winamp/Src/Plugins/Portable/pmp_android/androiddevice.cpp

1869 lines
50 KiB
C++
Raw Normal View History

2024-09-24 13:54:57 +01:00
#include "androiddevice.h"
#include "resource.h"
#include "androidplaylist.h"
#include "androidplaylistsaver.h"
#include "api.h"
#include "../winamp/wa_ipc.h"
#include <tataki/bitmap/bitmap.h>
#include <tataki/canvas/bltcanvas.h>
#include <shlobj.h>
#include <strsafe.h>
#include <shlwapi.h>
// from main.cpp
extern PMPDevicePlugin plugin;
extern std::vector<AndroidDevice*> devices;
extern bool loading_devices[26];
// from utils.cpp
extern BOOL RecursiveCreateDirectory(wchar_t* buf);
extern bool supportedFormat(wchar_t * file, wchar_t * supportedFormats);
extern DeviceType detectDeviceType(wchar_t drive);
extern __int64 fileSize(wchar_t * filename);
extern void removebadchars(wchar_t *s);
extern wchar_t * fixReplacementVars(wchar_t *str, int str_size, Device * dev, songid_t song);
static INT_PTR CALLBACK prefs_dialogProc(HWND hwndDlg, UINT uMsg, WPARAM wParam,LPARAM lParam);
int CopyFile(const wchar_t *infile, const wchar_t *outfile, void * callbackContext, void (*callback)(void * callbackContext, wchar_t * status), int * killswitch);
extern BOOL EjectVolume(TCHAR cDriveLetter);
static int connected_drives[26] = {0, };
// from albumart.cpp
void CopyAlbumArt(const wchar_t *source, const wchar_t *destination);
// called from ml_pmp
__int64 AndroidDevice::getDeviceCapacityAvailable() // in bytes
{
ULARGE_INTEGER tfree={0,}, total={0,}, freeb={0,};
wchar_t path[4]=L"x:\\";
path[0]=drive;
GetDiskFreeSpaceEx(path, &tfree, &total, &freeb);
return freeb.QuadPart;
}
// called from ml_pmp
__int64 AndroidDevice::getDeviceCapacityTotal()
{
// in bytes
ULARGE_INTEGER tfree={0,}, total={0,}, freeb={0,};
wchar_t path[4]=L"x:\\";
path[0]=drive;
GetDiskFreeSpaceEx(path, &tfree, &total, &freeb);
return total.QuadPart;
}
// called from ml_pmp
void AndroidDevice::Eject()
{
// if you ejected successfully, you MUST call PMP_IPC_DEVICEDISCONNECTED and delete this
for(size_t i=0; i < devices.size(); i++)
{
AndroidDevice *device = devices.at(i);
if (device == this)
{
if (EjectVolume(drive))
{
devices.erase(devices.begin() + i);
SendMessage(plugin.hwndPortablesParent,WM_PMP_IPC,(intptr_t)this,PMP_IPC_DEVICEDISCONNECTED);
delete this;
}
else
{
wchar_t titleStr[128] = {0};
MessageBox(plugin.hwndLibraryParent,WASABI_API_LNGSTRINGW(IDS_FAILED_TO_EJECT_DRIVE), WASABI_API_LNGSTRINGW_BUF(IDS_ERROR,titleStr,128),0);
}
break;
}
}
}
// called from ml_pmp
void AndroidDevice::Close()
{
// save any changes, and call PMP_IPC_DEVICEDISCONNECTED AND delete this
for (size_t i=0; i < devices.size(); i++)
{
if (((AndroidDevice*)devices.at(i)) == this)
{
devices.erase(devices.begin() + i);
SendMessage(plugin.hwndPortablesParent,WM_PMP_IPC,(intptr_t)this,PMP_IPC_DEVICEDISCONNECTED);
delete this;
break;
}
}
}
// called from ml_pmp
// return 0 for success, -1 for failed or cancelled
int AndroidDevice::transferTrackToDevice(const itemRecordW * track, // the track to transfer
void * callbackContext, //pass this to the callback
void (*callback)(void *callbackContext, wchar_t *status), // call this every so often so the GUI can be updated. Including when finished!
songid_t * songid, // fill in the songid when you are finished
int * killswitch) // if this gets set to anything other than zero, the transfer has been cancelled by the user
{
wchar_t fn[MAX_PATH] = L"X:\\";
lstrcpyn(fn, songFormat, MAX_PATH);
fn[0] = drive;
wchar_t * src = track->filename;
wchar_t ext[10] = {0};
wchar_t *e = wcsrchr(src,L'.');
if (e) lstrcpyn(ext, e, 10);
bool transcodefile = false;
if (transcoder && transcoder->ShouldTranscode(src))
{
int r = transcoder->CanTranscode(src, ext);
if (r != 0 && r != -1) transcodefile = true;
}
AndroidSong *s = new AndroidSong();
lstrcpyn(s->filename, src, MAX_PATH); //this will get written over, but for now we have this so that the user can keep the old filename
fillMetaData(s); // TODO: benski> used cached info inside track (itemRecordW) if available
fixReplacementVars(fn, MAX_PATH, this, (songid_t)s);
StringCchCat(fn, MAX_PATH, ext); //place extension
StringCchCopy(s->filename, MAX_PATH, fn);
wchar_t * dir = wcsrchr(fn,L'\\');
wchar_t * dir2 = wcsrchr(fn,L'/');
wchar_t slash;
if (dir2 > dir)
{
dir = dir2;
slash=L'/';
}
else slash = L'\\';
if (dir) *dir = 0;
RecursiveCreateDirectory(fn);
if (dir) *dir = slash;
int r;
if (transcodefile)
{
r = transcoder->TranscodeFile(src, fn, killswitch, callback, callbackContext);
}
else
{
r = CopyFile(src, fn, callbackContext, callback, killswitch);
}
if (r == 0)
{
// TODO: benski> do we need to update any fields from the transcoded filed?
CopyAlbumArt(src, fn);
writeRecordToDB(s);
callback(callbackContext, WASABI_API_LNGSTRINGW(IDS_DONE));
*songid = (songid_t)s;
}
else
{
callback(callbackContext, WASABI_API_LNGSTRINGW(IDS_TRANSFER_FAILED));
delete s;
}
return r;
}
// called from ml_pmp
int AndroidDevice::trackAddedToTransferQueue(const itemRecordW *track)
{
// return 0 to accept, -1 for "not enough space", -2 for "incorrect format"
__int64 k = getTrackSizeOnDevice(track);
if (!k) return -2;
__int64 l = (__int64)k;
__int64 avail = getDeviceCapacityAvailable();
__int64 cmp = transferQueueLength;
cmp += l;
if (cmp > avail) return -1;
else
{
transferQueueLength += l;
return 0;
}
}
// called from ml_pmp
void AndroidDevice::trackRemovedFromTransferQueue(const itemRecordW *track)
{
transferQueueLength -= (__int64)getTrackSizeOnDevice(track);
}
// called from ml_pmp
// return the amount of space that will be taken up on the device by the track (once it has been tranferred)
// or 0 for incompatable. This is usually the filesize, unless you are transcoding. An estimate is acceptable.
__int64 AndroidDevice::getTrackSizeOnDevice(const itemRecordW *track)
{
if (transcoder)
{
if (transcoder->ShouldTranscode(track->filename))
{
int k = transcoder->CanTranscode(track->filename);
if (k != -1 && k != 0) return k;
return 0;
}
else return fileSize(track->filename);
}
else
{
if (!supportedFormat(track->filename,supportedFormats)) return 0;
return fileSize(track->filename);
}
}
// called from ml_pmp
void AndroidDevice::deleteTrack( songid_t songid )
{
// physically remove from device. Be sure to remove it from all the playlists!
