_guid(riid), obj); return E_NOTIMPL; } static const IMFGetServiceVtbl bytestream_file_getservice_vtbl = { bytestream_file_getservice_QueryInterface, bytestream_file_getservice_AddRef, bytestream_file_getservice_Release, bytestream_file_getservice_GetService, }; /*********************************************************************** * MFCreateFile (mfplat.@) */ HRESULT WINAPI MFCreateFile(MF_FILE_ACCESSMODE accessmode, MF_FILE_OPENMODE openmode, MF_FILE_FLAGS flags, LPCWSTR url, IMFByteStream **bytestream) { DWORD capabilities = MFBYTESTREAM_IS_SEEKABLE | MFBYTESTREAM_DOES_NOT_USE_NETWORK; DWORD filecreation_disposition = 0, fileaccessmode = 0, fileattributes = 0; DWORD filesharemode = FILE_SHARE_READ | FILE_SHARE_DELETE; struct bytestream *object; FILETIME writetime; HANDLE file; HRESULT hr; TRACE("%d, %d, %#x, %s, %p.\n", accessmode, openmode, flags, debugstr_w(url), bytestream); switch (accessmode) { case MF_ACCESSMODE_READ: fileaccessmode = GENERIC_READ; capabilities |= MFBYTESTREAM_IS_READABLE; break; case MF_ACCESSMODE_WRITE: fileaccessmode = GENERIC_WRITE; capabilities |= MFBYTESTREAM_IS_WRITABLE; break; case MF_ACCESSMODE_READWRITE: fileaccessmode = GENERIC_READ | GENERIC_WRITE; capabilities |= (MFBYTESTREAM_IS_READABLE | MFBYTESTREAM_IS_WRITABLE); break; } switch (openmode) { case MF_OPENMODE_FAIL_IF_NOT_EXIST: filecreation_disposition = OPEN_EXISTING; break; case MF_OPENMODE_FAIL_IF_EXIST: filecreation_disposition = CREATE_NEW; break; case MF_OPENMODE_RESET_IF_EXIST: filecreation_disposition = TRUNCATE_EXISTING; break; case MF_OPENMODE_APPEND_IF_EXIST: filecreation_disposition = OPEN_ALWAYS; fileaccessmode |= FILE_APPEND_DATA; break; case MF_OPENMODE_DELETE_IF_EXIST: filecreation_disposition = CREATE_ALWAYS; break; } if (flags & MF_FILEFLAGS_NOBUFFERING) fileattributes |= FILE_FLAG_NO_BUFFERING; /* Open HANDLE to file */ file = CreateFileW(url, fileaccessmode, filesharemode, NULL, filecreation_disposition, fileattributes, 0); if(file == INVALID_HANDLE_VALUE) return HRESULT_FROM_WIN32(GetLastError()); if (!(object = calloc(1, sizeof(*object)))) { CloseHandle(file); return E_OUTOFMEMORY; } if (FAILED(hr = init_attributes_object(&object->attributes, 2))) { CloseHandle(file); free(object); return hr; } object->IMFByteStream_iface.lpVtbl = &bytestream_file_vtbl; object->attributes.IMFAttributes_iface.lpVtbl = &bytestream_attributes_vtbl; object->IMFGetService_iface.lpVtbl = &bytestream_file_getservice_vtbl; object->read_callback.lpVtbl = &bytestream_file_read_callback_vtbl; object->write_callback.lpVtbl = &bytestream_file_write_callback_vtbl; InitializeCriticalSection(&object->cs); list_init(&object->pending); object->capabilities = capabilities; object->hfile = file; if (GetFileTime(file, NULL, NULL, &writetime)) { IMFAttributes_SetBlob(&object->attributes.IMFAttributes_iface, &MF_BYTESTREAM_LAST_MODIFIED_TIME, (const UINT8 *)&writetime, sizeof(writetime)); } IMFAttributes_SetString(&object->attributes.IMFAttributes_iface, &MF_BYTESTREAM_ORIGIN_NAME, url); *bytestream = &object->IMFByteStream_iface; return S_OK; } struct bytestream_wrapper { IMFByteStreamCacheControl IMFByteStreamCacheControl_iface; IMFByteStreamBuffering IMFByteStreamBuffering_iface; IMFMediaEventGenerator IMFMediaEventGenerator_iface; IMFByteStreamTimeSeek IMFByteStreamTimeSeek_iface; IMFSampleOutputStream IMFSampleOutputStream_iface; IPropertyStore IPropertyStore_iface; IMFByteStream IMFByteStream_iface; IMFAttributes IMFAttributes_iface; LONG refcount; IMFByteStreamCacheControl *cache_control; IMFByteStreamBuffering *stream_buffering; IMFMediaEventGenerator *event_generator; IMFByteStreamTimeSeek *time_seek; IMFSampleOutputStream *sample_output; IPropertyStore *propstore; IMFByteStream *stream; IMFAttributes *attributes; BOOL is_closed; }; static struct bytestream_wrapper *impl_wrapper_from_IMFByteStream(IMFByteStream *iface) { return CONTAINING_RECORD(iface, struct bytestream_wrapper, IMFByteStream_iface); } static struct bytestream_wrapper *impl_wrapper_from_IMFByteStreamCacheControl(IMFByteStreamCacheControl *iface) { return CONTAINING_RECORD(iface, struct bytestream_wrapper, IMFByteStreamCacheControl_iface); } static struct bytestream_wrapper *impl_wrapper_from_IMFByteStreamBuffering(IMFByteStreamBuffering *iface) { return CONTAINING_RECORD(iface, struct bytestream_wrapper, IMFByteStreamBuffering_iface); } static struct bytestream_wrapper *impl_wrapper_from_IMFMediaEventGenerator(IMFMediaEventGenerator *iface) { return CONTAINING_RECORD(iface, struct bytestream_wrapper, IMFMediaEventGenerator_iface); } static struct bytestream_wrapper *impl_wrapper_from_IMFByteStreamTimeSeek(IMFByteStreamTimeSeek *iface) { return CONTAINING_RECORD(iface, struct bytestream_wrapper, IMFByteStreamTimeSeek_iface); } static struct bytestream_wrapper *impl_wrapper_from_IMFSampleOutputStream(IMFSampleOutputStream *iface) { return CONTAINING_RECORD(iface, struct bytestream_wrapper, IMFSampleOutputStream_iface); } static struct bytestream_wrapper *impl_wrapper_from_IPropertyStore(IPropertyStore *iface) { return CONTAINING_RECORD(iface, struct bytestream_wrapper, IPropertyStore_iface); } static struct bytestream_wrapper *impl_wrapper_from_IMFAttributes(IMFAttributes *iface) { return CONTAINING_RECORD(iface, struct bytestream_wrapper, IMFAttributes_iface); } static HRESULT WINAPI bytestream_wrapper_QueryInterface(IMFByteStream *iface, REFIID riid, void **out) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFByteStream(iface); TRACE("%p, %s, %p.\n", iface, debugstr_guid(riid), out); if (IsEqualIID(riid, &IID_IMFByteStream) || IsEqualIID(riid, &IID_IUnknown)) { *out = &wrapper->IMFByteStream_iface; } else if (wrapper->cache_control && IsEqualIID(riid, &IID_IMFByteStreamCacheControl)) { *out = &wrapper->IMFByteStreamCacheControl_iface; } else if (wrapper->stream_buffering && IsEqualIID(riid, &IID_IMFByteStreamBuffering)) { *out = &wrapper->IMFByteStreamBuffering_iface; } else if (wrapper->event_generator && IsEqualIID(riid, &IID_IMFMediaEventGenerator)) { *out = &wrapper->IMFMediaEventGenerator_iface; } else if (wrapper->time_seek && IsEqualIID(riid, &IID_IMFByteStreamTimeSeek)) { *out = &wrapper->IMFByteStreamTimeSeek_iface; } else if (wrapper->sample_output && IsEqualIID(riid, &IID_IMFSampleOutputStream)) { *out = &wrapper->IMFSampleOutputStream_iface; } else if (wrapper->propstore && IsEqualIID(riid, &IID_IPropertyStore)) { *out = &wrapper->IPropertyStore_iface; } else if (wrapper->attributes && IsEqualIID(riid, &IID_IMFAttributes)) { *out = &wrapper->IMFAttributes_iface; } else { WARN("Unsupported %s.\n", debugstr_guid(riid)); *out = NULL; return E_NOINTERFACE; } IUnknown_AddRef((IUnknown *)*out); return S_OK; } static ULONG WINAPI bytestream_wrapper_AddRef(IMFByteStream *iface) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFByteStream(iface); ULONG refcount = InterlockedIncrement(&wrapper->refcount); TRACE("%p, refcount %d.\n", iface, refcount); return refcount; } static ULONG WINAPI bytestream_wrapper_Release(IMFByteStream *iface) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFByteStream(iface); ULONG refcount = InterlockedDecrement(&wrapper->refcount); TRACE("%p, refcount %d.\n", iface, refcount); if (!refcount) { if (wrapper->cache_control) IMFByteStreamCacheControl_Release(wrapper->cache_control); if (wrapper->stream_buffering) IMFByteStreamBuffering_Release(wrapper->stream_buffering); if (wrapper->event_generator) IMFMediaEventGenerator_Release(wrapper->event_generator); if (wrapper->time_seek) IMFByteStreamTimeSeek_Release(wrapper->time_seek); if (wrapper->sample_output) IMFSampleOutputStream_Release(wrapper->sample_output); if (wrapper->propstore) IPropertyStore_Release(wrapper->propstore); if (wrapper->attributes) IMFAttributes_Release(wrapper->attributes); IMFByteStream_Release(wrapper->stream); free(wrapper); } return refcount; } static HRESULT WINAPI bytestream_wrapper_GetCapabilities(IMFByteStream *iface, DWORD *capabilities) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFByteStream(iface); TRACE("%p, %p.\n", iface, capabilities); return wrapper->is_closed ? MF_E_INVALIDREQUEST : IMFByteStream_GetCapabilities(wrapper->stream, capabilities); } static HRESULT WINAPI bytestream_wrapper_GetLength(IMFByteStream *iface, QWORD *length) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFByteStream(iface); TRACE("%p, %p.\n", iface, length); if (wrapper->is_closed) return MF_E_INVALIDREQUEST; return wrapper->is_closed ? MF_E_INVALIDREQUEST : IMFByteStream_GetLength(wrapper->stream, length); } static HRESULT WINAPI bytestream_wrapper_SetLength(IMFByteStream *iface, QWORD length) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFByteStream(iface); TRACE("%p, %s.\n", iface, wine_dbgstr_longlong(length)); if (wrapper->is_closed) return MF_E_INVALIDREQUEST; return wrapper->is_closed ? MF_E_INVALIDREQUEST : IMFByteStream_SetLength(wrapper->stream, length); } static HRESULT WINAPI bytestream_wrapper_GetCurrentPosition(IMFByteStream *iface, QWORD *position) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFByteStream(iface); TRACE("%p, %p.\n", iface, position); if (wrapper->is_closed) return MF_E_INVALIDREQUEST; return wrapper->is_closed ? MF_E_INVALIDREQUEST : IMFByteStream_GetCurrentPosition(wrapper->stream, position); } static HRESULT WINAPI bytestream_wrapper_SetCurrentPosition(IMFByteStream *iface, QWORD position) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFByteStream(iface); TRACE("%p, %s.\n", iface, wine_dbgstr_longlong(position)); return wrapper->is_closed ? MF_E_INVALIDREQUEST : IMFByteStream_SetCurrentPosition(wrapper->stream, position); } static HRESULT WINAPI bytestream_wrapper_IsEndOfStream(IMFByteStream *iface, BOOL *eos) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFByteStream(iface); TRACE("%p, %p.\n", iface, eos); return wrapper->is_closed ? MF_E_INVALIDREQUEST : IMFByteStream_IsEndOfStream(wrapper->stream, eos); } static HRESULT WINAPI bytestream_wrapper_Read(IMFByteStream *iface, BYTE *data, ULONG count, ULONG *byte_read) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFByteStream(iface); TRACE("%p, %p, %u, %p.\n", iface, data, count, byte_read); return wrapper->is_closed ? MF_E_INVALIDREQUEST : IMFByteStream_Read(wrapper->stream, data, count, byte_read); } static HRESULT WINAPI bytestream_wrapper_BeginRead(IMFByteStream *iface, BYTE *data, ULONG size, IMFAsyncCallback *callback, IUnknown *state) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFByteStream(iface); TRACE("%p, %p, %u, %p, %p.\n", iface, data, size, callback, state); return wrapper->is_closed ? MF_E_INVALIDREQUEST : IMFByteStream_BeginRead(wrapper->stream, data, size, callback, state); } static HRESULT WINAPI bytestream_wrapper_EndRead(IMFByteStream *iface, IMFAsyncResult *result, ULONG *byte_read) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFByteStream(iface); TRACE("%p, %p, %p.\n", iface, result, byte_read); return wrapper->is_closed ? MF_E_INVALIDREQUEST : IMFByteStream_EndRead(wrapper->stream, result, byte_read); } static HRESULT WINAPI bytestream_wrapper_Write(IMFByteStream *iface, const BYTE *data, ULONG count, ULONG *written) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFByteStream(iface); TRACE("%p, %p, %u, %p.\n", iface, data, count, written); return wrapper->is_closed ? MF_E_INVALIDREQUEST : IMFByteStream_Write(wrapper->stream, data, count, written); } static HRESULT WINAPI bytestream_wrapper_BeginWrite(IMFByteStream *iface, const BYTE *data, ULONG size, IMFAsyncCallback *callback, IUnknown *state) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFByteStream(iface); TRACE("%p, %p, %u, %p, %p.\n", iface, data, size, callback, state); return wrapper->is_closed ? MF_E_INVALIDREQUEST : IMFByteStream_BeginWrite(wrapper->stream, data, size, callback, state); } static HRESULT WINAPI bytestream_wrapper_EndWrite(IMFByteStream *iface, IMFAsyncResult *result, ULONG *written) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFByteStream(iface); TRACE("%p, %p, %p.\n", iface, result, written); return wrapper->is_closed ? MF_E_INVALIDREQUEST : IMFByteStream_EndWrite(wrapper->stream, result, written); } static HRESULT WINAPI bytestream_wrapper_Seek(IMFByteStream *iface, MFBYTESTREAM_SEEK_ORIGIN seek, LONGLONG offset, DWORD flags, QWORD *current) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFByteStream(iface); TRACE("%p, %u, %s, %#x, %p.\n", iface, seek, wine_dbgstr_longlong(offset), flags, current); return wrapper->is_closed ? MF_E_INVALIDREQUEST : IMFByteStream_Seek(wrapper->stream, seek, offset, flags, current); } static HRESULT WINAPI bytestream_wrapper_Flush(IMFByteStream *iface) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFByteStream(iface); TRACE("%p\n", iface); return wrapper->is_closed ? MF_E_INVALIDREQUEST : IMFByteStream_Flush(wrapper->stream); } static HRESULT WINAPI bytestream_wrapper_Close(IMFByteStream *iface) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFByteStream(iface); TRACE("%p\n", iface); wrapper->is_closed = TRUE; return S_OK; } static const IMFByteStreamVtbl bytestream_wrapper_vtbl = { bytestream_wrapper_QueryInterface, bytestream_wrapper_AddRef, bytestream_wrapper_Release, bytestream_wrapper_GetCapabilities, bytestream_wrapper_GetLength, bytestream_wrapper_SetLength, bytestream_wrapper_GetCurrentPosition, bytestream_wrapper_SetCurrentPosition, bytestream_wrapper_IsEndOfStream, bytestream_wrapper_Read, bytestream_wrapper_BeginRead, bytestream_wrapper_EndRead, bytestream_wrapper_Write, bytestream_wrapper_BeginWrite, bytestream_wrapper_EndWrite, bytestream_wrapper_Seek, bytestream_wrapper_Flush, bytestream_wrapper_Close, }; static HRESULT WINAPI bytestream_wrapper_cache_control_QueryInterface(IMFByteStreamCacheControl *iface, REFIID riid, void **obj) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFByteStreamCacheControl(iface); return IMFByteStream_QueryInterface(&wrapper->IMFByteStream_iface, riid, obj); } static ULONG WINAPI bytestream_wrapper_cache_control_AddRef(IMFByteStreamCacheControl *iface) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFByteStreamCacheControl(iface); return IMFByteStream_AddRef(&wrapper->IMFByteStream_iface); } static ULONG WINAPI bytestream_wrapper_cache_control_Release(IMFByteStreamCacheControl *iface) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFByteStreamCacheControl(iface); return IMFByteStream_Release(&wrapper->IMFByteStream_iface); } static HRESULT WINAPI bytestream_wrapper_cache_control_StopBackgroundTransfer(IMFByteStreamCacheControl *iface) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFByteStreamCacheControl(iface); TRACE("%p.\n", iface); return IMFByteStreamCacheControl_StopBackgroundTransfer(wrapper->cache_control); } static const IMFByteStreamCacheControlVtbl bytestream_wrapper_cache_control_vtbl = { bytestream_wrapper_cache_control_QueryInterface, bytestream_wrapper_cache_control_AddRef, bytestream_wrapper_cache_control_Release, bytestream_wrapper_cache_control_StopBackgroundTransfer, }; static HRESULT WINAPI bytestream_wrapper_buffering_QueryInterface(IMFByteStreamBuffering *iface, REFIID riid, void **obj) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFByteStreamBuffering(iface); return IMFByteStream_QueryInterface(&wrapper->IMFByteStream_iface, riid, obj); } static ULONG WINAPI bytestream_wrapper_buffering_AddRef(IMFByteStreamBuffering *iface) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFByteStreamBuffering(iface); return IMFByteStream_AddRef(&wrapper->IMFByteStream_iface); } static ULONG WINAPI bytestream_wrapper_buffering_Release(IMFByteStreamBuffering *iface) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFByteStreamBuffering(iface); return IMFByteStream_Release(&wrapper->IMFByteStream_iface); } static HRESULT WINAPI bytestream_wrapper_buffering_SetBufferingParams(IMFByteStreamBuffering *iface, MFBYTESTREAM_BUFFERING_PARAMS *params) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFByteStreamBuffering(iface); TRACE("%p, %p.\n", iface, params); return IMFByteStreamBuffering_SetBufferingParams(wrapper->stream_buffering, params); } static HRESULT WINAPI bytestream_wrapper_buffering_EnableBuffering(IMFByteStreamBuffering *iface, BOOL enable) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFByteStreamBuffering(iface); TRACE("%p, %d.