/* * Unix SMB/Netbios implementation. * Version 1.9. * RPC Pipe client / server routines * Copyright (C) Andrew Tridgell 1992-2000, * Copyright (C) Luke Kenneth Casson Leighton 1996-2000, * Copyright (C) Jean François Micouleau 1998-2000. * * 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 "includes.h" #include "nterr.h" extern int DEBUGLEVEL; /******************************************************************* return the length of a UNISTR string. ********************************************************************/ static uint32 str_len_uni(UNISTR *source) { uint32 i=0; while (source->buffer[i]!=0x0000) { i++; } return i; } /******************************************************************* This should be moved in a more generic lib. ********************************************************************/ static BOOL spoolss_io_system_time(char *desc, prs_struct *ps, int depth, SYSTEMTIME *systime) { prs_uint16("year", ps, depth, &(systime->year)); prs_uint16("month", ps, depth, &(systime->month)); prs_uint16("dayofweek", ps, depth, &(systime->dayofweek)); prs_uint16("day", ps, depth, &(systime->day)); prs_uint16("hour", ps, depth, &(systime->hour)); prs_uint16("minute", ps, depth, &(systime->minute)); prs_uint16("second", ps, depth, &(systime->second)); prs_uint16("milliseconds", ps, depth, &(systime->milliseconds)); return True; } /******************************************************************* ********************************************************************/ BOOL make_systemtime(SYSTEMTIME *systime, struct tm *unixtime) { systime->year=unixtime->tm_year+1900; systime->month=unixtime->tm_mon+1; systime->dayofweek=unixtime->tm_wday; systime->day=unixtime->tm_mday; systime->hour=unixtime->tm_hour; systime->minute=unixtime->tm_min; systime->second=unixtime->tm_sec; systime->milliseconds=0; return True; } /******************************************************************* reads or writes an POLICY_HND structure. ********************************************************************/ static BOOL smb_io_prt_hnd(char *desc, POLICY_HND *hnd, prs_struct *ps, int depth) { if (hnd == NULL) return False; prs_debug(ps, depth, desc, "smb_io_prt_hnd"); depth++; prs_align(ps); prs_uint8s (False, "data", ps, depth, hnd->data, POLICY_HND_SIZE); return True; } /******************************************************************* reads or writes an DOC_INFO structure. ********************************************************************/ static BOOL smb_io_doc_info_1(char *desc, DOC_INFO_1 *info_1, prs_struct *ps, int depth) { if (info_1 == NULL) return False; prs_debug(ps, depth, desc, "smb_io_doc_info_1"); depth++; prs_align(ps); prs_uint32("p_docname", ps, depth, &(info_1->p_docname)); prs_uint32("p_outputfile", ps, depth, &(info_1->p_outputfile)); prs_uint32("p_datatype", ps, depth, &(info_1->p_datatype)); smb_io_unistr2("", &(info_1->docname), info_1->p_docname, ps, depth); smb_io_unistr2("", &(info_1->outputfile), info_1->p_outputfile, ps, depth); smb_io_unistr2("", &(info_1->datatype), info_1->p_datatype, ps, depth); return True; } /******************************************************************* reads or writes an DOC_INFO structure. ********************************************************************/ static BOOL smb_io_doc_info(char *desc, DOC_INFO *info, prs_struct *ps, int depth) { uint32 useless_ptr=0; if (info == NULL) return False; prs_debug(ps, depth, desc, "smb_io_doc_info"); depth++; prs_align(ps); prs_uint32("switch_value", ps, depth, &(info->switch_value)); prs_uint32("doc_info_X ptr", ps, depth, &(useless_ptr)); switch (info->switch_value) { case 1: smb_io_doc_info_1("",&(info->doc_info_1), ps, depth); break; case 2: /* this is just a placeholder MSDN July 1998 says doc_info_2 is only on Windows 95, and as Win95 doesn't do RPC to print this case is nearly impossible Maybe one day with Windows for dishwasher 2037 ... */ /* smb_io_doc_info_2("",&(info->doc_info_2), ps, depth); */ break; default: DEBUG(0,("Something is obviously wrong somewhere !\n")); break; } return True; } /******************************************************************* reads or writes an DOC_INFO_CONTAINER structure. ********************************************************************/ static BOOL smb_io_doc_info_container(char *desc, DOC_INFO_CONTAINER *cont, prs_struct *ps, int depth) { if (cont == NULL) return False; prs_debug(ps, depth, desc, "smb_io_doc_info_container"); depth++; prs_align(ps); prs_uint32("level", ps, depth, &(cont->level)); smb_io_doc_info("",&(cont->docinfo), ps, depth); return True; } /******************************************************************* reads or writes an NOTIFY OPTION TYPE structure. ********************************************************************/ static BOOL smb_io_notify_option_type(char *desc, SPOOL_NOTIFY_OPTION_TYPE *type, prs_struct *ps, int depth) { uint32 useless_ptr; prs_debug(ps, depth, desc, "smb_io_notify_option_type"); depth++; prs_align(ps); prs_uint16("type", ps, depth, &(type->type)); prs_uint16("reserved0", ps, depth, &(type->reserved0)); prs_uint32("reserved1", ps, depth, &(type->reserved1)); prs_uint32("reserved2", ps, depth, &(type->reserved2)); prs_uint32("count", ps, depth, &(type->count)); prs_uint32("useless ptr", ps, depth, &useless_ptr); return True; } /******************************************************************* reads or writes an NOTIFY OPTION TYPE DATA. ********************************************************************/ static BOOL smb_io_notify_option_type_data(char *desc, SPOOL_NOTIFY_OPTION_TYPE *type, prs_struct *ps, int depth) { uint32 count; int i; prs_debug(ps, depth, desc, "smb_io_notify_option_type_data"); depth++; prs_align(ps); prs_uint32("count", ps, depth, &count); if (count != type->count) { DEBUG(4,("What a mess, count was %x now is %x !\n",type->count,count)); type->count=count; } for(i=0;ifields[i])); } return True; } /******************************************************************* reads or writes an NOTIFY OPTION structure. ********************************************************************/ static BOOL smb_io_notify_option(char *desc, SPOOL_NOTIFY_OPTION *option, prs_struct *ps, int depth) { uint32 useless_ptr; int i; prs_debug(ps, depth, desc, "smb_io_notify_option"); depth++; prs_align(ps); /* memory pointer to the struct */ prs_uint32("useless ptr", ps, depth, &useless_ptr); prs_uint32("version", ps, depth, &(option->version)); prs_uint32("reserved", ps, depth, &(option->reserved)); prs_uint32("count", ps, depth, &(option->count)); prs_uint32("useless ptr", ps, depth, &useless_ptr); prs_uint32("count", ps, depth, &(option->count)); /* read the option type struct */ for(i=0;icount;i++) { smb_io_notify_option_type("",&(option->type[i]) ,ps, depth); } /* now read the type associated with the option type struct */ for(i=0;icount;i++) { smb_io_notify_option_type_data("",&(option->type[i]) ,ps, depth); } return True; } /******************************************************************* reads or writes an NOTIFY INFO DATA structure. ********************************************************************/ static BOOL smb_io_notify_info_data(char *desc,SPOOL_NOTIFY_INFO_DATA *data, prs_struct *ps, int depth) { uint32 useless_ptr=0xADDE0FF0; uint32 how_many_words; BOOL isvalue; uint32 x; prs_debug(ps, depth, desc, "smb_io_notify_info_data"); depth++; how_many_words=data->size; if (how_many_words==POINTER) { how_many_words=TWO_VALUE; } isvalue=data->enc_type; prs_align(ps); prs_uint16("type", ps, depth, &(data->type)); prs_uint16("field", ps, depth, &(data->field)); /*prs_align(ps);*/ prs_uint32("how many words", ps, depth, &how_many_words); prs_uint32("id", ps, depth, &(data->id)); prs_uint32("how many words", ps, depth, &how_many_words); /*prs_align(ps);*/ if (isvalue==True) { prs_uint32("value[0]", ps, depth, &(data->notify_data.value[0])); prs_uint32("value[1]", ps, depth, &(data->notify_data.value[1])); /*prs_align(ps);*/ } else { /* it's a string */ /* length in ascii including \0 */ x=2*(data->notify_data.data.length+1); prs_uint32("string length", ps, depth, &x ); prs_uint32("pointer", ps, depth, &useless_ptr); /*prs_align(ps);*/ } return True; } /******************************************************************* reads or writes an NOTIFY INFO DATA structure. ********************************************************************/ BOOL smb_io_notify_info_data_strings(char *desc,SPOOL_NOTIFY_INFO_DATA *data, prs_struct *ps, int depth) { uint32 x; BOOL isvalue; prs_debug(ps, depth, desc, "smb_io_notify_info_data"); depth++; prs_align(ps); isvalue=data->enc_type; if (isvalue==False) { /* length of string in unicode