/* * Copyright 1993 Martin Ayotte * 1998-2002 Eric Pouech * 2011 Andrew Eikum for CodeWeavers * * 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 #define NONAMELESSUNION #define NONAMELESSSTRUCT #define COBJMACROS #include "windef.h" #include "winbase.h" #include "wingdi.h" #include "mmsystem.h" #include "mmreg.h" #include "msacm.h" #include "winuser.h" #include "winnls.h" #include "winternl.h" #include "winemm.h" #include "resource.h" #include "ole2.h" #include "initguid.h" #include "devpkey.h" #include "mmdeviceapi.h" #include "audioclient.h" #include "audiopolicy.h" #include "wine/debug.h" WINE_DEFAULT_DEBUG_CHANNEL(winmm); /* HWAVE (and HMIXER) format: * * XXXX... 1FDD DDDD IIII IIII * X = unused (must be 0) * 1 = the bit is set to 1, to avoid all-zero HWAVEs * F = flow direction (0 = IN, 1 = OUT) * D = index into g_out_mmdevices, or all 1s for the MAPPER device * I = index in the mmdevice's devices array * * Two reasons that we don't just use pointers: * - HWAVEs must fit into 16 bits for compatibility with old applications. * - We must be able to identify bad devices without crashing. */ /* buffer size = 10 * 100000 (100 ns) = 0.1 seconds */ #define AC_BUFLEN (10 * 100000) #define MAX_DEVICES 256 #define MAPPER_INDEX 0x3F typedef struct _WINMM_CBInfo { DWORD_PTR callback; DWORD_PTR user; DWORD flags; HWAVE hwave; } WINMM_CBInfo; struct _WINMM_MMDevice; typedef struct _WINMM_MMDevice WINMM_MMDevice; typedef struct _WINMM_Device { WINMM_CBInfo cb_info; HWAVE handle; BOOL open; IMMDevice *device; IAudioClient *client; IAudioRenderClient *render; IAudioCaptureClient *capture; IAudioClock *clock; IAudioStreamVolume *volume; WAVEFORMATEX *orig_fmt; HACMSTREAM acm_handle; ACMSTREAMHEADER acm_hdr; UINT32 acm_offs; WAVEHDR *first, *last, *playing, *loop_start; BOOL stopped; DWORD loop_counter; UINT32 bytes_per_frame, samples_per_sec, ofs_bytes, played_frames; UINT32 remainder_frames; /* header chunk frames already played when a device switch occurred */ /* stored in frames of sample rate, *not* AC::GetFrequency */ UINT64 last_clock_pos; HANDLE event; CRITICAL_SECTION lock; WINMM_MMDevice *parent; } WINMM_Device; struct _WINMM_MMDevice { WAVEOUTCAPSW out_caps; /* must not be modified outside of WINMM_InitMMDevices*/ WAVEINCAPSW in_caps; /* must not be modified outside of WINMM_InitMMDevices*/ WCHAR *dev_id; EDataFlow dataflow; ISimpleAudioVolume *volume; GUID session; UINT index; /* HMIXER format is the same as the HWAVE format, but the I bits are * replaced by the value of this counter, to keep each HMIXER unique */ UINT mixer_count; CRITICAL_SECTION lock; WINMM_Device *devices[MAX_DEVICES]; }; static WINMM_MMDevice *g_out_mmdevices; static WINMM_MMDevice **g_out_map; static UINT g_outmmdevices_count; static WINMM_Device *g_out_mapper_devices[MAX_DEVICES]; static WINMM_MMDevice *g_in_mmdevices; static WINMM_MMDevice **g_in_map; static UINT g_inmmdevices_count; static WINMM_Device *g_in_mapper_devices[MAX_DEVICES]; static IMMDeviceEnumerator *g_devenum; static CRITICAL_SECTION g_devthread_lock; static CRITICAL_SECTION_DEBUG g_devthread_lock_debug = { 0, 0, &g_devthread_lock, { &g_devthread_lock_debug.ProcessLocksList, &g_devthread_lock_debug.ProcessLocksList }, 0, 0, { (DWORD_PTR)(__FILE__ ": g_devthread_lock") } }; static CRITICAL_SECTION g_devthread_lock = { &g_devthread_lock_debug, -1, 0, 0, 0, 0 }; static LONG g_devthread_token; static HANDLE g_devices_thread; static HWND g_devices_hwnd; static HMODULE g_devthread_module; static UINT g_devhandle_count; static HANDLE *g_device_handles; static WINMM_Device **g_handle_devices; typedef struct _WINMM_OpenInfo { HWAVE handle; UINT req_device; WAVEFORMATEX *format; DWORD_PTR callback; DWORD_PTR cb_user; DWORD flags; BOOL reset; } WINMM_OpenInfo; typedef struct _WINMM_ControlDetails { HMIXEROBJ hmix; MIXERCONTROLDETAILS *details; DWORD flags; } WINMM_ControlDetails; typedef struct _WINMM_QueryInterfaceInfo { BOOL is_out; UINT index; WCHAR *str; UINT *len_bytes; } WINMM_QueryInterfaceInfo; static LRESULT WOD_Open(WINMM_OpenInfo *info); static LRESULT WOD_Close(HWAVEOUT hwave); static LRESULT WID_Open(WINMM_OpenInfo *info); static LRESULT WID_Close(HWAVEIN hwave); static MMRESULT WINMM_BeginPlaying(WINMM_Device *device); void WINMM_DeleteWaveform(void) { UINT i, j; if(g_devices_thread) CloseHandle(g_devices_thread); for(i = 0; i < g_outmmdevices_count; ++i){ WINMM_MMDevice *mmdevice = &g_out_mmdevices[i]; for(j = 0; j < MAX_DEVICES && mmdevice->devices[j]; ++j){ WINMM_Device *device = mmdevice->devices[j]; if(device->handle) CloseHandle(device->handle); device->lock.DebugInfo->Spare[0] = 0; DeleteCriticalSection(&device->lock); } if(mmdevice->volume) ISimpleAudioVolume_Release(mmdevice->volume); CoTaskMemFree(mmdevice->dev_id); mmdevice->lock.DebugInfo->Spare[0] = 0; DeleteCriticalSection(&mmdevice->lock); } for(i = 0; i < g_inmmdevices_count; ++i){ WINMM_MMDevice *mmdevice = &g_in_mmdevices[i]; for(j = 0; j < MAX_DEVICES && mmdevice->devices[j]; ++j){ WINMM_Device *device = mmdevice->devices[j]; if(device->handle) CloseHandle(device->handle); device->lock.DebugInfo->Spare[0] = 0; DeleteCriticalSection(&device->lock); } if(mmdevice->volume) ISimpleAudioVolume_Release(mmdevice->volume); CoTaskMemFree(mmdevice->dev_id); mmdevice->lock.DebugInfo->Spare[0] = 0; DeleteCriticalSection(&mmdevice->lock); } HeapFree(GetProcessHeap(), 0, g_out_mmdevices); HeapFree(GetProcessHeap(), 0, g_in_mmdevices); HeapFree(GetProcessHeap(), 0, g_device_handles); HeapFree(GetProcessHeap(), 0, g_handle_devices); DeleteCriticalSection(&g_devthread_lock); } static inline HWAVE WINMM_MakeHWAVE(UINT mmdevice, BOOL is_out, UINT device) { return ULongToHandle((1 << 15) | ((!!is_out) << 14) | (mmdevice << 8) | device); } static inline void WINMM_DecomposeHWAVE(HWAVE hwave, UINT *mmdevice_index, BOOL *is_out, UINT *device_index, UINT *junk) { ULONG32 l = HandleToULong(hwave); *device_index = l & 0xFF; *mmdevice_index = (l >> 8) & 0x3F; *is_out = (l >> 14) & 0x1; *junk = l >> 15; } static void WINMM_InitDevice(WINMM_Device *device) { InitializeCriticalSection(&device->lock); device->lock.DebugInfo->Spare[0] = (DWORD_PTR)(__FILE__ ": WINMM_Device.lock"); } static inline WINMM_MMDevice *read_map(WINMM_MMDevice **map, UINT index) { WINMM_MMDevice *ret; EnterCriticalSection(&g_devthread_lock); ret = map[index]; LeaveCriticalSection(&g_devthread_lock); return ret; } /* finds the first unused Device, marks it as "open", and returns * a pointer to the device * * IMPORTANT: it is the caller's responsibility to release the device's lock * on success */ static WINMM_Device *WINMM_FindUnusedDevice(WINMM_Device **devices, WINMM_MMDevice *parent, UINT internal_index, BOOL is_out) { UINT i; for(i = 0; i < MAX_DEVICES; ++i){ WINMM_Device *device = devices[i]; if(!device){ device = devices[i] = HeapAlloc(GetProcessHeap(), HEAP_ZERO_MEMORY, sizeof(WINMM_Device)); if(!device) return NULL; WINMM_InitDevice(device); EnterCriticalSection(&device->lock); }else EnterCriticalSection(&device->lock); if(!device->open){ device->handle = WINMM_MakeHWAVE(internal_index, is_out, i); device->parent = parent; device->open = TRUE; return device; } LeaveCriticalSection(&device->lock); } TRACE("All devices in use: mmdevice: %u\n", internal_index); return NULL; } static inline BOOL WINMM_ValidateAndLock(WINMM_Device *device) { if(!device) return FALSE; EnterCriticalSection(&device->lock); if(!device->open){ LeaveCriticalSection(&device->lock); return FALSE; } return TRUE; } static WINMM_Device *WINMM_GetDeviceFromHWAVE(HWAVE hwave) { WINMM_MMDevice *mmdevice; WINMM_Device *device; UINT mmdevice_index, device_index, junk; BOOL is_out; WINMM_DecomposeHWAVE(hwave, &mmdevice_index, &is_out, &device_index, &junk); if(junk != 0x1) return NULL; if(mmdevice_index == MAPPER_INDEX){ EnterCriticalSection(&g_devthread_lock); if(is_out) device = g_out_mapper_devices[device_index]; else device = g_in_mapper_devices[device_index]; LeaveCriticalSection(&g_devthread_lock); return device; } if(mmdevice_index >= (is_out ? g_outmmdevices_count : g_inmmdevices_count)) return NULL; if(is_out) mmdevice = &g_out_mmdevices[mmdevice_index]; else mmdevice = &g_in_mmdevices[mmdevice_index]; EnterCriticalSection(&mmdevice->lock); device = mmdevice->devices[device_index]; LeaveCriticalSection(&mmdevice->lock); return device; } /* Note: NotifyClient should never be called while holding the device lock * since the client may call wave* functions from within the callback. */ static inline void WINMM_NotifyClient(WINMM_CBInfo *info, WORD msg, DWORD_PTR param1, DWORD_PTR param2) { DriverCallback(info->callback, info->flags, (HDRVR)info->hwave, msg, info->user, param1, param2); } static MMRESULT hr2mmr(HRESULT hr) { switch(hr){ case S_OK: case AUDCLNT_E_NOT_STOPPED: return MMSYSERR_NOERROR; case AUDCLNT_E_UNSUPPORTED_FORMAT: return WAVERR_BADFORMAT; case AUDCLNT_E_DEVICE_IN_USE: return MMSYSERR_ALLOCATED; case AUDCLNT_E_ENDPOINT_CREATE_FAILED: return MMSYSERR_NOTENABLED; case E_OUTOFMEMORY: return MMSYSERR_NOMEM; case E_POINTER: case E_INVALIDARG: return MMSYSERR_INVALPARAM; case AUDCLNT_E_DEVICE_INVALIDATED: /* DSERR_BUFFERLOST */ default: return FAILED(hr) ? MMSYSERR_ERROR : MMSYSERR_NOERROR; } } static HRESULT WINMM_GetFriendlyName(IMMDevice *device, WCHAR *out, UINT outlen) { IPropertyStore *ps; PROPVARIANT var; HRESULT hr; hr = IMMDevice_OpenPropertyStore(device, STGM_READ, &ps); if(FAILED(hr)) return hr; PropVariantInit(&var); hr = IPropertyStore_GetValue(ps, (PROPERTYKEY*)&DEVPKEY_Device_FriendlyName, &var); if(FAILED(hr)){ IPropertyStore_Release(ps); return hr; } lstrcpynW(out, var.u.pwszVal, outlen); PropVariantClear(&var); IPropertyStore_Release(ps); return S_OK; } static HRESULT WINMM_TestFormat(IAudioClient *client, DWORD rate, DWORD depth, WORD channels) { WAVEFORMATEX fmt, *junk; HRESULT hr; fmt.wFormatTag = WAVE_FORMAT_PCM; fmt.nChannels = channels; fmt.nSamplesPerSec = rate; fmt.wBitsPerSample = depth; fmt.nBlockAlign = (channels * depth) / 8; fmt.nAvgBytesPerSec = rate * fmt.nBlockAlign; fmt.cbSize = 0; hr = IAudioClient_IsFormatSupported(client, AUDCLNT_SHAREMODE_SHARED, &fmt, &junk); if(SUCCEEDED(hr)) CoTaskMemFree(junk); return hr; } static struct _TestFormat { DWORD flag; DWORD rate; DWORD depth; WORD channels; } formats_to_test[] = { { WAVE_FORMAT_1M08, 11025, 8, 1 }, { WAVE_FORMAT_1M16, 11025, 16, 1 }, { WAVE_FORMAT_1S08, 11025, 8, 2 }, { WAVE_FORMAT_1S16, 11025, 16, 2 }, { WAVE_FORMAT_2M08, 22050, 8, 1 }, { WAVE_FORMAT_2M16, 22050, 16, 1 }, { WAVE_FORMAT_2S08, 22050, 8, 2 }, { WAVE_FORMAT_2S16, 22050, 16, 2 }, { WAVE_FORMAT_4M08, 44100, 8, 1 }, { WAVE_FORMAT_4M16, 44100, 16, 1 }, { WAVE_FORMAT_4S08, 44100, 8, 2 }, { WAVE_FORMAT_4S16, 44100, 16, 2 }, { WAVE_FORMAT_48M08, 48000, 8, 1 }, { WAVE_FORMAT_48M16, 48000, 16, 1 }, { WAVE_FORMAT_48S08, 48000, 8, 2 }, { WAVE_FORMAT_48S16, 48000, 16, 2 }, { WAVE_FORMAT_96M08, 96000, 8, 1 }, { WAVE_FORMAT_96M16, 96000, 16, 1 }, { WAVE_FORMAT_96S08, 96000, 8, 2 }, { WAVE_FORMAT_96S16, 96000, 16, 2 }, {0} }; static DWORD WINMM_GetSupportedFormats(IMMDevice *device) { DWORD flags = 0; HRESULT hr; struct _TestFormat *fmt; IAudioClient *client; hr = IMMDevice_Activate(device, &IID_IAudioClient, CLSCTX_INPROC_SERVER, NULL, (void**)&client); if(FAILED(hr)) return 0; for(fmt = formats_to_test; fmt->flag; ++fmt){ hr = WINMM_TestFormat(client, fmt->rate, fmt->depth, fmt->channels); if(hr == S_OK) flags |= fmt->flag; } IAudioClient_Release(client); return flags; } static HRESULT WINMM_InitMMDevice(EDataFlow flow, IMMDevice *device, WINMM_MMDevice *dev, UINT index) { HRESULT hr; dev->dataflow = flow; if(flow == eRender){ dev->out_caps.wMid = 0xFF; dev->out_caps.wPid = 0xFF; dev->out_caps.vDriverVersion = 0x00010001; dev->out_caps.dwFormats = WINMM_GetSupportedFormats(device); dev->out_caps.wReserved1 = 0; dev->out_caps.dwSupport = WAVECAPS_LRVOLUME | WAVECAPS_VOLUME | WAVECAPS_SAMPLEACCURATE; dev->out_caps.wChannels = 2; dev->out_caps.szPname[0] = '\0'; hr = WINMM_GetFriendlyName(device, dev->out_caps.szPname, sizeof(dev->out_caps.szPname) / sizeof(*dev->out_caps.szPname)); if(FAILED(hr)) return hr; }else{ dev->in_caps.wMid = 0xFF; dev->in_caps.wPid = 0xFF; dev->in_caps.vDriverVersion = 0x00010001; dev->in_caps.dwFormats = WINMM_GetSupportedFormats(device); dev->in_caps.wReserved1 = 0; dev->in_caps.wChannels = 2; dev->in_caps.szPname[0] = '\0'; hr = WINMM_GetFriendlyName(device, dev->in_caps.szPname, sizeof(dev->in_caps.szPname) / sizeof(*dev->in_caps.szPname)); if(FAILED(hr)) return hr; } hr = IMMDevice_GetId(device, &dev->dev_id); if(FAILED(hr)) return hr; CoCreateGuid(&dev->session); dev->index = index; InitializeCriticalSection(&dev->lock); dev->lock.DebugInfo->Spare[0] = (DWORD_PTR)(__FILE__ ": WINMM_Device.lock"); return S_OK; } static HRESULT WINMM_EnumDevices(WINMM_MMDevice **devices, WINMM_MMDevice ***map, UINT *devcount, EDataFlow flow, IMMDeviceEnumerator *devenum) { IMMDeviceCollection *devcoll; HRESULT hr; hr = IMMDeviceEnumerator_EnumAudioEndpoints(devenum, flow, DEVICE_STATE_ACTIVE, &devcoll); if(FAILED(hr)) return hr; hr = IMMDeviceCollection_GetCount(devcoll, devcount); if(FAILED(hr)){ IMMDeviceCollection_Release(devcoll); return hr; } if(*devcount > 0){ UINT n, count = 1; IMMDevice *def_dev = NULL; *devices = HeapAlloc(GetProcessHeap(), HEAP_ZERO_MEMORY, sizeof(WINMM_MMDevice) * (*devcount)); if(!*devices){ IMMDeviceCollection_Release(devcoll); return E_OUTOFMEMORY; } *map = HeapAlloc(GetProcessHeap(), HEAP_ZERO_MEMORY, sizeof(WINMM_MMDevice *) * (*devcount)); if(!