\n", iface, enable); return IMFByteStreamBuffering_EnableBuffering(wrapper->stream_buffering, enable); } static HRESULT WINAPI bytestream_wrapper_buffering_StopBuffering(IMFByteStreamBuffering *iface) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFByteStreamBuffering(iface); TRACE("%p.\n", iface); return IMFByteStreamBuffering_StopBuffering(wrapper->stream_buffering); } static const IMFByteStreamBufferingVtbl bytestream_wrapper_buffering_vtbl = { bytestream_wrapper_buffering_QueryInterface, bytestream_wrapper_buffering_AddRef, bytestream_wrapper_buffering_Release, bytestream_wrapper_buffering_SetBufferingParams, bytestream_wrapper_buffering_EnableBuffering, bytestream_wrapper_buffering_StopBuffering, }; static HRESULT WINAPI bytestream_wrapper_timeseek_QueryInterface(IMFByteStreamTimeSeek *iface, REFIID riid, void **obj) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFByteStreamTimeSeek(iface); return IMFByteStream_QueryInterface(&wrapper->IMFByteStream_iface, riid, obj); } static ULONG WINAPI bytestream_wrapper_timeseek_AddRef(IMFByteStreamTimeSeek *iface) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFByteStreamTimeSeek(iface); return IMFByteStream_AddRef(&wrapper->IMFByteStream_iface); } static ULONG WINAPI bytestream_wrapper_timeseek_Release(IMFByteStreamTimeSeek *iface) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFByteStreamTimeSeek(iface); return IMFByteStream_Release(&wrapper->IMFByteStream_iface); } static HRESULT WINAPI bytestream_wrapper_timeseek_IsTimeSeekSupported(IMFByteStreamTimeSeek *iface, BOOL *result) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFByteStreamTimeSeek(iface); TRACE("%p, %p.\n", iface, result); return IMFByteStreamTimeSeek_IsTimeSeekSupported(wrapper->time_seek, result); } static HRESULT WINAPI bytestream_wrapper_timeseek_TimeSeek(IMFByteStreamTimeSeek *iface, QWORD position) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFByteStreamTimeSeek(iface); TRACE("%p, %s.\n", iface, wine_dbgstr_longlong(position)); return IMFByteStreamTimeSeek_TimeSeek(wrapper->time_seek, position); } static HRESULT WINAPI bytestream_wrapper_timeseek_GetTimeSeekResult(IMFByteStreamTimeSeek *iface, QWORD *start_time, QWORD *stop_time, QWORD *duration) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFByteStreamTimeSeek(iface); TRACE("%p, %p, %p, %p.\n", iface, start_time, stop_time, duration); return IMFByteStreamTimeSeek_GetTimeSeekResult(wrapper->time_seek, start_time, stop_time, duration); } static const IMFByteStreamTimeSeekVtbl bytestream_wrapper_timeseek_vtbl = { bytestream_wrapper_timeseek_QueryInterface, bytestream_wrapper_timeseek_AddRef, bytestream_wrapper_timeseek_Release, bytestream_wrapper_timeseek_IsTimeSeekSupported, bytestream_wrapper_timeseek_TimeSeek, bytestream_wrapper_timeseek_GetTimeSeekResult, }; static HRESULT WINAPI bytestream_wrapper_events_QueryInterface(IMFMediaEventGenerator *iface, REFIID riid, void **obj) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFMediaEventGenerator(iface); return IMFByteStream_QueryInterface(&wrapper->IMFByteStream_iface, riid, obj); } static ULONG WINAPI bytestream_wrapper_events_AddRef(IMFMediaEventGenerator *iface) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFMediaEventGenerator(iface); return IMFByteStream_AddRef(&wrapper->IMFByteStream_iface); } static ULONG WINAPI bytestream_wrapper_events_Release(IMFMediaEventGenerator *iface) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFMediaEventGenerator(iface); return IMFByteStream_Release(&wrapper->IMFByteStream_iface); } static HRESULT WINAPI bytestream_wrapper_events_GetEvent(IMFMediaEventGenerator *iface, DWORD flags, IMFMediaEvent **event) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFMediaEventGenerator(iface); TRACE("%p, %#x, %p.\n", iface, flags, event); return IMFMediaEventGenerator_GetEvent(wrapper->event_generator, flags, event); } static HRESULT WINAPI bytestream_wrapper_events_BeginGetEvent(IMFMediaEventGenerator *iface, IMFAsyncCallback *callback, IUnknown *state) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFMediaEventGenerator(iface); TRACE("%p, %p, %p.\n", iface, callback, state); return IMFMediaEventGenerator_BeginGetEvent(wrapper->event_generator, callback, state); } static HRESULT WINAPI bytestream_wrapper_events_EndGetEvent(IMFMediaEventGenerator *iface, IMFAsyncResult *result, IMFMediaEvent **event) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFMediaEventGenerator(iface); TRACE("%p, %p, %p.\n", iface, result, event); return IMFMediaEventGenerator_EndGetEvent(wrapper->event_generator, result, event); } static HRESULT WINAPI bytestream_wrapper_events_QueueEvent(IMFMediaEventGenerator *iface, MediaEventType type, REFGUID ext_type, HRESULT hr, const PROPVARIANT *value) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFMediaEventGenerator(iface); TRACE("%p, %d, %s, %#x, %s.\n", iface, type, debugstr_guid(ext_type), hr, debugstr_propvar(value)); return IMFMediaEventGenerator_QueueEvent(wrapper->event_generator, type, ext_type, hr, value); } static const IMFMediaEventGeneratorVtbl bytestream_wrapper_events_vtbl = { bytestream_wrapper_events_QueryInterface, bytestream_wrapper_events_AddRef, bytestream_wrapper_events_Release, bytestream_wrapper_events_GetEvent, bytestream_wrapper_events_BeginGetEvent, bytestream_wrapper_events_EndGetEvent, bytestream_wrapper_events_QueueEvent, }; static HRESULT WINAPI bytestream_wrapper_sample_output_QueryInterface(IMFSampleOutputStream *iface, REFIID riid, void **obj) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFSampleOutputStream(iface); return IMFByteStream_QueryInterface(&wrapper->IMFByteStream_iface, riid, obj); } static ULONG WINAPI bytestream_wrapper_sample_output_AddRef(IMFSampleOutputStream *iface) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFSampleOutputStream(iface); return IMFByteStream_AddRef(&wrapper->IMFByteStream_iface); } static ULONG WINAPI bytestream_wrapper_sample_output_Release(IMFSampleOutputStream *iface) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFSampleOutputStream(iface); return IMFByteStream_Release(&wrapper->IMFByteStream_iface); } static HRESULT WINAPI bytestream_wrapper_sample_output_BeginWriteSample(IMFSampleOutputStream *iface, IMFSample *sample, IMFAsyncCallback *callback, IUnknown *state) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFSampleOutputStream(iface); TRACE("%p, %p, %p, %p.\n", iface, sample, callback, state); return IMFSampleOutputStream_BeginWriteSample(wrapper->sample_output, sample, callback, state); } static HRESULT WINAPI bytestream_wrapper_sample_output_EndWriteSample(IMFSampleOutputStream *iface, IMFAsyncResult *result) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFSampleOutputStream(iface); TRACE("%p, %p.\n", iface, result); return IMFSampleOutputStream_EndWriteSample(wrapper->sample_output, result); } static HRESULT WINAPI bytestream_wrapper_sample_output_Close(IMFSampleOutputStream *iface) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFSampleOutputStream(iface); TRACE("%p.\n", iface); return IMFSampleOutputStream_Close(wrapper->sample_output); } static const IMFSampleOutputStreamVtbl bytestream_wrapper_sample_output_vtbl = { bytestream_wrapper_sample_output_QueryInterface, bytestream_wrapper_sample_output_AddRef, bytestream_wrapper_sample_output_Release, bytestream_wrapper_sample_output_BeginWriteSample, bytestream_wrapper_sample_output_EndWriteSample, bytestream_wrapper_sample_output_Close, }; static HRESULT WINAPI bytestream_wrapper_propstore_QueryInterface(IPropertyStore *iface, REFIID riid, void **obj) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IPropertyStore(iface); return IMFByteStream_QueryInterface(&wrapper->IMFByteStream_iface, riid, obj); } static ULONG WINAPI bytestream_wrapper_propstore_AddRef(IPropertyStore *iface) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IPropertyStore(iface); return IMFByteStream_AddRef(&wrapper->IMFByteStream_iface); } static ULONG WINAPI bytestream_wrapper_propstore_Release(IPropertyStore *iface) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IPropertyStore(iface); return IMFByteStream_Release(&wrapper->IMFByteStream_iface); } static HRESULT WINAPI bytestream_wrapper_propstore_GetCount(IPropertyStore *iface, DWORD *count) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IPropertyStore(iface); TRACE("%p, %p.\n", iface, count); return IPropertyStore_GetCount(wrapper->propstore, count); } static HRESULT WINAPI bytestream_wrapper_propstore_GetAt(IPropertyStore *iface, DWORD prop, PROPERTYKEY *key) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IPropertyStore(iface); TRACE("%p, %u, %p.\n", iface, prop, key); return IPropertyStore_GetAt(wrapper->propstore, prop, key); } static HRESULT WINAPI bytestream_wrapper_propstore_GetValue(IPropertyStore *iface, REFPROPERTYKEY key, PROPVARIANT *value) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IPropertyStore(iface); TRACE("%p, %p, %p.\n", iface, key, value); return IPropertyStore_GetValue(wrapper->propstore, key, value); } static HRESULT WINAPI bytestream_wrapper_propstore_SetValue(IPropertyStore *iface, REFPROPERTYKEY key, const PROPVARIANT *value) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IPropertyStore(iface); TRACE("%p, %p, %s.\n", iface, key, debugstr_propvar(value)); return IPropertyStore_SetValue(wrapper->propstore, key, value); } static HRESULT WINAPI bytestream_wrapper_propstore_Commit(IPropertyStore *iface) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IPropertyStore(iface); TRACE("%p.\n", iface); return IPropertyStore_Commit(wrapper->propstore); } static const IPropertyStoreVtbl bytestream_wrapper_propstore_vtbl = { bytestream_wrapper_propstore_QueryInterface, bytestream_wrapper_propstore_AddRef, bytestream_wrapper_propstore_Release, bytestream_wrapper_propstore_GetCount, bytestream_wrapper_propstore_GetAt, bytestream_wrapper_propstore_GetValue, bytestream_wrapper_propstore_SetValue, bytestream_wrapper_propstore_Commit, }; static HRESULT WINAPI bytestream_wrapper_attributes_QueryInterface(IMFAttributes *iface, REFIID riid, void **obj) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFAttributes(iface); return IMFByteStream_QueryInterface(&wrapper->IMFByteStream_iface, riid, obj); } static ULONG WINAPI bytestream_wrapper_attributes_AddRef(IMFAttributes *iface) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFAttributes(iface); return IMFByteStream_AddRef(&wrapper->IMFByteStream_iface); } static ULONG WINAPI bytestream_wrapper_attributes_Release(IMFAttributes *iface) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFAttributes(iface); return IMFByteStream_Release(&wrapper->IMFByteStream_iface); } static HRESULT WINAPI bytestream_wrapper_attributes_GetItem(IMFAttributes *iface, REFGUID key, PROPVARIANT *value) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFAttributes(iface); TRACE("%p, %s, %p.\n", iface, debugstr_attr(key), value); return IMFAttributes_GetItem(wrapper->attributes, key, value); } static HRESULT WINAPI bytestream_wrapper_attributes_GetItemType(IMFAttributes *iface, REFGUID key, MF_ATTRIBUTE_TYPE *type) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFAttributes(iface); TRACE("%p, %s, %p.\n", iface, debugstr_attr(key), type); return IMFAttributes_GetItemType(wrapper->attributes, key, type); } static HRESULT WINAPI bytestream_wrapper_attributes_CompareItem(IMFAttributes *iface, REFGUID key, REFPROPVARIANT value, BOOL *result) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFAttributes(iface); TRACE("%p, %s, %s, %p.\n", iface, debugstr_attr(key), debugstr_propvar(value), result); return IMFAttributes_CompareItem(wrapper->attributes, key, value, result); } static HRESULT WINAPI bytestream_wrapper_attributes_Compare(IMFAttributes *iface, IMFAttributes *theirs, MF_ATTRIBUTES_MATCH_TYPE match_type, BOOL *ret) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFAttributes(iface); TRACE("%p, %p, %d, %p.\n", iface, theirs, match_type, ret); return IMFAttributes_Compare(wrapper->attributes, theirs, match_type, ret); } static HRESULT WINAPI bytestream_wrapper_attributes_GetUINT32(IMFAttributes *iface, REFGUID key, UINT32 *value) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFAttributes(iface); TRACE("%p, %s, %p.\n", iface, debugstr_attr(key), value); return IMFAttributes_GetUINT32(wrapper->attributes, key, value); } static HRESULT WINAPI bytestream_wrapper_attributes_GetUINT64(IMFAttributes *iface, REFGUID key, UINT64 *value) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFAttributes(iface); TRACE("%p, %s, %p.\n", iface, debugstr_attr(key), value); return IMFAttributes_GetUINT64(wrapper->attributes, key, value); } static HRESULT WINAPI bytestream_wrapper_attributes_GetDouble(IMFAttributes *iface, REFGUID key, double *value) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFAttributes(iface); TRACE("%p, %s, %p.\n", iface, debugstr_attr(key), value); return IMFAttributes_GetDouble(wrapper->attributes, key, value); } static HRESULT WINAPI bytestream_wrapper_attributes_GetGUID(IMFAttributes *iface, REFGUID key, GUID *value) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFAttributes(iface); TRACE("%p, %s, %p.\n", iface, debugstr_attr(key), value); return IMFAttributes_GetGUID(wrapper->attributes, key, value); } static HRESULT WINAPI bytestream_wrapper_attributes_GetStringLength(IMFAttributes *iface, REFGUID key, UINT32 *length) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFAttributes(iface); TRACE("%p, %s, %p.\n", iface, debugstr_attr(key), length); return IMFAttributes_GetStringLength(wrapper->attributes, key, length); } static HRESULT WINAPI bytestream_wrapper_attributes_GetString(IMFAttributes *iface, REFGUID key, WCHAR *value, UINT32 size, UINT32 *length) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFAttributes(iface); TRACE("%p, %s, %p, %d, %p.\n", iface, debugstr_attr(key), value, size, length); return IMFAttributes_GetString(wrapper->attributes, key, value, size, length); } static HRESULT WINAPI bytestream_wrapper_attributes_GetAllocatedString(IMFAttributes *iface, REFGUID key, WCHAR **value, UINT32 *length) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFAttributes(iface); TRACE("%p, %s, %p, %p.\n", iface, debugstr_attr(key), value, length); return IMFAttributes_GetAllocatedString(wrapper->attributes, key, value, length); } static HRESULT WINAPI bytestream_wrapper_attributes_GetBlobSize(IMFAttributes *iface, REFGUID key, UINT32 *size) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFAttributes(iface); TRACE("%p, %s, %p.\n", iface, debugstr_attr(key), size); return IMFAttributes_GetBlobSize(wrapper->attributes, key, size); } static HRESULT WINAPI bytestream_wrapper_attributes_GetBlob(IMFAttributes *iface, REFGUID key, UINT8 *buf, UINT32 bufsize, UINT32 *blobsize) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFAttributes(iface); TRACE("%p, %s, %p, %d, %p.\n", iface, debugstr_attr(key), buf, bufsize, blobsize); return IMFAttributes_GetBlob(wrapper->attributes, key, buf, bufsize, blobsize); } static HRESULT WINAPI bytestream_wrapper_attributes_GetAllocatedBlob(IMFAttributes *iface, REFGUID key, UINT8 **buf, UINT32 *size) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFAttributes(iface); TRACE("%p, %s, %p, %p.\n", iface, debugstr_attr(key), buf, size); return IMFAttributes_GetAllocatedBlob(wrapper->attributes, key, buf, size); } static HRESULT WINAPI bytestream_wrapper_attributes_GetUnknown(IMFAttributes *iface, REFGUID key, REFIID riid, void **obj) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFAttributes(iface); TRACE("%p, %s, %s, %p.\n", iface, debugstr_attr(key), debugstr_guid(riid), obj); return IMFAttributes_GetUnknown(wrapper->attributes, key, riid, obj); } static HRESULT WINAPI bytestream_wrapper_attributes_SetItem(IMFAttributes *iface, REFGUID key, REFPROPVARIANT value) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFAttributes(iface); TRACE("%p, %s, %s.\n", iface, debugstr_attr(key), debugstr_propvar(value)); return IMFAttributes_SetItem(wrapper->attributes, key, value); } static HRESULT WINAPI bytestream_wrapper_attributes_DeleteItem(IMFAttributes *iface, REFGUID key) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFAttributes(iface); TRACE("%p, %s.