include \0 */ x=data->notify_data.data.length+1; prs_uint32("string length", ps, depth, &x ); prs_uint16s(True,"string",ps,depth,data->notify_data.data.string,x); } prs_align(ps); return True; } /******************************************************************* reads or writes an NOTIFY INFO structure. ********************************************************************/ static BOOL smb_io_notify_info(char *desc, SPOOL_NOTIFY_INFO *info, prs_struct *ps, int depth) { uint32 useless_ptr=0x0001; int i; info->version=0x02; prs_debug(ps, depth, desc, "smb_io_notify_info"); depth++; prs_align(ps); prs_uint32("pointer", ps, depth, &useless_ptr); prs_uint32("count", ps, depth, &(info->count)); prs_uint32("version", ps, depth, &(info->version)); prs_uint32("flags", ps, depth, &(info->flags)); prs_uint32("count", ps, depth, &(info->count)); for (i=0;icount;i++) { smb_io_notify_info_data(desc, &(info->data[i]), ps, depth); } /* now do the strings at the end of the stream */ for (i=0;icount;i++) { smb_io_notify_info_data_strings(desc, &(info->data[i]), ps, depth); } return True; } /******************************************************************* ********************************************************************/ static BOOL spool_io_user_level_1(char *desc, SPOOL_USER_1 *q_u, prs_struct *ps, int depth) { prs_debug(ps, depth, desc, ""); depth++; /* reading */ if (ps->io) ZERO_STRUCTP(q_u); if (!prs_align(ps)) return False; if (!prs_uint32("size", ps, depth, &(q_u->size))) return False; if (!prs_uint32("client_name_ptr", ps, depth, &(q_u->client_name_ptr))) return False; if (!prs_uint32("user_name_ptr", ps, depth, &(q_u->user_name_ptr))) return False; if (!prs_uint32("build", ps, depth, &(q_u->build))) return False; if (!prs_uint32("major", ps, depth, &(q_u->major))) return False; if (!prs_uint32("minor", ps, depth, &(q_u->minor))) return False; if (!prs_uint32("processor", ps, depth, &(q_u->processor))) return False; if (!smb_io_unistr2("", &(q_u->client_name), q_u->client_name_ptr, ps, depth)) return False; if (!prs_align(ps)) return False; if (!smb_io_unistr2("", &(q_u->user_name), q_u->user_name_ptr, ps, depth)) return False; return True; } /******************************************************************* ********************************************************************/ static BOOL spool_io_user_level(char *desc, SPOOL_USER_CTR *q_u, prs_struct *ps, int depth) { if (q_u==NULL) return False; prs_debug(ps, depth, desc, "spool_io_user_level"); depth++; if (!prs_align(ps)) return False; if (!prs_uint32("level", ps, depth, &q_u->level)) return False; if (!prs_uint32("ptr", ps, depth, &q_u->ptr)) return False; switch (q_u->level) { case 1: if (!spool_io_user_level_1("", &(q_u->user1), ps, depth)) return False; break; default: return False; } return True; } /******************************************************************* * read or write a DEVICEMODE struct. * on reading allocate memory for the private member ********************************************************************/ static BOOL spoolss_io_devmode(char *desc, prs_struct *ps, int depth, DEVICEMODE *devmode) { prs_debug(ps, depth, desc, "spoolss_io_devmode"); depth++; if (!prs_uint16s(True,"devicename", ps, depth, devmode->devicename.buffer, 32)) return False; if (!prs_uint16("specversion", ps, depth, &(devmode->specversion))) return False; if (!prs_uint16("driverversion", ps, depth, &(devmode->driverversion))) return False; if (!prs_uint16("size", ps, depth, &(devmode->size))) return False; if (!prs_uint16("driverextra", ps, depth, &(devmode->driverextra))) return False; if (!prs_uint32("fields", ps, depth, &(devmode->fields))) return False; if (!prs_uint16("orientation", ps, depth, &(devmode->orientation))) return False; if (!prs_uint16("papersize", ps, depth, &(devmode->papersize))) return False; if (!prs_uint16("paperlength", ps, depth, &(devmode->paperlength))) return False; if (!prs_uint16("paperwidth", ps, depth, &(devmode->paperwidth))) return False; if (!prs_uint16("scale", ps, depth, &(devmode->scale))) return False; if (!prs_uint16("copies", ps, depth, &(devmode->copies))) return False; if (!prs_uint16("defaultsource", ps, depth, &(devmode->defaultsource))) return False; if (!prs_uint16("printquality", ps, depth, &(devmode->printquality))) return False; if (!prs_uint16("color", ps, depth, &(devmode->color))) return False; if (!prs_uint16("duplex", ps, depth, &(devmode->duplex))) return False; if (!prs_uint16("yresolution", ps, depth, &(devmode->yresolution))) return False; if (!prs_uint16("ttoption", ps, depth, &(devmode->ttoption))) return False; if (!prs_uint16("collate", ps, depth, &(devmode->collate))) return False; if (!prs_uint16s(True, "formname", ps, depth, devmode->formname.buffer, 32)) return False; if (!prs_uint16("logpixels", ps, depth, &(devmode->logpixels))) return False; if (!prs_uint32("bitsperpel", ps, depth, &(devmode->bitsperpel))) return False; if (!prs_uint32("pelswidth", ps, depth, &(devmode->pelswidth))) return False; if (!prs_uint32("pelsheight", ps, depth, &(devmode->pelsheight))) return False; if (!prs_uint32("displayflags", ps, depth, &(devmode->displayflags))) return False; if (!prs_uint32("displayfrequency", ps, depth, &(devmode->displayfrequency))) return False; if (!prs_uint32("icmmethod", ps, depth, &(devmode->icmmethod))) return False; if (!prs_uint32("icmintent", ps, depth, &(devmode->icmintent))) return False; if (!prs_uint32("mediatype", ps, depth, &(devmode->mediatype))) return False; if (!prs_uint32("dithertype", ps, depth, &(devmode->dithertype))) return False; if (!prs_uint32("reserved1", ps, depth, &(devmode->reserved1))) return False; if (!prs_uint32("reserved2", ps, depth, &(devmode->reserved2))) return False; if (!prs_uint32("panningwidth", ps, depth, &(devmode->panningwidth))) return False; if (!prs_uint32("panningheight", ps, depth, &(devmode->panningheight))) return False; if (devmode->driverextra!=0) { if (UNMARSHALLING(ps)) { devmode->private=(uint8 *)malloc(devmode->driverextra*sizeof(uint8)); DEBUG(7,("spoolss_io_devmode: allocated memory [%d] for private\n",devmode->driverextra)); } DEBUG(7,("spoolss_io_devmode: parsing [%d] bytes of private\n",devmode->driverextra)); if (!prs_uint8s(True, "private", ps, depth, devmode->private, devmode->driverextra)) return False; } return True; } /******************************************************************* Read or write a DEVICEMODE container ********************************************************************/ static BOOL spoolss_io_devmode_cont(char *desc, DEVMODE_CTR *dm_c, prs_struct *ps, int depth) { if (dm_c==NULL) return False; prs_debug(ps, depth, desc, "spoolss_io_devmode_cont"); depth++; if (!prs_uint32("size", ps, depth, &dm_c->size)) return False; if (!prs_uint32("devmode_ptr", ps, depth, &dm_c->devmode_ptr)) return False; if (dm_c->size==0 || dm_c->devmode_ptr==0) { if (UNMARSHALLING(ps)) /* if while reading there is no DEVMODE ... */ dm_c->devmode=NULL; return True; } /* so we have a DEVICEMODE to follow */ if (UNMARSHALLING(ps)) { DEBUG(9,("Allocating memory for spoolss_io_devmode\n")); dm_c->devmode=(DEVICEMODE *)malloc(sizeof(DEVICEMODE)); ZERO_STRUCTP(dm_c->devmode); } /* this is bad code, shouldn't be there */ if (!prs_uint32("size", ps, depth, &dm_c->size)) return False; if (!spoolss_io_devmode(desc, ps, depth, dm_c->devmode)) return False; return True; } /******************************************************************* ********************************************************************/ static BOOL spoolss_io_printer_default(char *desc, PRINTER_DEFAULT *pd, prs_struct *ps, int depth) { if (pd==NULL) return False; prs_debug(ps, depth, desc, "spoolss_io_printer_default"); depth++; if (!prs_uint32("datatype_ptr", ps, depth, &pd->datatype_ptr)) return False; if (!smb_io_unistr2("datatype", &(pd->datatype), pd->datatype_ptr, ps,depth)) return False; if (!prs_align(ps)) return False; if (!spoolss_io_devmode_cont("", &(pd->devmode_cont), ps, depth)) return False; if (!prs_uint32("access_required", ps, depth, &pd->access_required)) return False; return True; } /******************************************************************* * make a structure. ********************************************************************/ BOOL make_spoolss_q_open_printer_ex(SPOOL_Q_OPEN_PRINTER_EX *q_u, const char *printername, uint32 cbbuf, uint32 devmod, uint32 des_access, const char *station, const char *username) { int len_name = printername != NULL ? strlen(printername) : 0; int len_sta = station != NULL ? strlen(station ) : 0; int len_user = username != NULL ? strlen(username ) : 0; if (q_u == NULL) return False; DEBUG(5,("make_spoolss_io_q_open_printer_ex\n")); q_u->printername_ptr = 1; init_unistr2(&(q_u->printername), printername, len_name); /* q_u->unknown0 = 0x0; q_u->cbbuf = cbbuf; q_u->devmod = devmod; q_u->access_required = des_access; */ /* q_u->unknown1 = 0x1; q_u->unknown2 = 0x1; q_u->unknown3 = 0x149f7d8; q_u->unknown4 = 0x1c; q_u->unknown5 = 0x00b94dd0; q_u->unknown6 = 0x0149f5cc; q_u->unknown7 = 0x00000565; q_u->unknown8 = 0x2; q_u->unknown9 = 0x0; q_u->unknown10 = 0x0; init_unistr2(&(q_u->station), station, len_sta); init_unistr2(&(q_u->username), username, len_user); */ return True; } /******************************************************************* * read a structure. * called from spoolss_q_open_printer_ex (srv_spoolss.c) ********************************************************************/ BOOL spoolss_io_q_open_printer_ex(char *desc, SPOOL_Q_OPEN_PRINTER_EX *q_u, prs_struct *ps, int depth) { if (q_u == NULL) return False; prs_debug(ps, depth, desc, "spoolss_io_q_open_printer_ex"); depth++; if (!prs_align(ps)) return False; if (!prs_uint32("printername_ptr", ps, depth, &(q_u->printername_ptr))) return False; if (!smb_io_unistr2("", &(q_u->printername), q_u->printername_ptr, ps,depth)) return False; if (!prs_align(ps)) return False; if (!spoolss_io_printer_default("", &(q_u->printer_default), ps, depth)) return False; if (!prs_uint32("user_switch", ps, depth, &(q_u->user_switch))) return False; if (!spool_io_user_level("", &(q_u->user_ctr), ps, depth)) return False; return True; } /******************************************************************* * write a structure. * called from static spoolss_r_open_printer_ex (srv_spoolss.c) * called from spoolss_open_printer_ex (cli_spoolss.c) ********************************************************************/ BOOL spoolss_io_r_open_printer_ex(char *desc, SPOOL_R_OPEN_PRINTER_EX *r_u, prs_struct *ps, int depth) { if (r_u == NULL) return False; prs_debug(ps, depth, desc, "spoolss_io_r_open_printer_ex"); depth++; if (!prs_align(ps)) return False; if (!smb_io_prt_hnd("printer handle",&(r_u->handle),ps,depth)) return False; if (!prs_uint32("status code", ps, depth, &(r_u->status))) return False; return True; } /******************************************************************* * make a structure. ********************************************************************/ BOOL make_spoolss_q_getprinterdata(SPOOL_Q_GETPRINTERDATA *q_u, POLICY_HND *handle, char *valuename, uint32 size) { int len_name = valuename != NULL ? strlen(valuename) : 0; if (q_u == NULL) return False; DEBUG(5,("make_spoolss_q_getprinterdata\n")); memcpy(&(q_u->handle), handle, sizeof(q_u->handle)); init_unistr2(&(q_u->valuename), valuename, len_name); q_u->size = size; return True; } /******************************************************************* * read a structure. * called from spoolss_q_getprinterdata (srv_spoolss.c) ********************************************************************/ BOOL spoolss_io_q_getprinterdata(char *desc, SPOOL_Q_GETPRINTERDATA *q_u, prs_struct *ps, int depth) { if (q_u == NULL) return False; prs_debug(ps, depth, desc, "spoolss_io_q_getprinterdata"); depth++; if (!prs_align(ps)) return False; if (!smb_io_prt_hnd("printer handle",&(q_u->handle),ps,depth)) return False; if (!prs_align(ps)) return False; if (!smb_io_unistr2("valuename", &(q_u->valuename),True,ps,depth)) return False; if (!prs_align(ps)) return False; if (!prs_uint32("size", ps, depth, &(q_u->size))) return False; return True; } /******************************************************************* * write a structure. * called from spoolss_r_getprinterdata (srv_spoolss.c) ********************************************************************/ BOOL spoolss_io_r_getprinterdata(char *desc, SPOOL_R_GETPRINTERDATA *r_u, prs_struct *ps, int depth) { if (r_u == NULL) return False; prs_debug(ps, depth, desc, "spoolss_io_r_getprinterdata"); depth++; prs_align(ps); prs_uint32("type", ps, depth, &(r_u->type)); prs_uint32("size", ps, depth, &(r_u->size)); prs_uint8s(False,"data", ps, depth, r_u->data, r_u->size); prs_align(ps); prs_uint32("needed", ps, depth, &(r_u->needed)); prs_uint32("status", ps, depth, &(r_u->status)); prs_align(ps); return True; } /******************************************************************* * make a structure. ********************************************************************/ BOOL make_spoolss_q_closeprinter(SPOOL_Q_CLOSEPRINTER *q_u, POLICY_HND *hnd) { if (q_u == NULL) return False; DEBUG(5,("make_spoolss_q_closeprinter\n")); memcpy(&(q_u->handle), hnd, sizeof(q_u->handle)); return True; } /******************************************************************* * read a structure. * called from static spoolss_q_closeprinter (srv_spoolss.c) * called from spoolss_closeprinter (cli_spoolss.c) ********************************************************************/ BOOL spoolss_io_q_closeprinter(char *desc, SPOOL_Q_CLOSEPRINTER *q_u, prs_struct *ps, int depth) { if (q_u == NULL) return False; prs_debug(ps, depth, desc, "spoolss_io_q_closeprinter"); depth++; prs_align(ps); smb_io_prt_hnd("printer handle",&(q_u->handle),ps,depth); return True; } /******************************************************************* * write a structure. * called from static spoolss_r_closeprinter (srv_spoolss.c) * called from spoolss_closeprinter (cli_spoolss.c) ********************************************************************/ BOOL spoolss_io_r_closeprinter(char *desc, SPOOL_R_CLOSEPRINTER *r_u, prs_struct *ps, int depth) { prs_debug(ps, depth, desc, "spoolss_io_r_closeprinter"); depth++; prs_align(ps); smb_io_prt_hnd("printer handle",&(r_u->handle),ps,depth); prs_uint32("status", ps, depth, &(r_u->status)); return True; } /******************************************************************* * read a structure. * called from spoolss_q_startdocprinter (srv_spoolss.c) ********************************************************************/ BOOL spoolss_io_q_startdocprinter(char *desc, SPOOL_Q_STARTDOCPRINTER *q_u, prs_struct *ps, int depth) { if (q_u == NULL) return False; prs_debug(ps, depth, desc, "spoolss_io_q_startdocprinter"); depth++; prs_align(ps); smb_io_prt_hnd("printer handle",&(q_u->handle),ps,depth); smb_io_doc_info_container("",&(q_u->doc_info_container), ps, depth); return True; } /******************************************************************* * write a structure. * called from spoolss_r_startdocprinter (srv_spoolss.c) ********************************************************************/ BOOL spoolss_io_r_startdocprinter(char *desc, SPOOL_R_STARTDOCPRINTER *r_u, prs_struct *ps, int depth) { prs_debug(ps, depth, desc, "spoolss_io_r_startdocprinter"); depth++; prs_uint32("jobid", ps, depth, &(r_u->jobid)); prs_uint32("status", ps, depth, &(r_u->status)); return True; } /******************************************************************* * read a structure. * called from spoolss_q_enddocprinter (srv_spoolss.c) ********************************************************************/ BOOL spoolss_io_q_enddocprinter(char *desc, SPOOL_Q_ENDDOCPRINTER *q_u, prs_struct *ps, int depth) { if (q_u == NULL) return False; prs_debug(ps, depth, desc, "spoolss_io_q_enddocprinter"); depth++; prs_align(ps); smb_io_prt_hnd("printer handle",&(q_u->handle),ps,depth); return True; } /******************************************************************* * write a structure. * called from spoolss_r_enddocprinter (srv_spoolss.c) ********************************************************************/ BOOL spoolss_io_r_enddocprinter(char *desc, SPOOL_R_ENDDOCPRINTER *r_u, prs_struct *ps, int depth) { prs_debug(ps, depth, desc, "spoolss_io_r_enddocprinter"); depth++; prs_uint32("status", ps, depth, &(r_u->status)); return True; } /******************************************************************* * read a structure. * called from spoolss_q_startpageprinter (srv_spoolss.c) ********************************************************************/ BOOL spoolss_io_q_startpageprinter(char *desc, SPOOL_Q_STARTPAGEPRINTER *q_u, prs_struct *ps, int depth) { if (q_u == NULL) return False; prs_debug(ps, depth, desc, "spoolss_io_q_startpageprinter"); depth++; prs_align(ps); smb_io_prt_hnd("printer handle",&(q_u->handle),ps,depth); return True; } /******************************************************************* * write a structure. * called from spoolss_r_startpageprinter (srv_spoolss.c) ********************************************************************/ BOOL spoolss_io_r_startpageprinter(char *desc, SPOOL_R_STARTPAGEPRINTER *r_u, prs_struct *ps, int depth) { prs_debug(ps, depth, desc, "spoolss_io_r_startpageprinter"); depth++; prs_uint32("status", ps, depth, &(r_u->status)); return