*map){ IMMDeviceCollection_Release(devcoll); HeapFree(GetProcessHeap(), 0, *devices); return E_OUTOFMEMORY; } /* make sure that device 0 is the default device */ IMMDeviceEnumerator_GetDefaultAudioEndpoint(devenum, flow, eConsole, &def_dev); for(n = 0; n < *devcount; ++n){ IMMDevice *device; hr = IMMDeviceCollection_Item(devcoll, n, &device); if(SUCCEEDED(hr)){ WINMM_InitMMDevice(flow, device, &(*devices)[n], n); if(device == def_dev) (*map)[0] = &(*devices)[n]; else{ (*map)[count] = &(*devices)[n]; ++count; } IMMDevice_Release(device); } } IMMDevice_Release(def_dev); *devcount = count; } IMMDeviceCollection_Release(devcoll); return S_OK; } static HRESULT WINAPI notif_QueryInterface(IMMNotificationClient *iface, const GUID *riid, void **obj) { ERR("Unexpected QueryInterface call: %s\n", wine_dbgstr_guid(riid)); return E_NOINTERFACE; } static ULONG WINAPI notif_AddRef(IMMNotificationClient *iface) { return 2; } static ULONG WINAPI notif_Release(IMMNotificationClient *iface) { return 1; } static HRESULT WINAPI notif_OnDeviceStateChanged(IMMNotificationClient *iface, const WCHAR *device_id, DWORD new_state) { TRACE("Ignoring OnDeviceStateChanged callback\n"); return S_OK; } static HRESULT WINAPI notif_OnDeviceAdded(IMMNotificationClient *iface, const WCHAR *device_id) { TRACE("Ignoring OnDeviceAdded callback\n"); return S_OK; } static HRESULT WINAPI notif_OnDeviceRemoved(IMMNotificationClient *iface, const WCHAR *device_id) { TRACE("Ignoring OnDeviceRemoved callback\n"); return S_OK; } static HRESULT update_mapping(WINMM_MMDevice ***map, UINT count, const WCHAR *default_id) { WINMM_MMDevice *prev; UINT i; prev = (*map)[0]; for(i = 0; i < count; ++i){ WINMM_MMDevice *tmp; if(!lstrcmpW((*map)[i]->dev_id, default_id)){ (*map)[0] = (*map)[i]; (*map)[i] = prev; return S_OK; } tmp = (*map)[i]; (*map)[i] = prev; prev = tmp; } WARN("Couldn't find new default device! Rearranged map for no reason.\n"); (*map)[0] = prev; return S_FALSE; } static HRESULT reroute_mapper_device(WINMM_Device *device, BOOL is_out) { WINMM_OpenInfo info; BOOL stopped; MMRESULT mr; HRESULT hr; UINT64 clock_freq, clock_pos; TRACE("rerouting device %p\n", device->handle); EnterCriticalSection(&device->lock); if(!device->open || device->acm_handle){ /* Windows 7 doesn't re-route ACM devices, so we don't either. * Seems to be because of the data waveXxxPrepareHeader allocates. */ LeaveCriticalSection(&device->lock); return S_FALSE; } stopped = device->stopped; info.handle = 0; info.req_device = WAVE_MAPPER; info.format = device->orig_fmt; info.callback = device->cb_info.callback; info.cb_user = device->cb_info.user; /* We have to use direct here so that we don't suddenly introduce ACM * into a playing stream that hasn't been Prepared for it */ info.flags = (device->cb_info.flags << 16) | WAVE_FORMAT_DIRECT_QUERY; info.reset = FALSE; if(is_out) mr = WOD_Open(&info); else mr = WID_Open(&info); if(mr != MMSYSERR_NOERROR){ TRACE("New default device doesn't support this stream: %p\n", device->handle); LeaveCriticalSection(&device->lock); return S_FALSE; } hr = IAudioClient_Stop(device->client); if(FAILED(hr)) WARN("Stop failed: %08x\n", hr); hr = IAudioClock_GetFrequency(device->clock, &clock_freq); if(FAILED(hr)){ WARN("GetFrequency failed: %08x\n", hr); LeaveCriticalSection(&device->lock); return hr; } hr = IAudioClock_GetPosition(device->clock, &clock_pos, NULL); if(FAILED(hr)){ WARN("GetPosition failed: %08x\n", hr); LeaveCriticalSection(&device->lock); return hr; } device->remainder_frames = MulDiv(clock_pos, device->samples_per_sec, clock_freq) - device->last_clock_pos; info.handle = device->handle; info.flags = (device->cb_info.flags << 16) | WAVE_FORMAT_DIRECT; if(is_out){ WOD_Close((HWAVEOUT)device->handle); device->parent = read_map(g_out_map, 0); mr = WOD_Open(&info); }else{ WID_Close((HWAVEIN)device->handle); device->parent = read_map(g_in_map, 0); mr = WID_Open(&info); } if(mr != MMSYSERR_NOERROR){ ERR("Opening new default device failed! %u\n", mr); LeaveCriticalSection(&device->lock); return E_FAIL; } HeapFree(GetProcessHeap(), 0, info.format); if(!stopped) WINMM_BeginPlaying(device); LeaveCriticalSection(&device->lock); return S_OK; } static HRESULT WINAPI notif_OnDefaultDeviceChanged(IMMNotificationClient *iface, EDataFlow flow, ERole role, const WCHAR *device_id) { UINT i; TRACE("%u %u %s\n", flow, role, wine_dbgstr_w(device_id)); if(role != eConsole) return S_OK; EnterCriticalSection(&g_devthread_lock); if(flow == eRender) update_mapping(&g_out_map, g_outmmdevices_count, device_id); else update_mapping(&g_in_map, g_inmmdevices_count, device_id); for(i = 0; i < MAX_DEVICES && g_out_mapper_devices[i]; ++i) reroute_mapper_device(g_out_mapper_devices[i], TRUE); for(i = 0; i < MAX_DEVICES && g_in_mapper_devices[i]; ++i) reroute_mapper_device(g_in_mapper_devices[i], FALSE); LeaveCriticalSection(&g_devthread_lock); return S_OK; } static HRESULT WINAPI notif_OnPropertyValueChanged(IMMNotificationClient *iface, const WCHAR *device_id, const PROPERTYKEY key) { TRACE("Ignoring OnPropertyValueChanged callback\n"); return S_OK; } static IMMNotificationClientVtbl g_notif_vtbl = { notif_QueryInterface, notif_AddRef, notif_Release, notif_OnDeviceStateChanged, notif_OnDeviceAdded, notif_OnDeviceRemoved, notif_OnDefaultDeviceChanged, notif_OnPropertyValueChanged }; static IMMNotificationClient g_notif = { &g_notif_vtbl }; static HRESULT WINMM_InitMMDevices(void) { HRESULT hr, init_hr; IMMDeviceEnumerator *devenum = NULL; if(g_outmmdevices_count || g_inmmdevices_count) return S_FALSE; init_hr = CoInitialize(NULL); hr = CoCreateInstance(&CLSID_MMDeviceEnumerator, NULL, CLSCTX_INPROC_SERVER, &IID_IMMDeviceEnumerator, (void**)&devenum); if(FAILED(hr)) goto exit; hr = IMMDeviceEnumerator_RegisterEndpointNotificationCallback(devenum, &g_notif); if(FAILED(hr)) WARN("RegisterEndpointNotificationCallback failed: %08x\n", hr); hr = WINMM_EnumDevices(&g_out_mmdevices, &g_out_map, &g_outmmdevices_count, eRender, devenum); if(FAILED(hr)){ g_outmmdevices_count = 0; g_inmmdevices_count = 0; goto exit; } hr = WINMM_EnumDevices(&g_in_mmdevices, &g_in_map, &g_inmmdevices_count, eCapture, devenum); if(FAILED(hr)){ g_inmmdevices_count = 0; goto exit; } exit: if(devenum) IMMDeviceEnumerator_Release(devenum); if(SUCCEEDED(init_hr)) CoUninitialize(); return hr; } static inline BOOL WINMM_IsMapper(UINT device) { return (device == WAVE_MAPPER || device == (UINT16)WAVE_MAPPER); } static MMRESULT WINMM_TryDeviceMapping(WINMM_Device *device, WAVEFORMATEX *fmt, WORD channels, DWORD freq, DWORD bits_per_samp, BOOL is_query, BOOL is_out) { WAVEFORMATEX target, *closer_fmt = NULL; HRESULT hr; MMRESULT mr; TRACE("format: %u, channels: %u, sample rate: %u, bit depth: %u\n", WAVE_FORMAT_PCM, channels, freq, bits_per_samp); target.wFormatTag = WAVE_FORMAT_PCM; target.nChannels = channels; target.nSamplesPerSec = freq; target.wBitsPerSample = bits_per_samp; target.nBlockAlign = (target.nChannels * target.wBitsPerSample) / 8; target.nAvgBytesPerSec = target.nSamplesPerSec * target.nBlockAlign; target.cbSize = 0; hr = IAudioClient_IsFormatSupported(device->client, AUDCLNT_SHAREMODE_SHARED, &target, &closer_fmt); CoTaskMemFree(closer_fmt); if(hr != S_OK) return WAVERR_BADFORMAT; /* device supports our target format, so see if MSACM can * do the conversion */ if(is_out) mr = acmStreamOpen(&device->acm_handle, NULL, fmt, &target, NULL, 0, 0, 0); else mr = acmStreamOpen(&device->acm_handle, NULL, &target, fmt, NULL, 0, 0, 0); if(mr != MMSYSERR_NOERROR) return mr; /* yes it can. initialize the audioclient and return success */ if(is_query){ acmStreamClose(device->acm_handle, 0); device->acm_handle = NULL; return MMSYSERR_NOERROR; } hr = IAudioClient_Initialize(device->client, AUDCLNT_SHAREMODE_SHARED, AUDCLNT_STREAMFLAGS_EVENTCALLBACK | AUDCLNT_STREAMFLAGS_NOPERSIST, AC_BUFLEN, 0, &target, &device->parent->session); if(hr != S_OK){ WARN("Initialize failed: %08x\n", hr); acmStreamClose(device->acm_handle, 0); device->acm_handle = NULL; return MMSYSERR_ERROR; } device->bytes_per_frame = target.nBlockAlign; device->samples_per_sec = target.nSamplesPerSec; TRACE("Success!\n"); return MMSYSERR_NOERROR; } static MMRESULT WINMM_MapDevice(WINMM_Device *device, BOOL is_query, BOOL is_out) { MMRESULT mr; WAVEFORMATEXTENSIBLE *fmtex = (WAVEFORMATEXTENSIBLE*)device->orig_fmt; TRACE("(%p, %u)\n", device, is_out); /* set up the ACM stream */ if(device->orig_fmt->wFormatTag != WAVE_FORMAT_PCM && !(device->orig_fmt->wFormatTag == WAVE_FORMAT_EXTENSIBLE && IsEqualGUID(&fmtex->SubFormat, &KSDATAFORMAT_SUBTYPE_PCM))){ /* convert to PCM format if it's not already */ mr = WINMM_TryDeviceMapping(device, device->orig_fmt, device->orig_fmt->nChannels, device->orig_fmt->nSamplesPerSec, 16, is_query, is_out); if(mr == MMSYSERR_NOERROR) return mr; mr = WINMM_TryDeviceMapping(device, device->orig_fmt, device->orig_fmt->nChannels, device->orig_fmt->nSamplesPerSec, 8, is_query, is_out); if(mr == MMSYSERR_NOERROR) return mr; }else{ WORD channels; /* first try just changing bit depth and channels */ channels = device->orig_fmt->nChannels; mr = WINMM_TryDeviceMapping(device, device->orig_fmt, channels, device->orig_fmt->nSamplesPerSec, 16, is_query, is_out); if(mr == MMSYSERR_NOERROR) return mr; mr = WINMM_TryDeviceMapping(device, device->orig_fmt, channels, device->orig_fmt->nSamplesPerSec, 8, is_query, is_out); if(mr == MMSYSERR_NOERROR) return mr; channels = (channels == 2) ? 1 : 2; mr = WINMM_TryDeviceMapping(device, device->orig_fmt, channels, device->orig_fmt->nSamplesPerSec, 16, is_query, is_out); if(mr == MMSYSERR_NOERROR) return mr; mr = WINMM_TryDeviceMapping(device, device->orig_fmt, channels, device->orig_fmt->nSamplesPerSec, 8, is_query, is_out); if(mr == MMSYSERR_NOERROR) return mr; /* that didn't work, so now try different sample rates */ channels = device->orig_fmt->nChannels; mr = WINMM_TryDeviceMapping(device, device->orig_fmt, channels, 96000, 16, is_query, is_out); if(mr == MMSYSERR_NOERROR) return mr; mr = WINMM_TryDeviceMapping(device, device->orig_fmt, channels, 48000, 16, is_query, is_out); if(mr == MMSYSERR_NOERROR) return mr; mr = WINMM_TryDeviceMapping(device, device->orig_fmt, channels, 44100, 16, is_query, is_out); if(mr == MMSYSERR_NOERROR) return mr; mr = WINMM_TryDeviceMapping(device, device->orig_fmt, channels, 22050, 16, is_query, is_out); if(mr == MMSYSERR_NOERROR) return mr; mr = WINMM_TryDeviceMapping(device, device->orig_fmt, channels, 11025, 16, is_query, is_out); if(mr == MMSYSERR_NOERROR) return mr; channels = (channels == 2) ? 1 : 2; mr = WINMM_TryDeviceMapping(device, device->orig_fmt, channels, 96000, 16, is_query, is_out); if(mr == MMSYSERR_NOERROR) return mr; mr = WINMM_TryDeviceMapping(device, device->orig_fmt, channels, 48000, 16, is_query, is_out); if(mr == MMSYSERR_NOERROR) return mr; mr = WINMM_TryDeviceMapping(device, device->orig_fmt, channels, 44100, 16, is_query, is_out); if(mr == MMSYSERR_NOERROR) return mr; mr = WINMM_TryDeviceMapping(device, device->orig_fmt, channels, 22050, 16, is_query, is_out); if(mr == MMSYSERR_NOERROR) return mr; mr = WINMM_TryDeviceMapping(device, device->orig_fmt, channels, 11025, 16, is_query, is_out); if(mr == MMSYSERR_NOERROR) return mr; channels = device->orig_fmt->nChannels; mr = WINMM_TryDeviceMapping(device, device->orig_fmt, channels, 96000, 8, is_query, is_out); if(mr == MMSYSERR_NOERROR) return mr; mr = WINMM_TryDeviceMapping(device, device->orig_fmt, channels, 48000, 8, is_query, is_out); if(mr == MMSYSERR_NOERROR) return mr; mr = WINMM_TryDeviceMapping(device, device->orig_fmt, channels, 44100, 8, is_query, is_out); if(mr == MMSYSERR_NOERROR) return mr; mr = WINMM_TryDeviceMapping(device, device->orig_fmt, channels, 22050, 8, is_query, is_out); if(mr == MMSYSERR_NOERROR) return mr; mr = WINMM_TryDeviceMapping(device, device->orig_fmt, channels, 11025, 8, is_query, is_out); if(mr == MMSYSERR_NOERROR) return mr; channels = (channels == 2) ? 1 : 2; mr = WINMM_TryDeviceMapping(device, device->orig_fmt, channels, 96000, 8, is_query, is_out); if(mr == MMSYSERR_NOERROR) return mr; mr = WINMM_TryDeviceMapping(device, device->orig_fmt, channels, 48000, 8, is_query, is_out); if(mr == MMSYSERR_NOERROR) return mr; mr = WINMM_TryDeviceMapping(device, device->orig_fmt, channels, 44100, 8, is_query, is_out); if(mr == MMSYSERR_NOERROR) return mr; mr = WINMM_TryDeviceMapping(device, device->orig_fmt, channels, 22050, 8, is_query, is_out); if(mr == MMSYSERR_NOERROR) return mr; mr = WINMM_TryDeviceMapping(device, device->orig_fmt, channels, 11025, 8, is_query, is_out); if(mr == MMSYSERR_NOERROR) return mr; } WARN("Unable to find compatible device!\n"); return WAVERR_BADFORMAT; } static LRESULT WINMM_OpenDevice(WINMM_Device *device, WINMM_OpenInfo *info, BOOL is_out) { LRESULT ret = MMSYSERR_NOMEM; HRESULT hr; hr = IMMDeviceEnumerator_GetDevice(g_devenum, device->parent->dev_id, &device->device); if(FAILED(hr)){ WARN("Device %s (%s) unavailable: %08x\n", wine_dbgstr_w(device->parent->dev_id), wine_dbgstr_w(device->parent->out_caps.szPname), hr); ret = MMSYSERR_NODRIVER; goto error; } /* this is where winexyz.drv opens the audio device */ hr = IMMDevice_Activate(device->device, &IID_IAudioClient, CLSCTX_INPROC_SERVER, NULL, (void**)&device->client); if(FAILED(hr)){ WARN("Activate failed: %08x\n", hr); ret = hr2mmr(hr); if(ret == MMSYSERR_ERROR) ret = MMSYSERR_NOTENABLED; goto error; } if(info->format->wFormatTag == WAVE_FORMAT_PCM){ /* we aren't guaranteed that the struct in lpFormat is a full * WAVEFORMATEX struct, which IAC::IsFormatSupported requires */ device->orig_fmt = HeapAlloc(GetProcessHeap(), 0, sizeof(WAVEFORMATEX)); memcpy(device->orig_fmt, info->format, sizeof(PCMWAVEFORMAT)); device->orig_fmt->cbSize = 0; if(device->orig_fmt->wBitsPerSample % 8 != 0){ WARN("Fixing bad wBitsPerSample (%u)\n", device->orig_fmt->wBitsPerSample); device->orig_fmt->wBitsPerSample = (device->orig_fmt->wBitsPerSample + 7) & ~7; } /* winmm ignores broken blockalign and avgbytes */ if(device->orig_fmt->nBlockAlign != device->orig_fmt->nChannels * device->orig_fmt->wBitsPerSample/8){ WARN("Fixing bad nBlockAlign (%u)\n", device->orig_fmt->nBlockAlign); device->orig_fmt->nBlockAlign = device->orig_fmt->nChannels * device->orig_fmt->wBitsPerSample/8; } if (device->orig_fmt->nAvgBytesPerSec != device->orig_fmt->nSamplesPerSec * device->orig_fmt->nBlockAlign) { WARN("Fixing bad nAvgBytesPerSec (%u)\n", device->orig_fmt->nAvgBytesPerSec); device->orig_fmt->nAvgBytesPerSec = device->orig_fmt->nSamplesPerSec * device->orig_fmt->nBlockAlign; } }else{ device->orig_fmt = HeapAlloc(GetProcessHeap(), 0, sizeof(WAVEFORMATEX) + info->format->cbSize); memcpy(device->orig_fmt, info->format, sizeof(WAVEFORMATEX) + info->format->cbSize); } if(info->flags & WAVE_FORMAT_QUERY){ WAVEFORMATEX *closer_fmt = NULL; hr = IAudioClient_IsFormatSupported(device->client, AUDCLNT_SHAREMODE_SHARED, device->orig_fmt, &closer_fmt); CoTaskMemFree(closer_fmt); if((hr == S_FALSE || hr == AUDCLNT_E_UNSUPPORTED_FORMAT) && !