\n", iface, debugstr_attr(key)); return IMFAttributes_DeleteItem(wrapper->attributes, key); } static HRESULT WINAPI bytestream_wrapper_attributes_DeleteAllItems(IMFAttributes *iface) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFAttributes(iface); TRACE("%p.\n", iface); return IMFAttributes_DeleteAllItems(wrapper->attributes); } static HRESULT WINAPI bytestream_wrapper_attributes_SetUINT32(IMFAttributes *iface, REFGUID key, UINT32 value) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFAttributes(iface); TRACE("%p, %s, %d.\n", iface, debugstr_attr(key), value); return IMFAttributes_SetUINT32(wrapper->attributes, key, value); } static HRESULT WINAPI bytestream_wrapper_attributes_SetUINT64(IMFAttributes *iface, REFGUID key, UINT64 value) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFAttributes(iface); TRACE("%p, %s, %s.\n", iface, debugstr_attr(key), wine_dbgstr_longlong(value)); return IMFAttributes_SetUINT64(wrapper->attributes, key, value); } static HRESULT WINAPI bytestream_wrapper_attributes_SetDouble(IMFAttributes *iface, REFGUID key, double value) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFAttributes(iface); TRACE("%p, %s, %f.\n", iface, debugstr_attr(key), value); return IMFAttributes_SetDouble(wrapper->attributes, key, value); } static HRESULT WINAPI bytestream_wrapper_attributes_SetGUID(IMFAttributes *iface, REFGUID key, REFGUID value) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFAttributes(iface); TRACE("%p, %s, %s.\n", iface, debugstr_attr(key), debugstr_mf_guid(value)); return IMFAttributes_SetGUID(wrapper->attributes, key, value); } static HRESULT WINAPI bytestream_wrapper_attributes_SetString(IMFAttributes *iface, REFGUID key, const WCHAR *value) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFAttributes(iface); TRACE("%p, %s, %s.\n", iface, debugstr_attr(key), debugstr_w(value)); return IMFAttributes_SetString(wrapper->attributes, key, value); } static HRESULT WINAPI bytestream_wrapper_attributes_SetBlob(IMFAttributes *iface, REFGUID key, const UINT8 *buf, UINT32 size) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFAttributes(iface); TRACE("%p, %s, %p, %u.\n", iface, debugstr_attr(key), buf, size); return IMFAttributes_SetBlob(wrapper->attributes, key, buf, size); } static HRESULT WINAPI bytestream_wrapper_attributes_SetUnknown(IMFAttributes *iface, REFGUID key, IUnknown *unknown) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFAttributes(iface); TRACE("%p, %s, %p.\n", iface, debugstr_attr(key), unknown); return IMFAttributes_SetUnknown(wrapper->attributes, key, unknown); } static HRESULT WINAPI bytestream_wrapper_attributes_LockStore(IMFAttributes *iface) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFAttributes(iface); TRACE("%p.\n", iface); return IMFAttributes_LockStore(wrapper->attributes); } static HRESULT WINAPI bytestream_wrapper_attributes_UnlockStore(IMFAttributes *iface) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFAttributes(iface); TRACE("%p.\n", iface); return IMFAttributes_UnlockStore(wrapper->attributes); } static HRESULT WINAPI bytestream_wrapper_attributes_GetCount(IMFAttributes *iface, UINT32 *count) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFAttributes(iface); TRACE("%p, %p.\n", iface, count); return IMFAttributes_GetCount(wrapper->attributes, count); } static HRESULT WINAPI bytestream_wrapper_attributes_GetItemByIndex(IMFAttributes *iface, UINT32 index, GUID *key, PROPVARIANT *value) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFAttributes(iface); TRACE("%p, %u, %p, %p.\n", iface, index, key, value); return IMFAttributes_GetItemByIndex(wrapper->attributes, index, key, value); } static HRESULT WINAPI bytestream_wrapper_attributes_CopyAllItems(IMFAttributes *iface, IMFAttributes *dest) { struct bytestream_wrapper *wrapper = impl_wrapper_from_IMFAttributes(iface); TRACE("%p, %p.\n", iface, dest); return IMFAttributes_CopyAllItems(wrapper->attributes, dest); } static const IMFAttributesVtbl bytestream_wrapper_attributes_vtbl = { bytestream_wrapper_attributes_QueryInterface, bytestream_wrapper_attributes_AddRef, bytestream_wrapper_attributes_Release, bytestream_wrapper_attributes_GetItem, bytestream_wrapper_attributes_GetItemType, bytestream_wrapper_attributes_CompareItem, bytestream_wrapper_attributes_Compare, bytestream_wrapper_attributes_GetUINT32, bytestream_wrapper_attributes_GetUINT64, bytestream_wrapper_attributes_GetDouble, bytestream_wrapper_attributes_GetGUID, bytestream_wrapper_attributes_GetStringLength, bytestream_wrapper_attributes_GetString, bytestream_wrapper_attributes_GetAllocatedString, bytestream_wrapper_attributes_GetBlobSize, bytestream_wrapper_attributes_GetBlob, bytestream_wrapper_attributes_GetAllocatedBlob, bytestream_wrapper_attributes_GetUnknown, bytestream_wrapper_attributes_SetItem, bytestream_wrapper_attributes_DeleteItem, bytestream_wrapper_attributes_DeleteAllItems, bytestream_wrapper_attributes_SetUINT32, bytestream_wrapper_attributes_SetUINT64, bytestream_wrapper_attributes_SetDouble, bytestream_wrapper_attributes_SetGUID, bytestream_wrapper_attributes_SetString, bytestream_wrapper_attributes_SetBlob, bytestream_wrapper_attributes_SetUnknown, bytestream_wrapper_attributes_LockStore, bytestream_wrapper_attributes_UnlockStore, bytestream_wrapper_attributes_GetCount, bytestream_wrapper_attributes_GetItemByIndex, bytestream_wrapper_attributes_CopyAllItems }; /*********************************************************************** * MFCreateMFByteStreamWrapper (mfplat.@) */ HRESULT WINAPI MFCreateMFByteStreamWrapper(IMFByteStream *stream, IMFByteStream **wrapper) { struct bytestream_wrapper *object; TRACE("%p, %p.\n", stream, wrapper); if (!(object = calloc(1, sizeof(*object)))) return E_OUTOFMEMORY; object->IMFByteStreamCacheControl_iface.lpVtbl = &bytestream_wrapper_cache_control_vtbl; object->IMFByteStreamBuffering_iface.lpVtbl = &bytestream_wrapper_buffering_vtbl; object->IMFMediaEventGenerator_iface.lpVtbl = &bytestream_wrapper_events_vtbl; object->IMFByteStreamTimeSeek_iface.lpVtbl = &bytestream_wrapper_timeseek_vtbl; object->IMFSampleOutputStream_iface.lpVtbl = &bytestream_wrapper_sample_output_vtbl; object->IMFByteStream_iface.lpVtbl = &bytestream_wrapper_vtbl; object->IPropertyStore_iface.lpVtbl = &bytestream_wrapper_propstore_vtbl; object->IMFAttributes_iface.lpVtbl = &bytestream_wrapper_attributes_vtbl; IMFByteStream_QueryInterface(stream, &IID_IMFByteStreamCacheControl, (void **)&object->cache_control); IMFByteStream_QueryInterface(stream, &IID_IMFByteStreamBuffering, (void **)&object->stream_buffering); IMFByteStream_QueryInterface(stream, &IID_IMFMediaEventGenerator, (void **)&object->event_generator); IMFByteStream_QueryInterface(stream, &IID_IMFByteStreamTimeSeek, (void **)&object->time_seek); IMFByteStream_QueryInterface(stream, &IID_IMFSampleOutputStream, (void **)&object->sample_output); IMFByteStream_QueryInterface(stream, &IID_IPropertyStore, (void **)&object->propstore); IMFByteStream_QueryInterface(stream, &IID_IMFAttributes, (void **)&object->attributes); object->stream = stream; IMFByteStream_AddRef(object->stream); object->refcount = 1; *wrapper = &object->IMFByteStream_iface; return S_OK; } static HRESULT WINAPI MFPluginControl_QueryInterface(IMFPluginControl *iface, REFIID riid, void **ppv) { if(IsEqualGUID(riid, &IID_IUnknown)) { TRACE("(IID_IUnknown %p)\n", ppv); *ppv = iface; }else if(IsEqualGUID(riid, &IID_IMFPluginControl)) { TRACE("(IID_IMFPluginControl %p)\n", ppv); *ppv = iface; }else { FIXME("(%s %p)\n", debugstr_guid(riid), ppv); *ppv = NULL; return E_NOINTERFACE; } IUnknown_AddRef((IUnknown*)*ppv); return S_OK; } static ULONG WINAPI MFPluginControl_AddRef(IMFPluginControl *iface) { TRACE("\n"); return 2; } static ULONG WINAPI MFPluginControl_Release(IMFPluginControl *iface) { TRACE("\n"); return 1; } static HRESULT WINAPI MFPluginControl_GetPreferredClsid(IMFPluginControl *iface, DWORD plugin_type, const WCHAR *selector, CLSID *clsid) { FIXME("(%d %s %p)\n", plugin_type, debugstr_w(selector), clsid); return E_NOTIMPL; } static HRESULT WINAPI MFPluginControl_GetPreferredClsidByIndex(IMFPluginControl *iface, DWORD plugin_type, DWORD index, WCHAR **selector, CLSID *clsid) { FIXME("(%d %d %p %p)\n", plugin_type, index, selector, clsid); return E_NOTIMPL; } static HRESULT WINAPI MFPluginControl_SetPreferredClsid(IMFPluginControl *iface, DWORD plugin_type, const WCHAR *selector, const CLSID *clsid) { FIXME("(%d %s %s)\n", plugin_type, debugstr_w(selector), debugstr_guid(clsid)); return E_NOTIMPL; } static HRESULT WINAPI MFPluginControl_IsDisabled(IMFPluginControl *iface, DWORD plugin_type, REFCLSID clsid) { FIXME("(%d %s)\n", plugin_type, debugstr_guid(clsid)); return E_NOTIMPL; } static HRESULT WINAPI MFPluginControl_GetDisabledByIndex(IMFPluginControl *iface, DWORD plugin_type, DWORD index, CLSID *clsid) { FIXME("(%d %d %p)\n", plugin_type, index, clsid); return E_NOTIMPL; } static HRESULT WINAPI MFPluginControl_SetDisabled(IMFPluginControl *iface, DWORD plugin_type, REFCLSID clsid, BOOL disabled) { FIXME("(%d %s %x)\n", plugin_type, debugstr_guid(clsid), disabled); return E_NOTIMPL; } static const IMFPluginControlVtbl MFPluginControlVtbl = { MFPluginControl_QueryInterface, MFPluginControl_AddRef, MFPluginControl_Release, MFPluginControl_GetPreferredClsid, MFPluginControl_GetPreferredClsidByIndex, MFPluginControl_SetPreferredClsid, MFPluginControl_IsDisabled, MFPluginControl_GetDisabledByIndex, MFPluginControl_SetDisabled }; static IMFPluginControl plugin_control = { &MFPluginControlVtbl }; /*********************************************************************** * MFGetPluginControl (mfplat.@) */ HRESULT WINAPI MFGetPluginControl(IMFPluginControl **ret) { TRACE("(%p)\n", ret); *ret = &plugin_control; return S_OK; } enum resolved_object_origin { OBJECT_FROM_BYTESTREAM, OBJECT_FROM_URL, }; struct resolver_queued_result { struct list entry; IUnknown *object; MF_OBJECT_TYPE obj_type; HRESULT hr; IRtwqAsyncResult *inner_result; enum resolved_object_origin origin; }; struct resolver_cancel_object { IUnknown IUnknown_iface; LONG refcount; union { IUnknown *handler; IMFByteStreamHandler *stream_handler; IMFSchemeHandler *scheme_handler; } u; IUnknown *cancel_cookie; enum resolved_object_origin origin; }; struct source_resolver { IMFSourceResolver IMFSourceResolver_iface; LONG refcount; IRtwqAsyncCallback stream_callback; IRtwqAsyncCallback url_callback; CRITICAL_SECTION cs; struct list pending; }; static struct source_resolver *impl_from_IMFSourceResolver(IMFSourceResolver *iface) { return CONTAINING_RECORD(iface, struct source_resolver, IMFSourceResolver_iface); } static struct source_resolver *impl_from_stream_IRtwqAsyncCallback(IRtwqAsyncCallback *iface) { return CONTAINING_RECORD(iface, struct source_resolver, stream_callback); } static struct source_resolver *impl_from_url_IRtwqAsyncCallback(IRtwqAsyncCallback *iface) { return CONTAINING_RECORD(iface, struct source_resolver, url_callback); } static HRESULT resolver_handler_end_create(struct source_resolver *resolver, enum resolved_object_origin origin, IRtwqAsyncResult *result) { IRtwqAsyncResult *inner_result = (IRtwqAsyncResult *)IRtwqAsyncResult_GetStateNoAddRef(result); RTWQASYNCRESULT *data = (RTWQASYNCRESULT *)inner_result; struct resolver_queued_result *queued_result; union { IUnknown *handler; IMFByteStreamHandler *stream_handler; IMFSchemeHandler *scheme_handler; } handler; if (!(queued_result = calloc(1, sizeof(*queued_result)))) return E_OUTOFMEMORY; queued_result->origin = origin; IRtwqAsyncResult_GetObject(inner_result, &handler.handler); switch (origin) { case OBJECT_FROM_BYTESTREAM: queued_result->hr = IMFByteStreamHandler_EndCreateObject(handler.stream_handler, (IMFAsyncResult *)result, &queued_result->obj_type, &queued_result->object); break; case OBJECT_FROM_URL: queued_result->hr = IMFSchemeHandler_EndCreateObject(handler.scheme_handler, (IMFAsyncResult *)result, &queued_result->obj_type, &queued_result->object); break; default: queued_result->hr = E_FAIL; } IUnknown_Release(handler.handler); if (data->hEvent) { queued_result->inner_result = inner_result; IRtwqAsyncResult_AddRef(queued_result->inner_result); } /* Push resolved object type and created object, so we don't have to guess on End*() call. */ EnterCriticalSection(&resolver->cs); list_add_tail(&resolver->pending, &queued_result->entry); LeaveCriticalSection(&resolver->cs); if (data->hEvent) SetEvent(data->hEvent); else { IUnknown *caller_state = IRtwqAsyncResult_GetStateNoAddRef(inner_result); IRtwqAsyncResult *caller_result; if (SUCCEEDED(RtwqCreateAsyncResult(queued_result->object, data->pCallback, caller_state, &caller_result))) { RtwqInvokeCallback(caller_result); IRtwqAsyncResult_Release(caller_result); } } return S_OK; } static struct resolver_cancel_object *impl_cancel_obj_from_IUnknown(IUnknown *iface) { return CONTAINING_RECORD(iface, struct resolver_cancel_object, IUnknown_iface); } static HRESULT WINAPI resolver_cancel_object_QueryInterface(IUnknown *iface, REFIID riid, void **obj) { if (IsEqualIID(riid, &IID_IUnknown)) { *obj = iface; IUnknown_AddRef(iface); return S_OK; } *obj = NULL; return E_NOINTERFACE; } static ULONG WINAPI resolver_cancel_object_AddRef(IUnknown *iface) { struct resolver_cancel_object *object = impl_cancel_obj_from_IUnknown(iface); return InterlockedIncrement(&object->refcount); } static ULONG WINAPI resolver_cancel_object_Release(IUnknown *iface) { struct resolver_cancel_object *object = impl_cancel_obj_from_IUnknown(iface); ULONG refcount = InterlockedDecrement(&object->refcount); if (!refcount) { if (object->cancel_cookie) IUnknown_Release(object->cancel_cookie); IUnknown_Release(object->u.handler); free(object); } return refcount; } static const IUnknownVtbl resolver_cancel_object_vtbl = { resolver_cancel_object_QueryInterface, resolver_cancel_object_AddRef, resolver_cancel_object_Release, }; static struct resolver_cancel_object *unsafe_impl_cancel_obj_from_IUnknown(IUnknown *iface) { if (!iface) return NULL; return (iface->lpVtbl == &resolver_cancel_object_vtbl) ? CONTAINING_RECORD(iface, struct resolver_cancel_object, IUnknown_iface) : NULL; } static HRESULT resolver_create_cancel_object(IUnknown *handler, enum resolved_object_origin origin, IUnknown *cancel_cookie, IUnknown **cancel_object) { struct resolver_cancel_object *object; if (!