True; } /******************************************************************* * read a structure. * called from spoolss_q_endpageprinter (srv_spoolss.c) ********************************************************************/ BOOL spoolss_io_q_endpageprinter(char *desc, SPOOL_Q_ENDPAGEPRINTER *q_u, prs_struct *ps, int depth) { if (q_u == NULL) return False; prs_debug(ps, depth, desc, "spoolss_io_q_endpageprinter"); depth++; prs_align(ps); smb_io_prt_hnd("printer handle",&(q_u->handle),ps,depth); return True; } /******************************************************************* * write a structure. * called from spoolss_r_endpageprinter (srv_spoolss.c) ********************************************************************/ BOOL spoolss_io_r_endpageprinter(char *desc, SPOOL_R_ENDPAGEPRINTER *r_u, prs_struct *ps, int depth) { prs_debug(ps, depth, desc, "spoolss_io_r_endpageprinter"); depth++; prs_uint32("status", ps, depth, &(r_u->status)); return True; } /******************************************************************* * read a structure. * called from spoolss_q_writeprinter (srv_spoolss.c) ********************************************************************/ BOOL spoolss_io_q_writeprinter(char *desc, SPOOL_Q_WRITEPRINTER *q_u, prs_struct *ps, int depth) { if (q_u == NULL) return False; prs_debug(ps, depth, desc, "spoolss_io_q_writeprinter"); depth++; prs_align(ps); smb_io_prt_hnd("printer handle",&(q_u->handle),ps,depth); prs_uint32("buffer_size", ps, depth, &(q_u->buffer_size)); if (q_u->buffer_size!=0) { q_u->buffer=(uint8 *)malloc(q_u->buffer_size*sizeof(uint8)); prs_uint8s(True, "buffer", ps, depth, q_u->buffer, q_u->buffer_size); } prs_align(ps); prs_uint32("buffer_size2", ps, depth, &(q_u->buffer_size2)); return True; } /******************************************************************* * write a structure. * called from spoolss_r_writeprinter (srv_spoolss.c) ********************************************************************/ BOOL spoolss_io_r_writeprinter(char *desc, SPOOL_R_WRITEPRINTER *r_u, prs_struct *ps, int depth) { prs_debug(ps, depth, desc, "spoolss_io_r_writeprinter"); depth++; prs_uint32("buffer_written", ps, depth, &(r_u->buffer_written)); prs_uint32("status", ps, depth, &(r_u->status)); return True; } /******************************************************************* * read a structure. * called from spoolss_q_rffpcnex (srv_spoolss.c) ********************************************************************/ BOOL spoolss_io_q_rffpcnex(char *desc, SPOOL_Q_RFFPCNEX *q_u, prs_struct *ps, int depth) { uint32 useless_ptr; prs_debug(ps, depth, desc, "spoolss_io_q_rffpcnex"); depth++; prs_align(ps); smb_io_prt_hnd("printer handle",&(q_u->handle),ps,depth); prs_uint32("flags", ps, depth, &(q_u->flags)); prs_uint32("options", ps, depth, &(q_u->options)); prs_uint32("useless ptr", ps, depth, &useless_ptr); /*prs_align(ps);*/ smb_io_unistr2("", &(q_u->localmachine), True, ps, depth); prs_align(ps); prs_uint32("printerlocal", ps, depth, &(q_u->printerlocal)); smb_io_notify_option("notify option", &(q_u->option), ps, depth); return True; } /******************************************************************* * write a structure. * called from spoolss_r_rffpcnex (srv_spoolss.c) ********************************************************************/ BOOL spoolss_io_r_rffpcnex(char *desc, SPOOL_R_RFFPCNEX *r_u, prs_struct *ps, int depth) { prs_debug(ps, depth, desc, "spoolss_io_r_rffpcnex"); depth++; prs_uint32("status", ps, depth, &(r_u->status)); return True; } /******************************************************************* * read a structure. * called from spoolss_q_rfnpcnex (srv_spoolss.c) ********************************************************************/ BOOL spoolss_io_q_rfnpcnex(char *desc, SPOOL_Q_RFNPCNEX *q_u, prs_struct *ps, int depth) { prs_debug(ps, depth, desc, "spoolss_io_q_rfnpcnex"); depth++; prs_align(ps); smb_io_prt_hnd("printer handle",&(q_u->handle),ps,depth); prs_uint32("change", ps, depth, &(q_u->change)); smb_io_notify_option("notify option",&(q_u->option),ps,depth); return True; } /******************************************************************* * write a structure. * called from spoolss_r_rfnpcnex (srv_spoolss.c) ********************************************************************/ BOOL spoolss_io_r_rfnpcnex(char *desc, SPOOL_R_RFNPCNEX *r_u, prs_struct *ps, int depth) { prs_debug(ps, depth, desc, "spoolss_io_r_rfnpcnex"); depth++; prs_align(ps); smb_io_notify_info("notify info",&(r_u->info),ps,depth); prs_align(ps); prs_uint32("status", ps, depth, &r_u->status); return True; } /******************************************************************* * return the length of a uint32 (obvious, but the code is clean) ********************************************************************/ static uint32 size_of_uint32(uint32 *value) { return (sizeof(*value)); return True; } /******************************************************************* * return the length of a UNICODE string in number of char, includes: * - the leading zero * - the relative pointer size ********************************************************************/ static uint32 size_of_relative_string(UNISTR *string) { uint32 size=0; size=str_len_uni(string); /* the string length */ size=size+1; /* add the leading zero */ size=size*2; /* convert in char */ size=size+4; /* add the size of the ptr */ return (size); return True; } /******************************************************************* * return the length of a uint32 (obvious, but the code is clean) ********************************************************************/ static uint32 size_of_device_mode(DEVICEMODE *devmode) { if (devmode==NULL) return (4); else return (0xDC+4); return True; } /******************************************************************* * return the length of a uint32 (obvious, but the code is clean) ********************************************************************/ static uint32 size_of_systemtime(SYSTEMTIME *systime) { if (systime==NULL) return (4); else return (sizeof(SYSTEMTIME) +4); return True; } /******************************************************************* * write a UNICODE string. * used by all the RPC structs passing a buffer ********************************************************************/ static BOOL spoolss_smb_io_unistr(char *desc, UNISTR *uni, prs_struct *ps, int depth) { if (uni == NULL) return False; prs_debug(ps, depth, desc, "spoolss_smb_io_unistr"); depth++; if (!prs_unistr("unistr", ps, depth, uni)) return False; return True; } /******************************************************************* * write a UNICODE string and its relative pointer. * used by all the RPC structs passing a buffer ********************************************************************/ static BOOL smb_io_relstr(char *desc, prs_struct *ps, int depth, UNISTR *buffer, uint32 *start_offset, uint32 *end_offset) { if (!ps->io) { uint32 struct_offset = prs_offset(ps); uint32 relative_offset; /* writing */ *end_offset -= 2*(str_len_uni(buffer)+1); prs_set_offset(ps, *end_offset); spoolss_smb_io_unistr(desc, buffer, ps, depth); prs_set_offset(ps,struct_offset); relative_offset=*end_offset-*start_offset; prs_uint32("offset", ps, depth, &(relative_offset)); } else { uint32 old_offset; uint32 relative_offset; prs_uint32("offset", ps, depth, &(relative_offset)); old_offset = prs_offset(ps); prs_set_offset(ps, (*start_offset) + relative_offset); spoolss_smb_io_unistr(desc, buffer, ps, depth); *end_offset = prs_offset(ps); prs_set_offset(ps, old_offset); } return True; } /******************************************************************* * write a UNICODE string and its relative pointer. * used by all the RPC structs passing a buffer * * As I'm a nice guy, I'm forcing myself to explain this code. * MS did a good job in the overall spoolss code except in some * functions where they are passing the API buffer directly in the * RPC request/reply. That's to maintain compatiility at the API level. * They could have done it the good way the first time. * * So what happen is: the strings are written at the buffer's end, * in the reverse order of the original structure. Some pointers to * the strings are also in the buffer. Those are relative to the * buffer's start. * * If you don't understand or want to change that function, * first get in touch with me: jfm@samba.org * ********************************************************************/ static BOOL new_smb_io_relstr(char *desc, NEW_BUFFER *buffer, int depth, UNISTR *string) { prs_struct *ps=&(buffer->prs); if (MARSHALLING(ps)) { uint32 struct_offset = prs_offset(ps); uint32 relative_offset; buffer->string_at_end -= 2*(str_len_uni(string)+1); prs_set_offset(ps, buffer->string_at_end); /* write the string */ if (!spoolss_smb_io_unistr(desc, string, ps, depth)) return False; prs_set_offset(ps, struct_offset); relative_offset=buffer->string_at_end-buffer->struct_start; /* write its offset */ if (!prs_uint32("offset", ps, depth, &relative_offset)) return False; } else { uint32 old_offset; /* read the offset */ if (!prs_uint32("offset", ps, depth, &(buffer->string_at_end))) return False; old_offset = prs_offset(ps); prs_set_offset(ps, buffer->string_at_end); /* read the string */ if (!spoolss_smb_io_unistr(desc, string, ps, depth)) return False; prs_set_offset(ps, old_offset); } return True; } /******************************************************************* * write a array UNICODE strings and its relative pointer. * used by 2 RPC structs ********************************************************************/ static BOOL smb_io_relarraystr(char *desc, prs_struct *ps, int depth, UNISTR ***buffer, uint32 *start_offset, uint32 *end_offset) { int i=0; uint32 struct_offset; uint32 relative_offset; struct_offset=prs_offset(ps); while ( (*buffer)[i]!