AndroidSong *s = (AndroidSong *)songid;
//errno == 2 is ENOENT
if ( !_wunlink( s->filename ) || errno == 2 ) //will continue delete if file was deleted successfully or file path does not exist in the first place (errno==2)
{
for ( size_t i = 0; i < androidPlaylists.size(); i++ )
{
AndroidPlaylist *pl = androidPlaylists.at( i );
pl->RemoveSong( s );
}
if ( purgeFolders[ 0 ] == '1' )
{
RemoveDirectory( s->filename );
}
delete s;
}
else
{
char titleStr[ 32 ] = { 0 };
MessageBoxA( plugin.hwndLibraryParent, WASABI_API_LNGSTRING( IDS_TRACK_IN_USE ), WASABI_API_LNGSTRING_BUF( IDS_ERROR, titleStr, 32 ), 0 );
}
}
// called from ml_pmp
// optional. Will be called at a good time to save changes
void AndroidDevice::commitChanges()
{
Nullsoft::Utility::AutoLock lock(dbcs);
if (deviceTable && androidPlaylists.size() && androidPlaylists[0]->dirty)
{
NDE_Table_Sync(deviceTable);
androidPlaylists[0]->dirty=false;
}
for (size_t i=1;i<androidPlaylists.size();i++)
{
AndroidPlaylist *pl = androidPlaylists[i];
if (pl->dirty)
{
// Lets delete the current playlist file
_wunlink(pl->filename);
AndroidPlaylistSaver playlistSaver(pl->filename, L"autosaved", pl);
playlistSaver.Save();
pl->dirty = false;
}
}
}
// called from ml_pmp
int AndroidDevice::getPlaylistCount()
{
// always at least 1. playlistnumber 0 is the Master Playlist containing all tracks.
return (int)androidPlaylists.size();
}
// called from ml_pmp
// PlaylistName(0) should return the name of the device.
void AndroidDevice::getPlaylistName(int playlistnumber, wchar_t *buf, int len)
{
wchar_t * pathName = androidPlaylists.at(playlistnumber)->filename;
if (playlistnumber != 0)
{
if (pathName[0])
{
wchar_t * playlistName = PathFindFileNameW(pathName);
lstrcpyn(buf,playlistName,len);
PathRemoveExtension(buf);
}
}
else //playlist number = 0 -> this is the device
{
if (pathName[0])
{
//if we have a custom device name
lstrcpyn(buf,pathName,len);
}
else
{
WASABI_API_LNGSTRINGW_BUF(IDS_ANDROID_DRIVE_X,buf,len);
wchar_t * x = wcsrchr(buf,L'X');
if (x) *x = drive;
}
}
}
// called from ml_pmp
int AndroidDevice::getPlaylistLength(int playlistnumber)
{
return (int)androidPlaylists.at(playlistnumber)->size();
}
// called from ml_pmp
songid_t AndroidDevice::getPlaylistTrack(int playlistnumber,int songnum)
{
// returns a songid
return (songid_t) androidPlaylists.at(playlistnumber)->at(songnum);
}
// called from ml_pmp
void AndroidDevice::setPlaylistName(int playlistnumber, const wchar_t *buf)
{
// with playlistnumber==0, set the name of the device.
AndroidPlaylist * pl = androidPlaylists.at(playlistnumber);
if (playlistnumber==0)
{
WritePrivateProfileString(L"pmp_android",L"customName",buf,iniFile);
lstrcpyn(pl->filename,buf,sizeof(pl->filename)/sizeof(wchar_t));
}
else
{
wchar_t currentFilename[MAX_PATH] = {0};
lstrcpynW(currentFilename, pl->filename, MAX_PATH);
wchar_t * newFilename = const_cast<wchar_t *>(buf);
if (wcslen(buf) >= MAX_PATH-1) newFilename[MAX_PATH-1]=0;
while (newFilename && *newFilename && *newFilename == L'.') newFilename++;
removebadchars(newFilename);
StringCchPrintf(pl->filename,MAX_PATH,L"%s\\%s.m3u",pldir,newFilename);
pl->filename[0]=drive;
MoveFile(currentFilename, pl->filename);
pl->dirty=true;
}
}
// called from ml_pmp
void AndroidDevice::playlistSwapItems(int playlistnumber, int posA, int posB)
{
// swap the songs at position posA and posB
AndroidPlaylist * pl = (AndroidPlaylist*)androidPlaylists.at(playlistnumber);
pl->swap(posA, posB);
}
// called from ml_pmp
void AndroidDevice::sortPlaylist(int playlistnumber, int sortBy)
{
// TODO: implement
}
// called from ml_pmp
void AndroidDevice::addTrackToPlaylist(int playlistnumber, songid_t songid)
{
// adds songid to the end of the playlist
AndroidSong* song = (AndroidSong *) songid;
AndroidPlaylist * pl = (AndroidPlaylist*)androidPlaylists.at(playlistnumber);
pl->push_back(song);
}
// called from ml_pmp
void AndroidDevice::removeTrackFromPlaylist(int playlistnumber, int songnum)
{
//where songnum is the position of the track in the playlist
AndroidPlaylist * pl = (AndroidPlaylist*)androidPlaylists.at(playlistnumber);
pl->eraseAt(songnum);
}
// called from ml_pmp
void AndroidDevice::deletePlaylist(int playlistnumber)
{
AndroidPlaylist * pl = (AndroidPlaylist*)androidPlaylists.at(playlistnumber);
_wunlink(pl->filename);
androidPlaylists.erase(androidPlaylists.begin() + playlistnumber);
delete pl;
}
// called from ml_pmp
int AndroidDevice::newPlaylist(const wchar_t *name)
{
wchar_t plname[MAX_PATH] = {0};
StringCchCopy(plname, MAX_PATH, name);
removebadchars(plname);
// create empty playlist, returns playlistnumber. -1 for failed.
for (std::vector<AndroidPlaylist*>::iterator itr=androidPlaylists.begin();itr!=androidPlaylists.end();itr++)
{
AndroidPlaylist *p = *itr;
if (!_wcsicmp(p->playlistName, plname))
return -1;
}
wchar_t buff[MAX_PATH] = {0};
StringCchPrintf(buff, MAX_PATH, L"%s\\%s.m3u",pldir,plname);
AndroidPlaylist * pl = new AndroidPlaylist(*this, buff, false);
pl->filename[0]=drive;
//Lets save the playlist right away
AndroidPlaylistSaver playlistSaver(pl->filename, L"autosaved", pl);
playlistSaver.Save();
androidPlaylists.push_back(pl);
return (int)androidPlaylists.size()-1;
}
// called from ml_pmp
void AndroidDevice::getTrackArtist(songid_t songid, wchar_t *buf, int len)
{
AndroidSong* song = (AndroidSong*)songid;
if (!song) return;
buf[0] = L'\0';
StringCchCopy(buf, len, song->artist);
}
// called from ml_pmp
void AndroidDevice::getTrackAlbum(songid_t songid, wchar_t *buf, int len)
{
AndroidSong* song = (AndroidSong*)songid;
if (!song) return;
buf[0] = L'\0';
StringCchCopy(buf, len, song->album);
}
// called from ml_pmp
void AndroidDevice::getTrackTitle(songid_t songid, wchar_t *buf, int len)
{
AndroidSong* song = (AndroidSong*)songid;
if (!song) return;
StringCchCopy(buf, len, song->title);
}
// called from ml_pmp
int AndroidDevice::getTrackTrackNum(songid_t songid)
{
AndroidSong* song = (AndroidSong*)songid;
if (!song) return 0;
return song->track;
}
// called from ml_pmp
int AndroidDevice::getTrackDiscNum(songid_t songid)
{
AndroidSong* song = (AndroidSong*)songid;
if (!song) return 0;
return song->discnum;
}
// called from ml_pmp
void AndroidDevice::getTrackGenre(songid_t songid, wchar_t * buf, int len)
{
AndroidSong* song = (AndroidSong*)songid;
if (!song) return;
StringCchCopy(buf, len, song->genre);
}
// called from ml_pmp
int AndroidDevice::getTrackYear(songid_t songid)
{
AndroidSong* song = (AndroidSong*)songid;
if (!song) return 0;
return song->year;
}
// called from ml_pmp