(info->flags & WAVE_FORMAT_DIRECT)) ret = WINMM_MapDevice(device, TRUE, is_out); else ret = hr == S_FALSE ? WAVERR_BADFORMAT : hr2mmr(hr); goto error; } hr = IAudioClient_Initialize(device->client, AUDCLNT_SHAREMODE_SHARED, AUDCLNT_STREAMFLAGS_EVENTCALLBACK | AUDCLNT_STREAMFLAGS_NOPERSIST, AC_BUFLEN, 0, device->orig_fmt, &device->parent->session); if(FAILED(hr)){ if(hr == AUDCLNT_E_UNSUPPORTED_FORMAT && !(info->flags & WAVE_FORMAT_DIRECT)){ ret = WINMM_MapDevice(device, FALSE, is_out); if(ret != MMSYSERR_NOERROR || info->flags & WAVE_FORMAT_QUERY) goto error; }else{ WARN("Initialize failed: %08x\n", hr); ret = hr2mmr(hr); goto error; } }else{ device->bytes_per_frame = device->orig_fmt->nBlockAlign; device->samples_per_sec = device->orig_fmt->nSamplesPerSec; } hr = IAudioClient_GetService(device->client, &IID_IAudioClock, (void**)&device->clock); if(FAILED(hr)){ WARN("GetService failed: %08x\n", hr); goto error; } if(!device->event){ device->event = CreateEventW(NULL, FALSE, FALSE, NULL); if(!device->event){ WARN("CreateEvent failed: %08x\n", hr); goto error; } /* As the devices thread is waiting on g_device_handles, it can * only be modified from within this same thread. */ if(g_device_handles){ g_device_handles = HeapReAlloc(GetProcessHeap(), 0, g_device_handles, sizeof(HANDLE) * (g_devhandle_count + 1)); g_handle_devices = HeapReAlloc(GetProcessHeap(), 0, g_handle_devices, sizeof(WINMM_Device *) * (g_devhandle_count + 1)); }else{ g_device_handles = HeapAlloc(GetProcessHeap(), 0, sizeof(HANDLE)); g_handle_devices = HeapAlloc(GetProcessHeap(), 0, sizeof(WINMM_Device *)); } g_device_handles[g_devhandle_count] = device->event; g_handle_devices[g_devhandle_count] = device; ++g_devhandle_count; } hr = IAudioClient_SetEventHandle(device->client, device->event); if(FAILED(hr)){ WARN("SetEventHandle failed: %08x\n", hr); goto error; } if(info->reset){ device->played_frames = 0; device->ofs_bytes = 0; device->loop_counter = 0; device->first = device->last = device->playing = device->loop_start = NULL; } device->stopped = TRUE; device->last_clock_pos = 0; device->cb_info.flags = HIWORD(info->flags & CALLBACK_TYPEMASK); device->cb_info.callback = info->callback; device->cb_info.user = info->cb_user; device->cb_info.hwave = device->handle; info->handle = device->handle; return MMSYSERR_NOERROR; error: if(device->client){ IAudioClient_Release(device->client); device->client = NULL; } if(device->device){ IMMDevice_Release(device->device); device->device = NULL; } return ret; } static LRESULT WOD_Open(WINMM_OpenInfo *info) { WINMM_Device *device; LRESULT ret = MMSYSERR_ERROR; HRESULT hr; if(info->handle != 0){ device = WINMM_GetDeviceFromHWAVE(info->handle); if(!device){ WARN("Unexpected! Invalid info->handle given: %p\n", info->handle); return MMSYSERR_ERROR; } EnterCriticalSection(&device->lock); device->open = TRUE; }else{ CRITICAL_SECTION *lock; UINT internal_index; WINMM_Device **devices; WINMM_MMDevice *mmdevice; if(WINMM_IsMapper(info->req_device)){ if (g_outmmdevices_count == 0) return MMSYSERR_BADDEVICEID; devices = g_out_mapper_devices; mmdevice = read_map(g_out_map, 0); lock = &g_devthread_lock; internal_index = MAPPER_INDEX; }else{ if(info->req_device >= g_outmmdevices_count) return MMSYSERR_BADDEVICEID; mmdevice = read_map(g_out_map, info->req_device); if(!mmdevice->out_caps.szPname[0]) return MMSYSERR_NOTENABLED; devices = mmdevice->devices; lock = &mmdevice->lock; internal_index = mmdevice->index; } EnterCriticalSection(lock); device = WINMM_FindUnusedDevice(devices, mmdevice, internal_index, TRUE); if(!device){ LeaveCriticalSection(lock); return MMSYSERR_ALLOCATED; } LeaveCriticalSection(lock); } ret = WINMM_OpenDevice(device, info, TRUE); if((info->flags & WAVE_FORMAT_QUERY) || ret != MMSYSERR_NOERROR) goto error; ret = MMSYSERR_ERROR; hr = IAudioClient_GetService(device->client, &IID_IAudioRenderClient, (void**)&device->render); if(FAILED(hr)){ ERR("GetService failed: %08x\n", hr); goto error; } hr = IAudioClient_GetService(device->client, &IID_IAudioStreamVolume, (void**)&device->volume); if(FAILED(hr)){ ERR("GetService failed: %08x\n", hr); goto error; } LeaveCriticalSection(&device->lock); return MMSYSERR_NOERROR; error: if(device->device){ IMMDevice_Release(device->device); device->device = NULL; } if(device->client){ IAudioClient_Release(device->client); device->client = NULL; } if(device->render){ IAudioRenderClient_Release(device->render); device->render = NULL; } if(device->volume){ IAudioStreamVolume_Release(device->volume); device->volume = NULL; } if(device->clock){ IAudioClock_Release(device->clock); device->clock = NULL; } device->open = FALSE; LeaveCriticalSection(&device->lock); return ret; } static LRESULT WID_Open(WINMM_OpenInfo *info) { WINMM_Device *device, **devices; WINMM_MMDevice *mmdevice; UINT internal_index; CRITICAL_SECTION *lock; LRESULT ret = MMSYSERR_ERROR; HRESULT hr; if(WINMM_IsMapper(info->req_device)){ if (g_inmmdevices_count == 0) return MMSYSERR_BADDEVICEID; devices = g_in_mapper_devices; mmdevice = read_map(g_in_map, 0); lock = &g_devthread_lock; internal_index = MAPPER_INDEX; }else{ if(info->req_device >= g_inmmdevices_count) return MMSYSERR_BADDEVICEID; mmdevice = read_map(g_in_map, info->req_device); if(!mmdevice->in_caps.szPname[0]) return MMSYSERR_NOTENABLED; devices = mmdevice->devices; lock = &mmdevice->lock; internal_index = mmdevice->index; } EnterCriticalSection(lock); device = WINMM_FindUnusedDevice(devices, mmdevice, internal_index, FALSE); if(!device){ LeaveCriticalSection(lock); return MMSYSERR_ALLOCATED; } LeaveCriticalSection(lock); ret = WINMM_OpenDevice(device, info, FALSE); if((info->flags & WAVE_FORMAT_QUERY) || ret != MMSYSERR_NOERROR) goto error; ret = MMSYSERR_ERROR; hr = IAudioClient_GetService(device->client, &IID_IAudioCaptureClient, (void**)&device->capture); if(FAILED(hr)){ WARN("GetService failed: %08x\n", hr); goto error; } LeaveCriticalSection(&device->lock); return MMSYSERR_NOERROR; error: if(device->device){ IMMDevice_Release(device->device); device->device = NULL; } if(device->client){ IAudioClient_Release(device->client); device->client = NULL; } if(device->capture){ IAudioCaptureClient_Release(device->capture); device->capture = NULL; } if(device->clock){ IAudioClock_Release(device->clock); device->clock = NULL; } device->open = FALSE; LeaveCriticalSection(&device->lock); return ret; } static HRESULT WINMM_CloseDevice(WINMM_Device *device) { device->open = FALSE; if(!device->stopped){ IAudioClient_Stop(device->client); device->stopped = TRUE; } if(device->acm_handle){ acmStreamClose(device->acm_handle, 0); device->acm_handle = NULL; } IMMDevice_Release(device->device); device->device = NULL; IAudioClient_Release(device->client); device->client = NULL; IAudioClock_Release(device->clock); device->clock = NULL; HeapFree(GetProcessHeap(), 0, device->orig_fmt); return S_OK; } static LRESULT WOD_Close(HWAVEOUT hwave) { WINMM_Device *device = WINMM_GetDeviceFromHWAVE((HWAVE)hwave); TRACE("(%p)\n", hwave); if(!WINMM_ValidateAndLock(device)) return MMSYSERR_INVALHANDLE; WINMM_CloseDevice(device); IAudioRenderClient_Release(device->render); device->render = NULL; IAudioStreamVolume_Release(device->volume); device->volume = NULL; LeaveCriticalSection(&device->lock); return MMSYSERR_NOERROR; } static LRESULT WID_Close(HWAVEIN hwave) { WINMM_Device *device = WINMM_GetDeviceFromHWAVE((HWAVE)hwave); TRACE("(%p)\n", hwave); if(!WINMM_ValidateAndLock(device)) return MMSYSERR_INVALHANDLE; WINMM_CloseDevice(device); IAudioCaptureClient_Release(device->capture); device->capture = NULL; LeaveCriticalSection(&device->lock); return MMSYSERR_NOERROR; } static DWORD WINMM_FixedBufferLen(DWORD length, WINMM_Device *device) { return length - length % device->bytes_per_frame; } static LRESULT WINMM_PrepareHeader(HWAVE hwave, WAVEHDR *header) { WINMM_Device *device = WINMM_GetDeviceFromHWAVE(hwave); TRACE("(%p, %p)\n", hwave, header); if(!WINMM_ValidateAndLock(device)) return MMSYSERR_INVALHANDLE; if(device->render && device->acm_handle){ ACMSTREAMHEADER *ash; DWORD size; MMRESULT mr; mr = acmStreamSize(device->acm_handle, header->dwBufferLength, &size, ACM_STREAMSIZEF_SOURCE); if(mr != MMSYSERR_NOERROR){ LeaveCriticalSection(&device->lock); return mr; } ash = HeapAlloc(GetProcessHeap(), 0, sizeof(ACMSTREAMHEADER) + size); if(!ash){ LeaveCriticalSection(&device->lock); return MMSYSERR_NOMEM; } ash->cbStruct = sizeof(*ash); ash->fdwStatus = 0; ash->dwUser = (DWORD_PTR)header; ash->pbSrc = (BYTE*)header->lpData; ash->cbSrcLength = header->dwBufferLength; ash->dwSrcUser = header->dwUser; ash->pbDst = (BYTE*)ash + sizeof(ACMSTREAMHEADER); ash->cbDstLength = size; ash->dwDstUser = 0; mr = acmStreamPrepareHeader(device->acm_handle, ash, 0); if(mr != MMSYSERR_NOERROR){ HeapFree(GetProcessHeap(), 0, ash); LeaveCriticalSection(&device->lock); return mr; } header->reserved = (DWORD_PTR)ash; } LeaveCriticalSection(&device->lock); header->dwFlags |= WHDR_PREPARED; header->dwFlags &= ~(WHDR_DONE|WHDR_INQUEUE); /* flags cleared since w2k */ return MMSYSERR_NOERROR; } static LRESULT WINMM_UnprepareHeader(HWAVE hwave, WAVEHDR *header) { WINMM_Device *device = WINMM_GetDeviceFromHWAVE(hwave); TRACE("(%p, %p)\n", hwave, header); if(!WINMM_ValidateAndLock(device)) return MMSYSERR_INVALHANDLE; if(device->render && device->acm_handle){ ACMSTREAMHEADER *ash = (ACMSTREAMHEADER*)header->reserved; acmStreamUnprepareHeader(device->acm_handle, ash, 0); HeapFree(GetProcessHeap(), 0, ash); } LeaveCriticalSection(&device->lock); header->dwFlags &= ~WHDR_PREPARED; return MMSYSERR_NOERROR; } static UINT32 WINMM_HeaderLenBytes(WINMM_Device *device, WAVEHDR *header) { if(device->acm_handle){ ACMSTREAMHEADER *ash = (ACMSTREAMHEADER*)header->reserved; return WINMM_FixedBufferLen(ash->cbDstLengthUsed, device); } return WINMM_FixedBufferLen(header->dwBufferLength, device); } static UINT32 WINMM_HeaderLenFrames(WINMM_Device *device, WAVEHDR *header) { return WINMM_HeaderLenBytes(device, header) / device->bytes_per_frame; } static WAVEHDR *WOD_MarkDoneHeaders(WINMM_Device *device) { HRESULT hr; WAVEHDR *first = device->first, *queue = first, *last = NULL; UINT64 clock_freq, clock_pos, clock_frames; UINT32 nloops, queue_frames = 0; hr = IAudioClock_GetFrequency(device->clock, &clock_freq); if(FAILED(hr)){ WARN("GetFrequency failed: %08x\n", hr); return NULL; } hr = IAudioClock_GetPosition(device->clock, &clock_pos, NULL); if(FAILED(hr)){ WARN("GetPosition failed: %08x\n", hr); return NULL; } clock_frames = (clock_pos * device->samples_per_sec) / clock_freq; nloops = device->loop_counter; while(queue && (queue_frames += WINMM_HeaderLenFrames(device, queue)) <= clock_frames - device->last_clock_pos + device->remainder_frames){ if(!nloops){ last = queue; device->last_clock_pos += queue_frames; device->remainder_frames = 0; queue_frames = 0; queue = device->first = queue->lpNext; }else{ if(queue->dwFlags & WHDR_BEGINLOOP){ if(queue->dwFlags & WHDR_ENDLOOP) --nloops; else queue = queue->lpNext; }else if(queue->dwFlags & WHDR_ENDLOOP){ queue = device->loop_start; --nloops; } } } if(last){ last->lpNext = NULL; return first; }else return NULL; } static void WOD_PushData(WINMM_Device *device) { WINMM_CBInfo cb_info; HRESULT hr; UINT32 pad, bufsize, avail_frames, queue_frames, written, ofs; UINT32 queue_bytes, nloops; BYTE *data; WAVEHDR *queue, *first = NULL; TRACE("(%p)\n", device->handle); EnterCriticalSection(&device->lock); if(!device->device) goto exit; if(!device->first){ if (device->stopped) goto exit; device->stopped = TRUE; device->last_clock_pos = 0; IAudioClient_Stop(device->client); IAudioClient_Reset(device->client); goto exit; } hr = IAudioClient_GetBufferSize(device->client, &bufsize); if(FAILED(hr)){ WARN("GetBufferSize failed: %08x\n", hr); goto exit; } hr = IAudioClient_GetCurrentPadding(device->client, &pad); if(FAILED(hr)){ WARN("GetCurrentPadding failed: %08x\n", hr); goto exit; } first = WOD_MarkDoneHeaders(device); /* determine which is larger between the available buffer size and * the amount of data left in the queue */ avail_frames = bufsize - pad; queue = device->playing; ofs = device->ofs_bytes; queue_frames = 0; nloops = 0; while(queue && queue_frames < avail_frames){ queue_bytes = WINMM_HeaderLenBytes(device, queue); queue_frames += (queue_bytes - ofs) / device->bytes_per_frame; ofs = 0; if(queue->dwFlags & WHDR_ENDLOOP && nloops < device->loop_counter){ queue = device->loop_start; ++nloops; }else queue = queue->lpNext; } if(queue_frames < avail_frames) avail_frames = queue_frames; if(avail_frames == 0) goto exit; hr = IAudioRenderClient_GetBuffer(device->render, avail_frames, &data); if(FAILED(hr)){ WARN("GetBuffer failed: %08x\n", hr); goto exit; } written = 0; while(device->playing && written < avail_frames){ UINT32 copy_frames, copy_bytes; BYTE *queue_data; queue = device->playing; queue_bytes = WINMM_HeaderLenBytes(device, queue); if(device->acm_handle) queue_data = ((ACMSTREAMHEADER*)queue->reserved)->pbDst; else queue_data = (BYTE*)queue->lpData; queue_frames = (queue_bytes - device->ofs_bytes) / device->bytes_per_frame; copy_frames = queue_frames < (avail_frames - written) ? queue_frames : avail_frames - written; copy_bytes = copy_frames * device->bytes_per_frame; memcpy(data, queue_data + device->ofs_bytes, copy_bytes); data += copy_bytes; written += copy_frames; device->ofs_bytes += copy_bytes; if(device->ofs_bytes >= queue_bytes){ device->ofs_bytes = 0; if(!