=0x0000 ) { i++; } i--; /* that's for the ending NULL */ *end_offset-=2; do { *end_offset-= 2*(str_len_uni((*buffer)[i])+1); prs_set_offset(ps, *end_offset); spoolss_smb_io_unistr(desc, (*buffer)[i], ps, depth); i--; } while (i>=0); prs_set_offset(ps, struct_offset); relative_offset=*end_offset-*start_offset; prs_uint32("offset", ps, depth, &(relative_offset)); return True; } /******************************************************************* * write a DEVMODE struct and its relative pointer. * used by all the RPC structs passing a buffer ********************************************************************/ static BOOL smb_io_reldevmode(char *desc, prs_struct *ps, int depth, DEVICEMODE *devmode, uint32 *start_offset, uint32 *end_offset) { uint32 struct_offset; uint32 relative_offset; prs_debug(ps, depth, desc, "smb_io_reldevmode"); depth++; struct_offset=prs_offset(ps); *end_offset-= (devmode->size+devmode->driverextra); prs_set_offset(ps, *end_offset); spoolss_io_devmode(desc, ps, depth, devmode); prs_set_offset(ps, struct_offset); relative_offset=*end_offset-*start_offset; prs_uint32("offset", ps, depth, &(relative_offset)); return True; } /******************************************************************* ********************************************************************/ static BOOL smb_io_printer_info_0(char *desc, PRINTER_INFO_0 *info, prs_struct *ps, int depth, uint32 *start_offset, uint32 *end_offset) { prs_debug(ps, depth, desc, "smb_io_printer_info_0"); depth++; *start_offset=prs_offset(ps); smb_io_relstr("printername",ps, depth, &(info->printername), start_offset, end_offset); smb_io_relstr("servername",ps, depth, &(info->servername), start_offset, end_offset); prs_uint32("cjobs", ps, depth, &(info->cjobs)); prs_uint32("attributes", ps, depth, &(info->attributes)); prs_uint32("unknown0", ps, depth, &(info->unknown0)); prs_uint32("unknown1", ps, depth, &(info->unknown1)); prs_uint32("unknown2", ps, depth, &(info->unknown2)); prs_uint32("unknown3", ps, depth, &(info->unknown3)); prs_uint32("unknown4", ps, depth, &(info->unknown4)); prs_uint32("unknown5", ps, depth, &(info->unknown5)); prs_uint32("unknown6", ps, depth, &(info->unknown6)); prs_uint16("majorversion", ps, depth, &(info->majorversion)); prs_uint16("buildversion", ps, depth, &(info->buildversion)); prs_uint32("unknown7", ps, depth, &(info->unknown7)); prs_uint32("unknown8", ps, depth, &(info->unknown8)); prs_uint32("unknown9", ps, depth, &(info->unknown9)); prs_uint32("unknown10", ps, depth, &(info->unknown10)); prs_uint32("unknown11", ps, depth, &(info->unknown11)); prs_uint32("unknown12", ps, depth, &(info->unknown12)); prs_uint32("unknown13", ps, depth, &(info->unknown13)); prs_uint32("unknown14", ps, depth, &(info->unknown14)); prs_uint32("unknown15", ps, depth, &(info->unknown15)); prs_uint32("unknown16", ps, depth, &(info->unknown16)); prs_uint32("unknown17", ps, depth, &(info->unknown17)); prs_uint32("unknown18", ps, depth, &(info->unknown18)); prs_uint32("status" , ps, depth, &(info->status)); prs_uint32("unknown20", ps, depth, &(info->unknown20)); prs_uint32("unknown21", ps, depth, &(info->unknown21)); prs_uint16("unknown22", ps, depth, &(info->unknown22)); prs_uint32("unknown23", ps, depth, &(info->unknown23)); return True; } /******************************************************************* ********************************************************************/ static BOOL smb_io_printer_info_1(char *desc, PRINTER_INFO_1 *info, prs_struct *ps, int depth, uint32 *start_offset, uint32 *end_offset) { prs_debug(ps, depth, desc, "smb_io_printer_info_1"); depth++; *start_offset=prs_offset(ps); prs_uint32("flags", ps, depth, &(info->flags)); smb_io_relstr("description",ps, depth, &(info->description), start_offset, end_offset); smb_io_relstr("name",ps, depth, &(info->name), start_offset, end_offset); smb_io_relstr("comment",ps, depth, &(info->comment), start_offset, end_offset); return True; } /******************************************************************* ********************************************************************/ static BOOL smb_io_printer_info_2(char *desc, PRINTER_INFO_2 *info, prs_struct *ps, int depth, uint32 *start_offset, uint32 *end_offset) { uint32 pipo=0; uint32 devmode_offset; uint32 backup_offset; prs_debug(ps, depth, desc, "smb_io_printer_info_2"); depth++; *start_offset=prs_offset(ps); smb_io_relstr("servername", ps, depth, &(info->servername), start_offset, end_offset); smb_io_relstr("printername", ps, depth, &(info->printername), start_offset, end_offset); smb_io_relstr("sharename", ps, depth, &(info->sharename), start_offset, end_offset); smb_io_relstr("portname", ps, depth, &(info->portname), start_offset, end_offset); smb_io_relstr("drivername", ps, depth, &(info->drivername), start_offset, end_offset); smb_io_relstr("comment", ps, depth, &(info->comment), start_offset, end_offset); smb_io_relstr("location", ps, depth, &(info->location), start_offset, end_offset); devmode_offset=prs_offset(ps); prs_set_offset(ps, prs_offset(ps)+4); smb_io_relstr("sepfile", ps, depth, &(info->sepfile), start_offset, end_offset); smb_io_relstr("printprocessor",ps, depth, &(info->printprocessor), start_offset, end_offset); smb_io_relstr("datatype", ps, depth, &(info->datatype), start_offset, end_offset); smb_io_relstr("parameters", ps, depth, &(info->parameters), start_offset, end_offset); prs_uint32("security descriptor", ps, depth, &(pipo)); prs_uint32("attributes", ps, depth, &(info->attributes)); prs_uint32("priority", ps, depth, &(info->priority)); prs_uint32("defpriority", ps, depth, &(info->defaultpriority)); prs_uint32("starttime", ps, depth, &(info->starttime)); prs_uint32("untiltime", ps, depth, &(info->untiltime)); prs_uint32("status", ps, depth, &(info->status)); prs_uint32("jobs", ps, depth, &(info->cjobs)); prs_uint32("averageppm", ps, depth, &(info->averageppm)); /* I'm not sure if putting the devmode at the end the struct is worth it but NT does it */ backup_offset=prs_offset(ps); prs_set_offset(ps, devmode_offset); smb_io_reldevmode("devmode", ps, depth, info->devmode, start_offset, end_offset); prs_set_offset(ps, backup_offset); return True; } /******************************************************************* ********************************************************************/ static BOOL smb_io_printer_driver_info_1(char *desc, DRIVER_INFO_1 *info, prs_struct *ps, int depth, uint32 *start_offset, uint32 *end_offset) { prs_debug(ps, depth, desc, "smb_io_printer_driver_info_1"); depth++; *start_offset=prs_offset(ps); smb_io_relstr("name", ps, depth, &(info->name), start_offset, end_offset); return True; } /******************************************************************* ********************************************************************/ static BOOL smb_io_printer_driver_info_2(char *desc, DRIVER_INFO_2 *info,prs_struct *ps, int depth, uint32 *start_offset, uint32 *end_offset) { prs_debug(ps, depth, desc, "smb_io_printer_xxx"); depth++; *start_offset=prs_offset(ps); prs_uint32("version", ps, depth, &(info->version)); smb_io_relstr("name", ps, depth, &(info->name), start_offset, end_offset); smb_io_relstr("architecture", ps, depth, &(info->architecture), start_offset, end_offset); smb_io_relstr("driverpath", ps, depth, &(info->driverpath), start_offset, end_offset); smb_io_relstr("datafile", ps, depth, &(info->datafile), start_offset, end_offset); smb_io_relstr("configfile", ps, depth, &(info->configfile), start_offset, end_offset); return