(object = calloc(1, sizeof(*object)))) return E_OUTOFMEMORY; object->IUnknown_iface.lpVtbl = &resolver_cancel_object_vtbl; object->refcount = 1; object->u.handler = handler; IUnknown_AddRef(object->u.handler); object->cancel_cookie = cancel_cookie; IUnknown_AddRef(object->cancel_cookie); object->origin = origin; *cancel_object = &object->IUnknown_iface; return S_OK; } static HRESULT WINAPI source_resolver_callback_QueryInterface(IRtwqAsyncCallback *iface, REFIID riid, void **obj) { if (IsEqualIID(riid, &IID_IRtwqAsyncCallback) || IsEqualIID(riid, &IID_IUnknown)) { *obj = iface; IRtwqAsyncCallback_AddRef(iface); return S_OK; } *obj = NULL; return E_NOINTERFACE; } static ULONG WINAPI source_resolver_callback_stream_AddRef(IRtwqAsyncCallback *iface) { struct source_resolver *resolver = impl_from_stream_IRtwqAsyncCallback(iface); return IMFSourceResolver_AddRef(&resolver->IMFSourceResolver_iface); } static ULONG WINAPI source_resolver_callback_stream_Release(IRtwqAsyncCallback *iface) { struct source_resolver *resolver = impl_from_stream_IRtwqAsyncCallback(iface); return IMFSourceResolver_Release(&resolver->IMFSourceResolver_iface); } static HRESULT WINAPI source_resolver_callback_GetParameters(IRtwqAsyncCallback *iface, DWORD *flags, DWORD *queue) { return E_NOTIMPL; } static HRESULT WINAPI source_resolver_callback_stream_Invoke(IRtwqAsyncCallback *iface, IRtwqAsyncResult *result) { struct source_resolver *resolver = impl_from_stream_IRtwqAsyncCallback(iface); return resolver_handler_end_create(resolver, OBJECT_FROM_BYTESTREAM, result); } static const IRtwqAsyncCallbackVtbl source_resolver_callback_stream_vtbl = { source_resolver_callback_QueryInterface, source_resolver_callback_stream_AddRef, source_resolver_callback_stream_Release, source_resolver_callback_GetParameters, source_resolver_callback_stream_Invoke, }; static ULONG WINAPI source_resolver_callback_url_AddRef(IRtwqAsyncCallback *iface) { struct source_resolver *resolver = impl_from_url_IRtwqAsyncCallback(iface); return IMFSourceResolver_AddRef(&resolver->IMFSourceResolver_iface); } static ULONG WINAPI source_resolver_callback_url_Release(IRtwqAsyncCallback *iface) { struct source_resolver *resolver = impl_from_url_IRtwqAsyncCallback(iface); return IMFSourceResolver_Release(&resolver->IMFSourceResolver_iface); } static HRESULT WINAPI source_resolver_callback_url_Invoke(IRtwqAsyncCallback *iface, IRtwqAsyncResult *result) { struct source_resolver *resolver = impl_from_url_IRtwqAsyncCallback(iface); return resolver_handler_end_create(resolver, OBJECT_FROM_URL, result); } static const IRtwqAsyncCallbackVtbl source_resolver_callback_url_vtbl = { source_resolver_callback_QueryInterface, source_resolver_callback_url_AddRef, source_resolver_callback_url_Release, source_resolver_callback_GetParameters, source_resolver_callback_url_Invoke, }; static HRESULT resolver_create_registered_handler(HKEY hkey, REFIID riid, void **handler) { DWORD name_length, type; HRESULT hr = E_FAIL; unsigned int j = 0; WCHAR clsidW[39]; CLSID clsid; name_length = ARRAY_SIZE(clsidW); while (!RegEnumValueW(hkey, j++, clsidW, &name_length, NULL, &type, NULL, NULL)) { if (type == REG_SZ) { if (SUCCEEDED(CLSIDFromString(clsidW, &clsid))) { hr = CoCreateInstance(&clsid, NULL, CLSCTX_INPROC_SERVER, riid, handler); if (SUCCEEDED(hr)) break; } } name_length = ARRAY_SIZE(clsidW); } return hr; } static HRESULT resolver_get_bytestream_handler(IMFByteStream *stream, const WCHAR *url, DWORD flags, IMFByteStreamHandler **handler) { static const HKEY hkey_roots[2] = { HKEY_CURRENT_USER, HKEY_LOCAL_MACHINE }; WCHAR *mimeW = NULL, *urlW = NULL; IMFAttributes *attributes; const WCHAR *url_ext; HRESULT hr = E_FAIL; unsigned int i, j; UINT32 length; *handler = NULL; /* MIME type */ if (SUCCEEDED(IMFByteStream_QueryInterface(stream, &IID_IMFAttributes, (void **)&attributes))) { IMFAttributes_GetAllocatedString(attributes, &MF_BYTESTREAM_CONTENT_TYPE, &mimeW, &length); if (!url) { IMFAttributes_GetAllocatedString(attributes, &MF_BYTESTREAM_ORIGIN_NAME, &urlW, &length); url = urlW; } IMFAttributes_Release(attributes); } /* Extension */ url_ext = url ? wcsrchr(url, '.') : NULL; if (!url_ext && !mimeW) { CoTaskMemFree(urlW); return MF_E_UNSUPPORTED_BYTESTREAM_TYPE; } if (!(flags & MF_RESOLUTION_DISABLE_LOCAL_PLUGINS)) { struct local_handler *local_handler; EnterCriticalSection(&local_handlers_section); LIST_FOR_EACH_ENTRY(local_handler, &local_bytestream_handlers, struct local_handler, entry) { if ((mimeW && !lstrcmpiW(mimeW, local_handler->u.bytestream.mime)) || (url_ext && !lstrcmpiW(url_ext, local_handler->u.bytestream.extension))) { if (SUCCEEDED(hr = IMFActivate_ActivateObject(local_handler->activate, &IID_IMFByteStreamHandler, (void **)handler))) break; } } LeaveCriticalSection(&local_handlers_section); if (*handler) { CoTaskMemFree(mimeW); CoTaskMemFree(urlW); return hr; } } for (i = 0, hr = E_FAIL; i < ARRAY_SIZE(hkey_roots); ++i) { const WCHAR *namesW[2] = { mimeW, url_ext }; HKEY hkey, hkey_handler; if (RegOpenKeyW(hkey_roots[i], L"Software\\Microsoft\\Windows Media Foundation\\ByteStreamHandlers", &hkey)) continue; for (j = 0; j < ARRAY_SIZE(namesW); ++j) { if (!namesW[j]) continue; if (!RegOpenKeyW(hkey, namesW[j], &hkey_handler)) { hr = resolver_create_registered_handler(hkey_handler, &IID_IMFByteStreamHandler, (void **)handler); RegCloseKey(hkey_handler); } if (SUCCEEDED(hr)) break; } RegCloseKey(hkey); if (SUCCEEDED(hr)) break; } if (FAILED(hr)) { static const GUID CLSID_GStreamerByteStreamHandler = {0x317df618, 0x5e5a, 0x468a, {0x9f, 0x15, 0xd8, 0x27, 0xa9, 0xa0, 0x81, 0x62}}; hr = CoCreateInstance(&CLSID_GStreamerByteStreamHandler, NULL, CLSCTX_INPROC_SERVER, &IID_IMFByteStreamHandler, (void **)handler); } CoTaskMemFree(mimeW); CoTaskMemFree(urlW); return hr; } static HRESULT resolver_create_scheme_handler(const WCHAR *scheme, DWORD flags, IMFSchemeHandler **handler) { static const HKEY hkey_roots[2] = { HKEY_CURRENT_USER, HKEY_LOCAL_MACHINE }; HRESULT hr = MF_E_UNSUPPORTED_SCHEME; unsigned int i; TRACE("%s, %#x, %p.\n", debugstr_w(scheme), flags, handler); *handler = NULL; if (!(flags & MF_RESOLUTION_DISABLE_LOCAL_PLUGINS)) { struct local_handler *local_handler; EnterCriticalSection(&local_handlers_section); LIST_FOR_EACH_ENTRY(local_handler, &local_scheme_handlers, struct local_handler, entry) { if (!lstrcmpiW(scheme, local_handler->u.scheme)) { if (SUCCEEDED(hr = IMFActivate_ActivateObject(local_handler->activate, &IID_IMFSchemeHandler, (void **)handler))) break; } } LeaveCriticalSection(&local_handlers_section); if (*handler) return hr; } for (i = 0; i < ARRAY_SIZE(hkey_roots); ++i) { HKEY hkey, hkey_handler; hr = MF_E_UNSUPPORTED_SCHEME; if (RegOpenKeyW(hkey_roots[i], L"Software\\Microsoft\\Windows Media Foundation\\SchemeHandlers", &hkey)) continue; if (!RegOpenKeyW(hkey, scheme, &hkey_handler)) { hr = resolver_create_registered_handler(hkey_handler, &IID_IMFSchemeHandler, (void **)handler); RegCloseKey(hkey_handler); } RegCloseKey(hkey); if (SUCCEEDED(hr)) break; } return hr; } static HRESULT resolver_get_scheme_handler(const WCHAR *url, DWORD flags, IMFSchemeHandler **handler) { static const WCHAR fileschemeW[] = L"file:"; const WCHAR *ptr = url; unsigned int len; WCHAR *scheme; HRESULT hr; /* RFC 3986: scheme = ALPHA *( ALPHA / DIGIT / "+" / "-" / "." ) */ while (*ptr) { WCHAR ch = towlower(*ptr); if (*ptr == '*' && ptr == url) { ptr++; break; } else if (!(*ptr >= '0' && *ptr <= '9') && !(ch >= 'a' && ch <= 'z') && *ptr != '+' && *ptr != '-' && *ptr != '.') { break; } ptr++; } /* Schemes must end with a ':', if not found try "file:" */ if (ptr == url || *ptr != ':') { url = fileschemeW; ptr = fileschemeW + ARRAY_SIZE(fileschemeW) - 1; } len = ptr - url; scheme = malloc((len + 1) * sizeof(WCHAR)); if (!scheme) return E_OUTOFMEMORY; memcpy(scheme, url, len * sizeof(WCHAR)); scheme[len] = 0; hr = resolver_create_scheme_handler(scheme, flags, handler); if (FAILED(hr) && url != fileschemeW) hr = resolver_create_scheme_handler(fileschemeW, flags, handler); free(scheme); return hr; } static HRESULT resolver_end_create_object(struct source_resolver *resolver, enum resolved_object_origin origin, IRtwqAsyncResult *result, MF_OBJECT_TYPE *obj_type, IUnknown **out) { struct resolver_queued_result *queued_result = NULL, *iter; IUnknown *object; HRESULT hr; if (FAILED(hr = IRtwqAsyncResult_GetObject(result, &object))) return hr; EnterCriticalSection(&resolver->cs); LIST_FOR_EACH_ENTRY(iter, &resolver->pending, struct resolver_queued_result, entry) { if (iter->inner_result == result || (iter->object == object && iter->origin == origin)) { list_remove(&iter->entry); queued_result = iter; break; } } LeaveCriticalSection(&resolver->cs); IUnknown_Release(object); if (queued_result) { *out = queued_result->object; *obj_type = queued_result->obj_type; hr = queued_result->hr; if (queued_result->inner_result) IRtwqAsyncResult_Release(queued_result->inner_result); free(queued_result); } else hr = E_UNEXPECTED; return hr; } static HRESULT WINAPI source_resolver_QueryInterface(IMFSourceResolver *iface, REFIID riid, void **obj) { struct source_resolver *resolver = impl_from_IMFSourceResolver(iface); TRACE("%p, %s, %p.\n", iface, debugstr_guid(riid), obj); if (IsEqualIID(riid, &IID_IMFSourceResolver) || IsEqualIID(riid, &IID_IUnknown)) { *obj = &resolver->IMFSourceResolver_iface; } else { *obj = NULL; FIXME("unsupported interface %s\n", debugstr_guid(riid)); return E_NOINTERFACE; } IUnknown_AddRef((IUnknown *)*obj); return S_OK; } static ULONG WINAPI source_resolver_AddRef(IMFSourceResolver *iface) { struct source_resolver *resolver = impl_from_IMFSourceResolver(iface); ULONG refcount = InterlockedIncrement(&resolver->refcount); TRACE("%p, refcount %d.\n", iface, refcount); return refcount; } static ULONG WINAPI source_resolver_Release(IMFSourceResolver *iface) { struct source_resolver *resolver = impl_from_IMFSourceResolver(iface); ULONG refcount = InterlockedDecrement(&resolver->refcount); struct resolver_queued_result *result, *result2; TRACE("%p, refcount %d.\n", iface, refcount); if (!refcount) { LIST_FOR_EACH_ENTRY_SAFE(result, result2, &resolver->pending, struct resolver_queued_result, entry) { if (result->object) IUnknown_Release(result->object); list_remove(&result->entry); free(result); } DeleteCriticalSection(&resolver->cs); free(resolver); } return refcount; } static HRESULT WINAPI source_resolver_CreateObjectFromURL(IMFSourceResolver *iface, const WCHAR *url, DWORD flags, IPropertyStore *props, MF_OBJECT_TYPE *obj_type, IUnknown **object) { struct source_resolver *resolver = impl_from_IMFSourceResolver(iface); IMFSchemeHandler *handler; IRtwqAsyncResult *result; RTWQASYNCRESULT *data; HRESULT hr; TRACE("%p, %s, %#x, %p, %p, %p.\n", iface, debugstr_w(url), flags, props, obj_type, object); if (!url || !obj_type || !object) return E_POINTER; if (FAILED(hr = resolver_get_scheme_handler(url, flags, &handler))) return hr; hr = RtwqCreateAsyncResult((IUnknown *)handler, NULL, NULL, &result); IMFSchemeHandler_Release(handler); if (FAILED(hr)) return hr; data = (RTWQASYNCRESULT *)result; data->hEvent = CreateEventW(NULL, FALSE, FALSE, NULL); hr = IMFSchemeHandler_BeginCreateObject(handler, url, flags, props, NULL, (IMFAsyncCallback *)&resolver->url_callback, (IUnknown *)result); if (FAILED(hr)) { IRtwqAsyncResult_Release(result); return hr; } WaitForSingleObject(data->hEvent, INFINITE); hr = resolver_end_create_object(resolver, OBJECT_FROM_URL, result, obj_type, object); IRtwqAsyncResult_Release(result); return hr; } static HRESULT WINAPI source_resolver_CreateObjectFromByteStream(IMFSourceResolver *iface, IMFByteStream *stream, const WCHAR *url, DWORD flags, IPropertyStore *props, MF_OBJECT_TYPE *obj_type, IUnknown **object) { struct source_resolver *resolver = impl_from_IMFSourceResolver(iface); IMFByteStreamHandler *handler; IRtwqAsyncResult *result; RTWQASYNCRESULT *data; HRESULT hr; TRACE("%p, %p, %s, %#x, %p, %p, %p.\n", iface, stream, debugstr_w(url), flags, props, obj_type, object); if (!stream || !obj_type || !object) return E_POINTER; if (FAILED(hr = resolver_get_bytestream_handler(stream, url, flags, &handler))) return MF_E_UNSUPPORTED_BYTESTREAM_TYPE; hr = RtwqCreateAsyncResult((IUnknown *)handler, NULL, NULL, &result); IMFByteStreamHandler_Release(handler); if (FAILED(hr)) return hr; data = (RTWQASYNCRESULT *)result; data->hEvent = CreateEventW(NULL, FALSE, FALSE, NULL); hr = IMFByteStreamHandler_BeginCreateObject(handler, stream, url, flags, props, NULL, (IMFAsyncCallback *)&resolver->stream_callback, (IUnknown *)result); if (FAILED(hr)) { IRtwqAsyncResult_Release(result); return hr; } WaitForSingleObject(data->hEvent, INFINITE); hr = resolver_end_create_object(resolver, OBJECT_FROM_BYTESTREAM, result, obj_type, object); IRtwqAsyncResult_Release(result); return hr; } static HRESULT WINAPI source_resolver_BeginCreateObjectFromURL(IMFSourceResolver *iface, const WCHAR *url, DWORD flags, IPropertyStore *props, IUnknown **cancel_cookie, IMFAsyncCallback *callback, IUnknown *state) { struct source_resolver *resolver = impl_from_IMFSourceResolver(iface); IMFSchemeHandler *handler; IUnknown *inner_cookie = NULL; IRtwqAsyncResult *result; HRESULT hr; TRACE("%p, %s, %#x, %p, %p, %p, %p.\n", iface, debugstr_w(url), flags, props, cancel_cookie, callback, state); if (FAILED(hr = resolver_get_scheme_handler(url, flags, &handler))) return hr; if (cancel_cookie) *cancel_cookie = NULL; hr = RtwqCreateAsyncResult((IUnknown *)handler, (IRtwqAsyncCallback *)callback, state, &result); IMFSchemeHandler_Release(handler); if (FAILED(hr)) return hr; hr = IMFSchemeHandler_BeginCreateObject(handler, url, flags, props, cancel_cookie ? &inner_cookie : NULL, (IMFAsyncCallback *)&resolver->url_callback, (IUnknown *)result); if (SUCCEEDED(hr) && inner_cookie) resolver_create_cancel_object((IUnknown *)handler, OBJECT_FROM_URL, inner_cookie, cancel_cookie); IRtwqAsyncResult_Release(result); return hr; } static HRESULT WINAPI source_resolver_EndCreateObjectFromURL(IMFSourceResolver *iface, IMFAsyncResult *result, MF_OBJECT_TYPE *obj_type, IUnknown **object) { struct source_resolver *resolver = impl_from_IMFSourceResolver(iface); TRACE("%p, %p, %p, %p.\n", iface, result, obj_type, object); return resolver_end_create_object(resolver, OBJECT_FROM_URL, (IRtwqAsyncResult *)result, obj_type, object); } static HRESULT WINAPI source_resolver_BeginCreateObjectFromByteStream(IMFSourceResolver *iface, IMFByteStream *stream, const WCHAR *url, DWORD flags, IPropertyStore *props, IUnknown **cancel_cookie, IMFAsyncCallback *callback, IUnknown *state) { struct source_resolver *resolver = impl_from_IMFSourceResolver(iface); IMFByteStreamHandler *handler; IUnknown *inner_cookie = NULL; IRtwqAsyncResult *result; HRESULT hr; TRACE("%p, %p, %s, %#x, %p, %p, %p, %p.\n", iface, stream, debugstr_w(url), flags, props, cancel_cookie, callback, state); if (FAILED(hr = resolver_get_bytestream_handler(stream, url, flags, &handler))) return hr; if (cancel_cookie) *cancel_cookie = NULL; hr = RtwqCreateAsyncResult((IUnknown *)handler, (IRtwqAsyncCallback *)callback, state, &result); IMFByteStreamHandler_Release(handler); if (FAILED(hr)) return hr; hr = IMFByteStreamHandler_BeginCreateObject(handler, stream, url, flags, props, cancel_cookie ? &inner_cookie : NULL, (IMFAsyncCallback *)&resolver->stream_callback, (IUnknown *)result); /* Cancel object wraps underlying handler cancel cookie with context necessary to call CancelObjectCreate(). */ if (SUCCEEDED(hr) && inner_cookie) resolver_create_cancel_object((IUnknown *)handler, OBJECT_FROM_BYTESTREAM, inner_cookie, cancel_cookie); IRtwqAsyncResult_Release(result); return hr; } static HRESULT WINAPI source_resolver_EndCreateObjectFromByteStream(IMFSourceResolver *iface, IMFAsyncResult *result, MF_OBJECT_TYPE *obj_type, IUnknown **object) { struct source_resolver *resolver = impl_from_IMFSourceResolver(iface); TRACE("%p, %p, %p, %p.\n", iface, result, obj_type, object); return resolver_end_create_object(resolver, OBJECT_FROM_BYTESTREAM, (IRtwqAsyncResult *)result, obj_type, object); } static HRESULT WINAPI source_resolver_CancelObjectCreation(IMFSourceResolver *iface, IUnknown *cancel_cookie) { struct resolver_cancel_object *object; HRESULT hr; TRACE("%p, %p.\n", iface, cancel_cookie); if (!(object = unsafe_impl_cancel_obj_from_IUnknown(cancel_cookie))) return E_UNEXPECTED; switch (object->origin) { case OBJECT_FROM_BYTESTREAM: hr = IMFByteStreamHandler_CancelObjectCreation(object->u.stream_handler, object->cancel_cookie); break; case OBJECT_FROM_URL: hr = IMFSchemeHandler_CancelObjectCreation(object->u.scheme_handler, object->cancel_cookie); break; default: hr = E_UNEXPECTED; } return hr; } static const IMFSourceResolverVtbl mfsourceresolvervtbl = { source_resolver_QueryInterface, source_resolver_AddRef, source_resolver_Release, source_resolver_CreateObjectFromURL, source_resolver_CreateObjectFromByteStream, source_resolver_BeginCreateObjectFromURL, source_resolver_EndCreateObjectFromURL, source_resolver_BeginCreateObjectFromByteStream, source_resolver_EndCreateObjectFromByteStream, source_resolver_CancelObjectCreation, }; /*********************************************************************** * MFCreateSourceResolver (mfplat.@) */ HRESULT WINAPI MFCreateSourceResolver(IMFSourceResolver **resolver) { struct source_resolver *object; TRACE("%p\n", resolver); if (!resolver) return E_POINTER; if (!(object = calloc(1, sizeof(*object)))) return E_OUTOFMEMORY; object->IMFSourceResolver_iface.lpVtbl = &mfsourceresolvervtbl; object->stream_callback.lpVtbl = &source_resolver_callback_stream_vtbl; object->url_callback.lpVtbl = &source_resolver_callback_url_vtbl; object->refcount = 1; list_init(&object->pending); InitializeCriticalSection(&object->cs); *resolver = &object->IMFSourceResolver_iface; return S_OK; } struct media_event { struct attributes attributes; IMFMediaEvent IMFMediaEvent_iface; MediaEventType type; GUID extended_type; HRESULT status; PROPVARIANT value; }; static inline struct media_event *impl_from_IMFMediaEvent(IMFMediaEvent *iface) { return CONTAINING_RECORD(iface, struct media_event, IMFMediaEvent_iface); } static HRESULT WINAPI mfmediaevent_QueryInterface(IMFMediaEvent *iface, REFIID riid, void **out) { struct media_event *event = impl_from_IMFMediaEvent(iface); TRACE("%p, %s, %p.