(queue->dwFlags & (WHDR_BEGINLOOP | WHDR_ENDLOOP))) device->playing = queue->lpNext; else{ if(queue->dwFlags & WHDR_BEGINLOOP){ device->loop_start = device->playing; device->playing = queue->lpNext; device->loop_counter = queue->dwLoops; } if(queue->dwFlags & WHDR_ENDLOOP){ --device->loop_counter; if(device->loop_counter) device->playing = device->loop_start; else device->loop_start = device->playing = queue->lpNext; } } } } hr = IAudioRenderClient_ReleaseBuffer(device->render, avail_frames, 0); if(FAILED(hr)){ WARN("ReleaseBuffer failed: %08x\n", hr); goto exit; } if(device->orig_fmt->nSamplesPerSec != device->samples_per_sec) device->played_frames += MulDiv(avail_frames, device->orig_fmt->nSamplesPerSec, device->samples_per_sec); else device->played_frames += avail_frames; exit: cb_info = device->cb_info; LeaveCriticalSection(&device->lock); while(first){ WAVEHDR *next = first->lpNext; first->dwFlags &= ~WHDR_INQUEUE; first->dwFlags |= WHDR_DONE; WINMM_NotifyClient(&cb_info, WOM_DONE, (DWORD_PTR)first, 0); first = next; } } static void WID_PullACMData(WINMM_Device *device) { UINT32 packet, packet_bytes; DWORD flags; BYTE *data; WAVEHDR *queue; HRESULT hr; MMRESULT mr; if(device->acm_hdr.cbDstLength == 0){ hr = IAudioCaptureClient_GetBuffer(device->capture, &data, &packet, &flags, NULL, NULL); if(hr != S_OK){ if(FAILED(hr)) WARN("GetBuffer failed: %08x\n", hr); return; } acmStreamSize(device->acm_handle, packet * device->bytes_per_frame, &packet_bytes, ACM_STREAMSIZEF_SOURCE); device->acm_offs = 0; device->acm_hdr.cbStruct = sizeof(device->acm_hdr); device->acm_hdr.fdwStatus = 0; device->acm_hdr.dwUser = 0; device->acm_hdr.pbSrc = data; device->acm_hdr.cbSrcLength = packet * device->bytes_per_frame; device->acm_hdr.cbSrcLengthUsed = 0; device->acm_hdr.dwSrcUser = 0; device->acm_hdr.pbDst = HeapAlloc(GetProcessHeap(), 0, packet_bytes); device->acm_hdr.cbDstLength = packet_bytes; device->acm_hdr.cbDstLengthUsed = 0; device->acm_hdr.dwDstUser = 0; mr = acmStreamPrepareHeader(device->acm_handle, &device->acm_hdr, 0); if(mr != MMSYSERR_NOERROR){ WARN("acmStreamPrepareHeader failed: %d\n", mr); return; } mr = acmStreamConvert(device->acm_handle, &device->acm_hdr, 0); if(mr != MMSYSERR_NOERROR){ WARN("acmStreamConvert failed: %d\n", mr); return; } hr = IAudioCaptureClient_ReleaseBuffer(device->capture, packet); if(FAILED(hr)) WARN("ReleaseBuffer failed: %08x\n", hr); device->played_frames += packet; } queue = device->first; while(queue){ UINT32 to_copy_bytes; to_copy_bytes = min(WINMM_FixedBufferLen(queue->dwBufferLength, device) - queue->dwBytesRecorded, WINMM_FixedBufferLen(device->acm_hdr.cbDstLengthUsed, device) - device->acm_offs); memcpy(queue->lpData + queue->dwBytesRecorded, device->acm_hdr.pbDst + device->acm_offs, to_copy_bytes); queue->dwBytesRecorded += to_copy_bytes; device->acm_offs += to_copy_bytes; if(queue->dwBufferLength - queue->dwBytesRecorded < device->bytes_per_frame){ queue->dwFlags &= ~WHDR_INQUEUE; queue->dwFlags |= WHDR_DONE; device->first = queue = queue->lpNext; } if(device->acm_offs >= WINMM_FixedBufferLen(device->acm_hdr.cbDstLengthUsed, device)){ acmStreamUnprepareHeader(device->acm_handle, &device->acm_hdr, 0); HeapFree(GetProcessHeap(), 0, device->acm_hdr.pbDst); device->acm_hdr.cbDstLength = 0; device->acm_hdr.cbDstLengthUsed = 0; /* done with this ACM Header, so try to pull more data */ WID_PullACMData(device); return; } } /* out of WAVEHDRs to write into, so toss the rest of this packet */ acmStreamUnprepareHeader(device->acm_handle, &device->acm_hdr, 0); HeapFree(GetProcessHeap(), 0, device->acm_hdr.pbDst); device->acm_hdr.cbDstLength = 0; device->acm_hdr.cbDstLengthUsed = 0; } static void WID_PullData(WINMM_Device *device) { WINMM_CBInfo cb_info; WAVEHDR *queue, *first = NULL, *last = NULL; HRESULT hr; TRACE("(%p)\n", device->handle); EnterCriticalSection(&device->lock); if(!device->device || !device->first) goto exit; first = device->first; if(device->acm_handle){ WID_PullACMData(device); goto exit; } while(device->first){ BYTE *data; UINT32 packet_len, packet; DWORD flags; hr = IAudioCaptureClient_GetBuffer(device->capture, &data, &packet_len, &flags, NULL, NULL); if(hr != S_OK){ if(FAILED(hr)) WARN("GetBuffer failed: %08x\n", hr); else /* AUDCLNT_S_BUFFER_EMPTY success code */ IAudioCaptureClient_ReleaseBuffer(device->capture, 0); goto exit; } packet = packet_len; queue = device->first; while(queue && packet > 0){ UINT32 to_copy_bytes; to_copy_bytes = min(packet * device->bytes_per_frame, WINMM_FixedBufferLen(queue->dwBufferLength, device) - queue->dwBytesRecorded); memcpy(queue->lpData + queue->dwBytesRecorded, data + (packet_len - packet) * device->bytes_per_frame, to_copy_bytes); queue->dwBytesRecorded += to_copy_bytes; if(queue->dwBufferLength - queue->dwBytesRecorded < device->bytes_per_frame){ last = queue; device->first = queue = queue->lpNext; } packet -= to_copy_bytes / device->bytes_per_frame; } hr = IAudioCaptureClient_ReleaseBuffer(device->capture, packet_len); if(FAILED(hr)) WARN("ReleaseBuffer failed: %08x\n", hr); if(packet > 0) WARN("losing %u frames\n", packet); device->played_frames += packet_len - packet; } exit: cb_info = device->cb_info; LeaveCriticalSection(&device->lock); if(last){ last->lpNext = NULL; while(first){ WAVEHDR *next = first->lpNext; first->dwFlags &= ~WHDR_INQUEUE; first->dwFlags |= WHDR_DONE; WINMM_NotifyClient(&cb_info, WIM_DATA, (DWORD_PTR)first, 0); first = next; } } } static MMRESULT WINMM_BeginPlaying(WINMM_Device *device) { HRESULT hr; TRACE("(%p)\n", device->handle); if(device->render) /* prebuffer data before starting */ WOD_PushData(device); if(device->stopped){ device->stopped = FALSE; hr = IAudioClient_Start(device->client); if(FAILED(hr) && hr != AUDCLNT_E_NOT_STOPPED){ device->stopped = TRUE; WARN("Start failed: %08x\n", hr); return MMSYSERR_ERROR; } } return MMSYSERR_NOERROR; } static LRESULT WINMM_Pause(HWAVE hwave) { WINMM_Device *device = WINMM_GetDeviceFromHWAVE(hwave); HRESULT hr; TRACE("(%p)\n", hwave); if(!WINMM_ValidateAndLock(device)) return MMSYSERR_INVALHANDLE; hr = IAudioClient_Stop(device->client); if(FAILED(hr)){ LeaveCriticalSection(&device->lock); WARN("Stop failed: %08x\n", hr); return MMSYSERR_ERROR; } device->stopped = FALSE; LeaveCriticalSection(&device->lock); return MMSYSERR_NOERROR; } static LRESULT WINMM_Reset(HWAVE hwave) { WINMM_CBInfo cb_info; WINMM_Device *device = WINMM_GetDeviceFromHWAVE(hwave); BOOL is_out; WAVEHDR *first; HRESULT hr; TRACE("(%p)\n", hwave); if(!WINMM_ValidateAndLock(device)) return MMSYSERR_INVALHANDLE; hr = IAudioClient_Stop(device->client); if(FAILED(hr)){ LeaveCriticalSection(&device->lock); WARN("Stop failed: %08x\n", hr); return MMSYSERR_ERROR; } device->stopped = TRUE; first = device->first; device->first = device->last = device->playing = NULL; device->ofs_bytes = 0; device->played_frames = 0; device->loop_counter = 0; device->last_clock_pos = 0; IAudioClient_Reset(device->client); cb_info = device->cb_info; is_out = device->render != NULL; LeaveCriticalSection(&device->lock); while(first){ WAVEHDR *next = first->lpNext; first->dwFlags &= ~WHDR_INQUEUE; first->dwFlags |= WHDR_DONE; if(is_out) WINMM_NotifyClient(&cb_info, WOM_DONE, (DWORD_PTR)first, 0); else WINMM_NotifyClient(&cb_info, WIM_DATA, (DWORD_PTR)first, 0); first = next; } return MMSYSERR_NOERROR; } static MMRESULT WINMM_FramesToMMTime(MMTIME *time, UINT32 played_frames, UINT32 sample_rate, UINT32 bytes_per_sec) { switch(time->wType){ case TIME_SAMPLES: time->u.sample = played_frames; return MMSYSERR_NOERROR; case TIME_MS: time->u.ms = (UINT64)played_frames * 1000 / sample_rate; return MMSYSERR_NOERROR; case TIME_SMPTE: time->u.smpte.fps = 30; played_frames += sample_rate / time->u.smpte.fps - 1; /* round up */ time->u.smpte.frame = (played_frames % sample_rate) * time->u.smpte.fps / sample_rate; played_frames /= sample_rate; /* yields seconds */ time->u.smpte.sec = played_frames % 60; played_frames /= 60; time->u.smpte.min = played_frames % 60; time->u.smpte.hour= played_frames / 60; return MMSYSERR_NOERROR; default: time->wType = TIME_BYTES; /* fall through */ case TIME_BYTES: time->u.cb = MulDiv(played_frames, bytes_per_sec, sample_rate); return MMSYSERR_NOERROR; } } static LRESULT WINMM_GetPosition(HWAVE hwave, MMTIME *time) { WINMM_Device *device = WINMM_GetDeviceFromHWAVE(hwave); UINT32 played_frames, sample_rate, bytes_per_sec; TRACE("(%p, %p)\n", hwave, time); if(!WINMM_ValidateAndLock(device)) return MMSYSERR_INVALHANDLE; played_frames = device->played_frames; sample_rate = device->orig_fmt->nSamplesPerSec; bytes_per_sec = device->orig_fmt->nAvgBytesPerSec; LeaveCriticalSection(&device->lock); return WINMM_FramesToMMTime(time, played_frames, sample_rate, bytes_per_sec); } static WINMM_MMDevice *WINMM_GetMixerMMDevice(HMIXEROBJ hmix, DWORD flags, UINT *mmdev_index) { UINT mmdev, dev, junk, *out; BOOL is_out; if(!mmdev_index) out = &mmdev; else out = mmdev_index; switch(flags & 0xF0000000){ case MIXER_OBJECTF_MIXER: /* == 0 */ *out = HandleToULong(hmix); if(*out < g_outmmdevices_count) return read_map(g_out_map, *out); if(*out - g_outmmdevices_count < g_inmmdevices_count){ *out -= g_outmmdevices_count; return read_map(g_in_map, *out); } /* fall through -- if it's not a valid mixer device, then * it could be a valid mixer handle. windows seems to do * this as well. */ case MIXER_OBJECTF_HMIXER: case MIXER_OBJECTF_HWAVEOUT: case MIXER_OBJECTF_HWAVEIN: WINMM_DecomposeHWAVE((HWAVE)hmix, out, &is_out, &dev, &junk); if(junk != 0x1 || (is_out && *out >= g_outmmdevices_count) || (!is_out && *out >= g_inmmdevices_count)) return NULL; if(is_out) return read_map(g_out_map, *out); return read_map(g_in_map, *out); case MIXER_OBJECTF_WAVEOUT: *out = HandleToULong(hmix); if(*out < g_outmmdevices_count) return read_map(g_out_map, *out); return NULL; case MIXER_OBJECTF_WAVEIN: *out = HandleToULong(hmix); if(*out < g_inmmdevices_count) return read_map(g_in_map, *out); return NULL; } return NULL; } static MMRESULT WINMM_SetupMMDeviceVolume(WINMM_MMDevice *mmdevice) { IAudioSessionManager *sesman; IMMDevice *device; HRESULT hr; hr = IMMDeviceEnumerator_GetDevice(g_devenum, mmdevice->dev_id, &device); if(FAILED(hr)){ WARN("Device %s (%s) unavailable: %08x\n", wine_dbgstr_w(mmdevice->dev_id), wine_dbgstr_w(mmdevice->out_caps.szPname), hr); return MMSYSERR_ERROR; } hr = IMMDevice_Activate(device, &IID_IAudioSessionManager, CLSCTX_INPROC_SERVER, NULL, (void**)&sesman); if(FAILED(hr)){ WARN("Activate failed: %08x\n", hr); IMMDevice_Release(device); return MMSYSERR_ERROR; } IMMDevice_Release(device); hr = IAudioSessionManager_GetSimpleAudioVolume(sesman, &mmdevice->session, FALSE, &mmdevice->volume); IAudioSessionManager_Release(sesman); if(FAILED(hr)){ WARN("GetSimpleAudioVolume failed: %08x\n", hr); return MMSYSERR_ERROR; } return MMSYSERR_NOERROR; } static LRESULT MXD_GetControlDetails(WINMM_ControlDetails *details) { WINMM_MMDevice *mmdevice; MIXERCONTROLDETAILS *control = details->details; HRESULT hr; TRACE("(%p)\n", details->hmix); mmdevice = WINMM_GetMixerMMDevice(details->hmix, details->flags, NULL); if(!mmdevice) return MMSYSERR_INVALHANDLE; EnterCriticalSection(&mmdevice->lock); if(!mmdevice->volume){ MMRESULT mr; mr = WINMM_SetupMMDeviceVolume(mmdevice); if(mr != MMSYSERR_NOERROR){ LeaveCriticalSection(&mmdevice->lock); return mr; } } if(control->dwControlID == 0){ float vol; MIXERCONTROLDETAILS_UNSIGNED *udet; if(!control->paDetails || control->cbDetails < sizeof(MIXERCONTROLDETAILS_UNSIGNED)){ LeaveCriticalSection(&mmdevice->lock); return MMSYSERR_INVALPARAM; } hr = ISimpleAudioVolume_GetMasterVolume(mmdevice->volume, &vol); if(FAILED(hr)){ WARN("GetMasterVolume failed: %08x\n", hr); LeaveCriticalSection(&mmdevice->lock); return MMSYSERR_ERROR; } udet = (MIXERCONTROLDETAILS_UNSIGNED*)control->paDetails; udet->dwValue = vol * ((unsigned int)0xFFFF); }else if(control->dwControlID == 1){ BOOL mute; MIXERCONTROLDETAILS_BOOLEAN *bdet; if(!control->paDetails || control->cbDetails < sizeof(MIXERCONTROLDETAILS_BOOLEAN)){ LeaveCriticalSection(&mmdevice->lock); return MMSYSERR_INVALPARAM; } hr = ISimpleAudioVolume_GetMute(mmdevice->volume, &mute); if(FAILED(hr)){ WARN("GetMute failed: %08x\n", hr); LeaveCriticalSection(&mmdevice->lock); return MMSYSERR_ERROR; } bdet = (MIXERCONTROLDETAILS_BOOLEAN*)control->paDetails; bdet->fValue = mute; }else if(control->dwControlID == 2 || control->dwControlID == 3){ FIXME("What should the sw-side mixer controls map to?