True; } /******************************************************************* ********************************************************************/ static BOOL smb_io_printer_driver_info_3(char *desc, DRIVER_INFO_3 *info,prs_struct *ps, int depth, uint32 *start_offset, uint32 *end_offset) { prs_debug(ps, depth, desc, "smb_io_printer_driver_info_3"); depth++; *start_offset=prs_offset(ps); prs_uint32("version", ps, depth, &(info->version)); smb_io_relstr("name", ps, depth, &(info->name), start_offset, end_offset); smb_io_relstr("architecture", ps, depth, &(info->architecture), start_offset, end_offset); smb_io_relstr("driverpath", ps, depth, &(info->driverpath), start_offset, end_offset); smb_io_relstr("datafile", ps, depth, &(info->datafile), start_offset, end_offset); smb_io_relstr("configfile", ps, depth, &(info->configfile), start_offset, end_offset); smb_io_relstr("helpfile", ps, depth, &(info->helpfile), start_offset, end_offset); smb_io_relarraystr("dependentfiles", ps, depth, &(info->dependentfiles), start_offset, end_offset); smb_io_relstr("monitorname", ps, depth, &(info->monitorname), start_offset, end_offset); smb_io_relstr("defaultdatatype", ps, depth, &(info->defaultdatatype), start_offset, end_offset); return True; } /******************************************************************* ********************************************************************/ static BOOL smb_io_job_info_1(char *desc, JOB_INFO_1 *info, prs_struct *ps, int depth, uint32 *start_offset, uint32 *end_offset) { prs_debug(ps, depth, desc, "smb_io_job_info_1"); depth++; *start_offset=prs_offset(ps); prs_uint32("jobid", ps, depth, &(info->jobid)); smb_io_relstr("printername", ps, depth, &(info->printername), start_offset, end_offset); smb_io_relstr("machinename", ps, depth, &(info->machinename), start_offset, end_offset); smb_io_relstr("username", ps, depth, &(info->username), start_offset, end_offset); smb_io_relstr("document", ps, depth, &(info->document), start_offset, end_offset); smb_io_relstr("datatype", ps, depth, &(info->datatype), start_offset, end_offset); smb_io_relstr("text_status", ps, depth, &(info->text_status), start_offset, end_offset); prs_uint32("status", ps, depth, &(info->status)); prs_uint32("priority", ps, depth, &(info->priority)); prs_uint32("position", ps, depth, &(info->position)); prs_uint32("totalpages", ps, depth, &(info->totalpages)); prs_uint32("pagesprinted", ps, depth, &(info->pagesprinted)); spoolss_io_system_time("submitted", ps, depth, &(info->submitted) ); return True; } /******************************************************************* ********************************************************************/ static BOOL smb_io_job_info_2(char *desc, JOB_INFO_2 *info, prs_struct *ps, int depth, uint32 *start_offset, uint32 *end_offset) { int pipo=0; prs_debug(ps, depth, desc, "smb_io_job_info_2"); depth++; *start_offset=prs_offset(ps); prs_uint32("jobid", ps, depth, &(info->jobid)); smb_io_relstr("printername", ps, depth, &(info->printername), start_offset, end_offset); smb_io_relstr("machinename", ps, depth, &(info->machinename), start_offset, end_offset); smb_io_relstr("username", ps, depth, &(info->username), start_offset, end_offset); smb_io_relstr("document", ps, depth, &(info->document), start_offset, end_offset); smb_io_relstr("notifyname", ps, depth, &(info->notifyname), start_offset, end_offset); smb_io_relstr("datatype", ps, depth, &(info->datatype), start_offset, end_offset); smb_io_relstr("printprocessor", ps, depth, &(info->printprocessor), start_offset, end_offset); smb_io_relstr("parameters", ps, depth, &(info->parameters), start_offset, end_offset); smb_io_relstr("drivername", ps, depth, &(info->drivername), start_offset, end_offset); smb_io_reldevmode("devmode", ps, depth, info->devmode, start_offset, end_offset); smb_io_relstr("text_status", ps, depth, &(info->text_status), start_offset, end_offset); /* SEC_DESC sec_desc;*/ prs_uint32("Hack! sec desc", ps, depth, &pipo); prs_uint32("status", ps, depth, &(info->status)); prs_uint32("priority", ps, depth, &(info->priority)); prs_uint32("position", ps, depth, &(info->position)); prs_uint32("starttime", ps, depth, &(info->starttime)); prs_uint32("untiltime", ps, depth, &(info->untiltime)); prs_uint32("totalpages", ps, depth, &(info->totalpages)); prs_uint32("size", ps, depth, &(info->size)); spoolss_io_system_time("submitted", ps, depth, &(info->submitted) ); prs_uint32("timeelapsed", ps, depth, &(info->timeelapsed)); prs_uint32("pagesprinted", ps, depth, &(info->pagesprinted)); return True; } /******************************************************************* ********************************************************************/ BOOL new_smb_io_form_1(char *desc, NEW_BUFFER *buffer, FORM_1 *info, int depth) { prs_struct *ps=&(buffer->prs); prs_debug(ps, depth, desc, "new_smb_io_form_1"); depth++; buffer->struct_start=prs_offset(ps); if (!prs_uint32("flag", ps, depth, &(info->flag))) return False; if (!new_smb_io_relstr("name", buffer, depth, &(info->name))) return False; if (!prs_uint32("width", ps, depth, &(info->width))) return False; if (!prs_uint32("length", ps, depth, &(info->length))) return False; if (!prs_uint32("left", ps, depth, &(info->left))) return False; if (!prs_uint32("top", ps, depth, &(info->top))) return False; if (!prs_uint32("right", ps, depth, &(info->right))) return False; if (!prs_uint32("bottom", ps, depth, &(info->bottom))) return False; return True; } /******************************************************************* Read/write a BUFFER struct. ********************************************************************/ static BOOL new_spoolss_io_buffer(char *desc, prs_struct *ps, int depth, NEW_BUFFER *buffer) { if (buffer == NULL) return False; prs_debug(ps, depth, desc, "new_spoolss_io_buffer"); depth++; if (!prs_uint32("ptr", ps, depth, &(buffer->ptr))) return False; /* reading */ if (UNMARSHALLING(ps)) { buffer->size=0; buffer->string_at_end=0; if (buffer->ptr==0) { if (!prs_init(&(buffer->prs), 0, 4, UNMARSHALL)) return False; return True; } if (!prs_uint32("size", ps, depth, &(buffer->size))) return False; if (!prs_init(&(buffer->prs), buffer->size, 4, UNMARSHALL)) return False; if (!prs_append_some_prs_data(&(buffer->prs), ps, buffer->size)) return False; prs_set_offset(&(buffer->prs),0); prs_set_offset(ps, buffer->size+prs_offset(ps)); buffer->string_at_end=buffer->size; return True; } else { /* writing */ if (buffer->ptr==0) return True; if (!prs_uint32("size", ps, depth, &(buffer->size))) return False; if (!prs_append_some_prs_data(ps, &(buffer->prs), buffer->size)) return False; } return True; } /******************************************************************* move a BUFFER from the query to the reply. ********************************************************************/ void new_spoolss_move_buffer(NEW_BUFFER *src, NEW_BUFFER **dest) { prs_switch_type(&(src->prs), MARSHALL); prs_set_offset(&(src->prs), 0); prs_force_dynamic(&(src->prs)); *dest=src; } /******************************************************************* create a BUFFER struct. ********************************************************************/ void new_spoolss_allocate_buffer(NEW_BUFFER **buffer) { if (buffer==NULL) return; *buffer=(NEW_BUFFER *)malloc(sizeof(NEW_BUFFER)); (*buffer)->ptr=0x0; (*buffer)->size=0; (*buffer)->string_at_end=0; } /******************************************************************* Destroy a BUFFER struct. ********************************************************************/ void new_spoolss_free_buffer(NEW_BUFFER *buffer) { if (buffer==NULL) return; prs_mem_free(&(buffer->prs)); buffer->ptr=0x0; buffer->size=0; buffer->string_at_end=0; free(buffer); } /******************************************************************* Get the size of a BUFFER struct. ********************************************************************/ uint32 new_get_buffer_size(NEW_BUFFER *buffer) { return (buffer->size); } /******************************************************************* ********************************************************************/ static BOOL smb_io_form_1(char *desc, FORM_1 *info, prs_struct *ps, int depth, uint32 *start_offset, uint32 *end_offset) { prs_debug(ps, depth, desc, "smb_io_form_1"); depth++; *start_offset=prs_offset(ps); prs_uint32("flag", ps, depth, &(info->flag)); smb_io_relstr("name",ps, depth, &(info->name), start_offset, end_offset); prs_uint32("width", ps, depth, &(info->width)); prs_uint32("length", ps, depth, &(info->length)); prs_uint32("left", ps, depth, &(info->left)); prs_uint32("top", ps, depth, &(info->top)); prs_uint32("right", ps, depth, &(info->right)); prs_uint32("bottom", ps, depth, &(info->bottom)); return