\n", iface, debugstr_guid(riid), out); if(IsEqualGUID(riid, &IID_IUnknown) || IsEqualGUID(riid, &IID_IMFAttributes) || IsEqualGUID(riid, &IID_IMFMediaEvent)) { *out = &event->IMFMediaEvent_iface; } else { FIXME("%s, %p.\n", debugstr_guid(riid), out); *out = NULL; return E_NOINTERFACE; } IUnknown_AddRef((IUnknown*)*out); return S_OK; } static ULONG WINAPI mfmediaevent_AddRef(IMFMediaEvent *iface) { struct media_event *event = impl_from_IMFMediaEvent(iface); ULONG refcount = InterlockedIncrement(&event->attributes.ref); TRACE("%p, refcount %u.\n", iface, refcount); return refcount; } static ULONG WINAPI mfmediaevent_Release(IMFMediaEvent *iface) { struct media_event *event = impl_from_IMFMediaEvent(iface); ULONG refcount = InterlockedDecrement(&event->attributes.ref); TRACE("%p, refcount %u.\n", iface, refcount); if (!refcount) { clear_attributes_object(&event->attributes); PropVariantClear(&event->value); free(event); } return refcount; } static HRESULT WINAPI mfmediaevent_GetItem(IMFMediaEvent *iface, REFGUID key, PROPVARIANT *value) { struct media_event *event = impl_from_IMFMediaEvent(iface); TRACE("%p, %s, %p.\n", iface, debugstr_attr(key), value); return attributes_GetItem(&event->attributes, key, value); } static HRESULT WINAPI mfmediaevent_GetItemType(IMFMediaEvent *iface, REFGUID key, MF_ATTRIBUTE_TYPE *type) { struct media_event *event = impl_from_IMFMediaEvent(iface); TRACE("%p, %s, %p.\n", iface, debugstr_attr(key), type); return attributes_GetItemType(&event->attributes, key, type); } static HRESULT WINAPI mfmediaevent_CompareItem(IMFMediaEvent *iface, REFGUID key, REFPROPVARIANT value, BOOL *result) { struct media_event *event = impl_from_IMFMediaEvent(iface); TRACE("%p, %s, %s, %p.\n", iface, debugstr_attr(key), debugstr_propvar(value), result); return attributes_CompareItem(&event->attributes, key, value, result); } static HRESULT WINAPI mfmediaevent_Compare(IMFMediaEvent *iface, IMFAttributes *attrs, MF_ATTRIBUTES_MATCH_TYPE type, BOOL *result) { struct media_event *event = impl_from_IMFMediaEvent(iface); TRACE("%p, %p, %d, %p.\n", iface, attrs, type, result); return attributes_Compare(&event->attributes, attrs, type, result); } static HRESULT WINAPI mfmediaevent_GetUINT32(IMFMediaEvent *iface, REFGUID key, UINT32 *value) { struct media_event *event = impl_from_IMFMediaEvent(iface); TRACE("%p, %s, %p.\n", iface, debugstr_attr(key), value); return attributes_GetUINT32(&event->attributes, key, value); } static HRESULT WINAPI mfmediaevent_GetUINT64(IMFMediaEvent *iface, REFGUID key, UINT64 *value) { struct media_event *event = impl_from_IMFMediaEvent(iface); TRACE("%p, %s, %p.\n", iface, debugstr_attr(key), value); return attributes_GetUINT64(&event->attributes, key, value); } static HRESULT WINAPI mfmediaevent_GetDouble(IMFMediaEvent *iface, REFGUID key, double *value) { struct media_event *event = impl_from_IMFMediaEvent(iface); TRACE("%p, %s, %p.\n", iface, debugstr_attr(key), value); return attributes_GetDouble(&event->attributes, key, value); } static HRESULT WINAPI mfmediaevent_GetGUID(IMFMediaEvent *iface, REFGUID key, GUID *value) { struct media_event *event = impl_from_IMFMediaEvent(iface); TRACE("%p, %s, %p.\n", iface, debugstr_attr(key), value); return attributes_GetGUID(&event->attributes, key, value); } static HRESULT WINAPI mfmediaevent_GetStringLength(IMFMediaEvent *iface, REFGUID key, UINT32 *length) { struct media_event *event = impl_from_IMFMediaEvent(iface); TRACE("%p, %s, %p.\n", iface, debugstr_attr(key), length); return attributes_GetStringLength(&event->attributes, key, length); } static HRESULT WINAPI mfmediaevent_GetString(IMFMediaEvent *iface, REFGUID key, WCHAR *value, UINT32 size, UINT32 *length) { struct media_event *event = impl_from_IMFMediaEvent(iface); TRACE("%p, %s, %p, %u, %p.\n", iface, debugstr_attr(key), value, size, length); return attributes_GetString(&event->attributes, key, value, size, length); } static HRESULT WINAPI mfmediaevent_GetAllocatedString(IMFMediaEvent *iface, REFGUID key, WCHAR **value, UINT32 *length) { struct media_event *event = impl_from_IMFMediaEvent(iface); TRACE("%p, %s, %p, %p.\n", iface, debugstr_attr(key), value, length); return attributes_GetAllocatedString(&event->attributes, key, value, length); } static HRESULT WINAPI mfmediaevent_GetBlobSize(IMFMediaEvent *iface, REFGUID key, UINT32 *size) { struct media_event *event = impl_from_IMFMediaEvent(iface); TRACE("%p, %s, %p.\n", iface, debugstr_attr(key), size); return attributes_GetBlobSize(&event->attributes, key, size); } static HRESULT WINAPI mfmediaevent_GetBlob(IMFMediaEvent *iface, REFGUID key, UINT8 *buf, UINT32 bufsize, UINT32 *blobsize) { struct media_event *event = impl_from_IMFMediaEvent(iface); TRACE("%p, %s, %p, %u, %p.\n", iface, debugstr_attr(key), buf, bufsize, blobsize); return attributes_GetBlob(&event->attributes, key, buf, bufsize, blobsize); } static HRESULT WINAPI mfmediaevent_GetAllocatedBlob(IMFMediaEvent *iface, REFGUID key, UINT8 **buf, UINT32 *size) { struct media_event *event = impl_from_IMFMediaEvent(iface); TRACE("%p, %s, %p, %p.\n", iface, debugstr_attr(key), buf, size); return attributes_GetAllocatedBlob(&event->attributes, key, buf, size); } static HRESULT WINAPI mfmediaevent_GetUnknown(IMFMediaEvent *iface, REFGUID key, REFIID riid, void **out) { struct media_event *event = impl_from_IMFMediaEvent(iface); TRACE("%p, %s, %s, %p.\n", iface, debugstr_attr(key), debugstr_guid(riid), out); return attributes_GetUnknown(&event->attributes, key, riid, out); } static HRESULT WINAPI mfmediaevent_SetItem(IMFMediaEvent *iface, REFGUID key, REFPROPVARIANT value) { struct media_event *event = impl_from_IMFMediaEvent(iface); TRACE("%p, %s, %s.\n", iface, debugstr_attr(key), debugstr_propvar(value)); return attributes_SetItem(&event->attributes, key, value); } static HRESULT WINAPI mfmediaevent_DeleteItem(IMFMediaEvent *iface, REFGUID key) { struct media_event *event = impl_from_IMFMediaEvent(iface); TRACE("%p, %s.\n", iface, debugstr_attr(key)); return attributes_DeleteItem(&event->attributes, key); } static HRESULT WINAPI mfmediaevent_DeleteAllItems(IMFMediaEvent *iface) { struct media_event *event = impl_from_IMFMediaEvent(iface); TRACE("%p.\n", iface); return attributes_DeleteAllItems(&event->attributes); } static HRESULT WINAPI mfmediaevent_SetUINT32(IMFMediaEvent *iface, REFGUID key, UINT32 value) { struct media_event *event = impl_from_IMFMediaEvent(iface); TRACE("%p, %s, %u.\n", iface, debugstr_attr(key), value); return attributes_SetUINT32(&event->attributes, key, value); } static HRESULT WINAPI mfmediaevent_SetUINT64(IMFMediaEvent *iface, REFGUID key, UINT64 value) { struct media_event *event = impl_from_IMFMediaEvent(iface); TRACE("%p, %s, %s.\n", iface, debugstr_attr(key), wine_dbgstr_longlong(value)); return attributes_SetUINT64(&event->attributes, key, value); } static HRESULT WINAPI mfmediaevent_SetDouble(IMFMediaEvent *iface, REFGUID key, double value) { struct media_event *event = impl_from_IMFMediaEvent(iface); TRACE("%p, %s, %f.\n", iface, debugstr_attr(key), value); return attributes_SetDouble(&event->attributes, key, value); } static HRESULT WINAPI mfmediaevent_SetGUID(IMFMediaEvent *iface, REFGUID key, REFGUID value) { struct media_event *event = impl_from_IMFMediaEvent(iface); TRACE("%p, %s, %s.\n", iface, debugstr_attr(key), debugstr_mf_guid(value)); return attributes_SetGUID(&event->attributes, key, value); } static HRESULT WINAPI mfmediaevent_SetString(IMFMediaEvent *iface, REFGUID key, const WCHAR *value) { struct media_event *event = impl_from_IMFMediaEvent(iface); TRACE("%p, %s, %s.\n", iface, debugstr_attr(key), debugstr_w(value)); return attributes_SetString(&event->attributes, key, value); } static HRESULT WINAPI mfmediaevent_SetBlob(IMFMediaEvent *iface, REFGUID key, const UINT8 *buf, UINT32 size) { struct media_event *event = impl_from_IMFMediaEvent(iface); TRACE("%p, %s, %p, %u.\n", iface, debugstr_attr(key), buf, size); return attributes_SetBlob(&event->attributes, key, buf, size); } static HRESULT WINAPI mfmediaevent_SetUnknown(IMFMediaEvent *iface, REFGUID key, IUnknown *unknown) { struct media_event *event = impl_from_IMFMediaEvent(iface); TRACE("%p, %s, %p.\n", iface, debugstr_attr(key), unknown); return attributes_SetUnknown(&event->attributes, key, unknown); } static HRESULT WINAPI mfmediaevent_LockStore(IMFMediaEvent *iface) { struct media_event *event = impl_from_IMFMediaEvent(iface); TRACE("%p.\n", iface); return attributes_LockStore(&event->attributes); } static HRESULT WINAPI mfmediaevent_UnlockStore(IMFMediaEvent *iface) { struct media_event *event = impl_from_IMFMediaEvent(iface); TRACE("%p.\n", iface); return attributes_UnlockStore(&event->attributes); } static HRESULT WINAPI mfmediaevent_GetCount(IMFMediaEvent *iface, UINT32 *count) { struct media_event *event = impl_from_IMFMediaEvent(iface); TRACE("%p, %p.\n", iface, count); return attributes_GetCount(&event->attributes, count); } static HRESULT WINAPI mfmediaevent_GetItemByIndex(IMFMediaEvent *iface, UINT32 index, GUID *key, PROPVARIANT *value) { struct media_event *event = impl_from_IMFMediaEvent(iface); TRACE("%p, %u, %p, %p.\n", iface, index, key, value); return attributes_GetItemByIndex(&event->attributes, index, key, value); } static HRESULT WINAPI mfmediaevent_CopyAllItems(IMFMediaEvent *iface, IMFAttributes *dest) { struct media_event *event = impl_from_IMFMediaEvent(iface); TRACE("%p, %p.\n", iface, dest); return attributes_CopyAllItems(&event->attributes, dest); } static HRESULT WINAPI mfmediaevent_GetType(IMFMediaEvent *iface, MediaEventType *type) { struct media_event *event = impl_from_IMFMediaEvent(iface); TRACE("%p, %p.\n", iface, type); *type = event->type; return S_OK; } static HRESULT WINAPI mfmediaevent_GetExtendedType(IMFMediaEvent *iface, GUID *extended_type) { struct media_event *event = impl_from_IMFMediaEvent(iface); TRACE("%p, %p.\n", iface, extended_type); *extended_type = event->extended_type; return S_OK; } static HRESULT WINAPI mfmediaevent_GetStatus(IMFMediaEvent *iface, HRESULT *status) { struct media_event *event = impl_from_IMFMediaEvent(iface); TRACE("%p, %p.\n", iface, status); *status = event->status; return S_OK; } static HRESULT WINAPI mfmediaevent_GetValue(IMFMediaEvent *iface, PROPVARIANT *value) { struct media_event *event = impl_from_IMFMediaEvent(iface); TRACE("%p, %p.\n", iface, value); PropVariantCopy(value, &event->value); return S_OK; } static const IMFMediaEventVtbl mfmediaevent_vtbl = { mfmediaevent_QueryInterface, mfmediaevent_AddRef, mfmediaevent_Release, mfmediaevent_GetItem, mfmediaevent_GetItemType, mfmediaevent_CompareItem, mfmediaevent_Compare, mfmediaevent_GetUINT32, mfmediaevent_GetUINT64, mfmediaevent_GetDouble, mfmediaevent_GetGUID, mfmediaevent_GetStringLength, mfmediaevent_GetString, mfmediaevent_GetAllocatedString, mfmediaevent_GetBlobSize, mfmediaevent_GetBlob, mfmediaevent_GetAllocatedBlob, mfmediaevent_GetUnknown, mfmediaevent_SetItem, mfmediaevent_DeleteItem, mfmediaevent_DeleteAllItems, mfmediaevent_SetUINT32, mfmediaevent_SetUINT64, mfmediaevent_SetDouble, mfmediaevent_SetGUID, mfmediaevent_SetString, mfmediaevent_SetBlob, mfmediaevent_SetUnknown, mfmediaevent_LockStore, mfmediaevent_UnlockStore, mfmediaevent_GetCount, mfmediaevent_GetItemByIndex, mfmediaevent_CopyAllItems, mfmediaevent_GetType, mfmediaevent_GetExtendedType, mfmediaevent_GetStatus, mfmediaevent_GetValue, }; /*********************************************************************** * MFCreateMediaEvent (mfplat.@) */ HRESULT WINAPI MFCreateMediaEvent(MediaEventType type, REFGUID extended_type, HRESULT status, const PROPVARIANT *value, IMFMediaEvent **event) { struct media_event *object; HRESULT hr; TRACE("%s, %s, %#x, %s, %p.\n", debugstr_eventid(type), debugstr_guid(extended_type), status, debugstr_propvar(value), event); object = malloc(sizeof(*object)); if (!object) return E_OUTOFMEMORY; if (FAILED(hr = init_attributes_object(&object->attributes, 0))) { free(object); return hr; } object->IMFMediaEvent_iface.lpVtbl = &mfmediaevent_vtbl; object->type = type; object->extended_type = *extended_type; object->status = status; PropVariantInit(&object->value); if (value) PropVariantCopy(&object->value, value); *event = &object->IMFMediaEvent_iface; TRACE("Created event %p.\n", *event); return S_OK; } struct event_queue { IMFMediaEventQueue IMFMediaEventQueue_iface; LONG refcount; CRITICAL_SECTION cs; CONDITION_VARIABLE update_event; struct list events; BOOL is_shut_down; BOOL notified; IRtwqAsyncResult *subscriber; }; struct queued_event { struct list entry; IMFMediaEvent *event; }; static inline struct event_queue *impl_from_IMFMediaEventQueue(IMFMediaEventQueue *iface) { return CONTAINING_RECORD(iface, struct event_queue, IMFMediaEventQueue_iface); } static IMFMediaEvent *queue_pop_event(struct event_queue *queue) { struct list *head = list_head(&queue->events); struct queued_event *queued_event; IMFMediaEvent *event; if (!head) return NULL; queued_event = LIST_ENTRY(head, struct queued_event, entry); event = queued_event->event; list_remove(&queued_event->entry); free(queued_event); return event; } static void event_queue_clear_subscriber(struct event_queue *queue) { if (queue->subscriber) IRtwqAsyncResult_Release(queue->subscriber); queue->subscriber = NULL; } static void event_queue_cleanup(struct event_queue *queue) { IMFMediaEvent *event; while ((event = queue_pop_event(queue))) IMFMediaEvent_Release(event); event_queue_clear_subscriber(queue); } static HRESULT WINAPI eventqueue_QueryInterface(IMFMediaEventQueue *iface, REFIID riid, void **out) { struct event_queue *queue = impl_from_IMFMediaEventQueue(iface); TRACE("%p, %s, %p.\n", iface, debugstr_guid(riid), out); if (IsEqualIID(riid, &IID_IMFMediaEventQueue) || IsEqualIID(riid, &IID_IUnknown)) { *out = &queue->IMFMediaEventQueue_iface; IMFMediaEventQueue_AddRef(iface); return S_OK; } WARN("Unsupported %s.\n", debugstr_guid(riid)); *out = NULL; return E_NOINTERFACE; } static ULONG WINAPI eventqueue_AddRef(IMFMediaEventQueue *iface) { struct event_queue *queue = impl_from_IMFMediaEventQueue(iface); ULONG refcount = InterlockedIncrement(&queue->refcount); TRACE("%p, refcount %u.\n", iface, refcount); return refcount; } static ULONG WINAPI eventqueue_Release(IMFMediaEventQueue *iface) { struct event_queue *queue = impl_from_IMFMediaEventQueue(iface); ULONG refcount = InterlockedDecrement(&queue->refcount); TRACE("%p, refcount %u.\n", queue, refcount); if (!refcount) { event_queue_cleanup(queue); DeleteCriticalSection(&queue->cs); free(queue); } return refcount; } static HRESULT WINAPI eventqueue_GetEvent(IMFMediaEventQueue *iface, DWORD flags, IMFMediaEvent **event) { struct event_queue *queue = impl_from_IMFMediaEventQueue(iface); HRESULT hr = S_OK; TRACE("%p, %p.\n", iface, event); EnterCriticalSection(&queue->cs); if (queue->is_shut_down) hr = MF_E_SHUTDOWN; else if (queue->subscriber) hr = MF_E_MULTIPLE_SUBSCRIBERS; else { if (flags & MF_EVENT_FLAG_NO_WAIT) { if (!(*event = queue_pop_event(queue))) hr = MF_E_NO_EVENTS_AVAILABLE; } else { while (list_empty(&queue->events) && !queue->is_shut_down) { SleepConditionVariableCS(&queue->update_event, &queue->cs, INFINITE); } *event = queue_pop_event(queue); if (queue->is_shut_down) hr = MF_E_SHUTDOWN; } } LeaveCriticalSection(&queue->cs); return hr; } static void queue_notify_subscriber(struct event_queue *queue) { if (list_empty(&queue->events) || !queue->subscriber || queue->notified) return; queue->notified = TRUE; RtwqPutWorkItem(MFASYNC_CALLBACK_QUEUE_STANDARD, 0, queue->subscriber); } static HRESULT WINAPI eventqueue_BeginGetEvent(IMFMediaEventQueue *iface, IMFAsyncCallback *callback, IUnknown *state) { struct event_queue *queue = impl_from_IMFMediaEventQueue(iface); RTWQASYNCRESULT *result_data; HRESULT hr; TRACE("%p, %p, %p.