\n"); }else{ LeaveCriticalSection(&mmdevice->lock); return MIXERR_INVALCONTROL; } LeaveCriticalSection(&mmdevice->lock); return MMSYSERR_NOERROR; } static LRESULT MXD_SetControlDetails(WINMM_ControlDetails *details) { WINMM_MMDevice *mmdevice; MIXERCONTROLDETAILS *control = details->details; HRESULT hr; TRACE("(%p)\n", details->hmix); mmdevice = WINMM_GetMixerMMDevice(details->hmix, details->flags, NULL); if(!mmdevice) return MMSYSERR_INVALHANDLE; EnterCriticalSection(&mmdevice->lock); if(!mmdevice->volume){ MMRESULT mr; mr = WINMM_SetupMMDeviceVolume(mmdevice); if(mr != MMSYSERR_NOERROR){ LeaveCriticalSection(&mmdevice->lock); return mr; } } if(control->dwControlID == 0){ float vol; MIXERCONTROLDETAILS_UNSIGNED *udet; if(!control->paDetails || control->cbDetails < sizeof(MIXERCONTROLDETAILS_UNSIGNED)){ LeaveCriticalSection(&mmdevice->lock); return MMSYSERR_INVALPARAM; } udet = (MIXERCONTROLDETAILS_UNSIGNED*)control->paDetails; if(udet->dwValue > 65535){ LeaveCriticalSection(&mmdevice->lock); return MMSYSERR_INVALPARAM; } vol = udet->dwValue / 65535.f; hr = ISimpleAudioVolume_SetMasterVolume(mmdevice->volume, vol, NULL); if(FAILED(hr)){ WARN("SetMasterVolume failed: %08x\n", hr); LeaveCriticalSection(&mmdevice->lock); return MMSYSERR_ERROR; } }else if(control->dwControlID == 1){ BOOL mute; MIXERCONTROLDETAILS_BOOLEAN *bdet; if(!control->paDetails || control->cbDetails < sizeof(MIXERCONTROLDETAILS_BOOLEAN)){ LeaveCriticalSection(&mmdevice->lock); return MMSYSERR_INVALPARAM; } bdet = (MIXERCONTROLDETAILS_BOOLEAN*)control->paDetails; mute = bdet->fValue; hr = ISimpleAudioVolume_SetMute(mmdevice->volume, mute, NULL); if(FAILED(hr)){ WARN("SetMute failed: %08x\n", hr); LeaveCriticalSection(&mmdevice->lock); return MMSYSERR_ERROR; } }else if(control->dwControlID == 2 || control->dwControlID == 3){ FIXME("What should the sw-side mixer controls map to?\n"); }else{ LeaveCriticalSection(&mmdevice->lock); return MIXERR_INVALCONTROL; } LeaveCriticalSection(&mmdevice->lock); return MMSYSERR_NOERROR; } static LRESULT DRV_QueryDeviceInterface(WINMM_QueryInterfaceInfo *info) { WINMM_MMDevice *mmdevice; IMMDevice *device; IPropertyStore *ps; PROPVARIANT pv; DWORD len_bytes; HRESULT hr; static const PROPERTYKEY deviceinterface_key = { {0x233164c8, 0x1b2c, 0x4c7d, {0xbc, 0x68, 0xb6, 0x71, 0x68, 0x7a, 0x25, 0x67}}, 1 }; if(WINMM_IsMapper(info->index)){ if(info->str){ if(*info->len_bytes < sizeof(WCHAR)) return MMSYSERR_INVALPARAM; *info->str = 0; }else *info->len_bytes = sizeof(WCHAR); return MMSYSERR_NOERROR; } if(info->is_out){ if(info->index >= g_outmmdevices_count) return MMSYSERR_INVALHANDLE; mmdevice = &g_out_mmdevices[info->index]; }else{ if(info->index >= g_inmmdevices_count) return MMSYSERR_INVALHANDLE; mmdevice = &g_in_mmdevices[info->index]; } hr = IMMDeviceEnumerator_GetDevice(g_devenum, mmdevice->dev_id, &device); if(FAILED(hr)){ WARN("Device %s unavailable: %08x\n", wine_dbgstr_w(mmdevice->dev_id), hr); return MMSYSERR_ERROR; } hr = IMMDevice_OpenPropertyStore(device, STGM_READ, &ps); if(FAILED(hr)){ WARN("OpenPropertyStore failed: %08x\n", hr); IMMDevice_Release(device); return MMSYSERR_ERROR; } PropVariantInit(&pv); hr = IPropertyStore_GetValue(ps, &deviceinterface_key, &pv); if(FAILED(hr)){ WARN("GetValue failed: %08x\n", hr); IPropertyStore_Release(ps); IMMDevice_Release(device); return MMSYSERR_ERROR; } if(pv.vt != VT_LPWSTR){ WARN("Got unexpected property type: %u\n", pv.vt); PropVariantClear(&pv); IPropertyStore_Release(ps); IMMDevice_Release(device); return MMSYSERR_ERROR; } len_bytes = (lstrlenW(pv.u.pwszVal) + 1) * sizeof(WCHAR); if(info->str){ if(len_bytes > *info->len_bytes){ PropVariantClear(&pv); IPropertyStore_Release(ps); IMMDevice_Release(device); return MMSYSERR_INVALPARAM; } memcpy(info->str, pv.u.pwszVal, len_bytes); }else *info->len_bytes = len_bytes; PropVariantClear(&pv); IPropertyStore_Release(ps); IMMDevice_Release(device); return MMSYSERR_NOERROR; } static LRESULT CALLBACK WINMM_DevicesMsgProc(HWND hwnd, UINT msg, WPARAM wparam, LPARAM lparam) { switch(msg){ case WODM_OPEN: return WOD_Open((WINMM_OpenInfo*)wparam); case WODM_CLOSE: return WOD_Close((HWAVEOUT)wparam); case WIDM_OPEN: return WID_Open((WINMM_OpenInfo*)wparam); case WIDM_CLOSE: return WID_Close((HWAVEIN)wparam); case MXDM_GETCONTROLDETAILS: return MXD_GetControlDetails((WINMM_ControlDetails*)wparam); case MXDM_SETCONTROLDETAILS: return MXD_SetControlDetails((WINMM_ControlDetails*)wparam); case DRV_QUERYDEVICEINTERFACESIZE: case DRV_QUERYDEVICEINTERFACE: return DRV_QueryDeviceInterface((WINMM_QueryInterfaceInfo*)wparam); } return DefWindowProcW(hwnd, msg, wparam, lparam); } static BOOL WINMM_DevicesThreadDone(void) { UINT i; EnterCriticalSection(&g_devthread_lock); if(g_devthread_token > 0){ LeaveCriticalSection(&g_devthread_lock); return FALSE; } for(i = 0; i < g_devhandle_count; ++i){ if(g_handle_devices[i]->open){ LeaveCriticalSection(&g_devthread_lock); return FALSE; } } DestroyWindow(g_devices_hwnd); g_devices_hwnd = NULL; IMMDeviceEnumerator_Release(g_devenum); g_devenum = NULL; CoUninitialize(); LeaveCriticalSection(&g_devthread_lock); return TRUE; } static DWORD WINAPI WINMM_DevicesThreadProc(void *arg) { HANDLE evt = arg; HRESULT hr; static const WCHAR messageW[] = {'M','e','s','s','a','g','e',0}; hr = CoInitializeEx(NULL, COINIT_MULTITHREADED); if(FAILED(hr)){ WARN("CoInitializeEx failed: %08x\n", hr); FreeLibraryAndExitThread(g_devthread_module, 1); } hr = WINMM_InitMMDevices(); if(FAILED(hr)){ CoUninitialize(); FreeLibraryAndExitThread(g_devthread_module, 1); } hr = CoCreateInstance(&CLSID_MMDeviceEnumerator, NULL, CLSCTX_INPROC_SERVER, &IID_IMMDeviceEnumerator, (void**)&g_devenum); if(FAILED(hr)){ WARN("CoCreateInstance failed: %08x\n", hr); CoUninitialize(); FreeLibraryAndExitThread(g_devthread_module, 1); } g_devices_hwnd = CreateWindowW(messageW, NULL, 0, 0, 0, 0, 0, HWND_MESSAGE, NULL, NULL, NULL); if(!g_devices_hwnd){ WARN("CreateWindow failed: %d\n", GetLastError()); CoUninitialize(); FreeLibraryAndExitThread(g_devthread_module, 1); } SetWindowLongPtrW(g_devices_hwnd, GWLP_WNDPROC, (LONG_PTR)WINMM_DevicesMsgProc); /* inform caller that the thread is ready to process messages */ SetEvent(evt); evt = NULL; /* do not use after this point */ while(1){ DWORD wait; wait = MsgWaitForMultipleObjects(g_devhandle_count, g_device_handles, FALSE, INFINITE, QS_ALLINPUT); if(wait == g_devhandle_count + WAIT_OBJECT_0){ MSG msg; if(PeekMessageW(&msg, g_devices_hwnd, 0, 0, PM_REMOVE)) WARN("Unexpected message: 0x%x\n", msg.message); if(!g_devices_hwnd) break; }else if(wait < g_devhandle_count + WAIT_OBJECT_0){ WINMM_Device *device = g_handle_devices[wait - WAIT_OBJECT_0]; if(device->render) WOD_PushData(device); else WID_PullData(device); }else WARN("Unexpected MsgWait result 0x%x, GLE: %d\n", wait, GetLastError()); if(WINMM_DevicesThreadDone()){ TRACE("Quitting devices thread\n"); FreeLibraryAndExitThread(g_devthread_module, 0); } } FreeLibraryAndExitThread(g_devthread_module, 0); } /* on success, increments g_devthread_token to prevent * device thread shutdown. caller must decrement. */ static BOOL WINMM_StartDevicesThread(void) { HANDLE events[2]; DWORD wait; EnterCriticalSection(&g_devthread_lock); if(g_devices_hwnd){ wait = WaitForSingleObject(g_devices_thread, 0); if(wait == WAIT_TIMEOUT){ /* thread still running */ InterlockedIncrement(&g_devthread_token); LeaveCriticalSection(&g_devthread_lock); return TRUE; } if(wait != WAIT_OBJECT_0){ /* error */ LeaveCriticalSection(&g_devthread_lock); return FALSE; } TRACE("Devices thread left dangling message window?\n"); g_devices_hwnd = NULL; CloseHandle(g_devices_thread); g_devices_thread = NULL; }else if(g_devices_thread){ WaitForSingleObject(g_devices_thread, INFINITE); CloseHandle(g_devices_thread); g_devices_thread = NULL; } TRACE("Starting up devices thread\n"); /* The devices thread holds a reference to the winmm module * to prevent it from unloading while it's running. */ GetModuleHandleExW(GET_MODULE_HANDLE_EX_FLAG_FROM_ADDRESS, (const WCHAR *)WINMM_StartDevicesThread, &g_devthread_module); events[0] = CreateEventW(NULL, FALSE, FALSE, NULL); g_devices_thread = CreateThread(NULL, 0, WINMM_DevicesThreadProc, events[0], 0, NULL); if(!g_devices_thread){ LeaveCriticalSection(&g_devthread_lock); CloseHandle(events[0]); FreeLibrary(g_devthread_module); return FALSE; } events[1] = g_devices_thread; wait = WaitForMultipleObjects(2, events, FALSE, INFINITE); CloseHandle(events[0]); if(wait != WAIT_OBJECT_0){ if(wait == 1 + WAIT_OBJECT_0){ CloseHandle(g_devices_thread); g_devices_thread = NULL; g_devices_hwnd = NULL; } LeaveCriticalSection(&g_devthread_lock); return FALSE; } InterlockedIncrement(&g_devthread_token); LeaveCriticalSection(&g_devthread_lock); return TRUE; } /************************************************************************** * waveOutGetNumDevs [WINMM.@] */ UINT WINAPI waveOutGetNumDevs(void) { HRESULT hr = WINMM_InitMMDevices(); if(FAILED(hr)) return 0; TRACE("count: %u\n", g_outmmdevices_count); return g_outmmdevices_count; } /************************************************************************** * waveOutGetDevCapsA [WINMM.@] */ UINT WINAPI waveOutGetDevCapsA(UINT_PTR uDeviceID, LPWAVEOUTCAPSA lpCaps, UINT uSize) { WAVEOUTCAPSW wocW; UINT ret; TRACE("(%lu, %p, %u)\n", uDeviceID, lpCaps, uSize); if(!lpCaps) return MMSYSERR_INVALPARAM; ret = waveOutGetDevCapsW(uDeviceID, &wocW, sizeof(wocW)); if (ret == MMSYSERR_NOERROR) { WAVEOUTCAPSA wocA; wocA.wMid = wocW.wMid; wocA.wPid = wocW.wPid; wocA.vDriverVersion = wocW.vDriverVersion; WideCharToMultiByte( CP_ACP, 0, wocW.szPname, -1, wocA.szPname, sizeof(wocA.szPname), NULL, NULL ); wocA.dwFormats = wocW.dwFormats; wocA.wChannels = wocW.wChannels; wocA.dwSupport = wocW.dwSupport; wocA.wReserved1 = wocW.wReserved1; memcpy(lpCaps, &wocA, min(uSize, sizeof(wocA))); } return ret; } /************************************************************************** * waveOutGetDevCapsW [WINMM.@] */ UINT WINAPI waveOutGetDevCapsW(UINT_PTR uDeviceID, LPWAVEOUTCAPSW lpCaps, UINT uSize) { WAVEOUTCAPSW mapper_caps, *caps; HRESULT hr; TRACE("(%lu, %p, %u)\n", uDeviceID, lpCaps, uSize); hr = WINMM_InitMMDevices(); if(FAILED(hr)) return MMSYSERR_NODRIVER; if (lpCaps == NULL) return MMSYSERR_INVALPARAM; if(WINMM_IsMapper(uDeviceID)){ mapper_caps.wMid = 0xFF; mapper_caps.wPid = 0xFF; mapper_caps.vDriverVersion = 0x00010001; mapper_caps.dwFormats = 0xFFFFFFFF; mapper_caps.wReserved1 = 0; mapper_caps.dwSupport = WAVECAPS_LRVOLUME | WAVECAPS_VOLUME | WAVECAPS_SAMPLEACCURATE; mapper_caps.wChannels = 2; LoadStringW(hWinMM32Instance, IDS_MAPPER_NAME, mapper_caps.szPname, MAXPNAMELEN); caps = &mapper_caps; }else{ if(uDeviceID >= g_outmmdevices_count) return MMSYSERR_BADDEVICEID; caps = &read_map(g_out_map, uDeviceID)->out_caps; } memcpy(lpCaps, caps, min(uSize, sizeof(*lpCaps))); return MMSYSERR_NOERROR; } /************************************************************************** * waveOutGetErrorTextA [WINMM.@] * waveInGetErrorTextA [WINMM.@] */ UINT WINAPI waveOutGetErrorTextA(UINT uError, LPSTR lpText, UINT uSize) { UINT ret; if (lpText == NULL) ret = MMSYSERR_INVALPARAM; else if (uSize == 0) ret = MMSYSERR_NOERROR; else { LPWSTR xstr = HeapAlloc(GetProcessHeap(), 0, uSize * sizeof(WCHAR)); if (!xstr) ret = MMSYSERR_NOMEM; else { ret = waveOutGetErrorTextW(uError, xstr, uSize); if (ret == MMSYSERR_NOERROR) WideCharToMultiByte(CP_ACP, 0, xstr, -1, lpText, uSize, NULL, NULL); HeapFree(GetProcessHeap(), 0, xstr); } } return ret; } /************************************************************************** * waveOutGetErrorTextW [WINMM.@] * waveInGetErrorTextW [WINMM.@] */ UINT WINAPI waveOutGetErrorTextW(UINT uError, LPWSTR lpText, UINT uSize) { UINT ret = MMSYSERR_BADERRNUM; if (lpText == NULL) ret = MMSYSERR_INVALPARAM; else if (uSize == 0) ret = MMSYSERR_NOERROR; else if ( /* test has been removed because MMSYSERR_BASE is 0, and gcc did emit * a warning for the test was always true */ (/*uError >= MMSYSERR_BASE && */ uError <= MMSYSERR_LASTERROR) || (uError >= WAVERR_BASE && uError <= WAVERR_LASTERROR)) { if (LoadStringW(hWinMM32Instance, uError, lpText, uSize) > 0) { ret = MMSYSERR_NOERROR; } } return ret; } /************************************************************************** * waveOutOpen [WINMM.@] * All the args/structs have the same layout as the win16 equivalents */ MMRESULT WINAPI waveOutOpen(LPHWAVEOUT lphWaveOut, UINT uDeviceID, LPCWAVEFORMATEX lpFormat, DWORD_PTR dwCallback, DWORD_PTR dwInstance, DWORD dwFlags) { LRESULT res; WINMM_OpenInfo info; WINMM_CBInfo cb_info; TRACE("(%p, %u, %p, %lx, %lx, %08x)\n", lphWaveOut, uDeviceID, lpFormat, dwCallback, dwInstance, dwFlags); if(!lphWaveOut && !(dwFlags & WAVE_FORMAT_QUERY)) return MMSYSERR_INVALPARAM; res = WINMM_CheckCallback(dwCallback, dwFlags, FALSE); if(res != MMSYSERR_NOERROR) return res; if(!WINMM_StartDevicesThread()) return MMSYSERR_NODRIVER; info.handle = 0; info.format = (WAVEFORMATEX*)lpFormat; info.callback = dwCallback; info.cb_user = dwInstance; info.req_device = uDeviceID; info.flags = dwFlags; info.reset = TRUE; res = SendMessageW(g_devices_hwnd, WODM_OPEN, (DWORD_PTR)&info, 0); InterlockedDecrement(&g_devthread_token); if(res != MMSYSERR_NOERROR || (dwFlags & WAVE_FORMAT_QUERY)) return res; if(lphWaveOut) *lphWaveOut = (HWAVEOUT)info.handle; cb_info.flags = HIWORD(dwFlags & CALLBACK_TYPEMASK); cb_info.callback = dwCallback; cb_info.user = dwInstance; cb_info.hwave = info.handle; WINMM_NotifyClient(&cb_info, WOM_OPEN, 0, 0); return res; } /************************************************************************** * waveOutClose [WINMM.@] */ UINT WINAPI waveOutClose(HWAVEOUT hWaveOut) { UINT res; WINMM_Device *device; WINMM_CBInfo cb_info; TRACE("(%p)\n", hWaveOut); device = WINMM_GetDeviceFromHWAVE((HWAVE)hWaveOut); if(!WINMM_ValidateAndLock(device)) return MMSYSERR_INVALHANDLE; cb_info = device->cb_info; LeaveCriticalSection(&device->lock); res = SendMessageW(g_devices_hwnd, WODM_CLOSE, (WPARAM)hWaveOut, 0); if(res == MMSYSERR_NOERROR) WINMM_NotifyClient(&cb_info, WOM_CLOSE, 0, 0); return res; } /************************************************************************** * waveOutPrepareHeader [WINMM.