void DockItem::GetGenericIcon( void ) { if ( IsFolder() ) { BMimeType type; type.SetType( "application/x-vnd.Be-directory" ); type.GetIcon( mLargeIcon, B_LARGE_ICON ); type.GetIcon( mSmallIcon, B_MINI_ICON ); } else { app_info appInfo; BFile appFile; BAppFileInfo appFileInfo; be_app->GetAppInfo( &appInfo ); appFile.SetTo( &appInfo.ref, B_READ_WRITE ); appFileInfo.SetTo( &appFile ); appFileInfo.GetIconForType( "application/x-be-executable", mLargeIcon, B_LARGE_ICON ); appFileInfo.GetIconForType( "application/x-be-executable", mSmallIcon, B_MINI_ICON ); /* BMimeType appType; appType.SetType( "application/x-vnd.HK-LaunchPad" ); appType.GetIcon( mLargeIcon, B_LARGE_ICON ); appType.GetIcon( mSmallIcon, B_MINI_ICON ); */ } }
BString version() { app_info appInfo; BFile file; BAppFileInfo appFileInfo; be_app->GetAppInfo(&appInfo); file.SetTo(&appInfo.ref, B_READ_WRITE); appFileInfo.SetTo(&file); BString version; version_info info; appFileInfo.GetVersionInfo(&info, B_APP_VERSION_KIND); version << info.major; version << '.'; version << info.middle; version << '.'; version << info.minor; switch(info.variety) { case B_BETA_VERSION: version << "\xCE\xB2"; } if(info.internal > 0) { version << info.internal; } return version; }
// create_app static entry_ref create_app(const char *filename, const char *signature, bool install = false, bool makeExecutable = true, uint32 appFlags = B_SINGLE_LAUNCH) { BString testApp; CHK(find_test_app("RosterBroadcastTestApp1", &testApp) == B_OK); system((string("cp ") + testApp.String() + " " + filename).c_str()); if (makeExecutable) system((string("chmod a+x ") + filename).c_str()); BFile file; CHK(file.SetTo(filename, B_READ_WRITE) == B_OK); BAppFileInfo appFileInfo; CHK(appFileInfo.SetTo(&file) == B_OK); if (signature) CHK(appFileInfo.SetSignature(signature) == B_OK); CHK(appFileInfo.SetAppFlags(appFlags) == B_OK); if (install && signature) CHK(BMimeType(signature).Install() == B_OK); // We write the signature into a separate attribute, just in case we // decide to also test files without BEOS:APP_SIG attribute. BString signatureString(signature); file.WriteAttrString("signature", &signatureString); return ref_for_path(filename); }
ArpDocumentButton::ArpDocumentButton(BRect frame, const char *name, BBitmap* icon, BMessage* pressMsg, uint32 resizeMask, uint32 flags) : BControl(frame, name, "", pressMsg, resizeMask, flags), mDocIcon(icon), mSmallIcon(0), mAction(Inactive), mPressed(false), mMenued(false), mDropped(false) { SetHandlerForReply(this); if( mDocIcon == 0 ) { app_info ai; BFile file; BAppFileInfo afi; be_app->GetAppInfo(&ai); file.SetTo(&ai.ref, B_READ_ONLY); afi.SetTo(&file); mDocIcon = new BBitmap(BRect(0,0,15,15), B_CMAP8); if( afi.GetIcon(mDocIcon, B_MINI_ICON) != B_OK ) { delete mDocIcon; mDocIcon = 0; } } mSmallIcon = BTranslationUtils::GetBitmap('bmp ', 1); }
void GetAppVersion( version_info* version ) { // Get version_info for be_app app_info ai; BFile file; BAppFileInfo afi; be_app->GetAppInfo(&ai); file.SetTo(&ai.ref, B_READ_WRITE); afi.SetTo(&file); afi.GetVersionInfo( version, B_APP_VERSION_KIND ); }
void IconView::Update() { delete fIcon; fIcon = NULL; Invalidate(); // this will actually trigger a redraw *after* we updated the icon below BBitmap* icon = NULL; if (fHasRef) { BFile file(&fRef, B_READ_ONLY); if (file.InitCheck() != B_OK) return; BAppFileInfo info; if (info.SetTo(&file) != B_OK) return; icon = Icon::AllocateBitmap(fIconSize); if (icon != NULL && info.GetIconForType(fType.Type(), icon, (icon_size)fIconSize) != B_OK) { delete icon; return; } } else if (fHasType) { icon = Icon::AllocateBitmap(fIconSize); if (icon != NULL && icon_for_type(fType, *icon, (icon_size)fIconSize, &fSource) != B_OK) { delete icon; return; } } else if (fIconData) { icon = Icon::AllocateBitmap(fIconSize); if (fIconData->GetIcon(icon) != B_OK) { delete icon; icon = NULL; } } fIcon = icon; }
