/* Python wrappers for DCERPC/SMB client routines. Copyright (C) Tim Potter, 2002 This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program 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 General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ #include "python/py_spoolss.h" #include "python/py_conv.h" struct pyconv py_PRINTER_INFO_0[] = { { "name", PY_UNISTR, offsetof(PRINTER_INFO_0, printername) }, { "server_name", PY_UNISTR, offsetof(PRINTER_INFO_0, servername) }, { "cjobs", PY_UINT32, offsetof(PRINTER_INFO_0, cjobs) }, { "total_jobs", PY_UINT32, offsetof(PRINTER_INFO_0, total_jobs) }, { "total_bytes", PY_UINT32, offsetof(PRINTER_INFO_0, total_bytes) }, { "year", PY_UINT16, offsetof(PRINTER_INFO_0, year) }, { "month", PY_UINT16, offsetof(PRINTER_INFO_0, month) }, { "day_of_week", PY_UINT16, offsetof(PRINTER_INFO_0, dayofweek) }, { "day", PY_UINT16, offsetof(PRINTER_INFO_0, day) }, { "hour", PY_UINT16, offsetof(PRINTER_INFO_0, hour) }, { "minute", PY_UINT16, offsetof(PRINTER_INFO_0, minute) }, { "second", PY_UINT16, offsetof(PRINTER_INFO_0, second) }, { "milliseconds", PY_UINT16, offsetof(PRINTER_INFO_0, milliseconds) }, { "global_counter", PY_UINT32, offsetof(PRINTER_INFO_0, global_counter) }, { "total_pages", PY_UINT32, offsetof(PRINTER_INFO_0, total_pages) }, { "major_version", PY_UINT16, offsetof(PRINTER_INFO_0, major_version) }, { "build_version", PY_UINT16, offsetof(PRINTER_INFO_0, build_version) }, { "unknown7", PY_UINT32, offsetof(PRINTER_INFO_0, unknown7) }, { "unknown8", PY_UINT32, offsetof(PRINTER_INFO_0, unknown8) }, { "unknown9", PY_UINT32, offsetof(PRINTER_INFO_0, unknown9) }, { "session_counter", PY_UINT32, offsetof(PRINTER_INFO_0, session_counter)}, { "unknown11", PY_UINT32, offsetof(PRINTER_INFO_0, unknown11) }, { "printer_errors", PY_UINT32, offsetof(PRINTER_INFO_0, printer_errors) }, { "unknown13", PY_UINT32, offsetof(PRINTER_INFO_0, unknown13) }, { "unknown14", PY_UINT32, offsetof(PRINTER_INFO_0, unknown14) }, { "unknown15", PY_UINT32, offsetof(PRINTER_INFO_0, unknown15) }, { "unknown16", PY_UINT32, offsetof(PRINTER_INFO_0, unknown16) }, { "change_id", PY_UINT32, offsetof(PRINTER_INFO_0, change_id) }, { "unknown18", PY_UINT32, offsetof(PRINTER_INFO_0, unknown18) }, { "status", PY_UINT32, offsetof(PRINTER_INFO_0, status) }, { "unknown20", PY_UINT32, offsetof(PRINTER_INFO_0, unknown20) }, { "c_setprinter", PY_UINT32, offsetof(PRINTER_INFO_0, c_setprinter) }, { "unknown22", PY_UINT32, offsetof(PRINTER_INFO_0, unknown22) }, { "unknown23", PY_UINT32, offsetof(PRINTER_INFO_0, unknown23) }, { "unknown24", PY_UINT32, offsetof(PRINTER_INFO_0, unknown24) }, { "unknown25", PY_UINT32, offsetof(PRINTER_INFO_0, unknown25) }, { "unknown26", PY_UINT32, offsetof(PRINTER_INFO_0, unknown26) }, { "unknown27", PY_UINT32, offsetof(PRINTER_INFO_0, unknown27) }, { "unknown28", PY_UINT32, offsetof(PRINTER_INFO_0, unknown28) }, { "unknown29", PY_UINT32, offsetof(PRINTER_INFO_0, unknown29) }, { NULL } }; struct pyconv py_PRINTER_INFO_1[] = { { "name", PY_UNISTR, offsetof(PRINTER_INFO_1, name) }, { "description", PY_UNISTR, offsetof(PRINTER_INFO_1, description) }, { "comment", PY_UNISTR, offsetof(PRINTER_INFO_1, comment) }, { "flags", PY_UINT32, offsetof(PRINTER_INFO_1, flags) }, { NULL } }; struct pyconv