@] */ UINT WINAPI waveOutPrepareHeader(HWAVEOUT hWaveOut, WAVEHDR* lpWaveOutHdr, UINT uSize) { TRACE("(%p, %p, %u)\n", hWaveOut, lpWaveOutHdr, uSize); if(!lpWaveOutHdr || uSize < sizeof(WAVEHDR)) return MMSYSERR_INVALPARAM; if(lpWaveOutHdr->dwFlags & WHDR_PREPARED) return MMSYSERR_NOERROR; return WINMM_PrepareHeader((HWAVE)hWaveOut, lpWaveOutHdr); } /************************************************************************** * waveOutUnprepareHeader [WINMM.@] */ UINT WINAPI waveOutUnprepareHeader(HWAVEOUT hWaveOut, LPWAVEHDR lpWaveOutHdr, UINT uSize) { TRACE("(%p, %p, %u)\n", hWaveOut, lpWaveOutHdr, uSize); if(!lpWaveOutHdr || uSize < sizeof(WAVEHDR)) return MMSYSERR_INVALPARAM; if(lpWaveOutHdr->dwFlags & WHDR_INQUEUE) return WAVERR_STILLPLAYING; if(!(lpWaveOutHdr->dwFlags & WHDR_PREPARED)) return MMSYSERR_NOERROR; return WINMM_UnprepareHeader((HWAVE)hWaveOut, lpWaveOutHdr); } /************************************************************************** * waveOutWrite [WINMM.@] */ UINT WINAPI waveOutWrite(HWAVEOUT hWaveOut, WAVEHDR *header, UINT uSize) { WINMM_Device *device; MMRESULT mr; TRACE("(%p, %p, %u)\n", hWaveOut, header, uSize); device = WINMM_GetDeviceFromHWAVE((HWAVE)hWaveOut); if(!WINMM_ValidateAndLock(device)) return MMSYSERR_INVALHANDLE; if(!header->lpData || !(header->dwFlags & WHDR_PREPARED)){ LeaveCriticalSection(&device->lock); return WAVERR_UNPREPARED; } if(header->dwFlags & WHDR_INQUEUE){ LeaveCriticalSection(&device->lock); return WAVERR_STILLPLAYING; } TRACE("dwBufferLength: %u\n", header->dwBufferLength); if(device->acm_handle){ ACMSTREAMHEADER *ash = (ACMSTREAMHEADER*)header->reserved; ash->cbSrcLength = header->dwBufferLength; mr = acmStreamConvert(device->acm_handle, ash, 0); if(mr != MMSYSERR_NOERROR){ LeaveCriticalSection(&device->lock); return mr; } } if(device->first){ device->last->lpNext = header; device->last = header; if(!device->playing) device->playing = header; }else{ device->playing = device->first = device->last = header; if(header->dwFlags & WHDR_BEGINLOOP){ device->loop_counter = header->dwLoops; device->loop_start = header; } } header->lpNext = NULL; header->dwFlags &= ~WHDR_DONE; header->dwFlags |= WHDR_INQUEUE; mr = WINMM_BeginPlaying(device); LeaveCriticalSection(&device->lock); return mr; } /************************************************************************** * waveOutBreakLoop [WINMM.@] */ UINT WINAPI waveOutBreakLoop(HWAVEOUT hWaveOut) { WINMM_Device *device; TRACE("(%p)\n", hWaveOut); device = WINMM_GetDeviceFromHWAVE((HWAVE)hWaveOut); if(!WINMM_ValidateAndLock(device)) return MMSYSERR_INVALHANDLE; device->loop_counter = 0; LeaveCriticalSection(&device->lock); return MMSYSERR_NOERROR; } /************************************************************************** * waveOutPause [WINMM.@] */ UINT WINAPI waveOutPause(HWAVEOUT hWaveOut) { TRACE("(%p)\n", hWaveOut); return WINMM_Pause((HWAVE)hWaveOut); } /************************************************************************** * waveOutReset [WINMM.@] */ UINT WINAPI waveOutReset(HWAVEOUT hWaveOut) { TRACE("(%p)\n", hWaveOut); return WINMM_Reset((HWAVE)hWaveOut); } /************************************************************************** * waveOutRestart [WINMM.@] */ UINT WINAPI waveOutRestart(HWAVEOUT hWaveOut) { WINMM_Device *device; MMRESULT mr; TRACE("(%p)\n", hWaveOut); device = WINMM_GetDeviceFromHWAVE((HWAVE)hWaveOut); if(!WINMM_ValidateAndLock(device)) return MMSYSERR_INVALHANDLE; device->stopped = TRUE; mr = WINMM_BeginPlaying(device); LeaveCriticalSection(&device->lock); return mr; } /************************************************************************** * waveOutGetPosition [WINMM.@] */ UINT WINAPI waveOutGetPosition(HWAVEOUT hWaveOut, LPMMTIME lpTime, UINT uSize) { TRACE("(%p, %p, %u)\n", hWaveOut, lpTime, uSize); if(!uSize || !lpTime) return MMSYSERR_INVALPARAM; if(uSize < sizeof(MMTIME)) return MMSYSERR_ERROR; return WINMM_GetPosition((HWAVE)hWaveOut, lpTime); } /************************************************************************** * waveOutGetPitch [WINMM.@] */ UINT WINAPI waveOutGetPitch(HWAVEOUT hWaveOut, LPDWORD lpdw) { TRACE("(%p, %p)\n", hWaveOut, lpdw); return MMSYSERR_NOTSUPPORTED; } /************************************************************************** * waveOutSetPitch [WINMM.@] */ UINT WINAPI waveOutSetPitch(HWAVEOUT hWaveOut, DWORD dw) { TRACE("(%p, %08x)\n", hWaveOut, dw); return MMSYSERR_NOTSUPPORTED; } /************************************************************************** * waveOutGetPlaybackRate [WINMM.@] */ UINT WINAPI waveOutGetPlaybackRate(HWAVEOUT hWaveOut, LPDWORD lpdw) { TRACE("(%p, %p)\n", hWaveOut, lpdw); return MMSYSERR_NOTSUPPORTED; } /************************************************************************** * waveOutSetPlaybackRate [WINMM.@] */ UINT WINAPI waveOutSetPlaybackRate(HWAVEOUT hWaveOut, DWORD dw) { TRACE("(%p, %08x)\n", hWaveOut, dw); return MMSYSERR_NOTSUPPORTED; } /************************************************************************** * waveOutGetVolume [WINMM.@] */ UINT WINAPI waveOutGetVolume(HWAVEOUT hWaveOut, DWORD *out) { WINMM_Device *device; UINT32 channels; float *vols; HRESULT hr; TRACE("(%p, %p)\n", hWaveOut, out); if(!out) return MMSYSERR_INVALPARAM; device = WINMM_GetDeviceFromHWAVE((HWAVE)hWaveOut); if(!WINMM_ValidateAndLock(device)) return MMSYSERR_INVALHANDLE; hr = IAudioStreamVolume_GetChannelCount(device->volume, &channels); if(FAILED(hr)){ LeaveCriticalSection(&device->lock); WARN("GetChannelCount failed: %08x\n", hr); return MMSYSERR_ERROR; } vols = HeapAlloc(GetProcessHeap(), 0, sizeof(float) * channels); if(!vols){ LeaveCriticalSection(&device->lock); return MMSYSERR_NOMEM; } hr = IAudioStreamVolume_GetAllVolumes(device->volume, channels, vols); if(FAILED(hr)){ LeaveCriticalSection(&device->lock); HeapFree(GetProcessHeap(), 0, vols); WARN("GetAllVolumes failed: %08x\n", hr); return MMSYSERR_ERROR; } LeaveCriticalSection(&device->lock); *out = ((UINT16)(vols[0] * (DWORD)0xFFFF)); if(channels > 1) *out |= ((UINT16)(vols[1] * (DWORD)0xFFFF)) << 16; HeapFree(GetProcessHeap(), 0, vols); return MMSYSERR_NOERROR; } /************************************************************************** * waveOutSetVolume [WINMM.@] */ UINT WINAPI waveOutSetVolume(HWAVEOUT hWaveOut, DWORD in) { WINMM_Device *device; UINT32 channels; float *vols; HRESULT hr; TRACE("(%p, %08x)\n", hWaveOut, in); device = WINMM_GetDeviceFromHWAVE((HWAVE)hWaveOut); if(!WINMM_ValidateAndLock(device)) return MMSYSERR_INVALHANDLE; hr = IAudioStreamVolume_GetChannelCount(device->volume, &channels); if(FAILED(hr)){ LeaveCriticalSection(&device->lock); WARN("GetChannelCount failed: %08x\n", hr); return MMSYSERR_ERROR; } vols = HeapAlloc(GetProcessHeap(), 0, sizeof(float) * channels); if(!vols){ LeaveCriticalSection(&device->lock); return MMSYSERR_NOMEM; } hr = IAudioStreamVolume_GetAllVolumes(device->volume, channels, vols); if(FAILED(hr)){ LeaveCriticalSection(&device->lock); HeapFree(GetProcessHeap(), 0, vols); WARN("GetAllVolumes failed: %08x\n", hr); return MMSYSERR_ERROR; } vols[0] = (float)((DWORD)(in & 0xFFFF) / (float)0xFFFF); if(channels > 1) vols[1] = (float)((DWORD)(in >> 16) / (float)0xFFFF); hr = IAudioStreamVolume_SetAllVolumes(device->volume, channels, vols); if(FAILED(hr)){ LeaveCriticalSection(&device->lock); HeapFree(GetProcessHeap(), 0, vols); WARN("SetAllVolumes failed: %08x\n", hr); return MMSYSERR_ERROR; } LeaveCriticalSection(&device->lock); HeapFree(GetProcessHeap(), 0, vols); return MMSYSERR_NOERROR; } /************************************************************************** * waveOutGetID [WINMM.@] */ UINT WINAPI waveOutGetID(HWAVEOUT hWaveOut, UINT* lpuDeviceID) { WINMM_Device *device; UINT dev, junk; BOOL is_out; TRACE("(%p, %p)\n", hWaveOut, lpuDeviceID); if(!lpuDeviceID) return MMSYSERR_INVALPARAM; device = WINMM_GetDeviceFromHWAVE((HWAVE)hWaveOut); if(!WINMM_ValidateAndLock(device)) return MMSYSERR_INVALHANDLE; LeaveCriticalSection(&device->lock); WINMM_DecomposeHWAVE((HWAVE)hWaveOut, lpuDeviceID, &is_out, &dev, &junk); return MMSYSERR_NOERROR; } static UINT WINMM_QueryInstanceIDSize(UINT device, DWORD_PTR *len, BOOL is_out) { UINT count; WINMM_MMDevice **devices; TRACE("(%u, %p, %d)\n", device, len, is_out); if(is_out){ count = g_outmmdevices_count; devices = g_out_map; }else{ count = g_inmmdevices_count; devices = g_in_map; } if(device >= count) return MMSYSERR_INVALHANDLE; EnterCriticalSection(&g_devthread_lock); *len = (lstrlenW(devices[device]->dev_id) + 1) * sizeof(WCHAR); LeaveCriticalSection(&g_devthread_lock); return MMSYSERR_NOERROR; } static UINT WINMM_QueryInstanceID(UINT device, WCHAR *str, DWORD_PTR len, BOOL is_out) { UINT count, id_len; WINMM_MMDevice **devices; TRACE("(%u, %p, %d)\n", device, str, is_out); if(is_out){ count = g_outmmdevices_count; devices = g_out_map; }else{ count = g_inmmdevices_count; devices = g_in_map; } if(device >= count) return MMSYSERR_INVALHANDLE; EnterCriticalSection(&g_devthread_lock); id_len = (lstrlenW(devices[device]->dev_id) + 1) * sizeof(WCHAR); if(len < id_len){ LeaveCriticalSection(&g_devthread_lock); return MMSYSERR_ERROR; } memcpy(str, devices[device]->dev_id, id_len); LeaveCriticalSection(&g_devthread_lock); return MMSYSERR_NOERROR; } static UINT get_device_interface(UINT msg, BOOL is_out, UINT index, WCHAR *out, ULONG *out_len) { WINMM_QueryInterfaceInfo info; UINT ret; if(!WINMM_StartDevicesThread()) return MMSYSERR_NODRIVER; info.is_out = is_out; info.index = index; info.str = out; info.len_bytes = out_len; ret = SendMessageW(g_devices_hwnd, msg, (DWORD_PTR)&info, 0); InterlockedDecrement(&g_devthread_token); return ret; } /************************************************************************** * waveOutMessage [WINMM.@] */ UINT WINAPI waveOutMessage(HWAVEOUT hWaveOut, UINT uMessage, DWORD_PTR dwParam1, DWORD_PTR dwParam2) { TRACE("(%p, %u, %lx, %lx)\n", hWaveOut, uMessage, dwParam1, dwParam2); switch(uMessage){ case DRV_QUERYFUNCTIONINSTANCEIDSIZE: return WINMM_QueryInstanceIDSize(HandleToULong(hWaveOut), (DWORD_PTR*)dwParam1, TRUE); case DRV_QUERYFUNCTIONINSTANCEID: return WINMM_QueryInstanceID(HandleToULong(hWaveOut), (WCHAR*)dwParam1, dwParam2, TRUE); case DRV_QUERYDEVICEINTERFACESIZE: return get_device_interface(DRV_QUERYDEVICEINTERFACESIZE, TRUE, HandleToULong(hWaveOut), NULL, (ULONG*)dwParam1); case DRV_QUERYDEVICEINTERFACE: { ULONG size = dwParam2; return get_device_interface(DRV_QUERYDEVICEINTERFACE, TRUE, HandleToULong(hWaveOut), (WCHAR*)dwParam1, &size); } case DRV_QUERYMAPPABLE: return MMSYSERR_NOERROR; case DRVM_MAPPER_PREFERRED_GET: if(!dwParam1 || !dwParam2) return MMSYSERR_INVALPARAM; if(g_outmmdevices_count > 0) /* Device 0 is always the default device */ *(DWORD *)dwParam1 = 0; else *(DWORD *)dwParam1 = -1; /* Status flags */ *(DWORD *)dwParam2 = 0; return MMSYSERR_NOERROR; } TRACE("Message not supported: %u\n", uMessage); return MMSYSERR_NOTSUPPORTED; } /************************************************************************** * waveInGetNumDevs [WINMM.@] */ UINT WINAPI waveInGetNumDevs(void) { HRESULT hr = WINMM_InitMMDevices(); if(FAILED(hr)) return 0; TRACE("count: %u\n", g_inmmdevices_count); return g_inmmdevices_count; } /************************************************************************** * waveInGetDevCapsW [WINMM.@] */ UINT WINAPI waveInGetDevCapsW(UINT_PTR uDeviceID, LPWAVEINCAPSW lpCaps, UINT uSize) { WAVEINCAPSW mapper_caps, *caps; HRESULT hr; TRACE("(%lu, %p, %u)\n", uDeviceID, lpCaps, uSize); hr = WINMM_InitMMDevices(); if(FAILED(hr)) return MMSYSERR_NODRIVER; if(!lpCaps) return MMSYSERR_INVALPARAM; if(WINMM_IsMapper(uDeviceID)){ mapper_caps.wMid = 0xFF; mapper_caps.wPid = 0xFF; mapper_caps.vDriverVersion = 0x00010001; mapper_caps.dwFormats = 0xFFFFFFFF; mapper_caps.wReserved1 = 0; mapper_caps.wChannels = 2; LoadStringW(hWinMM32Instance, IDS_MAPPER_NAME, mapper_caps.szPname, MAXPNAMELEN); caps = &mapper_caps; }else{ if(uDeviceID >= g_inmmdevices_count) return MMSYSERR_BADDEVICEID; caps = &read_map(g_in_map, uDeviceID)->in_caps; } memcpy(lpCaps, caps, min(uSize, sizeof(*lpCaps))); return MMSYSERR_NOERROR; } /************************************************************************** * waveInGetDevCapsA [WINMM.@] */ UINT WINAPI waveInGetDevCapsA(UINT_PTR uDeviceID, LPWAVEINCAPSA lpCaps, UINT uSize) { UINT ret; WAVEINCAPSW wicW; TRACE("(%lu, %p, %u)\n", uDeviceID, lpCaps, uSize); if(!lpCaps) return MMSYSERR_INVALPARAM; ret = waveInGetDevCapsW(uDeviceID, &wicW, sizeof(wicW)); if (ret == MMSYSERR_NOERROR) { WAVEINCAPSA wicA; wicA.wMid = wicW.wMid; wicA.wPid = wicW.wPid; wicA.vDriverVersion = wicW.vDriverVersion; WideCharToMultiByte( CP_ACP, 0, wicW.szPname, -1, wicA.szPname, sizeof(wicA.szPname), NULL, NULL ); wicA.dwFormats = wicW.dwFormats; wicA.wChannels = wicW.wChannels; wicA.wReserved1 = wicW.wReserved1; memcpy(lpCaps, &wicA, min(uSize, sizeof(wicA))); } return ret; } /************************************************************************** * waveInOpen [WINMM.@] */ MMRESULT WINAPI waveInOpen(HWAVEIN* lphWaveIn, UINT uDeviceID, LPCWAVEFORMATEX lpFormat, DWORD_PTR dwCallback, DWORD_PTR dwInstance, DWORD dwFlags) { LRESULT res; WINMM_OpenInfo info; WINMM_CBInfo cb_info; TRACE("(%p, %x, %p, %lx, %lx, %08x)\n", lphWaveIn, uDeviceID, lpFormat, dwCallback, dwInstance, dwFlags); if(!lphWaveIn && !(dwFlags & WAVE_FORMAT_QUERY)) return MMSYSERR_INVALPARAM; res = WINMM_CheckCallback(dwCallback, dwFlags, FALSE); if(res != MMSYSERR_NOERROR) return res; if(!WINMM_StartDevicesThread()) return MMSYSERR_NODRIVER; info.handle = 0; info.format = (WAVEFORMATEX*)lpFormat; info.callback = dwCallback; info.cb_user = dwInstance; info.req_device = uDeviceID; info.flags = dwFlags; info.reset = TRUE; res = SendMessageW(g_devices_hwnd, WIDM_OPEN, (DWORD_PTR)&info, 0); InterlockedDecrement(&g_devthread_token); if(res != MMSYSERR_NOERROR || (dwFlags & WAVE_FORMAT_QUERY)) return res; if(lphWaveIn) *lphWaveIn = (HWAVEIN)info.handle; cb_info.flags = HIWORD(dwFlags & CALLBACK_TYPEMASK); cb_info.callback = dwCallback; cb_info.user = dwInstance; cb_info.hwave = info.handle; WINMM_NotifyClient(&cb_info, WIM_OPEN, 0, 0); return res; } /************************************************************************** * waveInClose [WINMM.