__int64 AndroidDevice::getTrackSize(songid_t songid)
{
// in bytes
AndroidSong* song = (AndroidSong*)songid;
if (!song) return 0;
return song->size;
}
// called from ml_pmp
int AndroidDevice::getTrackLength(songid_t songid)
{
// in millisecs
AndroidSong* song = (AndroidSong*)songid;
if (!song) return 0;
return song->length;
}
// called from ml_pmp
int AndroidDevice::getTrackBitrate(songid_t songid)
{
// in kbps
AndroidSong* song = (AndroidSong*)songid;
if (!song) return 0;
return song->bitrate;
}
// called from ml_pmp
int AndroidDevice::getTrackPlayCount(songid_t songid)
{
AndroidSong* song = (AndroidSong*)songid;
if (!song) return 0;
return song->playcount;
}
// called from ml_pmp
int AndroidDevice::getTrackRating(songid_t songid)
{
//0-5
// TODO: implement
return 0;
}
// called from ml_pmp
__time64_t AndroidDevice::getTrackLastPlayed(songid_t songid)
{
// in unix time format
// TODO: implement
return 0;
}
// called from ml_pmp
__time64_t AndroidDevice::getTrackLastUpdated(songid_t songid)
{
// in unix time format
// TODO: implement
return 0;
}
// called from ml_pmp
void AndroidDevice::getTrackAlbumArtist(songid_t songid, wchar_t *buf, int len)
{
AndroidSong* song = (AndroidSong*)songid;
if (!song) return;
StringCchCopy(buf, len, song->albumartist);
}
// called from ml_pmp
void AndroidDevice::getTrackPublisher(songid_t songid, wchar_t *buf, int len)
{
AndroidSong* song = (AndroidSong*)songid;
if (!song) return;
StringCchCopy(buf, len, song->publisher);
}
// called from ml_pmp
void AndroidDevice::getTrackComposer(songid_t songid, wchar_t *buf, int len)
{
AndroidSong* song = (AndroidSong*)songid;
if (!song) return;
StringCchCopy(buf, len, song->composer);
}
// called from ml_pmp
int AndroidDevice::getTrackType(songid_t songid)
{
// TODO: implement
return 0;
}
// called from ml_pmp
void AndroidDevice::getTrackExtraInfo(songid_t songid, const wchar_t *field, wchar_t *buf, int len)
{
// TODO: implement
//optional
}
// called from ml_pmp
// feel free to ignore any you don't support
void AndroidDevice::setTrackArtist(songid_t songid, const wchar_t *value)
{
AndroidSong *song = (AndroidSong *) songid;
if (song)
{
updateTrackField(song, DEVICEVIEW_COL_ARTIST, value, FIELD_STRING);
StringCchCopy(song->artist, FIELD_LENGTH, value);
AGAVE_API_METADATA->SetExtendedFileInfo(song->filename, L"artist", value);
}
}
// called from ml_pmp
void AndroidDevice::setTrackAlbum(songid_t songid, const wchar_t *value)
{
AndroidSong *song = (AndroidSong *) songid;
if (song)
{
updateTrackField(song, DEVICEVIEW_COL_ALBUM, value, FIELD_STRING);
StringCchCopy(song->album, FIELD_LENGTH, value);
AGAVE_API_METADATA->SetExtendedFileInfo(song->filename, L"album", value);
}
}
// called from ml_pmp
void AndroidDevice::setTrackTitle(songid_t songid, const wchar_t *value)
{
AndroidSong *song = (AndroidSong *) songid;
if (song)
{
updateTrackField(song, DEVICEVIEW_COL_TITLE, value, FIELD_STRING);
StringCchCopy(song->title, FIELD_LENGTH, value);
AGAVE_API_METADATA->SetExtendedFileInfo(song->filename, L"title", value);
}
}
// called from ml_pmp
void AndroidDevice::setTrackTrackNum(songid_t songid, int value)
{
AndroidSong *song = (AndroidSong *) songid;
if (song)
{
wchar_t track[FIELD_LENGTH] = {0};
updateTrackField(song, DEVICEVIEW_COL_TRACK, &value, FIELD_INTEGER);
song->track = value;
StringCchPrintf(track, FIELD_LENGTH, L"%d", value);
AGAVE_API_METADATA->SetExtendedFileInfo(song->filename, L"track", track);
}
}
// called from ml_pmp
void AndroidDevice::setTrackDiscNum(songid_t songid, int value)
{
AndroidSong *song = (AndroidSong *) songid;
if (song)
{
wchar_t discNum[FIELD_LENGTH] = {0};
updateTrackField(song, DEVICEVIEW_COL_DISC_NUMBER, &value, FIELD_INTEGER);
song->discnum = value;
StringCchPrintf(discNum, FIELD_LENGTH, L"%d", value);
AGAVE_API_METADATA->SetExtendedFileInfo(song->filename, L"disc", discNum);
}
}
// called from ml_pmp
void AndroidDevice::setTrackGenre(songid_t songid, const wchar_t *value)
{
AndroidSong *song = (AndroidSong *) songid;
if (song)
{
updateTrackField(song, DEVICEVIEW_COL_GENRE, value, FIELD_STRING);
StringCchCopy(song->genre, FIELD_LENGTH, value);
AGAVE_API_METADATA->SetExtendedFileInfo(song->filename, L"genre", value);
}
}
// called from ml_pmp
void AndroidDevice::setTrackYear(songid_t songid, int year)
{
AndroidSong *song = (AndroidSong *) songid;
if (song)
{
wchar_t yearStr[FIELD_LENGTH] = {0};
updateTrackField(song, DEVICEVIEW_COL_YEAR, &year, FIELD_INTEGER);
song->year = year;
StringCchPrintf(yearStr, FIELD_LENGTH, L"%d", year);
AGAVE_API_METADATA->SetExtendedFileInfo(song->filename, L"year", yearStr);
}
}
// called from ml_pmp
void AndroidDevice::setTrackPlayCount(songid_t songid, int value)
{
AndroidSong *song = (AndroidSong *) songid;
if (song)
{
wchar_t playCount[FIELD_LENGTH] = {0};
updateTrackField(song, DEVICEVIEW_COL_PLAY_COUNT, &value, FIELD_INTEGER);
song->playcount = value;
StringCchPrintf(playCount, FIELD_LENGTH, L"%d", value);
AGAVE_API_METADATA->SetExtendedFileInfo(song->filename, L"playcount", playCount);
}
}
// called from ml_pmp
void AndroidDevice::setTrackRating(songid_t songid, int value)
{
AndroidSong *song = (AndroidSong *) songid;
if (song)
{
wchar_t rating[FIELD_LENGTH] = {0};
updateTrackField(song, DEVICEVIEW_COL_PLAY_COUNT, &value, FIELD_INTEGER);
song->playcount = value;
StringCchPrintf(rating, FIELD_LENGTH, L"%d", value);
AGAVE_API_METADATA->SetExtendedFileInfo(song->filename, L"rating", rating);
}
}
// called from ml_pmp
void AndroidDevice::setTrackLastPlayed(songid_t songid, __time64_t value)
{
// TODO: implement
} // in unix time format
// called from ml_pmp
void AndroidDevice::setTrackLastUpdated(songid_t songid, __time64_t value)
{
// TODO: implement
} // in unix time format
// called from ml_pmp
void AndroidDevice::setTrackAlbumArtist(songid_t songid, const wchar_t *value)
{
AndroidSong *song = (AndroidSong *) songid;
if (song)
{
updateTrackField(song, DEVICEVIEW_COL_ALBUM_ARTIST, value, FIELD_STRING);
StringCchCopy(song->albumartist, FIELD_LENGTH, value);
AGAVE_API_METADATA->SetExtendedFileInfo(song->filename, L"albumartist", value);
}
}
// called from ml_pmp
void AndroidDevice::setTrackPublisher(songid_t songid, const wchar_t *value)
{
AndroidSong *song = (AndroidSong *) songid;
if (song)
{
updateTrackField(song, DEVICEVIEW_COL_PUBLISHER, value, FIELD_STRING);
StringCchCopy(song->publisher, FIELD_LENGTH, value);
AGAVE_API_METADATA->SetExtendedFileInfo(song->filename, L"publisher", value);
}
}
// called from ml_pmp
