/** * FreeRDP: A Remote Desktop Protocol client. * Print Virtual Channel * * Copyright 2010-2011 Vic Lee * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "config.h" #include #include #include #include #include #include #include #include #include "rdpdr_constants.h" #include "rdpdr_types.h" #ifdef WITH_CUPS #include "printer_cups.h" #endif #include "printer_main.h" typedef struct _PRINTER_DEVICE PRINTER_DEVICE; struct _PRINTER_DEVICE { DEVICE device; rdpPrinter* printer; LIST* irp_list; freerdp_thread* thread; }; static void printer_process_irp_create(PRINTER_DEVICE* printer_dev, IRP* irp) { rdpPrintJob* printjob = NULL; if (printer_dev->printer != NULL) printjob = printer_dev->printer->CreatePrintJob(printer_dev->printer, irp->devman->id_sequence++); if (printjob != NULL) { stream_write_uint32(irp->output, printjob->id); /* FileId */ DEBUG_SVC("printjob id: %d", printjob->id); } else { stream_write_uint32(irp->output, 0); /* FileId */ irp->IoStatus = STATUS_PRINT_QUEUE_FULL; DEBUG_WARN("error creating print job."); } irp->Complete(irp); } static void printer_process_irp_close(PRINTER_DEVICE* printer_dev, IRP* irp) { rdpPrintJob* printjob = NULL; if (printer_dev->printer != NULL) printjob = printer_dev->printer->FindPrintJob(printer_dev->printer, irp->FileId); if (printjob == NULL) { irp->IoStatus = STATUS_UNSUCCESSFUL; DEBUG_WARN("printjob id %d not found.", irp->FileId); } else { printjob->Close(printjob); DEBUG_SVC("printjob id %d closed.", irp->FileId); } stream_write_zero(irp->output, 4); /* Padding(4) */ irp->Complete(irp); } static void printer_process_irp_write(PRINTER_DEVICE* printer_dev, IRP* irp) { rdpPrintJob* printjob = NULL; uint32 Length; uint64 Offset; stream_read_uint32(irp->input, Length); stream_read_uint64(irp->input, Offset); stream_seek(irp->input, 20); /* Padding */ if (printer_dev->printer != NULL) printjob = printer_dev->printer->FindPrintJob(printer_dev->printer, irp->FileId); if (printjob == NULL) { irp->IoStatus = STATUS_UNSUCCESSFUL; Length = 0; DEBUG_WARN("printjob id %d not found.", irp->FileId); } else { printjob->Write(printjob, stream_get_tail(irp->input), Length); DEBUG_SVC("printjob id %d written %d bytes.", irp->FileId, Length); } stream_write_uint32(irp->output, Length); stream_write_uint8(irp->output, 0); /* Padding */ irp->Complete(irp); } static void printer_process_irp(PRINTER_DEVICE* printer_dev, IRP* irp) { switch (irp->MajorFunction) { case IRP_MJ_CREATE: printer_process_irp_create(printer_dev, irp); break; case IRP_MJ_CLOSE: printer_process_irp_close(printer_dev, irp); break; case IRP_MJ_WRITE: printer_process_irp_write(printer_dev, irp); break; default: DEBUG_WARN("MajorFunction 0x%X not supported", irp->MajorFunction); irp->IoStatus = STATUS_NOT_SUPPORTED; irp->Complete(irp); break; } } static void printer_process_irp_list(PRINTER_DEVICE* printer_dev) { IRP* irp; while (1) { if (freerdp_thread_is_stopped(printer_dev->thread)) break; freerdp_thread_lock(printer_dev->thread); irp = (IRP*)list_dequeue(printer_dev->irp_list); freerdp_thread_unlock(printer_dev->thread); if (irp == NULL) break; printer_process_irp(printer_dev, irp); } } static void* printer_thread_func(void* arg) { PRINTER_DEVICE* printer_dev = (PRINTER_DEVICE*)arg; while (1) { freerdp_thread_wait(printer_dev->thread); if (freerdp_thread_is_stopped(printer_dev->thread)) break; freerdp_thread_reset(printer_dev->thread); printer_process_irp_list(printer_dev); } freerdp_thread_quit(printer_dev->thread); return NULL; } static void printer_irp_request(DEVICE* device, IRP* irp) { PRINTER_DEVICE* printer_dev = (PRINTER_DEVICE*)device; freerdp_thread_lock(printer_dev->thread); list_enqueue(printer_dev->irp_list, irp); freerdp_thread_unlock(printer_dev->thread); freerdp_thread_signal(printer_dev->thread); } static void printer_free(DEVICE* device) { PRINTER_DEVICE* printer_dev = (PRINTER_DEVICE*)device; IRP* irp; freerdp_thread_stop(printer_dev->thread); freerdp_thread_free(printer_dev->thread); while ((irp = (IRP*)list_dequeue(printer_dev->irp_list)) != NULL) irp->Discard(irp); list_free(printer_dev->irp_list); if (printer_dev->printer) printer_dev->printer->Free(printer_dev->printer); xfree(printer_dev->device.name); xfree(printer_dev); } void printer_register(PDEVICE_SERVICE_ENTRY_POINTS pEntryPoints, rdpPrinter* printer) { PRINTER_DEVICE* printer_dev; char* port; UNICONV* uniconv; uint32 Flags; size_t DriverNameLen; char* DriverName; size_t PrintNameLen; char* PrintName; uint32 CachedFieldsLen; uint8* CachedPrinterConfigData; port = xmalloc(10); snprintf(port, 10, "PRN%d", printer->id); printer_dev = xnew(PRINTER_DEVICE); printer_dev->device.type = RDPDR_DTYP_PRINT; printer_dev->device.name = port; printer_dev->device.IRPRequest = printer_irp_request; printer_dev->device.Free = printer_free; printer_dev->printer = printer; CachedFieldsLen = 0; CachedPrinterConfigData = NULL; DEBUG_SVC("Printer %s registered", printer->name); Flags = 0; if (printer->is_default) Flags |= RDPDR_PRINTER_ANNOUNCE_FLAG_DEFAULTPRINTER; uniconv = freerdp_uniconv_new(); DriverName = freerdp_uniconv_out(uniconv, printer->driver, &DriverNameLen); PrintName = freerdp_uniconv_out(uniconv, printer->name, &PrintNameLen); freerdp_uniconv_free(uniconv); printer_dev->device.data = stream_new(28 + DriverNameLen + PrintNameLen + CachedFieldsLen); stream_write_uint32(printer_dev->device.data, Flags); stream_write_uint32(printer_dev->device.data, 0); /* CodePage, reserved */ stream_write_uint32(printer_dev->device.data, 0); /* PnPNameLen */ stream_write_uint32(printer_dev->device.data, DriverNameLen + 2); stream_write_uint32(printer_dev->device.data, PrintNameLen + 2); stream_write_uint32(printer_dev->device.data, CachedFieldsLen); stream_write(printer_dev->device.data, DriverName, DriverNameLen); stream_write_uint16(printer_dev->device.data, 0); stream_write(printer_dev->device.data, PrintName, PrintNameLen); stream_write_uint16(printer_dev->device.data, 0); if (CachedFieldsLen > 0) { stream_write(printer_dev->device.data, CachedPrinterConfigData, CachedFieldsLen); } xfree(DriverName); xfree(PrintName); printer_dev->irp_list = list_new(); printer_dev->thread = freerdp_thread_new(); pEntryPoints->RegisterDevice(pEntryPoints->devman, (DEVICE*)printer_dev); freerdp_thread_start(printer_dev->thread, printer_thread_func, printer_dev); } int DeviceServiceEntry(PDEVICE_SERVICE_ENTRY_POINTS pEntryPoints) { rdpPrinterDriver* driver = NULL; rdpPrinter** printers; rdpPrinter* printer; int i; char* name; char* driver_name; #ifdef WITH_CUPS driver = printer_cups_get_driver(); #endif if (driver == NULL) { DEBUG_WARN("no driver."); return 1; } name = (char*)pEntryPoints->plugin_data->data[1]; driver_name = (char*)pEntryPoints->plugin_data->data[2]; if (name && name[0]) { printer = driver->GetPrinter(driver, name); if (printer == NULL) { DEBUG_WARN("printer %s not found.", name); return 1; } if (driver_name && driver_name[0]) printer->driver = driver_name; printer_register(pEntryPoints, printer); } else { printers = driver->EnumPrinters(driver); for (i = 0; printers[i]; i++) { printer = printers[i]; printer_register(pEntryPoints, printer); } xfree(printers); } return 0; }