\n", iface, callback, state); if (!callback) return E_INVALIDARG; EnterCriticalSection(&queue->cs); if (queue->is_shut_down) hr = MF_E_SHUTDOWN; else if ((result_data = (RTWQASYNCRESULT *)queue->subscriber)) { if (result_data->pCallback == (IRtwqAsyncCallback *)callback) hr = IRtwqAsyncResult_GetStateNoAddRef(queue->subscriber) == state ? MF_S_MULTIPLE_BEGIN : MF_E_MULTIPLE_BEGIN; else hr = MF_E_MULTIPLE_SUBSCRIBERS; } else { hr = RtwqCreateAsyncResult(NULL, (IRtwqAsyncCallback *)callback, state, &queue->subscriber); if (SUCCEEDED(hr)) queue_notify_subscriber(queue); } LeaveCriticalSection(&queue->cs); return hr; } static HRESULT WINAPI eventqueue_EndGetEvent(IMFMediaEventQueue *iface, IMFAsyncResult *result, IMFMediaEvent **event) { struct event_queue *queue = impl_from_IMFMediaEventQueue(iface); HRESULT hr = E_FAIL; TRACE("%p, %p, %p.\n", iface, result, event); EnterCriticalSection(&queue->cs); if (queue->is_shut_down) hr = MF_E_SHUTDOWN; else if (queue->subscriber == (IRtwqAsyncResult *)result) { *event = queue_pop_event(queue); event_queue_clear_subscriber(queue); queue->notified = FALSE; hr = *event ? S_OK : E_FAIL; } LeaveCriticalSection(&queue->cs); return hr; } static HRESULT eventqueue_queue_event(struct event_queue *queue, IMFMediaEvent *event) { struct queued_event *queued_event; HRESULT hr = S_OK; queued_event = malloc(sizeof(*queued_event)); if (!queued_event) return E_OUTOFMEMORY; queued_event->event = event; EnterCriticalSection(&queue->cs); if (queue->is_shut_down) hr = MF_E_SHUTDOWN; else { IMFMediaEvent_AddRef(queued_event->event); list_add_tail(&queue->events, &queued_event->entry); queue_notify_subscriber(queue); } LeaveCriticalSection(&queue->cs); if (FAILED(hr)) free(queued_event); WakeAllConditionVariable(&queue->update_event); return hr; } static HRESULT WINAPI eventqueue_QueueEvent(IMFMediaEventQueue *iface, IMFMediaEvent *event) { struct event_queue *queue = impl_from_IMFMediaEventQueue(iface); TRACE("%p, %p.\n", iface, event); return eventqueue_queue_event(queue, event); } static HRESULT WINAPI eventqueue_QueueEventParamVar(IMFMediaEventQueue *iface, MediaEventType event_type, REFGUID extended_type, HRESULT status, const PROPVARIANT *value) { struct event_queue *queue = impl_from_IMFMediaEventQueue(iface); IMFMediaEvent *event; HRESULT hr; TRACE("%p, %s, %s, %#x, %s\n", iface, debugstr_eventid(event_type), debugstr_guid(extended_type), status, debugstr_propvar(value)); if (FAILED(hr = MFCreateMediaEvent(event_type, extended_type, status, value, &event))) return hr; hr = eventqueue_queue_event(queue, event); IMFMediaEvent_Release(event); return hr; } static HRESULT WINAPI eventqueue_QueueEventParamUnk(IMFMediaEventQueue *iface, MediaEventType event_type, REFGUID extended_type, HRESULT status, IUnknown *unk) { struct event_queue *queue = impl_from_IMFMediaEventQueue(iface); IMFMediaEvent *event; PROPVARIANT value; HRESULT hr; TRACE("%p, %s, %s, %#x, %p.\n", iface, debugstr_eventid(event_type), debugstr_guid(extended_type), status, unk); value.vt = VT_UNKNOWN; value.punkVal = unk; if (FAILED(hr = MFCreateMediaEvent(event_type, extended_type, status, &value, &event))) return hr; hr = eventqueue_queue_event(queue, event); IMFMediaEvent_Release(event); return hr; } static HRESULT WINAPI eventqueue_Shutdown(IMFMediaEventQueue *iface) { struct event_queue *queue = impl_from_IMFMediaEventQueue(iface); TRACE("%p\n", queue); EnterCriticalSection(&queue->cs); if (!queue->is_shut_down) { event_queue_cleanup(queue); queue->is_shut_down = TRUE; } LeaveCriticalSection(&queue->cs); WakeAllConditionVariable(&queue->update_event); return S_OK; } static const IMFMediaEventQueueVtbl eventqueuevtbl = { eventqueue_QueryInterface, eventqueue_AddRef, eventqueue_Release, eventqueue_GetEvent, eventqueue_BeginGetEvent, eventqueue_EndGetEvent, eventqueue_QueueEvent, eventqueue_QueueEventParamVar, eventqueue_QueueEventParamUnk, eventqueue_Shutdown }; /*********************************************************************** * MFCreateEventQueue (mfplat.@) */ HRESULT WINAPI MFCreateEventQueue(IMFMediaEventQueue **queue) { struct event_queue *object; TRACE("%p\n", queue); if (!(object = calloc(1, sizeof(*object)))) return E_OUTOFMEMORY; object->IMFMediaEventQueue_iface.lpVtbl = &eventqueuevtbl; object->refcount = 1; list_init(&object->events); InitializeCriticalSection(&object->cs); InitializeConditionVariable(&object->update_event); *queue = &object->IMFMediaEventQueue_iface; return S_OK; } struct collection { IMFCollection IMFCollection_iface; LONG refcount; IUnknown **elements; size_t capacity; size_t count; }; static struct collection *impl_from_IMFCollection(IMFCollection *iface) { return CONTAINING_RECORD(iface, struct collection, IMFCollection_iface); } static void collection_clear(struct collection *collection) { size_t i; for (i = 0; i < collection->count; ++i) { if (collection->elements[i]) IUnknown_Release(collection->elements[i]); } free(collection->elements); collection->elements = NULL; collection->count = 0; collection->capacity = 0; } static HRESULT WINAPI collection_QueryInterface(IMFCollection *iface, REFIID riid, void **out) { TRACE("%p, %s, %p.\n", iface, debugstr_guid(riid), out); if (IsEqualIID(riid, &IID_IMFCollection) || IsEqualIID(riid, &IID_IUnknown)) { *out = iface; IMFCollection_AddRef(iface); return S_OK; } WARN("Unsupported interface %s.\n", debugstr_guid(riid)); *out = NULL; return E_NOINTERFACE; } static ULONG WINAPI collection_AddRef(IMFCollection *iface) { struct collection *collection = impl_from_IMFCollection(iface); ULONG refcount = InterlockedIncrement(&collection->refcount); TRACE("%p, %d.\n", collection, refcount); return refcount; } static ULONG WINAPI collection_Release(IMFCollection *iface) { struct collection *collection = impl_from_IMFCollection(iface); ULONG refcount = InterlockedDecrement(&collection->refcount); TRACE("%p, %d.\n", collection, refcount); if (!refcount) { collection_clear(collection); free(collection->elements); free(collection); } return refcount; } static HRESULT WINAPI collection_GetElementCount(IMFCollection *iface, DWORD *count) { struct collection *collection = impl_from_IMFCollection(iface); TRACE("%p, %p.\n", iface, count); if (!count) return E_POINTER; *count = collection->count; return S_OK; } static HRESULT WINAPI collection_GetElement(IMFCollection *iface, DWORD idx, IUnknown **element) { struct collection *collection = impl_from_IMFCollection(iface); TRACE("%p, %u, %p.\n", iface, idx, element); if (!element) return E_POINTER; if (idx >= collection->count) return E_INVALIDARG; *element = collection->elements[idx]; if (*element) IUnknown_AddRef(*element); return *element ? S_OK : E_UNEXPECTED; } static HRESULT WINAPI collection_AddElement(IMFCollection *iface, IUnknown *element) { struct collection *collection = impl_from_IMFCollection(iface); TRACE("%p, %p.\n", iface, element); if (!mf_array_reserve((void **)&collection->elements, &collection->capacity, collection->count + 1, sizeof(*collection->elements))) return E_OUTOFMEMORY; collection->elements[collection->count++] = element; if (element) IUnknown_AddRef(element); return S_OK; } static HRESULT WINAPI collection_RemoveElement(IMFCollection *iface, DWORD idx, IUnknown **element) { struct collection *collection = impl_from_IMFCollection(iface); size_t count; TRACE("%p, %u, %p.\n", iface, idx, element); if (!element) return E_POINTER; if (idx >= collection->count) return E_INVALIDARG; *element = collection->elements[idx]; count = collection->count - idx - 1; if (count) memmove(&collection->elements[idx], &collection->elements[idx + 1], count * sizeof(*collection->elements)); collection->count--; return S_OK; } static HRESULT WINAPI collection_InsertElementAt(IMFCollection *iface, DWORD idx, IUnknown *element) { struct collection *collection = impl_from_IMFCollection(iface); size_t i; TRACE("%p, %u, %p.\n", iface, idx, element); if (!mf_array_reserve((void **)&collection->elements, &collection->capacity, idx + 1, sizeof(*collection->elements))) return E_OUTOFMEMORY; if (idx < collection->count) { memmove(&collection->elements[idx + 1], &collection->elements[idx], (collection->count - idx) * sizeof(*collection->elements)); collection->count++; } else { for (i = collection->count; i < idx; ++i) collection->elements[i] = NULL; collection->count = idx + 1; } collection->elements[idx] = element; if (collection->elements[idx]) IUnknown_AddRef(collection->elements[idx]); return S_OK; } static HRESULT WINAPI collection_RemoveAllElements(IMFCollection *iface) { struct collection *collection = impl_from_IMFCollection(iface); TRACE("%p.\n", iface); collection_clear(collection); return S_OK; } static const IMFCollectionVtbl mfcollectionvtbl = { collection_QueryInterface, collection_AddRef, collection_Release, collection_GetElementCount, collection_GetElement, collection_AddElement, collection_RemoveElement, collection_InsertElementAt, collection_RemoveAllElements, }; /*********************************************************************** * MFCreateCollection (mfplat.@) */ HRESULT WINAPI MFCreateCollection(IMFCollection **collection) { struct collection *object; TRACE("%p\n", collection); if (!collection) return E_POINTER; if (!(object = calloc(1, sizeof(*object)))) return E_OUTOFMEMORY; object->IMFCollection_iface.lpVtbl = &mfcollectionvtbl; object->refcount = 1; *collection = &object->IMFCollection_iface; return S_OK; } /*********************************************************************** * MFHeapAlloc (mfplat.@) */ void *WINAPI MFHeapAlloc(SIZE_T size, ULONG flags, char *file, int line, EAllocationType type) { TRACE("%lu, %#x, %s, %d, %#x.\n", size, flags, debugstr_a(file), line, type); return HeapAlloc(GetProcessHeap(), flags, size); } /*********************************************************************** * MFHeapFree (mfplat.@) */ void WINAPI MFHeapFree(void *p) { TRACE("%p\n", p); HeapFree(GetProcessHeap(), 0, p); } /*********************************************************************** * MFCreateMFByteStreamOnStreamEx (mfplat.@) */ HRESULT WINAPI MFCreateMFByteStreamOnStreamEx(IUnknown *stream, IMFByteStream **bytestream) { FIXME("(%p, %p): stub\n", stream, bytestream); return E_NOTIMPL; } static HRESULT WINAPI system_clock_QueryInterface(IMFClock *iface, REFIID riid, void **obj) { TRACE("%p, %s, %p.\n", iface, debugstr_guid(riid), obj); if (IsEqualIID(riid, &IID_IMFClock) || IsEqualIID(riid, &IID_IUnknown)) { *obj = iface; IMFClock_AddRef(iface); return S_OK; } WARN("Unsupported %s.\n", debugstr_guid(riid)); *obj = NULL; return E_NOINTERFACE; } static ULONG WINAPI system_clock_AddRef(IMFClock *iface) { struct system_clock *clock = impl_from_IMFClock(iface); ULONG refcount = InterlockedIncrement(&clock->refcount); TRACE("%p, refcount %u.\n", iface, refcount); return refcount; } static ULONG WINAPI system_clock_Release(IMFClock *iface) { struct system_clock *clock = impl_from_IMFClock(iface); ULONG refcount = InterlockedDecrement(&clock->refcount); TRACE("%p, refcount %u.\n", iface, refcount); if (!refcount) free(clock); return refcount; } static HRESULT WINAPI system_clock_GetClockCharacteristics(IMFClock *iface, DWORD *flags) { TRACE("%p, %p.\n", iface, flags); *flags = MFCLOCK_CHARACTERISTICS_FLAG_FREQUENCY_10MHZ | MFCLOCK_CHARACTERISTICS_FLAG_ALWAYS_RUNNING | MFCLOCK_CHARACTERISTICS_FLAG_IS_SYSTEM_CLOCK; return S_OK; } static HRESULT WINAPI system_clock_GetCorrelatedTime(IMFClock *iface, DWORD reserved, LONGLONG *clock_time, MFTIME *system_time) { TRACE("%p, %#x, %p, %p.\n", iface, reserved, clock_time, system_time); *clock_time = *system_time = MFGetSystemTime(); return S_OK; } static HRESULT WINAPI system_clock_GetContinuityKey(IMFClock *iface, DWORD *key) { TRACE("%p, %p.\n", iface, key); *key = 0; return S_OK; } static HRESULT WINAPI system_clock_GetState(IMFClock *iface, DWORD reserved, MFCLOCK_STATE *state) { TRACE("%p, %#x, %p.\n", iface, reserved, state); *state = MFCLOCK_STATE_RUNNING; return S_OK; } static HRESULT WINAPI system_clock_GetProperties(IMFClock *iface, MFCLOCK_PROPERTIES *props) { TRACE("%p, %p.\n", iface, props); if (!props) return E_POINTER; memset(props, 0, sizeof(*props)); props->qwClockFrequency = MFCLOCK_FREQUENCY_HNS; props->dwClockTolerance = MFCLOCK_TOLERANCE_UNKNOWN; props->dwClockJitter = 1; return S_OK; } static const IMFClockVtbl system_clock_vtbl = { system_clock_QueryInterface, system_clock_AddRef, system_clock_Release, system_clock_GetClockCharacteristics, system_clock_GetCorrelatedTime, system_clock_GetContinuityKey, system_clock_GetState, system_clock_GetProperties, }; static HRESULT create_system_clock(IMFClock **clock) { struct system_clock *object; if (!(object = malloc(sizeof(*object)))) return E_OUTOFMEMORY; object->IMFClock_iface.lpVtbl = &system_clock_vtbl; object->refcount = 1; *clock = &object->IMFClock_iface; return S_OK; } static HRESULT WINAPI system_time_source_QueryInterface(IMFPresentationTimeSource *iface, REFIID riid, void **obj) { struct system_time_source *source = impl_from_IMFPresentationTimeSource(iface); TRACE("%p, %s, %p.\n", iface, debugstr_guid(riid), obj); if (IsEqualIID(riid, &IID_IMFPresentationTimeSource) || IsEqualIID(riid, &IID_IUnknown)) { *obj = &source->IMFPresentationTimeSource_iface; } else if (IsEqualIID(riid, &IID_IMFClockStateSink)) { *obj = &source->IMFClockStateSink_iface; } else { WARN("Unsupported %s.\n", debugstr_guid(riid)); *obj = NULL; return E_NOINTERFACE; } IUnknown_AddRef((IUnknown *)*obj); return S_OK; } static ULONG WINAPI system_time_source_AddRef(IMFPresentationTimeSource *iface) { struct system_time_source *source = impl_from_IMFPresentationTimeSource(iface); ULONG refcount = InterlockedIncrement(&source->refcount); TRACE("%p, refcount %u.\n", iface, refcount); return refcount; } static ULONG WINAPI system_time_source_Release(IMFPresentationTimeSource *iface) { struct system_time_source *source = impl_from_IMFPresentationTimeSource(iface); ULONG refcount = InterlockedDecrement(&source->refcount); TRACE("%p, refcount %u.\n", iface, refcount); if (!refcount) { if (source->clock) IMFClock_Release(source->clock); DeleteCriticalSection(&source->cs); free(source); } return refcount; } static HRESULT WINAPI system_time_source_GetClockCharacteristics(IMFPresentationTimeSource *iface, DWORD *flags) { TRACE("%p, %p.\n", iface, flags); *flags = MFCLOCK_CHARACTERISTICS_FLAG_FREQUENCY_10MHZ | MFCLOCK_CHARACTERISTICS_FLAG_IS_SYSTEM_CLOCK; return S_OK; } static HRESULT WINAPI system_time_source_GetCorrelatedTime(IMFPresentationTimeSource *iface, DWORD reserved, LONGLONG *clock_time, MFTIME *system_time) { struct system_time_source *source = impl_from_IMFPresentationTimeSource(iface); HRESULT hr; TRACE("%p, %#x, %p, %p.\n", iface, reserved, clock_time, system_time); EnterCriticalSection(&source->cs); if (SUCCEEDED(hr = IMFClock_GetCorrelatedTime(source->clock, 0, clock_time, system_time))) { if (source->state == MFCLOCK_STATE_RUNNING) { system_time_source_apply_rate(source, clock_time); *clock_time += source->start_offset; } else *clock_time = source->start_offset; } LeaveCriticalSection(&source->cs); return hr; } static HRESULT WINAPI system_time_source_GetContinuityKey(IMFPresentationTimeSource *iface, DWORD *key) { TRACE("%p, %p.\n", iface, key); *key = 0; return S_OK; } static HRESULT WINAPI system_time_source_GetState(IMFPresentationTimeSource *iface, DWORD reserved, MFCLOCK_STATE *state) { struct system_time_source *source = impl_from_IMFPresentationTimeSource(iface); TRACE("%p, %#x, %p.\n", iface, reserved, state); EnterCriticalSection(&source->cs); *state = source->state; LeaveCriticalSection(&source->cs); return S_OK; } static HRESULT WINAPI system_time_source_GetProperties(IMFPresentationTimeSource *iface, MFCLOCK_PROPERTIES *props) { TRACE("%p, %p.\n", iface, props); if (!props) return E_POINTER; memset(props, 0, sizeof(*props)); props->qwClockFrequency = MFCLOCK_FREQUENCY_HNS; props->dwClockTolerance = MFCLOCK_TOLERANCE_UNKNOWN; props->dwClockJitter = 1; return S_OK; } static HRESULT WINAPI system_time_source_GetUnderlyingClock(IMFPresentationTimeSource *iface, IMFClock **clock) { struct system_time_source *source = impl_from_IMFPresentationTimeSource(iface); TRACE("%p, %p.