void AndroidDevice::setTrackComposer(songid_t songid, const wchar_t *value)
{
AndroidSong *song = (AndroidSong *) songid;
if (song)
{
updateTrackField(song, DEVICEVIEW_COL_COMPOSER, value, FIELD_STRING);
StringCchCopy(song->composer, FIELD_LENGTH, value);
AGAVE_API_METADATA->SetExtendedFileInfo(song->filename, L"composer", value);
}
}
// called from ml_pmp
void AndroidDevice::setTrackExtraInfo(songid_t songid, const wchar_t *field, const wchar_t *value)
{
// TODO: implement
} //optional
// called from ml_pmp
bool AndroidDevice::playTracks(songid_t * songidList, int listLength, int startPlaybackAt, bool enqueue)
{
// return false if unsupported
if (!enqueue) //clear playlist
{
SendMessage(plugin.hwndWinampParent,WM_WA_IPC,0,IPC_DELETE);
}
for (int i=0; i<listLength; i++)
{
AndroidSong *curSong = (AndroidSong*)songidList[i];
if (curSong)
{
enqueueFileWithMetaStructW s={0};
s.filename = _wcsdup(curSong->filename);
s.title = _wcsdup( curSong->title );
s.ext = NULL;
s.length = curSong->length/1000;
SendMessage(plugin.hwndWinampParent, WM_WA_IPC, (WPARAM)&s, IPC_PLAYFILEW);
}
else
{
char titleStr[32] = {0};
MessageBoxA(plugin.hwndWinampParent,WASABI_API_LNGSTRING(IDS_CANNOT_OPEN_FILE),
WASABI_API_LNGSTRING_BUF(IDS_ERROR,titleStr,32),0);
}
}
if (!enqueue)
{
//play item startPlaybackAt
SendMessage(plugin.hwndWinampParent,WM_WA_IPC,startPlaybackAt,IPC_SETPLAYLISTPOS);
SendMessage(plugin.hwndWinampParent,WM_COMMAND,40047,0); //stop
SendMessage(plugin.hwndWinampParent,WM_COMMAND,40045,0); //play
}
return true;
}
static const intptr_t encoder_blacklist[] =
{
mmioFOURCC('W','M','A',' '),
mmioFOURCC('A','A','C','H'),
mmioFOURCC('A','A','C','P'),
mmioFOURCC('A','A','C','r'),
mmioFOURCC('F','L','A','C'),
mmioFOURCC('M','P','2',' '),
mmioFOURCC('A','D','T','S'),
};
// called from ml_pmp
intptr_t AndroidDevice::extraActions(intptr_t param1, intptr_t param2, intptr_t param3,intptr_t param4)
{
switch (param1)
{
case DEVICE_SET_ICON:
{
MLTREEIMAGE * i = (MLTREEIMAGE*)param2;
i->hinst = plugin.hDllInstance;
i->resourceId = IDR_ANDROID_ICON;
}
break;
case DEVICE_SUPPORTED_METADATA:
{
intptr_t supported = SUPPORTS_ARTIST | SUPPORTS_ALBUM | SUPPORTS_TITLE | SUPPORTS_TRACKNUM | SUPPORTS_DISCNUM | SUPPORTS_GENRE |
SUPPORTS_YEAR | SUPPORTS_SIZE | SUPPORTS_LENGTH | SUPPORTS_BITRATE | SUPPORTS_LASTUPDATED | SUPPORTS_ALBUMARTIST |
SUPPORTS_COMPOSER | SUPPORTS_PUBLISHER | SUPPORTS_ALBUMART;
return supported;
}
break;
case DEVICE_CAN_RENAME_DEVICE:
return 1;
case DEVICE_GET_INI_FILE:
StringCchCopy((wchar_t*)param2, MAX_PATH, iniFile);
break;
case DEVICE_GET_PREFS_DIALOG:
if (param3 == 0)
{
pref_tab * p = (pref_tab *)param2;
p->hinst = WASABI_API_LNG_HINST;
p->dlg_proc = prefs_dialogProc;
p->res_id = IDD_CONFIG;
WASABI_API_LNGSTRINGW_BUF(IDS_ADVANCED,p->title,100);
}
break;
case DEVICE_DONE_SETTING:
{
AndroidSong * song = (AndroidSong *) param2;
AGAVE_API_METADATA->WriteExtendedFileInfo(song->filename);
return true;
}
break;
case DEVICE_VETO_ENCODER:
{
for (size_t i=0;i<sizeof(encoder_blacklist)/sizeof(*encoder_blacklist);i++)
{
// TODO: check device info XML for aacPlus support
if (param2 == encoder_blacklist[i])
return 1;
}
}
return 0;
case DEVICE_GET_ICON:
{
if (param2 <= 16 && param3 <= 16)
{
// TODO: get the name of the DLL at load time
StringCchPrintfW((wchar_t *)param4, 260, L"res://%s/PNG/#%u", L"pmp_android.dll", IDR_ANDROID_ICON);
}
else
{
// TODO: get the name of the DLL at load time
StringCchPrintfW((wchar_t *)param4, 260, L"res://%s/PNG/#%u", L"pmp_android.dll", IDB_ANDROID_160);
}
}
break;
}
return false;
}
// called from ml_pmp
bool AndroidDevice::copyToHardDriveSupported()
{
return true;
}
// called from ml_pmp
__int64 AndroidDevice::songSizeOnHardDrive(songid_t song)
{
// how big a song will be when copied back. Return -1 for not supported.
// TODO: implement
return 0;
}
// called from ml_pmp
int AndroidDevice::copyToHardDrive(songid_t song, // the song to copy
wchar_t * path, // path to copy to, in the form "c:\directory\song". The directory will already be created, you must append ".mp3" or whatever to this string! (there is space for at least 10 new characters).
void * callbackContext, //pass this to the callback
void (*callback)(void * callbackContext, wchar_t * status), // call this every so often so the GUI can be updated. Including when finished!
int * killswitch // if this gets set to anything other than zero, the transfer has been cancelled by the user
)
{
// -1 for failed/not supported. 0 for success.
AndroidSong* track = (AndroidSong*)song;
wchar_t * ext = PathFindExtensionW(track->filename);
if (ext && (lstrlen(ext)<10)) StringCchCat(path,MAX_PATH, ext); // append correct extention
return CopyFile(track->filename,path,callbackContext, callback, killswitch);
}
// called from ml_pmp
// art functions
void AndroidDevice::setArt(songid_t songid, void *buf, int w, int h)
{
//buf is in format ARGB32*
// TODO: implement
}
// called from ml_pmp
pmpart_t AndroidDevice::getArt(songid_t songid)
{
AndroidSong *song = (AndroidSong *)songid;
ARGB32 *bits;
int w, h;
if (AGAVE_API_ALBUMART && AGAVE_API_ALBUMART->GetAlbumArt(song->filename, L"cover", &w, &h, &bits) == ALBUMART_SUCCESS && bits)
{
return (pmpart_t) new AndroidArt(bits, w, h);
}
return 0;
}
// called from ml_pmp
void AndroidDevice::releaseArt(pmpart_t art)
{
AndroidArt *image = (AndroidArt *)art;
delete image;
}
// called from ml_pmp
int AndroidDevice::drawArt(pmpart_t art, HDC dc, int x, int y, int w, int h)
{
AndroidArt *image = (AndroidArt *)art;
if (image)
{
HQSkinBitmap temp(image->bits, image->w, image->h); // wrap into a SkinBitmap (no copying involved)
DCCanvas canvas(dc);
temp.stretch(&canvas,x,y,w,h);
return 1;
}
return 0;
}
// called from ml_pmp
void AndroidDevice::getArtNaturalSize(pmpart_t art, int *w, int *h)
{
AndroidArt *image = (AndroidArt *)art;
if (image)
{
*w = image->w;
*h = image->h;
}
}
// called from ml_pmp
void AndroidDevice::setArtNaturalSize(pmpart_t art, int w, int h)
{
// TODO: implement
//DebugBreak();
}
// called from ml_pmp
void AndroidDevice::getArtData(pmpart_t art, void* data)
{
AndroidArt *image = (AndroidArt *)art;
if (image)
memcpy(data, image->bits, image->w*image->h*sizeof(ARGB32));
// data ARGB32* is at natural size
}
// called from ml_pmp
bool AndroidDevice::artIsEqual(pmpart_t a, pmpart_t b)
{
if (a == b)
return true;
// TODO: implement
return false;
}
//////////////////////////////////////////////////////////////////////////////////////////
// Initialize class statics
nde_database_t AndroidDevice::discDB = 0;