@] */ UINT WINAPI waveInClose(HWAVEIN hWaveIn) { WINMM_Device *device; WINMM_CBInfo cb_info; UINT res; TRACE("(%p)\n", hWaveIn); device = WINMM_GetDeviceFromHWAVE((HWAVE)hWaveIn); if(!WINMM_ValidateAndLock(device)) return MMSYSERR_INVALHANDLE; cb_info = device->cb_info; LeaveCriticalSection(&device->lock); res = SendMessageW(g_devices_hwnd, WIDM_CLOSE, (WPARAM)hWaveIn, 0); if(res == MMSYSERR_NOERROR) WINMM_NotifyClient(&cb_info, WIM_CLOSE, 0, 0); return res; } /************************************************************************** * waveInPrepareHeader [WINMM.@] */ UINT WINAPI waveInPrepareHeader(HWAVEIN hWaveIn, WAVEHDR* lpWaveInHdr, UINT uSize) { TRACE("(%p, %p, %u)\n", hWaveIn, lpWaveInHdr, uSize); if(!lpWaveInHdr || uSize < sizeof(WAVEHDR)) return MMSYSERR_INVALPARAM; if(lpWaveInHdr->dwFlags & WHDR_PREPARED) return MMSYSERR_NOERROR; return WINMM_PrepareHeader((HWAVE)hWaveIn, lpWaveInHdr); } /************************************************************************** * waveInUnprepareHeader [WINMM.@] */ UINT WINAPI waveInUnprepareHeader(HWAVEIN hWaveIn, WAVEHDR* lpWaveInHdr, UINT uSize) { TRACE("(%p, %p, %u)\n", hWaveIn, lpWaveInHdr, uSize); if(!lpWaveInHdr || uSize < sizeof(WAVEHDR)) return MMSYSERR_INVALPARAM; if(lpWaveInHdr->dwFlags & WHDR_INQUEUE) return WAVERR_STILLPLAYING; if(!(lpWaveInHdr->dwFlags & WHDR_PREPARED)) return MMSYSERR_NOERROR; return WINMM_UnprepareHeader((HWAVE)hWaveIn, lpWaveInHdr); } /************************************************************************** * waveInAddBuffer [WINMM.@] */ UINT WINAPI waveInAddBuffer(HWAVEIN hWaveIn, WAVEHDR *header, UINT uSize) { WINMM_Device *device; TRACE("(%p, %p, %u)\n", hWaveIn, header, uSize); if(!header || uSize < sizeof(WAVEHDR)) return MMSYSERR_INVALPARAM; if(!(header->dwFlags & WHDR_PREPARED)) return WAVERR_UNPREPARED; device = WINMM_GetDeviceFromHWAVE((HWAVE)hWaveIn); if(!WINMM_ValidateAndLock(device)) return MMSYSERR_INVALHANDLE; if(!device->first) device->first = device->last = header; else{ device->last->lpNext = header; device->last = header; } header->dwBytesRecorded = 0; header->lpNext = NULL; header->dwFlags &= ~WHDR_DONE; header->dwFlags |= WHDR_INQUEUE; LeaveCriticalSection(&device->lock); return MMSYSERR_NOERROR; } /************************************************************************** * waveInReset [WINMM.@] */ UINT WINAPI waveInReset(HWAVEIN hWaveIn) { TRACE("(%p)\n", hWaveIn); return WINMM_Reset((HWAVE)hWaveIn); } /************************************************************************** * waveInStart [WINMM.@] */ UINT WINAPI waveInStart(HWAVEIN hWaveIn) { WINMM_Device *device; MMRESULT mr; TRACE("(%p)\n", hWaveIn); device = WINMM_GetDeviceFromHWAVE((HWAVE)hWaveIn); if(!WINMM_ValidateAndLock(device)) return MMSYSERR_INVALHANDLE; mr = WINMM_BeginPlaying(device); LeaveCriticalSection(&device->lock); return mr; } /************************************************************************** * waveInStop [WINMM.@] */ UINT WINAPI waveInStop(HWAVEIN hWaveIn) { WINMM_CBInfo cb_info; WINMM_Device *device; WAVEHDR *buf; HRESULT hr; TRACE("(%p)\n", hWaveIn); device = WINMM_GetDeviceFromHWAVE((HWAVE)hWaveIn); if(!WINMM_ValidateAndLock(device)) return MMSYSERR_INVALHANDLE; hr = WINMM_Pause((HWAVE)hWaveIn); if(FAILED(hr)){ LeaveCriticalSection(&device->lock); return MMSYSERR_ERROR; } device->stopped = TRUE; buf = device->first; if(buf && buf->dwBytesRecorded > 0){ device->first = buf->lpNext; }else buf = NULL; cb_info = device->cb_info; LeaveCriticalSection(&device->lock); if(buf){ buf->dwFlags &= ~WHDR_INQUEUE; buf->dwFlags |= WHDR_DONE; WINMM_NotifyClient(&cb_info, WIM_DATA, (DWORD_PTR)buf, 0); } return MMSYSERR_NOERROR; } /************************************************************************** * waveInGetPosition [WINMM.@] */ UINT WINAPI waveInGetPosition(HWAVEIN hWaveIn, LPMMTIME lpTime, UINT uSize) { TRACE("(%p, %p, %u)\n", hWaveIn, lpTime, uSize); if(!uSize || !lpTime) return MMSYSERR_INVALPARAM; if(uSize < sizeof(MMTIME)) return MMSYSERR_ERROR; return WINMM_GetPosition((HWAVE)hWaveIn, lpTime); } /************************************************************************** * waveInGetID [WINMM.@] */ UINT WINAPI waveInGetID(HWAVEIN hWaveIn, UINT* lpuDeviceID) { UINT dev, junk; BOOL is_out; WINMM_Device *device; TRACE("(%p, %p)\n", hWaveIn, lpuDeviceID); if(!lpuDeviceID) return MMSYSERR_INVALPARAM; device = WINMM_GetDeviceFromHWAVE((HWAVE)hWaveIn); if(!WINMM_ValidateAndLock(device)) return MMSYSERR_INVALHANDLE; LeaveCriticalSection(&device->lock); WINMM_DecomposeHWAVE((HWAVE)hWaveIn, lpuDeviceID, &is_out, &dev, &junk); return MMSYSERR_NOERROR; } /************************************************************************** * waveInMessage [WINMM.@] */ UINT WINAPI waveInMessage(HWAVEIN hWaveIn, UINT uMessage, DWORD_PTR dwParam1, DWORD_PTR dwParam2) { TRACE("(%p, %u, %ld, %ld)\n", hWaveIn, uMessage, dwParam1, dwParam2); switch(uMessage){ case DRV_QUERYFUNCTIONINSTANCEIDSIZE: return WINMM_QueryInstanceIDSize(HandleToULong(hWaveIn), (DWORD_PTR*)dwParam1, FALSE); case DRV_QUERYFUNCTIONINSTANCEID: return WINMM_QueryInstanceID(HandleToULong(hWaveIn), (WCHAR*)dwParam1, dwParam2, FALSE); case DRV_QUERYDEVICEINTERFACESIZE: return get_device_interface(DRV_QUERYDEVICEINTERFACESIZE, FALSE, HandleToULong(hWaveIn), NULL, (ULONG*)dwParam1); case DRV_QUERYDEVICEINTERFACE: { ULONG size = dwParam2; return get_device_interface(DRV_QUERYDEVICEINTERFACE, FALSE, HandleToULong(hWaveIn), (WCHAR*)dwParam1, &size); } case DRV_QUERYMAPPABLE: return MMSYSERR_NOERROR; case DRVM_MAPPER_PREFERRED_GET: if(!dwParam1 || !dwParam2) return MMSYSERR_INVALPARAM; if(g_inmmdevices_count > 0) /* Device 0 is always the default device */ *(DWORD *)dwParam1 = 0; else *(DWORD *)dwParam1 = -1; /* Status flags */ *(DWORD *)dwParam2 = 0; return MMSYSERR_NOERROR; } TRACE("Message not supported: %u\n", uMessage); return MMSYSERR_NOTSUPPORTED; } UINT WINAPI mixerGetNumDevs(void) { HRESULT hr; TRACE("\n"); hr = WINMM_InitMMDevices(); if(FAILED(hr)) return 0; return g_outmmdevices_count + g_inmmdevices_count; } /************************************************************************** * mixerGetDevCapsA [WINMM.@] */ UINT WINAPI mixerGetDevCapsA(UINT_PTR uDeviceID, LPMIXERCAPSA lpCaps, UINT uSize) { MIXERCAPSW micW; UINT ret; TRACE("(%lu, %p, %u)\n", uDeviceID, lpCaps, uSize); if(!lpCaps) return MMSYSERR_INVALPARAM; ret = mixerGetDevCapsW(uDeviceID, &micW, sizeof(micW)); if (ret == MMSYSERR_NOERROR) { MIXERCAPSA micA; micA.wMid = micW.wMid; micA.wPid = micW.wPid; micA.vDriverVersion = micW.vDriverVersion; WideCharToMultiByte( CP_ACP, 0, micW.szPname, -1, micA.szPname, sizeof(micA.szPname), NULL, NULL ); micA.fdwSupport = micW.fdwSupport; micA.cDestinations = micW.cDestinations; memcpy(lpCaps, &micA, min(uSize, sizeof(micA))); } return ret; } /************************************************************************** * mixerGetDevCapsW [WINMM.@] */ UINT WINAPI mixerGetDevCapsW(UINT_PTR uDeviceID, LPMIXERCAPSW lpCaps, UINT uSize) { WINMM_MMDevice *mmdevice; MIXERCAPSW caps; HRESULT hr; TRACE("(%lu, %p, %u)\n", uDeviceID, lpCaps, uSize); hr = WINMM_InitMMDevices(); if(FAILED(hr)) return MMSYSERR_NODRIVER; if(!lpCaps) return MMSYSERR_INVALPARAM; if(!uSize) return MMSYSERR_NOERROR; if(uDeviceID >= g_outmmdevices_count + g_inmmdevices_count) mmdevice = WINMM_GetMixerMMDevice((HMIXEROBJ)uDeviceID, MIXER_OBJECTF_MIXER, NULL); else if(uDeviceID < g_outmmdevices_count) mmdevice = read_map(g_out_map, uDeviceID); else mmdevice = read_map(g_in_map, uDeviceID - g_outmmdevices_count); if(!mmdevice) return MMSYSERR_BADDEVICEID; if(mmdevice->dataflow == eRender) memcpy(caps.szPname, mmdevice->out_caps.szPname, sizeof(caps.szPname)); else memcpy(caps.szPname, mmdevice->in_caps.szPname, sizeof(caps.szPname)); caps.wMid = 0xFF; caps.wPid = 0xFF; caps.vDriverVersion = 0x00010001; caps.fdwSupport = 0; caps.cDestinations = 1; memcpy(lpCaps, &caps, uSize); return MMSYSERR_NOERROR; } /************************************************************************** * mixerOpen [WINMM.@] */ UINT WINAPI mixerOpen(LPHMIXER lphMix, UINT uDeviceID, DWORD_PTR dwCallback, DWORD_PTR dwInstance, DWORD fdwOpen) { WINMM_MMDevice *mmdevice; MMRESULT mr; HRESULT hr; TRACE("(%p, %d, %lx, %lx, %x)\n", lphMix, uDeviceID, dwCallback, dwInstance, fdwOpen); hr = WINMM_InitMMDevices(); if(FAILED(hr)) return MMSYSERR_NODRIVER; if(!lphMix) return MMSYSERR_INVALPARAM; mr = WINMM_CheckCallback(dwCallback, fdwOpen, TRUE); if(mr != MMSYSERR_NOERROR) return mr; if(uDeviceID >= g_outmmdevices_count + g_inmmdevices_count) return MMSYSERR_BADDEVICEID; if(uDeviceID < g_outmmdevices_count){ mmdevice = read_map(g_out_map, uDeviceID); *lphMix = (HMIXER)WINMM_MakeHWAVE(uDeviceID, TRUE, mmdevice->mixer_count); }else{ mmdevice = read_map(g_in_map, uDeviceID - g_outmmdevices_count); *lphMix = (HMIXER)WINMM_MakeHWAVE(uDeviceID - g_outmmdevices_count, FALSE, mmdevice->mixer_count); } ++mmdevice->mixer_count; return MMSYSERR_NOERROR; } /************************************************************************** * mixerClose [WINMM.@] */ UINT WINAPI mixerClose(HMIXER hMix) { TRACE("(%p)\n", hMix); return MMSYSERR_NOERROR; } /************************************************************************** * mixerGetID [WINMM.@] */ UINT WINAPI mixerGetID(HMIXEROBJ hmix, LPUINT lpid, DWORD fdwID) { WINMM_MMDevice *mmdevice; HRESULT hr; TRACE("(%p, %p, %x)\n", hmix, lpid, fdwID); hr = WINMM_InitMMDevices(); if(FAILED(hr)) return MMSYSERR_NODRIVER; if(!lpid) return MMSYSERR_INVALPARAM; mmdevice = WINMM_GetMixerMMDevice(hmix, fdwID, lpid); if(!mmdevice) return MMSYSERR_INVALHANDLE; if(mmdevice->in_caps.szPname[0] != '\0') *lpid += g_outmmdevices_count; return MMSYSERR_NOERROR; } /************************************************************************** * mixerGetControlDetailsW [WINMM.@] */ UINT WINAPI mixerGetControlDetailsW(HMIXEROBJ hmix, LPMIXERCONTROLDETAILS lpmcdW, DWORD fdwDetails) { WINMM_ControlDetails details; TRACE("(%p, %p, %x)\n", hmix, lpmcdW, fdwDetails); if(!WINMM_StartDevicesThread()) return MMSYSERR_NODRIVER; if(!lpmcdW || !lpmcdW->paDetails) return MMSYSERR_INVALPARAM; TRACE("dwControlID: %u\n", lpmcdW->dwControlID); details.hmix = hmix; details.details = lpmcdW; details.flags = fdwDetails; return SendMessageW(g_devices_hwnd, MXDM_GETCONTROLDETAILS, (DWORD_PTR)&details, 0); } /************************************************************************** * mixerGetControlDetailsA [WINMM.@] */ UINT WINAPI mixerGetControlDetailsA(HMIXEROBJ hmix, LPMIXERCONTROLDETAILS lpmcdA, DWORD fdwDetails) { UINT ret = MMSYSERR_NOTSUPPORTED; TRACE("(%p, %p, %08x)\n", hmix, lpmcdA, fdwDetails); if (lpmcdA == NULL || lpmcdA->cbStruct != sizeof(*lpmcdA)) return MMSYSERR_INVALPARAM; switch (fdwDetails & MIXER_GETCONTROLDETAILSF_QUERYMASK) { case MIXER_GETCONTROLDETAILSF_VALUE: /* can safely use A structure as it is, no string inside */ ret = mixerGetControlDetailsW(hmix, lpmcdA, fdwDetails); break; case MIXER_GETCONTROLDETAILSF_LISTTEXT: { MIXERCONTROLDETAILS_LISTTEXTA *pDetailsA = lpmcdA->paDetails; MIXERCONTROLDETAILS_LISTTEXTW *pDetailsW; int size = max(1, lpmcdA->cChannels) * sizeof(MIXERCONTROLDETAILS_LISTTEXTW); unsigned int i; if (lpmcdA->u.cMultipleItems != 0) { size *= lpmcdA->u.cMultipleItems; } pDetailsW = HeapAlloc(GetProcessHeap(), 0, size); lpmcdA->paDetails = pDetailsW; lpmcdA->cbDetails = sizeof(MIXERCONTROLDETAILS_LISTTEXTW); /* set up lpmcd->paDetails */ ret = mixerGetControlDetailsW(hmix, lpmcdA, fdwDetails); /* copy from lpmcd->paDetails back to paDetailsW; */ if (ret == MMSYSERR_NOERROR) { for (i = 0; i < lpmcdA->u.cMultipleItems * lpmcdA->cChannels; i++) { pDetailsA->dwParam1 = pDetailsW->dwParam1; pDetailsA->dwParam2 = pDetailsW->dwParam2; WideCharToMultiByte( CP_ACP, 0, pDetailsW->szName, -1, pDetailsA->szName, sizeof(pDetailsA->szName), NULL, NULL ); pDetailsA++; pDetailsW++; } pDetailsA -= lpmcdA->u.cMultipleItems * lpmcdA->cChannels; pDetailsW -= lpmcdA->u.cMultipleItems * lpmcdA->cChannels; } HeapFree(GetProcessHeap(), 0, pDetailsW); lpmcdA->paDetails = pDetailsA; lpmcdA->cbDetails = sizeof(MIXERCONTROLDETAILS_LISTTEXTA); } break; default: WARN("Unsupported fdwDetails=0x%08x\n", fdwDetails); } return ret; } /************************************************************************** * mixerGetLineControlsA [WINMM.@] */ UINT WINAPI mixerGetLineControlsA(HMIXEROBJ hmix, LPMIXERLINECONTROLSA lpmlcA, DWORD fdwControls) { MIXERLINECONTROLSW mlcW; DWORD ret; unsigned int i; TRACE("(%p, %p, %x)\n", hmix, lpmlcA, fdwControls); if (lpmlcA == NULL || lpmlcA->cbStruct != sizeof(*lpmlcA) || lpmlcA->cbmxctrl != sizeof(MIXERCONTROLA)) return MMSYSERR_INVALPARAM; mlcW.cbStruct = sizeof(mlcW); mlcW.dwLineID = lpmlcA->dwLineID; mlcW.u.dwControlID = lpmlcA->u.dwControlID; mlcW.u.dwControlType = lpmlcA->u.dwControlType; /* Debugging on Windows shows for MIXER_GETLINECONTROLSF_ONEBYTYPE only, the control count is assumed to be 1 - This is relied upon by a game, "Dynomite Deluze" */ if (MIXER_GETLINECONTROLSF_ONEBYTYPE == (fdwControls & MIXER_GETLINECONTROLSF_QUERYMASK)) { mlcW.cControls = 1; } else { mlcW.cControls = lpmlcA->cControls; } mlcW.cbmxctrl = sizeof(MIXERCONTROLW); mlcW.pamxctrl = HeapAlloc(GetProcessHeap(), 0, mlcW.cControls * mlcW.cbmxctrl); ret = mixerGetLineControlsW(hmix, &mlcW, fdwControls); if (ret == MMSYSERR_NOERROR) { lpmlcA->dwLineID = mlcW.dwLineID; lpmlcA->u.dwControlID = mlcW.u.dwControlID; lpmlcA->u.dwControlType = mlcW.u.dwControlType; for (i = 0; i < mlcW.cControls; i++) { lpmlcA->pamxctrl[i].cbStruct = sizeof(MIXERCONTROLA); lpmlcA->pamxctrl[i].dwControlID = mlcW.pamxctrl[i].dwControlID; lpmlcA->pamxctrl[i].dwControlType = mlcW.pamxctrl[i].dwControlType; lpmlcA->pamxctrl[i].fdwControl = mlcW.pamxctrl[i].fdwControl; lpmlcA->pamxctrl[i].cMultipleItems = mlcW.pamxctrl[i].cMultipleItems; WideCharToMultiByte( CP_ACP, 0, mlcW.pamxctrl[i].szShortName, -1, lpmlcA->pamxctrl[i].szShortName, sizeof(lpmlcA->pamxctrl[i].szShortName), NULL, NULL ); WideCharToMultiByte( CP_ACP, 0, mlcW.pamxctrl[i].szName, -1, lpmlcA->pamxctrl[i].szName, sizeof(lpmlcA->pamxctrl[i].szName), NULL, NULL ); /* sizeof(lpmlcA->pamxctrl[i].Bounds) == * sizeof(mlcW.pamxctrl[i].Bounds) */ memcpy(&lpmlcA->pamxctrl[i].Bounds, &mlcW.pamxctrl[i].Bounds, sizeof(mlcW.pamxctrl[i].Bounds)); /* sizeof(lpmlcA->pamxctrl[i].Metrics) == * sizeof(mlcW.pamxctrl[i].Metrics) */ memcpy(&lpmlcA->pamxctrl[i].Metrics, &mlcW.pamxctrl[i].Metrics, sizeof(mlcW.pamxctrl[i].Metrics)); } } HeapFree(GetProcessHeap(), 0, mlcW.pamxctrl); return ret; } static UINT WINMM_GetVolumeLineControl(WINMM_MMDevice *mmdevice, DWORD line, MIXERCONTROLW *ctl, DWORD flags) { ctl->dwControlID = (line == 0xFFFF0000) ? 