void get_app_info(team_id team, BBitmap **icon, char **name) { app_info info; if (be_roster->GetRunningAppInfo(team, &info) == B_BAD_TEAM_ID) { *icon = NULL; *name = NULL; return; } *name = strdup(info.ref.name); BFile file; BAppFileInfo afi; file.SetTo(&info.ref, B_READ_ONLY); afi.SetTo(&file); *icon = new BBitmap(BRect(0.0,0.0,15.0,15.0), B_CMAP8); if (!*icon) {return;} if (afi.GetIcon(*icon, B_MINI_ICON) != B_NO_ERROR) {*icon = NULL; return;} }
bool BeAIMApplication::SetDeskbarVisibility( bool vis ) { app_info appInfo; BFile file; BAppFileInfo appFileInfo; uint32 appFlags; // get the BAppFileInfo object for this application be_app->GetAppInfo(&appInfo); file.SetTo(&appInfo.ref, B_READ_WRITE); appFileInfo.SetTo(&file); // get the app flags appFileInfo.GetAppFlags(&appFlags); // make the app visible (or not) in the deskbar if( vis ) appFlags &= ~B_BACKGROUND_APP; else appFlags |= B_BACKGROUND_APP; // now set them! appFileInfo.SetAppFlags(appFlags); }
void ShutdownProcess::_AddShutdownWindowApps(AppInfoList& infos) { if (!fHasGUI) return; for (AppInfoList::Iterator it = infos.It(); it.IsValid(); ++it) { RosterAppInfo* info = *it; // init an app file info BFile file; status_t error = file.SetTo(&info->ref, B_READ_ONLY); if (error != B_OK) { WARNING(("ShutdownProcess::_AddShutdownWindowApps(): Failed to " "open file for app %s: %s\n", info->signature, strerror(error))); continue; } BAppFileInfo appFileInfo; error = appFileInfo.SetTo(&file); if (error != B_OK) { WARNING(("ShutdownProcess::_AddShutdownWindowApps(): Failed to " "init app file info for app %s: %s\n", info->signature, strerror(error))); } // get the application icons #ifdef __HAIKU__ color_space format = B_RGBA32; #else color_space format = B_CMAP8; #endif // mini icon BBitmap* miniIcon = new(nothrow) BBitmap(BRect(0, 0, 15, 15), format); if (miniIcon != NULL) { error = miniIcon->InitCheck(); if (error == B_OK) error = appFileInfo.GetTrackerIcon(miniIcon, B_MINI_ICON); if (error != B_OK) { delete miniIcon; miniIcon = NULL; } } // mini icon BBitmap* largeIcon = new(nothrow) BBitmap(BRect(0, 0, 31, 31), format); if (largeIcon != NULL) { error = largeIcon->InitCheck(); if (error == B_OK) error = appFileInfo.GetTrackerIcon(largeIcon, B_LARGE_ICON); if (error != B_OK) { delete largeIcon; largeIcon = NULL; } } // add the app error = fWindow->AddApp(info->team, miniIcon, largeIcon); if (error != B_OK) { WARNING(("ShutdownProcess::_AddShutdownWindowApps(): Failed to " "add app to the shutdown window: %s\n", strerror(error))); } } }
AboutView::AboutView() : BView("aboutview", B_WILL_DRAW | B_PULSE_NEEDED), fLastActionTime(system_time()), fScrollRunner(NULL) { // Begin Construction of System Information controls system_info systemInfo; get_system_info(&systemInfo); // Create all the various labels for system infomation // OS Version char string[1024]; strcpy(string, B_TRANSLATE("Unknown")); // the version is stored in the BEOS:APP_VERSION attribute of libbe.so BPath path; if (find_directory(B_BEOS_LIB_DIRECTORY, &path) == B_OK) { path.Append("libbe.so"); BAppFileInfo appFileInfo; version_info versionInfo; BFile file; if (file.SetTo(path.Path(), B_READ_ONLY) == B_OK && appFileInfo.SetTo(&file) == B_OK && appFileInfo.GetVersionInfo(&versionInfo, B_APP_VERSION_KIND) == B_OK && versionInfo.short_info[0] != '\0') strcpy(string, versionInfo.short_info); } // Add revision from uname() info utsname unameInfo; if (uname(&unameInfo) == 0) { long revision; if (sscanf(unameInfo.version, "r%ld", &revision) == 1) { char version[16]; snprintf(version, sizeof(version), "%ld", revision); strlcat(string, " (", sizeof(string)); strlcat(string, B_TRANSLATE("Revision"), sizeof(string)); strlcat(string, " ", sizeof(string)); strlcat(string, version, sizeof(string)); strlcat(string, ")", sizeof(string)); } } BStringView* versionView = new BStringView("ostext", string); versionView->SetExplicitAlignment(BAlignment(B_ALIGN_LEFT, B_ALIGN_VERTICAL_UNSET)); // GCC version BEntry gccFourHybrid("/boot/system/lib/gcc2/libstdc++.r4.so"); BEntry gccTwoHybrid("/boot/system/lib/gcc4/libsupc++.so"); if (gccFourHybrid.Exists() || gccTwoHybrid.Exists()) snprintf(string, sizeof(string), B_TRANSLATE("GCC %d Hybrid"), __GNUC__); else snprintf(string, sizeof(string), "GCC %d", __GNUC__); BStringView* gccView = new BStringView("gcctext", string); gccView->SetExplicitAlignment(BAlignment(B_ALIGN_LEFT, B_ALIGN_VERTICAL_UNSET)); // CPU count, type and clock speed char processorLabel[256]; if (systemInfo.cpu_count > 1) { snprintf(processorLabel, sizeof(processorLabel), B_TRANSLATE("%ld Processors:"), systemInfo.cpu_count); } else strlcpy(processorLabel, B_TRANSLATE("Processor:"), sizeof(processorLabel)); BString cpuType; cpuType << get_cpu_vendor_string(systemInfo.cpu_type) << " " << get_cpu_model_string(&systemInfo); BStringView* cpuView = new BStringView("cputext", cpuType.String()); cpuView->SetExplicitAlignment(BAlignment(B_ALIGN_LEFT, B_ALIGN_VERTICAL_UNSET)); int32 clockSpeed = get_rounded_cpu_speed(); if (clockSpeed < 1000) sprintf(string, B_TRANSLATE("%ld MHz"), clockSpeed); else sprintf(string, B_TRANSLATE("%.2f GHz"), clockSpeed / 1000.0f); BStringView* frequencyView = new BStringView("frequencytext", string); frequencyView->SetExplicitAlignment(BAlignment(B_ALIGN_LEFT, B_ALIGN_VERTICAL_UNSET)); // RAM BStringView *memSizeView = new BStringView("ramsizetext", MemSizeToString(string, sizeof(string), &systemInfo)); memSizeView->SetExplicitAlignment(BAlignment(B_ALIGN_LEFT, B_ALIGN_VERTICAL_UNSET)); fMemView = new BStringView("ramtext", MemUsageToString(string, sizeof(string), &systemInfo)); fMemView->SetExplicitAlignment(BAlignment(B_ALIGN_LEFT, B_ALIGN_VERTICAL_UNSET)); // Kernel build time/date snprintf(string, sizeof(string), "%s %s", systemInfo.kernel_build_date, systemInfo.kernel_build_time); BStringView* kernelView = new BStringView("kerneltext", string); kernelView->SetExplicitAlignment(BAlignment(B_ALIGN_LEFT, B_ALIGN_VERTICAL_UNSET)); // Uptime fUptimeView = new BTextView("uptimetext"); fUptimeView->SetViewColor(ui_color(B_PANEL_BACKGROUND_COLOR)); fUptimeView->MakeEditable(false); fUptimeView->MakeSelectable(false); fUptimeView->SetWordWrap(true); fUptimeView->SetText(UptimeToString(string, sizeof(string))); const float offset = 5; SetLayout(new BGroupLayout(B_HORIZONTAL)); BLayoutBuilder::Group<>((BGroupLayout*)GetLayout()) .AddGroup(B_VERTICAL) .Add(new LogoView()) .AddGroup(B_VERTICAL) .Add(_CreateLabel("oslabel", B_TRANSLATE("Version:"))) .Add(versionView) .Add(gccView) .AddStrut(offset) .Add(_CreateLabel("cpulabel", processorLabel)) .Add(cpuView) .Add(frequencyView) .AddStrut(offset) .Add(_CreateLabel("memlabel", B_TRANSLATE("Memory:"))) .Add(memSizeView) .Add(fMemView) .AddStrut(offset) .Add(_CreateLabel("kernellabel", B_TRANSLATE("Kernel:"))) .Add(kernelView) .AddStrut(offset) .Add(_CreateLabel("uptimelabel", B_TRANSLATE("Time running:"))) .Add(fUptimeView) .SetInsets(5, 5, 5, 5) .End() // TODO: investigate: adding this causes the time to be cut //.AddGlue() .End() .Add(_CreateCreditsView()); float min = fMemView->MinSize().width * 1.1f; fCreditsView->SetExplicitMinSize(BSize(min, min)); }