// The getter that returns the master playlist
// the playlist vector always carries a master playlist
AndroidPlaylist* AndroidDevice::getMasterPlaylist()
{
for (std::vector<AndroidPlaylist*>::const_iterator e = androidPlaylists.begin(); e != androidPlaylists.end(); e++)
{
AndroidPlaylist* playlist = (*e);
if (playlist->isMaster()) return playlist;
}
return NULL;
}
// constructor
AndroidDevice::AndroidDevice(wchar_t drive, pmpDeviceLoading * load): transcoder(NULL)
{
deviceTable = 0;
StringCchPrintf(ndeDataFile, 100, L"%c:\\Winamp\\winamp_metadata.dat", drive);
StringCchPrintf(ndeIndexFile, 100, L"%c:\\Winamp\\winamp_metadata.idx", drive);
load->dev = this;
load->UpdateCaption = NULL;
//pass load to ml_pmp, ml updates load->UpdateCaption and context
SendMessage(plugin.hwndPortablesParent,WM_PMP_IPC,(intptr_t)load,PMP_IPC_DEVICELOADING);
if (load->UpdateCaption)
{
wchar_t buf[100] = L"";
WASABI_API_LNGSTRINGW_BUF(IDS_LOADING_DRIVE_X,buf,100);
wchar_t * x = wcsrchr(buf,L'X');
if (x) *x = drive;
load->UpdateCaption(buf,load->context);
}
// load settings
StringCchCopy(iniFile, MAX_PATH, L"x:\\Winamp\\");
iniFile[0]=drive;
CreateDirectory(iniFile, NULL);
StringCchCat(iniFile,MAX_PATH,L"pmp_android.ini");
wchar_t customName[FIELD_LENGTH] = {0};
GetPrivateProfileString(L"pmp_android",L"pldir",L"X:\\Music",pldir,sizeof(pldir)/sizeof(wchar_t),iniFile);
GetPrivateProfileString(L"pmp_android",L"songFormat",L"X:\\Music\\<Artist>\\<Album>\\## - <Title>",songFormat,sizeof(songFormat)/sizeof(wchar_t),iniFile);
GetPrivateProfileString(L"pmp_android",L"supportedFormats",L"mp3;wav;m4a;mp4;m4v;avi;3gp;mid;ogg",supportedFormats,sizeof(supportedFormats)/sizeof(wchar_t),iniFile);
GetPrivateProfileString(L"pmp_android",L"purgeFolders",L"1",purgeFolders,sizeof(purgeFolders)/sizeof(wchar_t),iniFile);
GetPrivateProfileString(L"pmp_android",L"customName",L"",customName,sizeof(customName)/sizeof(wchar_t),iniFile);
pl_write_mode = GetPrivateProfileInt(L"pmp_android",L"pl_write_mode",0,iniFile);
pldir[0] = drive;
songFormat[0] = drive;
transferQueueLength = 0;
this->drive = drive;
AndroidPlaylist * mpl = new AndroidPlaylist(*this, customName, true);
androidPlaylists.push_back(mpl);
wchar_t * pl = _wcsdup(pldir);
pl[0] = drive;
RecursiveCreateDirectory(pl);
wchar_t root[3] = L"X:";
root[0] = drive;
openDeviceTable();
fileProbe(root);
// sort out and read playlists....
if (WASABI_API_PLAYLISTMNGR != NULL && WASABI_API_PLAYLISTMNGR != (api_playlistmanager *)1)
{
for (std::vector<AndroidPlaylist*>::const_iterator e = androidPlaylists.begin(); e != androidPlaylists.end(); e++)
{
AndroidPlaylist* playlist = (*e);
if (playlist->isMaster() == false)
{
WASABI_API_PLAYLISTMNGR->Load(playlist->getFilename(), playlist);
}
}
}
tag();
devices.push_back(this);
extern HWND config;
if (config) PostMessage(config,WM_USER,0,0);
SendMessage(plugin.hwndPortablesParent,WM_PMP_IPC,(intptr_t)this,PMP_IPC_DEVICECONNECTED);
setupTranscoder();
}
AndroidDevice::AndroidDevice()
{
}
AndroidDevice::~AndroidDevice()
{
closeDeviceTable();
if (transcoder)
SendMessage(plugin.hwndPortablesParent,WM_PMP_IPC,(WPARAM)transcoder,PMP_IPC_RELEASE_TRANSCODER);
}
//read files from device's folder 'indir'
void AndroidDevice::fileProbe(wchar_t * indir)
{
wchar_t dir[MAX_PATH] = {0};
WIN32_FIND_DATA FindFileData = {0};
StringCchPrintf(dir,MAX_PATH,L"%s\\*",indir);
HANDLE hFind = FindFirstFile(dir, &FindFileData);
if (hFind == INVALID_HANDLE_VALUE) return;
do
{
if (wcscmp(FindFileData.cFileName,L".") && wcscmp(FindFileData.cFileName,L".."))
{
wchar_t fullfile[MAX_PATH] = {0};
StringCchPrintf(fullfile,MAX_PATH,L"%s\\%s",indir,FindFileData.cFileName);
if (FindFileData.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY) //file is directory
{
fileProbe(fullfile); //call until we have found a file
}
else // found a file!
{
wchar_t * ext = wcsrchr(FindFileData.cFileName,'.');
if (!ext) continue; //no files with extensions in the directory
ext++;
int isM3UPlaylistFormat = CompareString(LOCALE_USER_DEFAULT, NORM_IGNORECASE, ext, -1, L"m3u", -1)-2;
if (isM3UPlaylistFormat == 0) // its a playlist
{
AndroidPlaylist *playlist = new AndroidPlaylist(*this, fullfile, false);
androidPlaylists.push_back(playlist);
continue;
} //its a file
if (supportedFormat(fullfile, supportedFormats)) //check extension
{
AndroidSong *s = new AndroidSong();
lstrcpynW(s->filename, fullfile, MAX_PATH);
this->getMasterPlaylist()->push_back(s); //add track to alltrack list (playlist 0)
}
}
}
}
while (FindNextFile(hFind, &FindFileData) != 0);
FindClose(hFind);
}
int AndroidDevice::getFileInfoW(const wchar_t *filename, const wchar_t *metadata, wchar_t *dest, size_t len)
{
dest[0]=0;
return AGAVE_API_METADATA->GetExtendedFileInfo(filename, metadata, dest, len);
}
// read all metadata from the metadata wasabi service
void AndroidDevice::fillMetaData(AndroidSong *t)
{
if (!t->filled)
{
wchar_t tmp[1024] = {0};
if (getFileInfoW(t->filename,L"artist",tmp,sizeof(tmp)/sizeof(wchar_t)) && tmp[0])
{
StringCchCopyW(t->artist, FIELD_LENGTH, tmp);
t->filled = true;
}
if (getFileInfoW(t->filename,L"title",tmp,sizeof(tmp)/sizeof(wchar_t)) && tmp[0])
{
StringCchCopyW(t->title, FIELD_LENGTH, tmp);
t->filled = true;
}
if (getFileInfoW(t->filename,L"album",tmp,sizeof(tmp)/sizeof(wchar_t)) && tmp[0])
{
StringCchCopyW(t->album, FIELD_LENGTH, tmp);
t->filled = true;
}
if (getFileInfoW(t->filename,L"composer",tmp,sizeof(tmp)/sizeof(wchar_t)) && tmp[0])
{
StringCchCopyW(t->composer, FIELD_LENGTH, tmp);
t->filled = true;
}
if (getFileInfoW(t->filename,L"publisher",tmp,sizeof(tmp)/sizeof(wchar_t)) && tmp[0])
{
StringCchCopyW(t->publisher, FIELD_LENGTH, tmp);
t->filled = true;
}
if (getFileInfoW(t->filename,L"albumartist",tmp,sizeof(tmp)/sizeof(wchar_t)) && tmp[0])
{
StringCchCopyW(t->albumartist, FIELD_LENGTH, tmp);
t->filled = true;
}
if (getFileInfoW(t->filename, L"length",tmp,sizeof(tmp)/sizeof(wchar_t)) && tmp[0])
{
t->length = _wtoi(tmp);
t->filled = true;
}
if (getFileInfoW(t->filename, L"track",tmp,sizeof(tmp)/sizeof(wchar_t)) && tmp[0])
{
t->track = _wtoi(tmp);
t->filled = true;
}
if (getFileInfoW(t->filename, L"disc",tmp,sizeof(tmp)/sizeof(wchar_t)) && tmp[0])
{
t->discnum = _wtoi(tmp);
t->filled = true;
}
if (getFileInfoW(t->filename, L"genre",tmp,sizeof(tmp)/sizeof(wchar_t)) && tmp[0])
{
StringCchCopyW(t->genre, FIELD_LENGTH, tmp);
t->filled = true;
}
if (getFileInfoW(t->filename, L"year",tmp,sizeof(tmp)/sizeof(wchar_t)) && tmp[0])
{
if (!wcsstr(tmp,L"__") && !wcsstr(tmp,L"/") && !wcsstr(tmp,L"\\") && !wcsstr(tmp,L"."))