0 : 2; ctl->dwControlType = MIXERCONTROL_CONTROLTYPE_VOLUME; ctl->fdwControl = MIXERCONTROL_CONTROLF_UNIFORM; ctl->cMultipleItems = 0; LoadStringW(hWinMM32Instance, IDS_VOLUME, ctl->szShortName, MIXER_SHORT_NAME_CHARS); LoadStringW(hWinMM32Instance, IDS_VOLUME, ctl->szName, MIXER_LONG_NAME_CHARS); ctl->Bounds.s1.dwMinimum = 0; ctl->Bounds.s1.dwMaximum = 0xFFFF; ctl->Metrics.cSteps = 192; return MMSYSERR_NOERROR; } static UINT WINMM_GetMuteLineControl(WINMM_MMDevice *mmdevice, DWORD line, MIXERCONTROLW *ctl, DWORD flags) { ctl->dwControlID = (line == 0xFFFF0000) ? 1 : 3; ctl->dwControlType = MIXERCONTROL_CONTROLTYPE_MUTE; ctl->fdwControl = MIXERCONTROL_CONTROLF_UNIFORM; ctl->cMultipleItems = 0; LoadStringW(hWinMM32Instance, IDS_MUTE, ctl->szShortName, MIXER_SHORT_NAME_CHARS); LoadStringW(hWinMM32Instance, IDS_MUTE, ctl->szName, MIXER_LONG_NAME_CHARS); ctl->Bounds.s1.dwMinimum = 0; ctl->Bounds.s1.dwMaximum = 1; ctl->Metrics.cSteps = 0; return MMSYSERR_NOERROR; } /************************************************************************** * mixerGetLineControlsW [WINMM.@] */ UINT WINAPI mixerGetLineControlsW(HMIXEROBJ hmix, LPMIXERLINECONTROLSW lpmlcW, DWORD fdwControls) { WINMM_MMDevice *mmdevice; HRESULT hr; TRACE("(%p, %p, %08x)\n", hmix, lpmlcW, fdwControls); hr = WINMM_InitMMDevices(); if(FAILED(hr)) return MMSYSERR_NODRIVER; if(fdwControls & ~(MIXER_GETLINECONTROLSF_ALL | MIXER_GETLINECONTROLSF_ONEBYID | MIXER_GETLINECONTROLSF_ONEBYTYPE | MIXER_OBJECTF_HMIXER | MIXER_OBJECTF_MIXER)){ WARN("Unknown GetLineControls flag: %x\n", fdwControls); return MMSYSERR_INVALFLAG; } if(!lpmlcW || lpmlcW->cbStruct < sizeof(*lpmlcW) || !lpmlcW->pamxctrl) return MMSYSERR_INVALPARAM; TRACE("dwLineID: %u\n", lpmlcW->dwLineID); TRACE("dwControl: %x\n", lpmlcW->u.dwControlID); TRACE("cControls: %u\n", lpmlcW->cControls); mmdevice = WINMM_GetMixerMMDevice(hmix, fdwControls, NULL); if(!mmdevice) return MMSYSERR_INVALHANDLE; switch(fdwControls & MIXER_GETLINECONTROLSF_QUERYMASK){ case MIXER_GETLINECONTROLSF_ALL: if(lpmlcW->cControls != 2) return MMSYSERR_INVALPARAM; if(lpmlcW->cbmxctrl < sizeof(MIXERCONTROLW)) return MMSYSERR_INVALPARAM; if(lpmlcW->dwLineID != 0 && lpmlcW->dwLineID != 0xFFFF0000) return MIXERR_INVALLINE; WINMM_GetVolumeLineControl(mmdevice, lpmlcW->dwLineID, &lpmlcW->pamxctrl[0], fdwControls); WINMM_GetMuteLineControl(mmdevice, lpmlcW->dwLineID, &lpmlcW->pamxctrl[1], fdwControls); return MMSYSERR_NOERROR; case MIXER_GETLINECONTROLSF_ONEBYID: if(lpmlcW->cControls != 1) return MMSYSERR_INVALPARAM; if(lpmlcW->cbmxctrl < sizeof(MIXERCONTROLW)) return MMSYSERR_INVALPARAM; if(lpmlcW->dwLineID != 0 && lpmlcW->dwLineID != 0xFFFF0000) return MIXERR_INVALLINE; if(lpmlcW->u.dwControlID == 0) return WINMM_GetVolumeLineControl(mmdevice, lpmlcW->dwLineID, lpmlcW->pamxctrl, fdwControls); if(lpmlcW->u.dwControlID == 1) return WINMM_GetMuteLineControl(mmdevice, lpmlcW->dwLineID, lpmlcW->pamxctrl, fdwControls); return MMSYSERR_NOTSUPPORTED; case MIXER_GETLINECONTROLSF_ONEBYTYPE: if(lpmlcW->cControls != 1) return MMSYSERR_INVALPARAM; if(lpmlcW->cbmxctrl < sizeof(MIXERCONTROLW)) return MMSYSERR_INVALPARAM; if(lpmlcW->dwLineID != 0 && lpmlcW->dwLineID != 0xFFFF0000) return MIXERR_INVALLINE; if(lpmlcW->u.dwControlType == MIXERCONTROL_CONTROLTYPE_VOLUME) return WINMM_GetVolumeLineControl(mmdevice, lpmlcW->dwLineID, lpmlcW->pamxctrl, fdwControls); if(lpmlcW->u.dwControlType == MIXERCONTROL_CONTROLTYPE_MUTE) return WINMM_GetMuteLineControl(mmdevice, lpmlcW->dwLineID, lpmlcW->pamxctrl, fdwControls); return MMSYSERR_NOTSUPPORTED; } return MMSYSERR_NOTSUPPORTED; } static UINT WINMM_GetSourceLineInfo(WINMM_MMDevice *mmdevice, UINT mmdev_index, MIXERLINEW *info, DWORD flags) { BOOL is_out = TRUE; if(mmdevice->in_caps.szPname[0] != '\0') is_out = FALSE; if(info->dwSource != 0) return MIXERR_INVALLINE; info->dwDestination = 0; info->dwLineID = 0; info->fdwLine = MIXERLINE_LINEF_ACTIVE | MIXERLINE_LINEF_SOURCE; info->cConnections = 0; info->cControls = 2; /* volume & mute always affect all channels, so claim 1 channel */ info->cChannels = 1; info->Target.dwDeviceID = mmdev_index; info->Target.wMid = ~0; info->Target.wPid = ~0; info->Target.vDriverVersion = 0; LoadStringW(hWinMM32Instance, IDS_VOLUME, info->szShortName, MIXER_SHORT_NAME_CHARS); LoadStringW(hWinMM32Instance, IDS_MASTER_VOLUME, info->szName, MIXER_LONG_NAME_CHARS); if(is_out){ info->dwComponentType = MIXERLINE_COMPONENTTYPE_SRC_WAVEOUT; info->Target.dwType = MIXERLINE_TARGETTYPE_WAVEOUT; memcpy(info->Target.szPname, mmdevice->out_caps.szPname, sizeof(info->Target.szPname)); }else{ info->dwComponentType = MIXERLINE_COMPONENTTYPE_SRC_MICROPHONE; info->Target.dwType = MIXERLINE_TARGETTYPE_UNDEFINED; info->Target.szPname[0] = '\0'; } return MMSYSERR_NOERROR; } static UINT WINMM_GetDestinationLineInfo(WINMM_MMDevice *mmdevice, UINT mmdev_index, MIXERLINEW *info, DWORD flags) { BOOL is_out = TRUE; if(mmdevice->in_caps.szPname[0] != '\0') is_out = FALSE; if(info->dwDestination != 0) return MIXERR_INVALLINE; info->dwSource = 0xFFFFFFFF; info->dwLineID = 0xFFFF0000; info->fdwLine = MIXERLINE_LINEF_ACTIVE; info->cConnections = 1; info->cControls = 2; LoadStringW(hWinMM32Instance, IDS_VOLUME, info->szShortName, MIXER_SHORT_NAME_CHARS); LoadStringW(hWinMM32Instance, IDS_MASTER_VOLUME, info->szName, MIXER_LONG_NAME_CHARS); info->Target.dwDeviceID = mmdev_index; info->Target.wMid = ~0; info->Target.wPid = ~0; info->Target.vDriverVersion = 0; if(is_out){ info->dwComponentType = MIXERLINE_COMPONENTTYPE_DST_SPEAKERS; info->cChannels = mmdevice->out_caps.wChannels; info->Target.dwType = MIXERLINE_TARGETTYPE_UNDEFINED; info->Target.szPname[0] = '\0'; }else{ info->dwComponentType = MIXERLINE_COMPONENTTYPE_DST_WAVEIN; info->cChannels = mmdevice->in_caps.wChannels; info->Target.dwType = MIXERLINE_TARGETTYPE_WAVEIN; memcpy(info->Target.szPname, mmdevice->in_caps.szPname, sizeof(info->Target.szPname)); } return MMSYSERR_NOERROR; } static UINT WINMM_GetComponentTypeLineInfo(WINMM_MMDevice *mmdevice, UINT mmdev_index, MIXERLINEW *info, DWORD flags) { BOOL is_out = TRUE; if(mmdevice->in_caps.szPname[0] != '\0') is_out = FALSE; if(info->dwComponentType == MIXERLINE_COMPONENTTYPE_DST_WAVEIN){ if(is_out) return MIXERR_INVALLINE; info->dwDestination = 0; return WINMM_GetDestinationLineInfo(mmdevice, mmdev_index, info, flags); } if(info->dwComponentType == MIXERLINE_COMPONENTTYPE_DST_SPEAKERS){ if(!is_out) return MIXERR_INVALLINE; info->dwDestination = 0; return WINMM_GetDestinationLineInfo(mmdevice, mmdev_index, info, flags); } if(info->dwComponentType == MIXERLINE_COMPONENTTYPE_SRC_MICROPHONE){ if(is_out) return MIXERR_INVALLINE; info->dwSource = 0; return WINMM_GetSourceLineInfo(mmdevice, mmdev_index, info, flags); } if(info->dwComponentType == MIXERLINE_COMPONENTTYPE_SRC_WAVEOUT){ if(!is_out) return MIXERR_INVALLINE; info->dwSource = 0; return WINMM_GetSourceLineInfo(mmdevice, mmdev_index, info, flags); } TRACE("Returning INVALLINE on this component type: %u\n", info->dwComponentType); return MIXERR_INVALLINE; } static UINT WINMM_GetLineIDLineInfo(WINMM_MMDevice *mmdevice, UINT mmdev_index, MIXERLINEW *info, DWORD flags) { if(info->dwLineID == 0xFFFF0000){ info->dwDestination = 0; return WINMM_GetDestinationLineInfo(mmdevice, mmdev_index, info, flags); } if(info->dwLineID == 0){ info->dwSource = 0; return WINMM_GetSourceLineInfo(mmdevice, mmdev_index, info, flags); } TRACE("Returning INVALLINE on this dwLineID: %u\n", info->dwLineID); return MIXERR_INVALLINE; } /************************************************************************** * mixerGetLineInfoW [WINMM.@] */ UINT WINAPI mixerGetLineInfoW(HMIXEROBJ hmix, LPMIXERLINEW lpmliW, DWORD fdwInfo) { UINT mmdev_index; WINMM_MMDevice *mmdevice; HRESULT hr; TRACE("(%p, %p, %x)\n", hmix, lpmliW, fdwInfo); hr = WINMM_InitMMDevices(); if(FAILED(hr)) return MMSYSERR_NODRIVER; if(!lpmliW || lpmliW->cbStruct < sizeof(MIXERLINEW)) return MMSYSERR_INVALPARAM; TRACE("dwDestination: %u\n", lpmliW->dwDestination); TRACE("dwSource: %u\n", lpmliW->dwSource); TRACE("dwLineID: %u\n", lpmliW->dwLineID); TRACE("fdwLine: 0x%x\n", lpmliW->fdwLine); TRACE("dwComponentType: 0x%x\n", lpmliW->dwComponentType); if(fdwInfo & ~(MIXER_GETLINEINFOF_COMPONENTTYPE | MIXER_GETLINEINFOF_DESTINATION | MIXER_GETLINEINFOF_LINEID | MIXER_GETLINEINFOF_SOURCE | MIXER_GETLINEINFOF_TARGETTYPE | MIXER_OBJECTF_HMIXER | MIXER_OBJECTF_MIXER)){ WARN("Unknown GetLineInfo flag: %x\n", fdwInfo); return MMSYSERR_INVALFLAG; } mmdevice = WINMM_GetMixerMMDevice(hmix, fdwInfo, &mmdev_index); if(!mmdevice) return MMSYSERR_INVALHANDLE; lpmliW->dwUser = 0; switch(fdwInfo & MIXER_GETLINEINFOF_QUERYMASK){ case MIXER_GETLINEINFOF_DESTINATION: return WINMM_GetDestinationLineInfo(mmdevice, mmdev_index, lpmliW, fdwInfo); case MIXER_GETLINEINFOF_SOURCE: return WINMM_GetSourceLineInfo(mmdevice, mmdev_index, lpmliW, fdwInfo); case MIXER_GETLINEINFOF_COMPONENTTYPE: return WINMM_GetComponentTypeLineInfo(mmdevice, mmdev_index, lpmliW, fdwInfo); case MIXER_GETLINEINFOF_LINEID: return WINMM_GetLineIDLineInfo(mmdevice, mmdev_index, lpmliW, fdwInfo); case MIXER_GETLINEINFOF_TARGETTYPE: FIXME("TARGETTYPE flag not implemented!\n"); return MIXERR_INVALLINE; } TRACE("Returning INVALFLAG on these flags: %x\n", fdwInfo); return MMSYSERR_INVALFLAG; } /************************************************************************** * mixerGetLineInfoA [WINMM.@] */ UINT WINAPI mixerGetLineInfoA(HMIXEROBJ hmix, LPMIXERLINEA lpmliA, DWORD fdwInfo) { MIXERLINEW mliW; UINT ret; TRACE("(%p, %p, %x)\n", hmix, lpmliA, fdwInfo); if (lpmliA == NULL || lpmliA->cbStruct != sizeof(*lpmliA)) return MMSYSERR_INVALPARAM; mliW.cbStruct = sizeof(mliW); switch (fdwInfo & MIXER_GETLINEINFOF_QUERYMASK) { case MIXER_GETLINEINFOF_COMPONENTTYPE: mliW.dwComponentType = lpmliA->dwComponentType; break; case MIXER_GETLINEINFOF_DESTINATION: mliW.dwDestination = lpmliA->dwDestination; break; case MIXER_GETLINEINFOF_LINEID: mliW.dwLineID = lpmliA->dwLineID; break; case MIXER_GETLINEINFOF_SOURCE: mliW.dwDestination = lpmliA->dwDestination; mliW.dwSource = lpmliA->dwSource; break; case MIXER_GETLINEINFOF_TARGETTYPE: mliW.Target.dwType = lpmliA->Target.dwType; mliW.Target.wMid = lpmliA->Target.wMid; mliW.Target.wPid = lpmliA->Target.wPid; mliW.Target.vDriverVersion = lpmliA->Target.vDriverVersion; MultiByteToWideChar( CP_ACP, 0, lpmliA->Target.szPname, -1, mliW.Target.szPname, sizeof(mliW.Target.szPname)/sizeof(WCHAR)); break; default: WARN("Unsupported fdwControls=0x%08x\n", fdwInfo); return MMSYSERR_INVALFLAG; } ret = mixerGetLineInfoW(hmix, &mliW, fdwInfo); if(ret == MMSYSERR_NOERROR) { lpmliA->dwDestination = mliW.dwDestination; lpmliA->dwSource = mliW.dwSource; lpmliA->dwLineID = mliW.dwLineID; lpmliA->fdwLine = mliW.fdwLine; lpmliA->dwUser = mliW.dwUser; lpmliA->dwComponentType = mliW.dwComponentType; lpmliA->cChannels = mliW.cChannels; lpmliA->cConnections = mliW.cConnections; lpmliA->cControls = mliW.cControls; WideCharToMultiByte( CP_ACP, 0, mliW.szShortName, -1, lpmliA->szShortName, sizeof(lpmliA->szShortName), NULL, NULL); WideCharToMultiByte( CP_ACP, 0, mliW.szName, -1, lpmliA->szName, sizeof(lpmliA->szName), NULL, NULL ); lpmliA->Target.dwType = mliW.Target.dwType; lpmliA->Target.dwDeviceID = mliW.Target.dwDeviceID; lpmliA->Target.wMid = mliW.Target.wMid; lpmliA->Target.wPid = mliW.Target.wPid; lpmliA->Target.vDriverVersion = mliW.Target.vDriverVersion; WideCharToMultiByte( CP_ACP, 0, mliW.Target.szPname, -1, lpmliA->Target.szPname, sizeof(lpmliA->Target.szPname), NULL, NULL ); } return ret; } /************************************************************************** * mixerSetControlDetails [WINMM.@] */ UINT WINAPI mixerSetControlDetails(HMIXEROBJ hmix, LPMIXERCONTROLDETAILS lpmcd, DWORD fdwDetails) { WINMM_ControlDetails details; UINT ret; TRACE("(%p, %p, %x)\n", hmix, lpmcd, fdwDetails); if((fdwDetails & MIXER_SETCONTROLDETAILSF_QUERYMASK) == MIXER_SETCONTROLDETAILSF_CUSTOM) return MMSYSERR_NOTSUPPORTED; if(!lpmcd) return MMSYSERR_INVALPARAM; if(!WINMM_StartDevicesThread()) return MMSYSERR_NODRIVER; TRACE("dwControlID: %u\n", lpmcd->dwControlID); details.hmix = hmix; details.details = lpmcd; details.flags = fdwDetails; ret = SendMessageW(g_devices_hwnd, MXDM_SETCONTROLDETAILS, (DWORD_PTR)&details, 0); InterlockedDecrement(&g_devthread_token); return ret; } /************************************************************************** * mixerMessage [WINMM.@] */ DWORD WINAPI mixerMessage(HMIXER hmix, UINT uMsg, DWORD_PTR dwParam1, DWORD_PTR dwParam2) { TRACE("(%p, %d, %lx, %lx)\n", hmix, uMsg, dwParam1, dwParam2); return MMSYSERR_NOTSUPPORTED; }