void BApplication::_InitData(const char* signature, bool initGUI, status_t* _error) { DBG(OUT("BApplication::InitData(`%s', %p)\n", signature, _error)); // check whether there exists already an application if (be_app) debugger("2 BApplication objects were created. Only one is allowed."); fServerLink = new BPrivate::PortLink(-1, -1); fServerAllocator = NULL; fInitialWorkspace = 0; //fDraggedMessage = NULL; fReadyToRunCalled = false; // initially, there is no pulse fPulseRunner = NULL; fPulseRate = 0; // check signature fInitError = check_app_signature(signature); fAppName = signature; #ifndef RUN_WITHOUT_REGISTRAR bool isRegistrar = signature && strcasecmp(signature, kRegistrarSignature) == 0; // get team and thread team_id team = Team(); thread_id thread = BPrivate::main_thread_for(team); #endif // get app executable ref entry_ref ref; if (fInitError == B_OK) { fInitError = BPrivate::get_app_ref(&ref); if (fInitError != B_OK) { DBG(OUT("BApplication::InitData(): Failed to get app ref: %s\n", strerror(fInitError))); } } // get the BAppFileInfo and extract the information we need uint32 appFlags = B_REG_DEFAULT_APP_FLAGS; if (fInitError == B_OK) { BAppFileInfo fileInfo; BFile file(&ref, B_READ_ONLY); fInitError = fileInfo.SetTo(&file); if (fInitError == B_OK) { fileInfo.GetAppFlags(&appFlags); char appFileSignature[B_MIME_TYPE_LENGTH]; // compare the file signature and the supplied signature if (fileInfo.GetSignature(appFileSignature) == B_OK && strcasecmp(appFileSignature, signature) != 0) { printf("Signature in rsrc doesn't match constructor arg. (%s, %s)\n", signature, appFileSignature); } } else { DBG(OUT("BApplication::InitData(): Failed to get info from: " "BAppFileInfo: %s\n", strerror(fInitError))); } } #ifndef RUN_WITHOUT_REGISTRAR // check whether be_roster is valid if (fInitError == B_OK && !isRegistrar && !BRoster::Private().IsMessengerValid(false)) { printf("FATAL: be_roster is not valid. Is the registrar running?\n"); fInitError = B_NO_INIT; } // check whether or not we are pre-registered bool preRegistered = false; app_info appInfo; if (fInitError == B_OK && !isRegistrar) { if (BRoster::Private().IsAppRegistered(&ref, team, 0, &preRegistered, &appInfo) != B_OK) { preRegistered = false; } } if (preRegistered) { // we are pre-registered => the app info has been filled in // Check whether we need to replace the looper port with a port // created by the roster. if (appInfo.port >= 0 && appInfo.port != fMsgPort) { delete_port(fMsgPort); fMsgPort = appInfo.port; } else appInfo.port = fMsgPort; // check the signature and correct it, if necessary, also the case if (strcmp(appInfo.signature, fAppName)) BRoster::Private().SetSignature(team, fAppName); // complete the registration fInitError = BRoster::Private().CompleteRegistration(team, thread, appInfo.port); } else if (fInitError == B_OK) { // not pre-registered -- try to register the application team_id otherTeam = -1; // the registrar must not register if (!isRegistrar) { fInitError = BRoster::Private().AddApplication(signature, &ref, appFlags, team, thread, fMsgPort, true, NULL, &otherTeam); if (fInitError != B_OK) { DBG(OUT("BApplication::InitData(): Failed to add app: %s\n", strerror(fInitError))); } } if (fInitError == B_ALREADY_RUNNING) { // An instance is already running and we asked for // single/exclusive launch. Send our argv to the running app. // Do that only, if the app is NOT B_ARGV_ONLY. if (otherTeam >= 0) { BMessenger otherApp(NULL, otherTeam); app_info otherAppInfo; bool argvOnly = be_roster->GetRunningAppInfo(otherTeam, &otherAppInfo) == B_OK && (otherAppInfo.flags & B_ARGV_ONLY) != 0; if (__libc_argc > 1 && !argvOnly) { // create an B_ARGV_RECEIVED message BMessage argvMessage(B_ARGV_RECEIVED); fill_argv_message(argvMessage); // replace the first argv string with the path of the // other application BPath path; if (path.SetTo(&otherAppInfo.ref) == B_OK) argvMessage.ReplaceString("argv", 0, path.Path()); // send the message otherApp.SendMessage(&argvMessage); } else if (!argvOnly) otherApp.SendMessage(B_SILENT_RELAUNCH); } } else if (fInitError == B_OK) { // the registrations was successful // Create a B_ARGV_RECEIVED message and send it to ourselves. // Do that even, if we are B_ARGV_ONLY. // TODO: When BLooper::AddMessage() is done, use that instead of // PostMessage(). DBG(OUT("info: BApplication successfully registered.\n")); if (__libc_argc > 1) { BMessage argvMessage(B_ARGV_RECEIVED); fill_argv_message(argvMessage); PostMessage(&argvMessage, this); } // send a B_READY_TO_RUN message as well PostMessage(B_READY_TO_RUN, this); } else if (fInitError > B_ERRORS_END) { // Registrar internal errors shouldn't fall into the user's hands. fInitError = B_ERROR; } } #else // We need to have ReadyToRun called even when we're not using the registrar PostMessage(B_READY_TO_RUN, this); #endif // ifndef RUN_WITHOUT_REGISTRAR if (fInitError == B_OK) { // TODO: Not completely sure about the order, but this should be close. // init be_app and be_app_messenger be_app = this; be_app_messenger = BMessenger(NULL, this); // set the BHandler's name SetName(ref.name); // create meta MIME BPath path; if (path.SetTo(&ref) == B_OK) create_app_meta_mime(path.Path(), false, true, false); #ifndef RUN_WITHOUT_APP_SERVER // app server connection and IK initialization if (initGUI) fInitError = _InitGUIContext(); #endif // RUN_WITHOUT_APP_SERVER } // Return the error or exit, if there was an error and no error variable // has been supplied. if (_error) { *_error = fInitError; } else if (fInitError != B_OK) { DBG(OUT("BApplication::InitData() failed: %s\n", strerror(fInitError))); exit(0); } DBG(OUT("BApplication::InitData() done\n")); }
int main(int argc, char *argv[]) { if (argc < 3) { if (argc < 2) return errorOut(e_app_sys_switch); return errorOut(e_specify_version); } // reset version infos version_info systemVersion, appVersion; memset(&systemVersion, 0, sizeof(version_info)); memset(&appVersion, 0, sizeof(version_info)); // process arguments processing_mode mode; arg_needed argNeeded; bool systemModified, appModified; parse(systemModified, appModified, argNeeded, mode, systemVersion, appVersion, argc, argv); // write back changes BFile file; status_t status = file.SetTo(argv[1], B_READ_WRITE); if (status != B_OK) errorOut(status, argv[1], false); BAppFileInfo info; status = info.SetTo(&file); if (status != B_OK) errorOut(status, argv[1], false); if (systemModified ^ appModified) { // clear out other app info if not present - this works around a // bug in BeOS, see bug #681. version_kind kind = systemModified ? B_APP_VERSION_KIND : B_SYSTEM_VERSION_KIND; version_info clean; if (info.GetVersionInfo(&clean, kind) != B_OK) { memset(&clean, 0, sizeof(version_info)); info.SetVersionInfo(&clean, kind); } } if (appModified) { status = info.SetVersionInfo(&appVersion, B_APP_VERSION_KIND); if (status < B_OK) errorOut(status, NULL, false); } if (systemModified) { status = info.SetVersionInfo(&systemVersion, B_SYSTEM_VERSION_KIND); if (status < B_OK) errorOut(status, NULL, false); } return 0; }