{
wchar_t *p = tmp;
while (p && *p)
{
if (*p == L'_') *p=L'0';
p++;
}
t->year = _wtoi(tmp);
t->filled = true;
}
}
if (getFileInfoW(t->filename, L"bitrate",tmp,sizeof(tmp)/sizeof(wchar_t)) && tmp[0])
{
t->bitrate = _wtoi(tmp);
t->filled = true;
}
if (getFileInfoW(t->filename, L"size",tmp,sizeof(tmp)/sizeof(wchar_t)) && tmp[0])
{
t->size = _wtoi(tmp);
t->filled = true;
}
else
{
t->size = fileSize(t->filename);
t->filled = true;
}
if (getFileInfoW(t->filename, L"playcount",tmp,sizeof(tmp)/sizeof(wchar_t)) && tmp[0])
{
t->playcount = _wtoi(tmp);
t->filled = true;
}
}
}
int AndroidDevice::openDeviceDatabase()
{
Nullsoft::Utility::AutoLock lock(dbcs);
if (!discDB)
{
discDB = NDE_CreateDatabase(plugin.hDllInstance);
}
return NDE_ANDROID_SUCCESS;
}
void AndroidDevice::createDeviceFields()
{
// create defaults
NDE_Table_NewColumnW(deviceTable, DEVICEVIEW_COL_FILENAME, L"filename", FIELD_FILENAME);
NDE_Table_NewColumnW(deviceTable, DEVICEVIEW_COL_ARTIST, L"artist", FIELD_STRING);
NDE_Table_NewColumnW(deviceTable, DEVICEVIEW_COL_ALBUM, L"album", FIELD_STRING);
NDE_Table_NewColumnW(deviceTable, DEVICEVIEW_COL_TITLE, L"title", FIELD_STRING);
NDE_Table_NewColumnW(deviceTable, DEVICEVIEW_COL_GENRE, L"genre", FIELD_STRING);
NDE_Table_NewColumnW(deviceTable, DEVICEVIEW_COL_ALBUM_ARTIST, L"albumartist", FIELD_STRING);
NDE_Table_NewColumnW(deviceTable, DEVICEVIEW_COL_PUBLISHER, L"publisher", FIELD_STRING);
NDE_Table_NewColumnW(deviceTable, DEVICEVIEW_COL_COMPOSER, L"composer", FIELD_STRING);
NDE_Table_NewColumnW(deviceTable, DEVICEVIEW_COL_YEAR, L"year", FIELD_INTEGER);
NDE_Table_NewColumnW(deviceTable, DEVICEVIEW_COL_TRACK, L"track", FIELD_INTEGER);
NDE_Table_NewColumnW(deviceTable, DEVICEVIEW_COL_BITRATE, L"bitrate", FIELD_INTEGER);
NDE_Table_NewColumnW(deviceTable, DEVICEVIEW_COL_DISC_NUMBER, L"discnumber", FIELD_INTEGER);
NDE_Table_NewColumnW(deviceTable, DEVICEVIEW_COL_LENGTH, L"length", FIELD_INTEGER);
NDE_Table_NewColumnW(deviceTable, DEVICEVIEW_COL_SIZE, L"size", FIELD_INTEGER);
NDE_Table_NewColumnW(deviceTable, DEVICEVIEW_COL_PLAY_COUNT, L"playcount", FIELD_INTEGER);
NDE_Table_PostColumns(deviceTable);
NDE_Table_AddIndexByIDW(deviceTable, 0, L"filename");
}
int AndroidDevice::openDeviceTable()
{
Nullsoft::Utility::AutoLock lock(dbcs);
int ret = openDeviceDatabase();
if (ret != NDE_ANDROID_SUCCESS)
return ret;
if (!deviceTable)
{
deviceTable = NDE_Database_OpenTable(discDB, ndeDataFile, ndeIndexFile,NDE_OPEN_ALWAYS,NDE_CACHE);
if (deviceTable)
{
createDeviceFields();
}
}
return deviceTable?NDE_ANDROID_SUCCESS:NDE_ANDROID_FAILURE;
}
/* static */
void AndroidDevice::CloseDatabase()
{
if (discDB)
{
NDE_DestroyDatabase(discDB);
discDB=0;
}
}
void AndroidDevice::closeDeviceTable()
{
if (deviceTable)
{
NDE_Table_Sync(deviceTable);
NDE_Database_CloseTable(discDB, deviceTable);
deviceTable=0;
}
}
static void db_setFieldInt(nde_scanner_t s, unsigned char id, int data)
{
nde_field_t f = NDE_Scanner_GetFieldByID(s, id);
if (!f) f = NDE_Scanner_NewFieldByID(s, id);
NDE_IntegerField_SetValue(f, data);
}
static void db_setFieldString(nde_scanner_t s, unsigned char id, const wchar_t *data)
{
nde_field_t f = NDE_Scanner_GetFieldByID(s, id);
if (!f) f = NDE_Scanner_NewFieldByID(s, id);
NDE_StringField_SetString(f, data);
}
static void db_removeField(nde_scanner_t s, unsigned char id)
{
nde_field_t f = NDE_Scanner_GetFieldByID(s, id);
if (f)
{
NDE_Scanner_DeleteField(s, f);
}
}
static int db_getFieldInt(nde_scanner_t s, unsigned char id, int defaultVal)
{
nde_field_t f = NDE_Scanner_GetFieldByID(s, id);
if (f)
{
return NDE_IntegerField_GetValue(f);
}
else
{
return defaultVal;
}
}
static wchar_t* db_getFieldString(nde_scanner_t s, unsigned char id)
{
nde_field_t f = NDE_Scanner_GetFieldByID(s, id);
if (f)
{
return NDE_StringField_GetString(f);
}
else
{
return 0;
}
}
void AndroidDevice::refreshNDECache(void)
{
tag();
}
AndroidSong *AndroidDevice::findSongInMasterPlaylist(const wchar_t *songfn)
{
AndroidPlaylist* mpl = this->getMasterPlaylist();
return mpl->FindSong(songfn);
}
void AndroidDevice::tag(void)
{
/**
loop thru the newly probed disk
check for updates on each of the songs
if there is an update or if metadata does not exist for the file, re-read the metadata
if there is no update and the song is found in the master playlist, just read from the db
*/
AndroidPlaylist *mpl = this->getMasterPlaylist();
int top = (int)mpl->size();
//first load in all songs data from ID3 - this is what we were trying to avoid
for (int i = 0; i < top; i++)
{
AndroidSong *t = (AndroidSong *)mpl->at(i);
// now check if this song has changed
// check if the nde cache exists in the first place
if (songChanged(t) || !readRecordFromDB(t))
{
this->fillMetaData(t);
// now since we've refreshed the metadata write to NDE
this->writeRecordToDB(t);
}
}
}
// check change in filetimes for the song
bool AndroidDevice::songChanged(AndroidSong* song)
{
if (!song) return true;
if (!PathFileExists(ndeDataFile)) return true;
//For fLastAccess/LastWrite information, use GetFileAttributesEx
WIN32_FILE_ATTRIBUTE_DATA cacheFileInfo, tempInfo;
GetFileAttributesExW(ndeDataFile, GetFileExInfoStandard, (LPVOID)&cacheFileInfo);
if (song->filename)
{
GetFileAttributesExW(song->filename, GetFileExInfoStandard, (LPVOID)&tempInfo);
}
else
{
return true;
}
//cachetime - song time
if (CompareFileTime(&cacheFileInfo.ftLastWriteTime, &tempInfo.ftLastWriteTime) < 0)
{
return true;
}
return false;
}
// read metadata for a specific song from the NDE cache
bool AndroidDevice::readRecordFromDB(AndroidSong* song)
{
if (!song) return false;
Nullsoft::Utility::AutoLock lock(dbcs);