\n", iface, clock); *clock = source->clock; IMFClock_AddRef(*clock); return S_OK; } static const IMFPresentationTimeSourceVtbl systemtimesourcevtbl = { system_time_source_QueryInterface, system_time_source_AddRef, system_time_source_Release, system_time_source_GetClockCharacteristics, system_time_source_GetCorrelatedTime, system_time_source_GetContinuityKey, system_time_source_GetState, system_time_source_GetProperties, system_time_source_GetUnderlyingClock, }; static HRESULT WINAPI system_time_source_sink_QueryInterface(IMFClockStateSink *iface, REFIID riid, void **out) { struct system_time_source *source = impl_from_IMFClockStateSink(iface); return IMFPresentationTimeSource_QueryInterface(&source->IMFPresentationTimeSource_iface, riid, out); } static ULONG WINAPI system_time_source_sink_AddRef(IMFClockStateSink *iface) { struct system_time_source *source = impl_from_IMFClockStateSink(iface); return IMFPresentationTimeSource_AddRef(&source->IMFPresentationTimeSource_iface); } static ULONG WINAPI system_time_source_sink_Release(IMFClockStateSink *iface) { struct system_time_source *source = impl_from_IMFClockStateSink(iface); return IMFPresentationTimeSource_Release(&source->IMFPresentationTimeSource_iface); } enum clock_command { CLOCK_CMD_START = 0, CLOCK_CMD_STOP, CLOCK_CMD_PAUSE, CLOCK_CMD_RESTART, CLOCK_CMD_MAX, }; static HRESULT system_time_source_change_state(struct system_time_source *source, enum clock_command command) { static const BYTE state_change_is_allowed[MFCLOCK_STATE_PAUSED+1][CLOCK_CMD_MAX] = { /* S S* P R */ /* INVALID */ { 1, 0, 1, 0 }, /* RUNNING */ { 1, 1, 1, 0 }, /* STOPPED */ { 1, 1, 0, 0 }, /* PAUSED */ { 1, 1, 0, 1 }, }; static const MFCLOCK_STATE states[CLOCK_CMD_MAX] = { /* CLOCK_CMD_START */ MFCLOCK_STATE_RUNNING, /* CLOCK_CMD_STOP */ MFCLOCK_STATE_STOPPED, /* CLOCK_CMD_PAUSE */ MFCLOCK_STATE_PAUSED, /* CLOCK_CMD_RESTART */ MFCLOCK_STATE_RUNNING, }; /* Special case that go against usual state change vs return value behavior. */ if (source->state == MFCLOCK_STATE_INVALID && command == CLOCK_CMD_STOP) return S_OK; if (!state_change_is_allowed[source->state][command]) return MF_E_INVALIDREQUEST; source->state = states[command]; return S_OK; } static HRESULT WINAPI system_time_source_sink_OnClockStart(IMFClockStateSink *iface, MFTIME system_time, LONGLONG start_offset) { struct system_time_source *source = impl_from_IMFClockStateSink(iface); MFCLOCK_STATE state; HRESULT hr; TRACE("%p, %s, %s.\n", iface, debugstr_time(system_time), debugstr_time(start_offset)); EnterCriticalSection(&source->cs); state = source->state; if (SUCCEEDED(hr = system_time_source_change_state(source, CLOCK_CMD_START))) { system_time_source_apply_rate(source, &system_time); if (start_offset == PRESENTATION_CURRENT_POSITION) { switch (state) { case MFCLOCK_STATE_RUNNING: break; case MFCLOCK_STATE_PAUSED: source->start_offset -= system_time; break; default: source->start_offset = -system_time; break; ; } } else { source->start_offset = -system_time + start_offset; } } LeaveCriticalSection(&source->cs); return hr; } static HRESULT WINAPI system_time_source_sink_OnClockStop(IMFClockStateSink *iface, MFTIME system_time) { struct system_time_source *source = impl_from_IMFClockStateSink(iface); HRESULT hr; TRACE("%p, %s.\n", iface, debugstr_time(system_time)); EnterCriticalSection(&source->cs); if (SUCCEEDED(hr = system_time_source_change_state(source, CLOCK_CMD_STOP))) source->start_offset = 0; LeaveCriticalSection(&source->cs); return hr; } static HRESULT WINAPI system_time_source_sink_OnClockPause(IMFClockStateSink *iface, MFTIME system_time) { struct system_time_source *source = impl_from_IMFClockStateSink(iface); HRESULT hr; TRACE("%p, %s.\n", iface, debugstr_time(system_time)); EnterCriticalSection(&source->cs); if (SUCCEEDED(hr = system_time_source_change_state(source, CLOCK_CMD_PAUSE))) { system_time_source_apply_rate(source, &system_time); source->start_offset += system_time; } LeaveCriticalSection(&source->cs); return hr; } static HRESULT WINAPI system_time_source_sink_OnClockRestart(IMFClockStateSink *iface, MFTIME system_time) { struct system_time_source *source = impl_from_IMFClockStateSink(iface); HRESULT hr; TRACE("%p, %s.\n", iface, debugstr_time(system_time)); EnterCriticalSection(&source->cs); if (SUCCEEDED(hr = system_time_source_change_state(source, CLOCK_CMD_RESTART))) { system_time_source_apply_rate(source, &system_time); source->start_offset -= system_time; } LeaveCriticalSection(&source->cs); return hr; } static HRESULT WINAPI system_time_source_sink_OnClockSetRate(IMFClockStateSink *iface, MFTIME system_time, float rate) { struct system_time_source *source = impl_from_IMFClockStateSink(iface); double intpart; TRACE("%p, %s, %f.\n", iface, debugstr_time(system_time), rate); if (rate == 0.0f) return MF_E_UNSUPPORTED_RATE; modf(rate, &intpart); EnterCriticalSection(&source->cs); source->rate = rate; source->i_rate = rate == intpart ? rate : 0; LeaveCriticalSection(&source->cs); return S_OK; } static const IMFClockStateSinkVtbl systemtimesourcesinkvtbl = { system_time_source_sink_QueryInterface, system_time_source_sink_AddRef, system_time_source_sink_Release, system_time_source_sink_OnClockStart, system_time_source_sink_OnClockStop, system_time_source_sink_OnClockPause, system_time_source_sink_OnClockRestart, system_time_source_sink_OnClockSetRate, }; /*********************************************************************** * MFCreateSystemTimeSource (mfplat.@) */ HRESULT WINAPI MFCreateSystemTimeSource(IMFPresentationTimeSource **time_source) { struct system_time_source *object; HRESULT hr; TRACE("%p.\n", time_source); object = calloc(1, sizeof(*object)); if (!object) return E_OUTOFMEMORY; object->IMFPresentationTimeSource_iface.lpVtbl = &systemtimesourcevtbl; object->IMFClockStateSink_iface.lpVtbl = &systemtimesourcesinkvtbl; object->refcount = 1; object->rate = 1.0f; object->i_rate = 1; InitializeCriticalSection(&object->cs); if (FAILED(hr = create_system_clock(&object->clock))) { IMFPresentationTimeSource_Release(&object->IMFPresentationTimeSource_iface); return hr; } *time_source = &object->IMFPresentationTimeSource_iface; return S_OK; } struct async_create_file { IRtwqAsyncCallback IRtwqAsyncCallback_iface; LONG refcount; MF_FILE_ACCESSMODE access_mode; MF_FILE_OPENMODE open_mode; MF_FILE_FLAGS flags; WCHAR *path; }; struct async_create_file_result { struct list entry; IRtwqAsyncResult *result; IMFByteStream *stream; }; static struct list async_create_file_results = LIST_INIT(async_create_file_results); static CRITICAL_SECTION async_create_file_cs = { NULL, -1, 0, 0, 0, 0 }; static struct async_create_file *impl_from_create_file_IRtwqAsyncCallback(IRtwqAsyncCallback *iface) { return CONTAINING_RECORD(iface, struct async_create_file, IRtwqAsyncCallback_iface); } static HRESULT WINAPI async_create_file_callback_QueryInterface(IRtwqAsyncCallback *iface, REFIID riid, void **obj) { if (IsEqualIID(riid, &IID_IRtwqAsyncCallback) || IsEqualIID(riid, &IID_IUnknown)) { *obj = iface; IRtwqAsyncCallback_AddRef(iface); return S_OK; } *obj = NULL; return E_NOINTERFACE; } static ULONG WINAPI async_create_file_callback_AddRef(IRtwqAsyncCallback *iface) { struct async_create_file *async = impl_from_create_file_IRtwqAsyncCallback(iface); ULONG refcount = InterlockedIncrement(&async->refcount); TRACE("%p, refcount %u.\n", iface, refcount); return refcount; } static ULONG WINAPI async_create_file_callback_Release(IRtwqAsyncCallback *iface) { struct async_create_file *async = impl_from_create_file_IRtwqAsyncCallback(iface); ULONG refcount = InterlockedDecrement(&async->refcount); TRACE("%p, refcount %u.\n", iface, refcount); if (!refcount) { free(async->path); free(async); } return refcount; } static HRESULT WINAPI async_create_file_callback_GetParameters(IRtwqAsyncCallback *iface, DWORD *flags, DWORD *queue) { return E_NOTIMPL; } static HRESULT WINAPI async_create_file_callback_Invoke(IRtwqAsyncCallback *iface, IRtwqAsyncResult *result) { struct async_create_file *async = impl_from_create_file_IRtwqAsyncCallback(iface); IRtwqAsyncResult *caller; IMFByteStream *stream; HRESULT hr; caller = (IRtwqAsyncResult *)IRtwqAsyncResult_GetStateNoAddRef(result); hr = MFCreateFile(async->access_mode, async->open_mode, async->flags, async->path, &stream); if (SUCCEEDED(hr)) { struct async_create_file_result *result_item; result_item = malloc(sizeof(*result_item)); if (result_item) { result_item->result = caller; IRtwqAsyncResult_AddRef(caller); result_item->stream = stream; IMFByteStream_AddRef(stream); EnterCriticalSection(&async_create_file_cs); list_add_tail(&async_create_file_results, &result_item->entry); LeaveCriticalSection(&async_create_file_cs); } IMFByteStream_Release(stream); } else IRtwqAsyncResult_SetStatus(caller, hr); RtwqInvokeCallback(caller); return S_OK; } static const IRtwqAsyncCallbackVtbl async_create_file_callback_vtbl = { async_create_file_callback_QueryInterface, async_create_file_callback_AddRef, async_create_file_callback_Release, async_create_file_callback_GetParameters, async_create_file_callback_Invoke, }; /*********************************************************************** * MFBeginCreateFile (mfplat.@) */ HRESULT WINAPI MFBeginCreateFile(MF_FILE_ACCESSMODE access_mode, MF_FILE_OPENMODE open_mode, MF_FILE_FLAGS flags, const WCHAR *path, IMFAsyncCallback *callback, IUnknown *state, IUnknown **cancel_cookie) { struct async_create_file *async = NULL; IRtwqAsyncResult *caller, *item = NULL; HRESULT hr; TRACE("%#x, %#x, %#x, %s, %p, %p, %p.\n", access_mode, open_mode, flags, debugstr_w(path), callback, state, cancel_cookie); if (cancel_cookie) *cancel_cookie = NULL; if (FAILED(hr = RtwqCreateAsyncResult(NULL, (IRtwqAsyncCallback *)callback, state, &caller))) return hr; if (!(async = malloc(sizeof(*async)))) { hr = E_OUTOFMEMORY; goto failed; } async->IRtwqAsyncCallback_iface.lpVtbl = &async_create_file_callback_vtbl; async->refcount = 1; async->access_mode = access_mode; async->open_mode = open_mode; async->flags = flags; if (!(async->path = wcsdup(path))) { hr = E_OUTOFMEMORY; goto failed; } hr = RtwqCreateAsyncResult(NULL, &async->IRtwqAsyncCallback_iface, (IUnknown *)caller, &item); if (FAILED(hr)) goto failed; if (cancel_cookie) { *cancel_cookie = (IUnknown *)caller; IUnknown_AddRef(*cancel_cookie); } hr = RtwqInvokeCallback(item); failed: if (async) IRtwqAsyncCallback_Release(&async->IRtwqAsyncCallback_iface); if (item) IRtwqAsyncResult_Release(item); if (caller) IRtwqAsyncResult_Release(caller); return hr; } static HRESULT async_create_file_pull_result(IUnknown *unk, IMFByteStream **stream) { struct async_create_file_result *item; HRESULT hr = MF_E_UNEXPECTED; IRtwqAsyncResult *result; *stream = NULL; if (FAILED(IUnknown_QueryInterface(unk, &IID_IRtwqAsyncResult, (void **)&result))) return hr; EnterCriticalSection(&async_create_file_cs); LIST_FOR_EACH_ENTRY(item, &async_create_file_results, struct async_create_file_result, entry) { if (result == item->result) { *stream = item->stream; IRtwqAsyncResult_Release(item->result); list_remove(&item->entry); free(item); break; } } LeaveCriticalSection(&async_create_file_cs); if (*stream) hr = IRtwqAsyncResult_GetStatus(result); IRtwqAsyncResult_Release(result); return hr; } /*********************************************************************** * MFEndCreateFile (mfplat.@) */ HRESULT WINAPI MFEndCreateFile(IMFAsyncResult *result, IMFByteStream **stream) { TRACE("%p, %p.\n", result, stream); return async_create_file_pull_result((IUnknown *)result, stream); } /*********************************************************************** * MFCancelCreateFile (mfplat.@) */ HRESULT WINAPI MFCancelCreateFile(IUnknown *cancel_cookie) { IMFByteStream *stream = NULL; HRESULT hr; TRACE("%p.\n", cancel_cookie); hr = async_create_file_pull_result(cancel_cookie, &stream); if (stream) IMFByteStream_Release(stream); return hr; } /*********************************************************************** * MFRegisterLocalSchemeHandler (mfplat.@) */ HRESULT WINAPI MFRegisterLocalSchemeHandler(const WCHAR *scheme, IMFActivate *activate) { struct local_handler *handler; TRACE("%s, %p.\n", debugstr_w(scheme), activate); if (!scheme || !activate) return E_INVALIDARG; if (!(handler = malloc(sizeof(*handler)))) return E_OUTOFMEMORY; if (!(handler->u.scheme = wcsdup(scheme))) { free(handler); return E_OUTOFMEMORY; } handler->activate = activate; IMFActivate_AddRef(handler->activate); EnterCriticalSection(&local_handlers_section); list_add_head(&local_scheme_handlers, &handler->entry); LeaveCriticalSection(&local_handlers_section); return S_OK; } /*********************************************************************** * MFRegisterLocalByteStreamHandler (mfplat.@) */ HRESULT WINAPI MFRegisterLocalByteStreamHandler(const WCHAR *extension, const WCHAR *mime, IMFActivate *activate) { struct local_handler *handler; TRACE("%s, %s, %p.\n", debugstr_w(extension), debugstr_w(mime), activate); if ((!extension && !mime) || !activate) return E_INVALIDARG; if (!(handler = calloc(1, sizeof(*handler)))) return E_OUTOFMEMORY; if (extension && !(handler->u.bytestream.extension = wcsdup(extension))) goto failed; if (mime && !(handler->u.bytestream.mime = wcsdup(mime))) goto failed; EnterCriticalSection(&local_handlers_section); list_add_head(&local_bytestream_handlers, &handler->entry); LeaveCriticalSection(&local_handlers_section); return S_OK; failed: free(handler->u.bytestream.extension); free(handler->u.bytestream.mime); free(handler); return E_OUTOFMEMORY; } struct property_store { IPropertyStore IPropertyStore_iface; LONG refcount; CRITICAL_SECTION cs; size_t count, capacity; struct { PROPERTYKEY key; PROPVARIANT value; } *values; }; static struct property_store *impl_from_IPropertyStore(IPropertyStore *iface) { return CONTAINING_RECORD(iface, struct property_store, IPropertyStore_iface); } static HRESULT WINAPI property_store_QueryInterface(IPropertyStore *iface, REFIID riid, void **obj) { TRACE("%p, %s, %p.\n", iface, debugstr_guid(riid), obj); if (IsEqualIID(riid, &IID_IPropertyStore) || IsEqualIID(riid, &IID_IUnknown)) { *obj = iface; IPropertyStore_AddRef(iface); return S_OK; } *obj = NULL; WARN("Unsupported interface %s.\n", debugstr_guid(riid)); return E_NOINTERFACE; } static ULONG WINAPI property_store_AddRef(IPropertyStore *iface) { struct property_store *store = impl_from_IPropertyStore(iface); ULONG refcount = InterlockedIncrement(&store->refcount); TRACE("%p, refcount %d.\n", iface, refcount); return refcount; } static ULONG WINAPI property_store_Release(IPropertyStore *iface) { struct property_store *store = impl_from_IPropertyStore(iface); ULONG refcount = InterlockedDecrement(&store->refcount); TRACE("%p, refcount %d.\n", iface, refcount); if (!refcount) { DeleteCriticalSection(&store->cs); free(store->values); free(store); } return refcount; } static HRESULT WINAPI property_store_GetCount(IPropertyStore *iface, DWORD *count) { struct property_store *store = impl_from_IPropertyStore(iface); TRACE("%p, %p.\n", iface, count); if (!count) return E_INVALIDARG; EnterCriticalSection(&store->cs); *count = store->count; LeaveCriticalSection(&store->cs); return S_OK; } static HRESULT WINAPI property_store_GetAt(IPropertyStore *iface, DWORD index, PROPERTYKEY *key) { struct property_store *store = impl_from_IPropertyStore(iface); TRACE("%p, %u, %p.\n", iface, index, key); EnterCriticalSection(&store->cs); if (index >= store->count) { LeaveCriticalSection(&store->cs); return E_INVALIDARG; } *key = store->values[index].key; LeaveCriticalSection(&store->cs); return S_OK; } static HRESULT WINAPI property_store_GetValue(IPropertyStore *iface, REFPROPERTYKEY key, PROPVARIANT *value) { struct property_store *store = impl_from_IPropertyStore(iface); unsigned int i; TRACE("%p, %p, %p.\n", iface, key, value); if (!value) return E_INVALIDARG; if (!key) return S_FALSE; EnterCriticalSection(&store->cs); for (i = 0; i < store->count; ++i) { if (!memcmp(key, &store->values[i].key, sizeof(PROPERTYKEY))) { PropVariantCopy(value, &store->values[i].value); LeaveCriticalSection(&store->cs); return S_OK; } } LeaveCriticalSection(&store->cs); return S_FALSE; } static HRESULT WINAPI property_store_SetValue(IPropertyStore *iface, REFPROPERTYKEY key, REFPROPVARIANT value) { struct property_store *store = impl_from_IPropertyStore(iface); unsigned int i; TRACE("%p, %p, %p.\n", iface, key, value); EnterCriticalSection(&store->cs); for (i = 0; i < store->count; ++i) { if (!memcmp(key, &store->values[i].key, sizeof(PROPERTYKEY))) { PropVariantCopy(&store->values[i].value, value); LeaveCriticalSection(&store->cs); return S_OK; } } if (!mf_array_reserve((void **)&store->values, &store->capacity, store->count + 1, sizeof(*store->values))) { LeaveCriticalSection(&store->cs); return E_OUTOFMEMORY; } store->values[store->count].key = *key; PropVariantCopy(&store->values[store->count].value, value); ++store->count; LeaveCriticalSection(&store->cs); return S_OK; } static HRESULT WINAPI property_store_Commit(IPropertyStore *iface) { TRACE("%p.