py_PRINTER_INFO_2[] = { { "server_name", PY_UNISTR, offsetof(PRINTER_INFO_2, servername) }, { "name", PY_UNISTR, offsetof(PRINTER_INFO_2, printername) }, { "share_name", PY_UNISTR, offsetof(PRINTER_INFO_2, sharename) }, { "port_name", PY_UNISTR, offsetof(PRINTER_INFO_2, portname) }, { "driver_name", PY_UNISTR, offsetof(PRINTER_INFO_2, drivername) }, { "comment", PY_UNISTR, offsetof(PRINTER_INFO_2, comment) }, { "location", PY_UNISTR, offsetof(PRINTER_INFO_2, location) }, { "datatype", PY_UNISTR, offsetof(PRINTER_INFO_2, datatype) }, { "sepfile", PY_UNISTR, offsetof(PRINTER_INFO_2, sepfile) }, { "print_processor", PY_UNISTR, offsetof(PRINTER_INFO_2, printprocessor) }, { "parameters", PY_UNISTR, offsetof(PRINTER_INFO_2, parameters) }, { "attributes", PY_UINT32, offsetof(PRINTER_INFO_2, attributes) }, { "default_priority", PY_UINT32, offsetof(PRINTER_INFO_2, defaultpriority) }, { "priority", PY_UINT32, offsetof(PRINTER_INFO_2, priority) }, { "start_time", PY_UINT32, offsetof(PRINTER_INFO_2, starttime) }, { "until_time", PY_UINT32, offsetof(PRINTER_INFO_2, untiltime) }, { "status", PY_UINT32, offsetof(PRINTER_INFO_2, status) }, { "cjobs", PY_UINT32, offsetof(PRINTER_INFO_2, cjobs) }, { "average_ppm", PY_UINT32, offsetof(PRINTER_INFO_2, averageppm) }, { NULL } }; struct pyconv py_PRINTER_INFO_3[] = { { "flags", PY_UINT32, offsetof(PRINTER_INFO_3, flags) }, { NULL } }; struct pyconv py_DEVICEMODE[] = { { "device_name", PY_UNISTR, offsetof(DEVICEMODE, devicename) }, { "spec_version", PY_UINT16, offsetof(DEVICEMODE, specversion) }, { "driver_version", PY_UINT16, offsetof(DEVICEMODE, driverversion) }, { "size", PY_UINT16, offsetof(DEVICEMODE, size) }, { "fields", PY_UINT16, offsetof(DEVICEMODE, fields) }, { "orientation", PY_UINT16, offsetof(DEVICEMODE, orientation) }, { "paper_size", PY_UINT16, offsetof(DEVICEMODE, papersize) }, { "paper_width", PY_UINT16, offsetof(DEVICEMODE, paperwidth) }, { "paper_length", PY_UINT16, offsetof(DEVICEMODE, paperlength) }, { "scale", PY_UINT16, offsetof(DEVICEMODE, scale) }, { "copies", PY_UINT16, offsetof(DEVICEMODE, copies) }, { "default_source", PY_UINT16, offsetof(DEVICEMODE, defaultsource) }, { "print_quality", PY_UINT16, offsetof(DEVICEMODE, printquality) }, { "color", PY_UINT16, offsetof(DEVICEMODE, color) }, { "duplex", PY_UINT16, offsetof(DEVICEMODE, duplex) }, { "y_resolution", PY_UINT16, offsetof(DEVICEMODE, yresolution) }, { "tt_option", PY_UINT16, offsetof(DEVICEMODE, ttoption) }, { "collate", PY_UINT16, offsetof(DEVICEMODE, collate) }, { "form_name", PY_UNISTR, offsetof(DEVICEMODE, formname) }, { "log_pixels", PY_UINT16, offsetof(DEVICEMODE, logpixels) }, { "bits_per_pel", PY_UINT32, offsetof(DEVICEMODE, bitsperpel) }, { "pels_width", PY_UINT32, offsetof(DEVICEMODE, pelswidth) }, { "pels_height", PY_UINT32, offsetof(DEVICEMODE, pelsheight) }, { "display_flags", PY_UINT32, offsetof(DEVICEMODE, displayflags) }, { "display_frequency", PY_UINT32, offsetof(DEVICEMODE, displayfrequency) }, { "icm_method", PY_UINT32, offsetof(DEVICEMODE, icmmethod) }, { "icm_intent", PY_UINT32, offsetof(DEVICEMODE, icmintent) }, { "media_type", PY_UINT32, offsetof(DEVICEMODE, mediatype) }, { "dither_type", PY_UINT32, offsetof(DEVICEMODE, dithertype) }, { "reserved1", PY_UINT32, offsetof(DEVICEMODE, reserved1) }, { "reserved2", PY_UINT32, offsetof(DEVICEMODE, reserved2) }, { "panning_width", PY_UINT32, offsetof(DEVICEMODE, panningwidth) }, { "panning_height", PY_UINT32, offsetof(DEVICEMODE, panningheight) }, { NULL } }; /* * Convert between DEVICEMODE and Python */ BOOL py_from_DEVICEMODE(PyObject **dict, DEVICEMODE *devmode) { *dict = from_struct(devmode, py_DEVICEMODE); PyDict_SetItemString(*dict, "private", PyString_FromStringAndSize( devmode->private, devmode->driverextra)); return True; } BOOL py_to_DEVICEMODE(DEVICEMODE *devmode, PyObject *dict) { PyObject *obj; if (!to_struct(devmode, dict, py_DEVICEMODE)) return False; if (!(obj = PyDict_GetItemString(dict, "private"))) return False; devmode->private = PyString_AsString(obj); devmode->driverextra = PyString_Size(obj); return True; } /* * Convert between PRINTER_INFO_0 and Python */ BOOL py_from_PRINTER_INFO_0(PyObject **dict, PRINTER_INFO_0 *info) { *dict = from_struct(info, py_PRINTER_INFO_0); PyDict_SetItemString(*dict, "level", PyInt_FromLong(0)); return True; } BOOL py_to_PRINTER_INFO_0(PRINTER_INFO_0 *info, PyObject *dict) { return False; } /* * Convert between PRINTER_INFO_1 and Python */ BOOL py_from_PRINTER_INFO_1(PyObject **dict, PRINTER_INFO_1 *info) { *dict = from_struct(info, py_PRINTER_INFO_1); PyDict_SetItemString(*dict, "level", PyInt_FromLong(1)); return True; } BOOL py_to_PRINTER_INFO_1(PRINTER_INFO_1 *info, PyObject *dict) { PyObject *dict_copy = PyDict_Copy(dict); BOOL result; PyDict_DelItemString(dict_copy, "level"); result = to_struct(info, dict_copy, py_PRINTER_INFO_1); Py_DECREF(dict_copy); return result; } /* * Convert between PRINTER_INFO_2 and Python */ BOOL py_from_PRINTER_INFO_2(PyObject **dict, PRINTER_INFO_2 *info) { PyObject *obj; *dict = from_struct(info, py_PRINTER_INFO_2); if (py_from_SECDESC(&obj, info->secdesc)) PyDict_SetItemString(*dict, "security_descriptor", obj); /* Bong! The devmode could be NULL */ if (info->devmode) py_from_DEVICEMODE(&obj, info->devmode); else obj = PyDict_New(); PyDict_SetItemString(*dict, "device_mode", obj); PyDict_SetItemString(*dict, "level", PyInt_FromLong(2)); return True; } BOOL py_to_PRINTER_INFO_2(PRINTER_INFO_2 *info, PyObject *dict, TALLOC_CTX *mem_ctx) { PyObject *obj; if (!to_struct(info, dict, py_PRINTER_INFO_2)) return False; if (!(obj = PyDict_GetItemString(dict, "security_descriptor"))) return False; if (!py_to_SECDESC(&info->secdesc, obj, mem_ctx)) return False; if (!(obj = PyDict_GetItemString(dict, "device_mode"))) return False; info->devmode = talloc(mem_ctx, sizeof(DEVICEMODE)); if (!py_to_DEVICEMODE(info->devmode, obj)) return False; return True; } /* * Convert between PRINTER_INFO_1 and Python */ BOOL py_from_PRINTER_INFO_3(PyObject **dict, PRINTER_INFO_3 *info) { PyObject *obj; *dict = from_struct(info, py_PRINTER_INFO_3); if (py_from_SECDESC(&obj, info->secdesc)) PyDict_SetItemString(*dict, "security_descriptor", obj); PyDict_SetItemString(*dict, "level", PyInt_FromLong(3)); return True; } BOOL py_to_PRINTER_INFO_3(PRINTER_INFO_3 *info, PyObject *dict, TALLOC_CTX *mem_ctx) { PyObject *obj; if (!to_struct(info, dict, py_PRINTER_INFO_3)) return False; if (!(obj = PyDict_GetItemString(dict, "security_descriptor"))) return False; if (!py_to_SECDESC(&info->secdesc, obj, mem_ctx)) return False; return True; }