openDeviceTable();
nde_scanner_t scanner = NDE_Table_CreateScanner(deviceTable);
if (NDE_Scanner_LocateFilename(scanner, DEVICEVIEW_COL_FILENAME, FIRST_RECORD, song->filename))
{
nde_field_t artist = NDE_Scanner_GetFieldByID(scanner, DEVICEVIEW_COL_ARTIST);
wchar_t* artistString = NDE_StringField_GetString(artist);
lstrcpyn(song->artist, artistString, FIELD_LENGTH);
nde_field_t album = NDE_Scanner_GetFieldByID(scanner, DEVICEVIEW_COL_ALBUM);
wchar_t* albumString = NDE_StringField_GetString(album);
lstrcpyn(song->album, albumString, FIELD_LENGTH);
nde_field_t albumArtist = NDE_Scanner_GetFieldByID(scanner, DEVICEVIEW_COL_ALBUM_ARTIST);
wchar_t* albumArtistString = NDE_StringField_GetString(albumArtist);
lstrcpyn(song->albumartist, albumArtistString, FIELD_LENGTH);
nde_field_t publisher = NDE_Scanner_GetFieldByID(scanner, DEVICEVIEW_COL_PUBLISHER);
wchar_t* publisherString = NDE_StringField_GetString(publisher);
lstrcpyn(song->publisher, publisherString, FIELD_LENGTH);
nde_field_t composer = NDE_Scanner_GetFieldByID(scanner, DEVICEVIEW_COL_COMPOSER);
wchar_t* composerString = NDE_StringField_GetString(composer);
lstrcpyn(song->composer, composerString, FIELD_LENGTH);
nde_field_t title = NDE_Scanner_GetFieldByID(scanner, DEVICEVIEW_COL_TITLE);
wchar_t* titleString = NDE_StringField_GetString(title);
lstrcpyn(song->title, titleString, FIELD_LENGTH);
nde_field_t genre = NDE_Scanner_GetFieldByID(scanner, DEVICEVIEW_COL_GENRE);
wchar_t* genreString = NDE_StringField_GetString(genre);
lstrcpyn(song->genre, genreString, FIELD_LENGTH);
nde_field_t track = NDE_Scanner_GetFieldByID(scanner, DEVICEVIEW_COL_TRACK);
song->track = NDE_IntegerField_GetValue(track);
nde_field_t year = NDE_Scanner_GetFieldByID(scanner, DEVICEVIEW_COL_YEAR);
song->year = NDE_IntegerField_GetValue(year);
nde_field_t discNumber = NDE_Scanner_GetFieldByID(scanner, DEVICEVIEW_COL_DISC_NUMBER);
song->discnum = NDE_IntegerField_GetValue(discNumber);
nde_field_t length = NDE_Scanner_GetFieldByID(scanner, DEVICEVIEW_COL_LENGTH);
song->length = NDE_IntegerField_GetValue(length);
nde_field_t bitrate = NDE_Scanner_GetFieldByID(scanner, DEVICEVIEW_COL_BITRATE);
int bitrateInt= NDE_IntegerField_GetValue(bitrate);
song->bitrate = bitrateInt;
nde_field_t size = NDE_Scanner_GetFieldByID(scanner, DEVICEVIEW_COL_SIZE);
int sizeInt= NDE_IntegerField_GetValue(size);
song->size = sizeInt;
nde_field_t playcount = NDE_Scanner_GetFieldByID(scanner, DEVICEVIEW_COL_PLAY_COUNT);
song->playcount = NDE_IntegerField_GetValue(playcount);
}
else
{
return false;
}
NDE_Table_DestroyScanner(deviceTable, scanner);
//closeDeviceTable();
return true;
}
// write a single record to the nde database
void AndroidDevice::writeRecordToDB(AndroidSong* songToPrint)
{
Nullsoft::Utility::AutoLock lock(dbcs);
openDeviceTable();
nde_scanner_t s = NDE_Table_CreateScanner(deviceTable);
if (! NDE_Scanner_LocateFilename(s, DEVICEVIEW_COL_FILENAME, FIRST_RECORD, songToPrint->filename))
{
NDE_Scanner_New(s);
}
if (songToPrint->filename)
{
db_setFieldString(s, DEVICEVIEW_COL_FILENAME, songToPrint->filename);
}
if (songToPrint->artist)
{
db_setFieldString(s, DEVICEVIEW_COL_ARTIST, songToPrint->artist);
}
if (songToPrint->albumartist)
{
db_setFieldString(s, DEVICEVIEW_COL_ALBUM_ARTIST, songToPrint->albumartist);
}
if (songToPrint->publisher)
{
db_setFieldString(s, DEVICEVIEW_COL_PUBLISHER, songToPrint->publisher);
}
if (songToPrint->composer)
{
db_setFieldString(s, DEVICEVIEW_COL_COMPOSER, songToPrint->composer);
}
if (songToPrint->album)
{
db_setFieldString(s, DEVICEVIEW_COL_ALBUM, songToPrint->album);
}
if (songToPrint->title)
{
db_setFieldString(s, DEVICEVIEW_COL_TITLE, songToPrint->title);
}
if (songToPrint->genre)
{
db_setFieldString(s, DEVICEVIEW_COL_GENRE, songToPrint->genre);
}
if (songToPrint->year)
{
db_setFieldInt(s, DEVICEVIEW_COL_YEAR, songToPrint->year);
}
if (songToPrint->track)
{
db_setFieldInt(s, DEVICEVIEW_COL_TRACK, songToPrint->track);
}
if (songToPrint->bitrate)
{
db_setFieldInt(s, DEVICEVIEW_COL_BITRATE, songToPrint->bitrate);
}
if (songToPrint->discnum)
{
db_setFieldInt(s, DEVICEVIEW_COL_DISC_NUMBER, songToPrint->discnum);
}
if (songToPrint->length)
{
db_setFieldInt(s, DEVICEVIEW_COL_LENGTH, songToPrint->length);
}
if (songToPrint->size)
{
db_setFieldInt(s, DEVICEVIEW_COL_SIZE, (int)songToPrint->size);
}
if (songToPrint->playcount)
{
db_setFieldInt(s, DEVICEVIEW_COL_PLAY_COUNT, songToPrint->playcount);
}
NDE_Scanner_Post(s);
NDE_Table_DestroyScanner(deviceTable, s);
// NDE_Table_Sync(deviceTable);
//closeDeviceTable();
}
void AndroidDevice::setupTranscoder()
{
if (transcoder) SendMessage(plugin.hwndPortablesParent,WM_PMP_IPC,(WPARAM)transcoder,PMP_IPC_RELEASE_TRANSCODER);
transcoder = (Transcoder*)SendMessage(plugin.hwndPortablesParent,WM_PMP_IPC,(WPARAM)this,PMP_IPC_GET_TRANSCODER);
if (!transcoder) return;
wchar_t * p = supportedFormats;
while (p && *p)
{
wchar_t * np = wcschr(p,L';');
if (np) *np = 0;
transcoder->AddAcceptableFormat(p);
if (np)
{
*np = L';';
p=np+1;
}
else return;
}
}
BOOL CALLBACK browseEnumProc(HWND hwnd, LPARAM lParam)
{
wchar_t cl[32] = {0};
GetClassNameW(hwnd, cl, ARRAYSIZE(cl));
if (!lstrcmpiW(cl, WC_TREEVIEW))
{
PostMessage(hwnd, TVM_ENSUREVISIBLE, 0, (LPARAM)TreeView_GetSelection(hwnd));
return FALSE;
}
return TRUE;
}
wchar_t pldir[MAX_PATH] = {0};
int CALLBACK WINAPI BrowseCallbackProc(HWND hwnd, UINT uMsg, LPARAM lParam, LPARAM lpData)
{
if (uMsg == BFFM_INITIALIZED)
{
SendMessageW(hwnd, BFFM_SETSELECTIONW, 1, (LPARAM)pldir);
// this is not nice but it fixes the selection not working correctly on all OSes
EnumChildWindows(hwnd, browseEnumProc, 0);