// main int main(int argc, const char *const *argv) { kArgc = argc; kArgv = argv; // parameters const char **files = new const char*[argc]; int fileCount = 0; const char *type = NULL; const char *signature = NULL; const char *preferredApp = NULL; // parse the arguments for (int argi = 1; argi < argc; ) { const char *arg = argv[argi++]; if (arg[0] == '-') { if (strcmp(arg, "-h") == 0 || strcmp(arg, "--help") == 0) { print_usage_and_exit(false); } else if (strcmp(arg, "-preferredAppSig") == 0) { preferredApp = next_arg(argi); } else if (strcmp(arg, "-s") == 0) { signature = next_arg(argi); } else if (strcmp(arg, "-t") == 0) { type = next_arg(argi); } else { fprintf(stderr, "Error: Invalid option: \"%s\"\n", arg); print_usage_and_exit(true); } } else { // file files[fileCount++] = arg; } } // check parameters if (!preferredApp && !signature && !type) { fprintf(stderr, "Error: At least one option of \"-preferredAppSig\", " "\"-s\", and \"-t\" must be given.\n"); print_usage_and_exit(true); } if (fileCount == 0) { fprintf(stderr, "Error: No file specified.\n"); print_usage_and_exit(true); } // check for valid MIME types check_mime_type(preferredApp); check_mime_type(type); check_mime_type(signature); // iterate through the files for (int i = 0; i < fileCount; i++) { const char *fileName = files[i]; // check, whether the file exists BEntry entry; status_t error = entry.SetTo(fileName, false); if (error != B_OK) { fprintf(stderr, "Error: Can't access file \"%s\": %s\n", fileName, strerror(error)); exit(1); } if (!entry.Exists()) { fprintf(stderr, "Error: \"%s\": No such file or directory.\n", fileName); exit(1); } // ... and has the right type if (signature && !entry.IsFile()) { fprintf(stderr, "Error: \"%s\" is not a file. Signatures can only " "be set for executable files.\n", fileName); exit(1); } // open the file BFile file; BNode _node; BNode &node = (signature ? file : _node); error = (signature ? file.SetTo(fileName, B_READ_WRITE) : node.SetTo(fileName)); if (error != B_OK) { fprintf(stderr, "Error: Failed to open file \"%s\": %s\n", fileName, strerror(error)); exit(1); } // prepare an node/app info object BAppFileInfo appInfo; BNodeInfo _nodeInfo; BNodeInfo &nodeInfo = (signature ? appInfo : _nodeInfo); error = (signature ? appInfo.SetTo(&file) : nodeInfo.SetTo(&node)); if (error != B_OK) { fprintf(stderr, "Error: Failed to open file \"%s\": %s\n", fileName, strerror(error)); exit(1); } // set preferred app if (preferredApp) { error = nodeInfo.SetPreferredApp(preferredApp); if (error != B_OK) { fprintf(stderr, "Error: Failed to set the preferred " "application of file \"%s\": %s\n", fileName, strerror(error)); exit(1); } } // set type if (type) { error = nodeInfo.SetType(type); if (error != B_OK) { fprintf(stderr, "Error: Failed to set the MIME type of file " "\"%s\": %s\n", fileName, strerror(error)); exit(1); } } // set signature if (signature) { error = appInfo.SetSignature(signature); if (error != B_OK) { fprintf(stderr, "Error: Failed to set the signature of file " "\"%s\": %s\n", fileName, strerror(error)); exit(1); } } } return 0; }