\n", iface); return E_NOTIMPL; } static const IPropertyStoreVtbl property_store_vtbl = { property_store_QueryInterface, property_store_AddRef, property_store_Release, property_store_GetCount, property_store_GetAt, property_store_GetValue, property_store_SetValue, property_store_Commit, }; /*********************************************************************** * CreatePropertyStore (mfplat.@) */ HRESULT WINAPI CreatePropertyStore(IPropertyStore **store) { struct property_store *object; TRACE("%p.\n", store); if (!store) return E_INVALIDARG; if (!(object = calloc(1, sizeof(*object)))) return E_OUTOFMEMORY; object->IPropertyStore_iface.lpVtbl = &property_store_vtbl; object->refcount = 1; InitializeCriticalSection(&object->cs); TRACE("Created store %p.\n", object); *store = &object->IPropertyStore_iface; return S_OK; } struct shared_dxgi_manager { IMFDXGIDeviceManager *manager; unsigned int token; unsigned int locks; }; static struct shared_dxgi_manager shared_dm; static CRITICAL_SECTION shared_dm_cs = { NULL, -1, 0, 0, 0, 0 }; enum dxgi_device_handle_flags { DXGI_DEVICE_HANDLE_FLAG_OPEN = 0x1, DXGI_DEVICE_HANDLE_FLAG_INVALID = 0x2, DXGI_DEVICE_HANDLE_FLAG_LOCKED = 0x4, }; struct dxgi_device_manager { IMFDXGIDeviceManager IMFDXGIDeviceManager_iface; LONG refcount; UINT token; IUnknown *device; unsigned int *handles; size_t count; size_t capacity; unsigned int locks; unsigned int locking_tid; CRITICAL_SECTION cs; CONDITION_VARIABLE lock; }; static struct dxgi_device_manager *impl_from_IMFDXGIDeviceManager(IMFDXGIDeviceManager *iface) { return CONTAINING_RECORD(iface, struct dxgi_device_manager, IMFDXGIDeviceManager_iface); } static HRESULT dxgi_device_manager_get_handle_index(struct dxgi_device_manager *manager, HANDLE hdevice, size_t *idx) { if (!hdevice || hdevice > ULongToHandle(manager->count)) return E_HANDLE; *idx = (ULONG_PTR)hdevice - 1; return S_OK; } static HRESULT WINAPI dxgi_device_manager_QueryInterface(IMFDXGIDeviceManager *iface, REFIID riid, void **obj) { TRACE("%p, %s, %p.\n", iface, debugstr_guid(riid), obj); if (IsEqualIID(riid, &IID_IMFDXGIDeviceManager) || IsEqualGUID(riid, &IID_IUnknown)) { *obj = iface; IMFDXGIDeviceManager_AddRef(iface); return S_OK; } WARN("Unsupported %s.\n", debugstr_guid(riid)); *obj = NULL; return E_NOINTERFACE; } static ULONG WINAPI dxgi_device_manager_AddRef(IMFDXGIDeviceManager *iface) { struct dxgi_device_manager *manager = impl_from_IMFDXGIDeviceManager(iface); ULONG refcount = InterlockedIncrement(&manager->refcount); TRACE("%p, refcount %u.\n", iface, refcount); return refcount; } static ULONG WINAPI dxgi_device_manager_Release(IMFDXGIDeviceManager *iface) { struct dxgi_device_manager *manager = impl_from_IMFDXGIDeviceManager(iface); ULONG refcount = InterlockedDecrement(&manager->refcount); TRACE("%p, refcount %u.\n", iface, refcount); if (!refcount) { if (manager->device) IUnknown_Release(manager->device); DeleteCriticalSection(&manager->cs); free(manager->handles); free(manager); } return refcount; } static void dxgi_device_manager_lock_handle(struct dxgi_device_manager *manager, size_t idx) { if (manager->handles[idx] & DXGI_DEVICE_HANDLE_FLAG_LOCKED) return; manager->handles[idx] |= DXGI_DEVICE_HANDLE_FLAG_LOCKED; manager->locks++; } static void dxgi_device_manager_unlock_handle(struct dxgi_device_manager *manager, size_t idx) { if (!(manager->handles[idx] & DXGI_DEVICE_HANDLE_FLAG_LOCKED)) return; manager->handles[idx] &= ~DXGI_DEVICE_HANDLE_FLAG_LOCKED; if (!--manager->locks) manager->locking_tid = 0; } static HRESULT WINAPI dxgi_device_manager_CloseDeviceHandle(IMFDXGIDeviceManager *iface, HANDLE hdevice) { struct dxgi_device_manager *manager = impl_from_IMFDXGIDeviceManager(iface); HRESULT hr; size_t idx; TRACE("%p, %p.\n", iface, hdevice); EnterCriticalSection(&manager->cs); if (SUCCEEDED(hr = dxgi_device_manager_get_handle_index(manager, hdevice, &idx))) { if (manager->handles[idx] & DXGI_DEVICE_HANDLE_FLAG_OPEN) { dxgi_device_manager_unlock_handle(manager, idx); manager->handles[idx] = 0; if (idx == manager->count - 1) manager->count--; } else hr = E_HANDLE; } LeaveCriticalSection(&manager->cs); WakeAllConditionVariable(&manager->lock); return hr; } static HRESULT WINAPI dxgi_device_manager_GetVideoService(IMFDXGIDeviceManager *iface, HANDLE hdevice, REFIID riid, void **service) { struct dxgi_device_manager *manager = impl_from_IMFDXGIDeviceManager(iface); HRESULT hr; size_t idx; TRACE("%p, %p, %s, %p.\n", iface, hdevice, debugstr_guid(riid), service); EnterCriticalSection(&manager->cs); if (!manager->device) hr = MF_E_DXGI_DEVICE_NOT_INITIALIZED; else if (SUCCEEDED(hr = dxgi_device_manager_get_handle_index(manager, hdevice, &idx))) { if (manager->handles[idx] & DXGI_DEVICE_HANDLE_FLAG_INVALID) hr = MF_E_DXGI_NEW_VIDEO_DEVICE; else if (manager->handles[idx] & DXGI_DEVICE_HANDLE_FLAG_OPEN) hr = IUnknown_QueryInterface(manager->device, riid, service); else hr = E_HANDLE; } LeaveCriticalSection(&manager->cs); return hr; } static HRESULT WINAPI dxgi_device_manager_LockDevice(IMFDXGIDeviceManager *iface, HANDLE hdevice, REFIID riid, void **obj, BOOL block) { struct dxgi_device_manager *manager = impl_from_IMFDXGIDeviceManager(iface); HRESULT hr; size_t idx; TRACE("%p, %p, %s, %p, %d.\n", iface, hdevice, wine_dbgstr_guid(riid), obj, block); EnterCriticalSection(&manager->cs); if (SUCCEEDED(hr = dxgi_device_manager_get_handle_index(manager, hdevice, &idx))) { if (!manager->device) { hr = MF_E_DXGI_DEVICE_NOT_INITIALIZED; } else if (manager->locking_tid == GetCurrentThreadId()) { if (SUCCEEDED(hr = IUnknown_QueryInterface(manager->device, riid, obj))) dxgi_device_manager_lock_handle(manager, idx); } else if (manager->locking_tid && !block) { hr = MF_E_DXGI_VIDEO_DEVICE_LOCKED; } else { while (manager->locking_tid) { SleepConditionVariableCS(&manager->lock, &manager->cs, INFINITE); } if (SUCCEEDED(hr = dxgi_device_manager_get_handle_index(manager, hdevice, &idx))) { if (manager->handles[idx] & DXGI_DEVICE_HANDLE_FLAG_INVALID) hr = MF_E_DXGI_NEW_VIDEO_DEVICE; else if (SUCCEEDED(hr = IUnknown_QueryInterface(manager->device, riid, obj))) { manager->locking_tid = GetCurrentThreadId(); dxgi_device_manager_lock_handle(manager, idx); } } } } LeaveCriticalSection(&manager->cs); return hr; } static HRESULT WINAPI dxgi_device_manager_OpenDeviceHandle(IMFDXGIDeviceManager *iface, HANDLE *hdevice) { struct dxgi_device_manager *manager = impl_from_IMFDXGIDeviceManager(iface); HRESULT hr = S_OK; size_t i; TRACE("%p, %p.\n", iface, hdevice); *hdevice = NULL; EnterCriticalSection(&manager->cs); if (!manager->device) hr = MF_E_DXGI_DEVICE_NOT_INITIALIZED; else { for (i = 0; i < manager->count; ++i) { if (!(manager->handles[i] & DXGI_DEVICE_HANDLE_FLAG_OPEN)) { manager->handles[i] |= DXGI_DEVICE_HANDLE_FLAG_OPEN; *hdevice = ULongToHandle(i + 1); break; } } if (mf_array_reserve((void **)&manager->handles, &manager->capacity, manager->count + 1, sizeof(*manager->handles))) { *hdevice = ULongToHandle(manager->count + 1); manager->handles[manager->count++] = DXGI_DEVICE_HANDLE_FLAG_OPEN; } else hr = E_OUTOFMEMORY; } LeaveCriticalSection(&manager->cs); return hr; } static HRESULT WINAPI dxgi_device_manager_ResetDevice(IMFDXGIDeviceManager *iface, IUnknown *device, UINT token) { struct dxgi_device_manager *manager = impl_from_IMFDXGIDeviceManager(iface); IUnknown *d3d_device; size_t i; TRACE("%p, %p, %u.\n", iface, device, token); if (!device || token != manager->token) return E_INVALIDARG; if (FAILED(IUnknown_QueryInterface(device, &IID_ID3D11Device, (void **)&d3d_device))) { if (FAILED(IUnknown_QueryInterface(device, &IID_ID3D12Device, (void **)&d3d_device))) { WARN("Unsupported device interface.\n"); return E_INVALIDARG; } } EnterCriticalSection(&manager->cs); if (manager->device) { for (i = 0; i < manager->count; ++i) { manager->handles[i] |= DXGI_DEVICE_HANDLE_FLAG_INVALID; manager->handles[i] &= ~DXGI_DEVICE_HANDLE_FLAG_LOCKED; } manager->locking_tid = 0; manager->locks = 0; IUnknown_Release(manager->device); } manager->device = d3d_device; LeaveCriticalSection(&manager->cs); WakeAllConditionVariable(&manager->lock); return S_OK; } static HRESULT WINAPI dxgi_device_manager_TestDevice(IMFDXGIDeviceManager *iface, HANDLE hdevice) { struct dxgi_device_manager *manager = impl_from_IMFDXGIDeviceManager(iface); HRESULT hr; size_t idx; TRACE("%p, %p.\n", iface, hdevice); EnterCriticalSection(&manager->cs); if (SUCCEEDED(hr = dxgi_device_manager_get_handle_index(manager, hdevice, &idx))) { if (manager->handles[idx] & DXGI_DEVICE_HANDLE_FLAG_INVALID) hr = MF_E_DXGI_NEW_VIDEO_DEVICE; else if (!(manager->handles[idx] & DXGI_DEVICE_HANDLE_FLAG_OPEN)) hr = E_HANDLE; } LeaveCriticalSection(&manager->cs); return hr; } static HRESULT WINAPI dxgi_device_manager_UnlockDevice(IMFDXGIDeviceManager *iface, HANDLE hdevice, BOOL savestate) { struct dxgi_device_manager *manager = impl_from_IMFDXGIDeviceManager(iface); HRESULT hr = E_FAIL; size_t idx; TRACE("%p, %p, %d.\n", iface, hdevice, savestate); EnterCriticalSection(&manager->cs); if (SUCCEEDED(dxgi_device_manager_get_handle_index(manager, hdevice, &idx))) { hr = manager->handles[idx] & DXGI_DEVICE_HANDLE_FLAG_LOCKED ? S_OK : E_INVALIDARG; if (SUCCEEDED(hr)) dxgi_device_manager_unlock_handle(manager, idx); } LeaveCriticalSection(&manager->cs); WakeAllConditionVariable(&manager->lock); return hr; } static const IMFDXGIDeviceManagerVtbl dxgi_device_manager_vtbl = { dxgi_device_manager_QueryInterface, dxgi_device_manager_AddRef, dxgi_device_manager_Release, dxgi_device_manager_CloseDeviceHandle, dxgi_device_manager_GetVideoService, dxgi_device_manager_LockDevice, dxgi_device_manager_OpenDeviceHandle, dxgi_device_manager_ResetDevice, dxgi_device_manager_TestDevice, dxgi_device_manager_UnlockDevice, }; /*********************************************************************** * MFCreateDXGIDeviceManager (mfplat.@) */ HRESULT WINAPI MFCreateDXGIDeviceManager(UINT *token, IMFDXGIDeviceManager **manager) { struct dxgi_device_manager *object; TRACE("%p, %p.\n", token, manager); if (!token || !manager) return E_POINTER; if (!(object = calloc(1, sizeof(*object)))) return E_OUTOFMEMORY; object->IMFDXGIDeviceManager_iface.lpVtbl = &dxgi_device_manager_vtbl; object->refcount = 1; object->token = GetTickCount(); InitializeCriticalSection(&object->cs); InitializeConditionVariable(&object->lock); TRACE("Created device manager: %p, token: %u.\n", object, object->token); *token = object->token; *manager = &object->IMFDXGIDeviceManager_iface; return S_OK; } /*********************************************************************** * MFLockDXGIDeviceManager (mfplat.@) */ HRESULT WINAPI MFLockDXGIDeviceManager(UINT *token, IMFDXGIDeviceManager **manager) { HRESULT hr = S_OK; TRACE("%p, %p.\n", token, manager); EnterCriticalSection(&shared_dm_cs); if (!shared_dm.manager) hr = MFCreateDXGIDeviceManager(&shared_dm.token, &shared_dm.manager); if (SUCCEEDED(hr)) { *manager = shared_dm.manager; IMFDXGIDeviceManager_AddRef(*manager); shared_dm.locks++; if (token) *token = shared_dm.token; } LeaveCriticalSection(&shared_dm_cs); return hr; } /*********************************************************************** * MFUnlockDXGIDeviceManager (mfplat.@) */ HRESULT WINAPI MFUnlockDXGIDeviceManager(void) { TRACE("\n"); EnterCriticalSection(&shared_dm_cs); if (shared_dm.manager) { IMFDXGIDeviceManager_Release(shared_dm.manager); if (!--shared_dm.locks) { shared_dm.manager = NULL; shared_dm.token = 0; } } LeaveCriticalSection(&shared_dm_cs); return S_OK; } /* * MFllMulDiv implementation is derived from gstreamer utility functions code (gstutils.c), * released under LGPL2. Full authors list follows. * =================================================================================== * Copyright (C) 1999,2000 Erik Walthinsen * 2000 Wim Taymans * 2002 Thomas Vander Stichele * 2004 Wim Taymans * 2015 Jan Schmidt * =================================================================================== */ static void llmult128(ULARGE_INTEGER *c1, ULARGE_INTEGER *c0, LONGLONG val, LONGLONG num) { ULARGE_INTEGER a1, b0, v, n; v.QuadPart = llabs(val); n.QuadPart = llabs(num); /* do 128 bits multiply * nh nl * * vh vl * ---------- * a0 = vl * nl * a1 = vl * nh * b0 = vh * nl * b1 = + vh * nh * ------------------- * c1h c1l c0h c0l * * "a0" is optimized away, result is stored directly in c0. "b1" is * optimized away, result is stored directly in c1. */ c0->QuadPart = (ULONGLONG)v.LowPart * n.LowPart; a1.QuadPart = (ULONGLONG)v.LowPart * n.HighPart; b0.QuadPart = (ULONGLONG)v.HighPart * n.LowPart; /* add the high word of a0 to the low words of a1 and b0 using c1 as * scratch space to capture the carry. the low word of the result becomes * the final high word of c0 */ c1->QuadPart = (ULONGLONG)c0->HighPart + a1.LowPart + b0.LowPart; c0->HighPart = c1->LowPart; /* add the carry from the result above (found in the high word of c1) and * the high words of a1 and b0 to b1, the result is c1. */ c1->QuadPart = (ULONGLONG)v.HighPart * n.HighPart + c1->HighPart + a1.HighPart + b0.HighPart; } static ULONGLONG lldiv128(ULARGE_INTEGER c1, ULARGE_INTEGER c0, LONGLONG denom) { ULARGE_INTEGER q1, q0, rhat; ULARGE_INTEGER v, cmp1, cmp2; DWORD s = 0; v.QuadPart = llabs(denom); /* 64bit numerator */ if (c1.QuadPart == 0) return c0.QuadPart / v.QuadPart; /* 96bit numerator, 32bit denominator */ if (v.HighPart == 0 && c1.HighPart == 0) { ULONGLONG low = c0.LowPart, high = c0.HighPart + ((ULONGLONG)c1.LowPart << 32); low += (high % v.LowPart) << 32; return ((high / v.LowPart) << 32) + (low / v.LowPart); } /* 128bit numerator, 32bit denominator */ if (v.HighPart == 0) return UI64_MAX; /* count number of leading zeroes */ BitScanReverse(&s, v.HighPart); s = 31 - s; if (s) { /* normalize divisor and dividend */ v.QuadPart <<= s; c1.QuadPart = (c1.QuadPart << s) | (c0.HighPart >> (32 - s)); c0.QuadPart <<= s; } q1.QuadPart = c1.QuadPart / v.HighPart; rhat.QuadPart = c1.QuadPart - q1.QuadPart * v.HighPart; cmp1.HighPart = rhat.LowPart; cmp1.LowPart = c0.HighPart; cmp2.QuadPart = q1.QuadPart * v.LowPart; while (q1.HighPart || cmp2.QuadPart > cmp1.QuadPart) { q1.QuadPart--; rhat.QuadPart += v.HighPart; if (rhat.HighPart) break; cmp1.HighPart = rhat.LowPart; cmp2.QuadPart -= v.LowPart; } c1.HighPart = c1.LowPart; c1.LowPart = c0.HighPart; c1.QuadPart -= q1.QuadPart * v.QuadPart; q0.QuadPart = c1.QuadPart / v.HighPart; rhat.QuadPart = c1.QuadPart - q0.QuadPart * v.HighPart; cmp1.HighPart = rhat.LowPart; cmp1.LowPart = c0.LowPart; cmp2.QuadPart = q0.QuadPart * v.LowPart; while (q0.HighPart || cmp2.QuadPart > cmp1.QuadPart) { q0.QuadPart--; rhat.QuadPart += v.HighPart; if (rhat.HighPart) break; cmp1.HighPart = rhat.LowPart; cmp2.QuadPart -= v.LowPart; } q0.HighPart += q1.LowPart; return q0.QuadPart; } /*********************************************************************** * MFllMulDiv (mfplat.@) */ LONGLONG WINAPI MFllMulDiv(LONGLONG val, LONGLONG num, LONGLONG denom, LONGLONG factor) { #define LLOVERFLOW (sign ? I64_MIN : I64_MAX) unsigned int sign, factor_sign, denom_sign; ULARGE_INTEGER c1, c0; ULONGLONG ret; TRACE("%s, %s, %s, %s.\n", wine_dbgstr_longlong(val), wine_dbgstr_longlong(num), wine_dbgstr_longlong(denom), wine_dbgstr_longlong(factor)); /* compute 128-bit numerator product */ llmult128(&c1, &c0, val, num); sign = (val < 0) ^ (num < 0); factor_sign = factor < 0; denom_sign = denom < 0; factor = llabs(factor); if (sign == factor_sign) { if (UI64_MAX - c0.QuadPart < factor) { if (c1.QuadPart == UI64_MAX) return LLOVERFLOW; c1.QuadPart++; } c0.QuadPart += factor; } else { if (c0.QuadPart >= factor) c0.QuadPart -= factor; else { if (c1.QuadPart) c1.QuadPart--; else sign = !sign; c0.QuadPart = factor - c0.QuadPart; } } if (c1.QuadPart >= denom) return LLOVERFLOW; /* compute quotient, fits in 64 bits */ ret = lldiv128(c1, c0, denom); sign ^= denom_sign; if (ret >= I64_MAX) return LLOVERFLOW; return sign ? -(LONGLONG)ret : ret; #undef LLOVERFLOW }