}
return 0;
}
static INT_PTR CALLBACK prefs_dialogProc(HWND hwndDlg, UINT uMsg, WPARAM wParam,LPARAM lParam)
{
static AndroidDevice * dev;
switch (uMsg)
{
case WM_INITDIALOG:
{
prefsParam* p = (prefsParam*)lParam;
dev = (AndroidDevice*)p->dev;
p->config_tab_init(hwndDlg,p->parent);
SetDlgItemTextW(hwndDlg,IDC_NAMEFORMAT,dev->songFormat);
SetDlgItemTextW(hwndDlg,IDC_PLDIR,dev->pldir);
SetDlgItemTextW(hwndDlg,IDC_SUPPORTEDFORMATS,dev->supportedFormats);
if (dev->purgeFolders[0]=='1') CheckDlgButton(hwndDlg,IDC_PURGEFOLDERS,BST_CHECKED);
else CheckDlgButton(hwndDlg,IDC_PURGEFOLDERS,BST_UNCHECKED);
SendDlgItemMessageW(hwndDlg,IDC_PL_WRITE_COMBO,CB_ADDSTRING,0,(LPARAM)WASABI_API_LNGSTRINGW(IDS_SLASH_AT_START));
SendDlgItemMessageW(hwndDlg,IDC_PL_WRITE_COMBO,CB_ADDSTRING,0,(LPARAM)WASABI_API_LNGSTRINGW(IDS_DOT_AT_START));
SendDlgItemMessageW(hwndDlg,IDC_PL_WRITE_COMBO,CB_ADDSTRING,0,(LPARAM)WASABI_API_LNGSTRINGW(IDS_NO_SLASH_OR_DOT));
SendDlgItemMessage(hwndDlg,IDC_PL_WRITE_COMBO,CB_SETCURSEL,dev->pl_write_mode,0);
SetDlgItemTextW(hwndDlg,IDC_PL_WRITE_EG,WASABI_API_LNGSTRINGW(IDS_EG_SLASH+dev->pl_write_mode));
}
break;
case WM_COMMAND:
switch (LOWORD(wParam))
{
case IDC_NAMEFORMAT:
if (HIWORD(wParam)==EN_CHANGE)
{
GetDlgItemTextW(hwndDlg,IDC_NAMEFORMAT,dev->songFormat,sizeof(dev->songFormat)/sizeof(wchar_t));
WritePrivateProfileStringW(L"pmp_android",L"songFormat",dev->songFormat,dev->iniFile);
}
break;
case IDC_PLDIR:
if (HIWORD(wParam)==EN_CHANGE)
{
GetDlgItemTextW(hwndDlg,IDC_PLDIR,dev->pldir,sizeof(dev->pldir)/sizeof(wchar_t));
WritePrivateProfileStringW(L"pmp_android",L"pldir",dev->pldir,dev->iniFile);
}
break;
case IDC_SUPPORTEDFORMATS:
if (HIWORD(wParam)==EN_CHANGE)
{
GetDlgItemTextW(hwndDlg,IDC_SUPPORTEDFORMATS,dev->supportedFormats,sizeof(dev->supportedFormats)/sizeof(wchar_t));
WritePrivateProfileStringW(L"pmp_android",L"supportedFormats",dev->supportedFormats,dev->iniFile);
}
break;
case IDC_REFRESHCACHE:
{
char titleStr[32] = {0};
dev->refreshNDECache();
MessageBoxA(hwndDlg,WASABI_API_LNGSTRING(IDS_CACHE_UPDATED),
WASABI_API_LNGSTRING_BUF(IDS_SUCCESS,titleStr,32),MB_OK);
break;
}
case IDC_PL_WRITE_COMBO:
{
dev->pl_write_mode = (int)SendMessage((HWND)lParam,CB_GETCURSEL,0,0);
SetDlgItemTextW(hwndDlg,IDC_PL_WRITE_EG,WASABI_API_LNGSTRINGW(IDS_EG_SLASH+dev->pl_write_mode));
wchar_t tmp[16] = {0};
StringCchPrintf(tmp, 16, L"%d", dev->pl_write_mode);
WritePrivateProfileStringW(L"pmp_android",L"pl_write_mode",tmp,dev->iniFile);
break;
}
case IDC_FILENAMEHELP:
{
char titleStr[64] = {0};
MessageBoxA(hwndDlg,WASABI_API_LNGSTRING(IDS_FILENAME_FORMATTING_INFO),
WASABI_API_LNGSTRING_BUF(IDS_FILENAME_FORMAT_HELP,titleStr,64),MB_OK);
}
break;
case IDC_PLBROWSE:
{
wchar_t *tempWS = 0;
BROWSEINFO bi = {0};
LPMALLOC lpm = 0;
wchar_t bffFileName[MAX_PATH] = {0};
bi.hwndOwner = hwndDlg;
bi.pszDisplayName = bffFileName;
bi.lpszTitle = WASABI_API_LNGSTRINGW(IDS_SELECT_FOLDER_TO_LOAD_PLAYLISTS);
bi.ulFlags = BIF_RETURNONLYFSDIRS | BIF_EDITBOX | BIF_NEWDIALOGSTYLE;
bi.lpfn = BrowseCallbackProc;
lstrcpynW(pldir, dev->pldir, MAX_PATH);
LPITEMIDLIST iil = SHBrowseForFolder(&bi);
if (iil)
{
SHGetPathFromIDListW(iil,bffFileName);
SHGetMalloc(&lpm);
// path is now in bffFileName
}
tempWS = _wcsdup(bffFileName);
if (tempWS[0] == dev->drive)
{
lstrcpynW(dev->pldir, tempWS, MAX_PATH);
SetDlgItemText(hwndDlg,IDC_PLDIR,tempWS);
}
else
{
if (bffFileName[0] != 0) //dont print error if the user selected 'cancel'
{
char titleStr[32] = {0};
MessageBoxA(hwndDlg,WASABI_API_LNGSTRING(IDS_ERR_SELECTED_PATH_NOT_ON_DEVICE),
WASABI_API_LNGSTRING_BUF(IDS_ERROR,titleStr,32), MB_OK);
}
}
free(tempWS);
}
break;
case IDC_FORMATSHELP:
{
char titleStr[64] = {0};
MessageBoxA(hwndDlg,WASABI_API_LNGSTRING(IDS_SUPPORTED_FORMAT_INFO),
WASABI_API_LNGSTRING_BUF(IDS_SUPPORTED_FORMAT_HELP,titleStr,64),MB_OK);
}
break;
case IDC_PURGEFOLDERS:
{
if (IsDlgButtonChecked(hwndDlg,IDC_PURGEFOLDERS) == BST_CHECKED)
{
wcsncpy(dev->purgeFolders,L"1",2);
}
else
{
wcsncpy(dev->purgeFolders,L"0",2);
}
WritePrivateProfileStringW(L"pmp_android",L"purgeFolders",dev->purgeFolders,dev->iniFile);
}
break;
case IDC_RESCAN:
{
//update changes
SetFileAttributesW(dev->iniFile,FILE_ATTRIBUTE_HIDDEN);
wchar_t driveletter = dev->drive; //hold on to driveletter before it goes away
//disconnect
dev->Close();
//connect
pmpDeviceLoading load;
dev = new AndroidDevice(driveletter,&load);
char titleStr[64] = {0};
MessageBoxA(hwndDlg,WASABI_API_LNGSTRING(IDS_RESCAN_COMPLETE_SAVED),
WASABI_API_LNGSTRING_BUF(IDS_RESCAN_COMPLETE,titleStr,64),MB_OK);
}
break;
}
}
return 0;
}
// update a track with new metadata (string)
void AndroidDevice::updateTrackField(AndroidSong* song, unsigned int col, const void* newValue, int fieldType)
{
if (!song) return;
Nullsoft::Utility::AutoLock lock(dbcs);
openDeviceTable();
nde_scanner_t s = NDE_Table_CreateScanner(deviceTable);
if (NDE_Scanner_LocateFilename(s, DEVICEVIEW_COL_FILENAME, FIRST_RECORD, song->filename))
{
switch (fieldType)
{
case FIELD_STRING:
db_setFieldString(s, col, (wchar_t *)(newValue));
break;
case FIELD_INTEGER:
db_setFieldInt(s, col, *((int *)newValue));
default:
break;
}
}
NDE_Scanner_Post(s);
NDE_Table_DestroyScanner(deviceTable, s);
// NDE_Table_Sync(deviceTable);
//closeDeviceTable();
}
AndroidSong::AndroidSong()
{
filename[0]=artist[0]=album[0]=title[0]=genre[0]=albumartist[0]=publisher[0]=composer[0]=0;
filled=year=track=length=discnum=bitrate=playcount=(int)(size=0);
}
AndroidArt::AndroidArt(ARGB32 *bits, int w, int h) :bits(bits), w(w), h(h)
{
}
AndroidArt::~AndroidArt()
{
if (bits)
WASABI_API_MEMMGR->sysFree(bits);
}