True; } /******************************************************************* ********************************************************************/ static BOOL smb_io_port_2(char *desc, PORT_INFO_2 *info, prs_struct *ps, int depth, uint32 *start_offset, uint32 *end_offset) { prs_debug(ps, depth, desc, "smb_io_port_2"); depth++; *start_offset=prs_offset(ps); smb_io_relstr("port_name",ps, depth, &(info->port_name), start_offset, end_offset); smb_io_relstr("monitor_name",ps, depth, &(info->monitor_name), start_offset, end_offset); smb_io_relstr("description",ps, depth, &(info->description), start_offset, end_offset); prs_uint32("port_type", ps, depth, &(info->port_type)); prs_uint32("reserved", ps, depth, &(info->reserved)); return True; } /******************************************************************* ********************************************************************/ static BOOL smb_io_processor_info_1(char *desc, PRINTPROCESSOR_1 *info, prs_struct *ps, int depth, uint32 *start_offset, uint32 *end_offset) { prs_debug(ps, depth, desc, "smb_io_processor_info_1"); depth++; *start_offset=prs_offset(ps); smb_io_relstr("name",ps, depth, &(info->name), start_offset, end_offset); return True; } /******************************************************************* ********************************************************************/ static BOOL smb_io_monitor_info_1(char *desc, PRINTMONITOR_1 *info, prs_struct *ps, int depth, uint32 *start_offset, uint32 *end_offset) { prs_debug(ps, depth, desc, "smb_io_monitor_info_1"); depth++; *start_offset=prs_offset(ps); smb_io_relstr("name",ps, depth, &(info->name), start_offset, end_offset); return True; } /******************************************************************* return the size required by a struct in the stream ********************************************************************/ static uint32 spoolss_size_printer_info_0(PRINTER_INFO_0 *info) { int size=0; size+=size_of_uint32( &(info->attributes) ); size+=size_of_relative_string( &(info->printername) ); size+=size_of_relative_string( &(info->servername) ); return (size); return True; } /******************************************************************* return the size required by a struct in the stream ********************************************************************/ static uint32 spoolss_size_printer_info_1(PRINTER_INFO_1 *info) { int size=0; size+=size_of_uint32( &(info->flags) ); size+=size_of_relative_string( &(info->description) ); size+=size_of_relative_string( &(info->name) ); size+=size_of_relative_string( &(info->comment) ); return (size); return True; } /******************************************************************* return the size required by a struct in the stream ********************************************************************/ static uint32 spoolss_size_printer_info_2(PRINTER_INFO_2 *info) { int size=0; size+=4; /* the security descriptor */ size+=info->devmode->size+4; /* size of the devmode and the ptr */ size+=info->devmode->driverextra; /* if a devmode->private section exists, add its size */ size+=size_of_relative_string( &(info->servername) ); size+=size_of_relative_string( &(info->printername) ); size+=size_of_relative_string( &(info->sharename) ); size+=size_of_relative_string( &(info->portname) ); size+=size_of_relative_string( &(info->drivername) ); size+=size_of_relative_string( &(info->comment) ); size+=size_of_relative_string( &(info->location) ); size+=size_of_relative_string( &(info->sepfile) ); size+=size_of_relative_string( &(info->printprocessor) ); size+=size_of_relative_string( &(info->datatype) ); size+=size_of_relative_string( &(info->parameters) ); size+=size_of_uint32( &(info->attributes) ); size+=size_of_uint32( &(info->priority) ); size+=size_of_uint32( &(info->defaultpriority) ); size+=size_of_uint32( &(info->starttime) ); size+=size_of_uint32( &(info->untiltime) ); size+=size_of_uint32( &(info->status) ); size+=size_of_uint32( &(info->cjobs) ); size+=size_of_uint32( &(info->averageppm) ); return (size); return True; } /******************************************************************* return the size required by a struct in the stream ********************************************************************/ static uint32 spoolss_size_printer_driver_info_1(DRIVER_INFO_1 *info) { int size=0; DEBUG(9,("Sizing driver info_1\n")); size+=size_of_relative_string( &(info->name) ); DEBUGADD(9,("size: [%d]\n", size)); return (size); return True; } /******************************************************************* return the size required by a struct in the stream ********************************************************************/ static uint32 spoolss_size_printer_driver_info_2(DRIVER_INFO_2 *info) { int size=0; DEBUG(9,("Sizing driver info_2\n")); size+=size_of_uint32( &(info->version) ); size+=size_of_relative_string( &(info->name) ); size+=size_of_relative_string( &(info->architecture) ); size+=size_of_relative_string( &(info->driverpath) ); size+=size_of_relative_string( &(info->datafile) ); size+=size_of_relative_string( &(info->configfile) ); DEBUGADD(9,("size: [%d]\n", size)); return (size); return True; } /******************************************************************* return the size required by a struct in the stream ********************************************************************/ static uint32 spoolss_size_printer_driver_info_3(DRIVER_INFO_3 *info) { int size=0; UNISTR **string; int i=0; DEBUG(9,("Sizing driver info_3\n")); size+=size_of_uint32( &(info->version) ); size+=size_of_relative_string( &(info->name) ); size+=size_of_relative_string( &(info->architecture) ); size+=size_of_relative_string( &(info->driverpath) ); size+=size_of_relative_string( &(info->datafile) ); size+=size_of_relative_string( &(info->configfile) ); size+=size_of_relative_string( &(info->helpfile) ); size+=size_of_relative_string( &(info->monitorname) ); size+=size_of_relative_string( &(info->defaultdatatype) ); string=info->dependentfiles; while ( (string)[i]!=0x0000 ) { size+=2*(1+ str_len_uni( string[i] ) ); i++; } size+=6; DEBUGADD(9,("size: [%d]\n", size)); return (size); return True; } /******************************************************************* return the size required by a struct in the stream ********************************************************************/ static uint32 spoolss_size_job_info_1(JOB_INFO_1 *info) { int size=0; size+=size_of_uint32( &(info->jobid) ); size+=size_of_relative_string( &(info->printername) ); size+=size_of_relative_string( &(info->machinename) ); size+=size_of_relative_string( &(info->username) ); size+=size_of_relative_string( &(info->document) ); size+=size_of_relative_string( &(info->datatype) ); size+=size_of_relative_string( &(info->text_status) ); size+=size_of_uint32( &(info->status) ); size+=size_of_uint32( &(info->priority) ); size+=size_of_uint32( &(info->position) ); size+=size_of_uint32( &(info->totalpages) ); size+=size_of_uint32( &(info->pagesprinted) ); size+=size_of_systemtime( &(info->submitted) ); return (size); return True; } /******************************************************************* return the size required by a struct in the stream ********************************************************************/ static uint32 spoolss_size_job_info_2(JOB_INFO_2 *info) { int size=0; size+=4; /* size of sec desc ptr */ size+=size_of_uint32( &(info->jobid) ); size+=size_of_relative_string( &(info->printername) ); size+=size_of_relative_string( &(info->machinename) ); size+=size_of_relative_string( &(info->username) ); size+=size_of_relative_string( &(info->document) ); size+=size_of_relative_string( &(info->notifyname) ); size+=size_of_relative_string( &(info->datatype) ); size+=size_of_relative_string( &(info->printprocessor) ); size+=size_of_relative_string( &(info->parameters) ); size+=size_of_relative_string( &(info->drivername) ); size+=size_of_device_mode( info->devmode ); size+=size_of_relative_string( &(info->text_status) ); /* SEC_DESC sec_desc;*/ size+=size_of_uint32( &(info->status) ); size+=size_of_uint32( &(info->priority) ); size+=size_of_uint32( &(info->position) ); size+=size_of_uint32( &(info->starttime) ); size+=size_of_uint32( &(info->untiltime) ); size+=size_of_uint32( &(info->totalpages) ); size+=size_of_uint32( &(info->size) ); size+=size_of_systemtime( &(info->submitted) ); size+=size_of_uint32( &(info->timeelapsed) ); size+=size_of_uint32( &(info->pagesprinted) ); return (size); return True; } /******************************************************************* return the size required by a struct in the stream ********************************************************************/ uint32 spoolss_size_form_1(FORM_1 *info) { int size=0; size+=size_of_uint32( &(info->flag) ); size+=size_of_relative_string( &(info->name) ); size+=size_of_uint32( &(info->width) ); size+=size_of_uint32( &(info->length) ); size+=size_of_uint32( &(info->left) ); size+=size_of_uint32( &(info->top) ); size+=size_of_uint32( &(info->right) ); size+=size_of_uint32( &(info->bottom) ); return (size); return True; } /******************************************************************* return the size required by a struct in the stream ********************************************************************/ static uint32 spoolss_size_port_info_2(PORT_INFO_2 *info) { int size=0; size+=size_of_relative_string( &(info->port_name) ); size+=size_of_relative_string( &(info->monitor_name) ); size+=size_of_relative_string( &(info->description) ); size+=size_of_uint32( &(info->port_type) ); size+=size_of_uint32( &(info->reserved) ); return (size); return True; } /******************************************************************* return the size required by a struct in the stream ********************************************************************/ static uint32 spoolss_size_processor_info_1(PRINTPROCESSOR_1 *info) { int size=0; size+=size_of_relative_string( &(info->name) ); return (size); return True; } /******************************************************************* return the size required by a struct in the stream ********************************************************************/ static uint32 spoolss_size_monitor_info_1(PRINTMONITOR_1 *info) { int size=0; size+=size_of_relative_string( &(info->name) ); return (size); return True; } /******************************************************************* * make a structure. ********************************************************************/ static BOOL make_spoolss_buffer(BUFFER* buffer, uint32 size) { buffer->ptr = (size != 0) ? 1 : 0; buffer->size = size; buffer->data = (uint8 *)Realloc( NULL, (buffer->size) * sizeof(uint8) ); return (buffer->data != NULL || size == 0); } /******************************************************************* * read a uint8 buffer of size *size. * allocate memory for it * return a pointer to the allocated memory and the size * return NULL and a size of 0 if the buffer is empty * * jfmxxxx: fix it to also write a buffer ********************************************************************/ static BOOL spoolss_io_read_buffer(char *desc, prs_struct *ps, int depth, BUFFER *buffer) { prs_debug(ps, depth, desc, "spoolss_io_read_buffer"); depth++; prs_align(ps); prs_uint32("pointer", ps, depth, &(buffer->ptr)); if (buffer->ptr != 0x0000) { prs_uint32("size", ps, depth, &(buffer->size)); if (ps->io) { /* reading */ buffer->data=(uint8 *)Realloc(NULL, buffer->size * sizeof(uint8) ); } if (buffer->data == NULL) { return False; } prs_uint8s(True, "buffer", ps, depth, buffer->data, buffer->size); prs_align(ps); } else { if (ps->io) { /* reading */ buffer->data=0x0000; buffer->size=0x0000; } } if (!ps->io) { /* writing */ if (buffer->data != NULL) { free(buffer->data); } buffer->data = NULL; } return True; } /******************************************************************* * read a uint8 buffer of size *size. * allocate memory for it * return a pointer to the allocated memory and the size * return NULL and a size of 0 if the buffer is empty * * jfmxxxx: fix it to also write a buffer ********************************************************************/ BOOL spoolss_io_free_buffer(BUFFER *buffer) { DEBUG(8,("spoolss_io_free_buffer\n")); if (buffer->ptr != 0x0000) { free(buffer->data); } return True; } /******************************************************************* * read a structure. * called from spoolss_getprinterdriver2 (srv_spoolss.c) ********************************************************************/ BOOL spoolss_io_q_getprinterdriver2(char *desc, SPOOL_Q_GETPRINTERDRIVER2 *q_u, prs_struct *ps, int depth) { uint32 useless_ptr; prs_debug(ps, depth, desc, "spoolss_io_q_getprinterdriver2"); depth++; prs_align(ps); smb_io_prt_hnd("printer handle",&(q_u->handle),ps,depth); prs_uint32("pointer", ps, depth, &useless_ptr); smb_io_unistr2("architecture", &(q_u->architecture),True,ps,depth); prs_align(ps); prs_uint32("level", ps, depth, &(q_u->level)); spoolss_io_read_buffer("", ps, depth, &(q_u->buffer)); prs_align(ps); prs_uint32("buffer size", ps, depth, &(q_u->buf_size)); DEBUG(0,("spoolss_io_q_getprinterdriver2: renamed status - unknown\n")); prs_uint32("unknown", ps, depth, &(q_u->unknown)); return True; } /******************************************************************* * read a structure. * called from spoolss_getprinterdriver2 (srv_spoolss.c) ********************************************************************/ BOOL spoolss_io_r_getprinterdriver2(char *desc, SPOOL_R_GETPRINTERDRIVER2 *r_u, prs_struct *ps, int depth) { uint32 useless_ptr=0xADDE0FF0; uint32 start_offset, end_offset, beginning; uint32 bufsize_required=0; uint32 pipo=0; DRIVER_INFO_1 *info1; DRIVER_INFO_2 *info2; DRIVER_INFO_3 *info3; prs_debug(ps, depth, desc, "spoolss_io_r_getprinterdriver2"); depth++; prs_align(ps); prs_uint32("pointer", ps, depth, &useless_ptr); info1 = r_u->ctr.driver.info1; info2 = r_u->ctr.driver.info2; info3 = r_u->ctr.driver.info3; switch (r_u->level) { case 1: { bufsize_required += spoolss_size_printer_driver_info_1(info1); break; } case 2: { bufsize_required += spoolss_size_printer_driver_info_2(info2); break; } case 3: { bufsize_required += spoolss_size_printer_driver_info_3(info3); break; } } if (ps->io) { /* reading */ r_u->offered = bufsize_required; } DEBUG(4,("spoolss_io_r_getprinterdriver2, size needed: %d\n",bufsize_required)); DEBUG(4,("spoolss_io_r_getprinterdriver2, size offered: %d\n",r_u->offered)); /* check if the buffer is big enough for the datas */ if (r_u->offered < bufsize_required) { /* it's too small */ r_u->status=ERROR_INSUFFICIENT_BUFFER; /* say so */ r_u->offered=0; /* don't send back the buffer */ DEBUG(4,("spoolss_io_r_getprinterdriver2, buffer too small\n")); prs_uint32("size of buffer", ps, depth, &(r_u->offered)); } else { DEBUG(4,("spoolss_io_r_getprinterdriver2, buffer large enough\n")); prs_uint32("size of buffer", ps, depth, &(r_u->offered)); beginning=prs_offset(ps); start_offset=prs_offset(ps); end_offset=start_offset+r_u->offered; switch (r_u->level) { case 1: { smb_io_printer_driver_info_1(desc, info1, ps, depth, &start_offset, &end_offset); break; } case 2: { smb_io_printer_driver_info_2(desc, info2, ps, depth, &start_offset, &end_offset); break; } case 3: { smb_io_printer_driver_info_3(desc, info3, ps, depth, &start_offset, &end_offset); break; } } prs_set_offset(ps, beginning+r_u->offered); prs_align(ps); } if (!ps->io) { /* writing */ switch (r_u->level) { case 1: { safe_free(info1); break; } case 2: { safe_free(info2); break; } case 3: { if (info3!=NULL) { UNISTR **dependentfiles; int j=0; dependentfiles=info3->dependentfiles; while ( dependentfiles[j] != NULL ) { free(dependentfiles[j]); j++; } free(dependentfiles); free(info3); } break; } } } /* * if the buffer was too small, send the minimum required size * if it was too large, send the real needed size */ prs_uint32("size of buffer needed", ps, depth, &(bufsize_required)); prs_uint32("pipo", ps, depth, &pipo); prs_uint32("pipo", ps, depth, &pipo); prs_uint32("status", ps, depth, &(r_u->status)); return True; } /******************************************************************* * make a structure. ********************************************************************/ BOOL make_spoolss_q_enumprinters(SPOOL_Q_ENUMPRINTERS *q_u, uint32 flags, const char* servername, uint32 level, uint32 size) { size_t len_name = servername != NULL ? strlen(servername) : 0; DEBUG(5,("make_spoolss_q_enumprinters. size: %d\n", size)); q_u->flags = flags; init_unistr2(&q_u->servername, servername, len_name); q_u->level = level; make_spoolss_buffer(&q_u->buffer, size); q_u->buf_size = size; return True; } /******************************************************************* * read a structure. * called from spoolss_enumprinters (srv_spoolss.c) ********************************************************************/ BOOL spoolss_io_q_enumprinters(char *desc, SPOOL_Q_ENUMPRINTERS *q_u, prs_struct *ps, int depth) { uint32 useless_ptr = 0x01; prs_debug(ps, depth, desc, "spoolss_io_q_enumprinters"); depth++; prs_align(ps); prs_uint32("flags", ps, depth, &(q_u->flags)); prs_uint32("useless ptr", ps, depth, &useless_ptr); smb_io_unistr2("", &q_u->servername,True,ps,depth); prs_align(ps); prs_uint32("level", ps, depth, &(q_u->level)); spoolss_io_read_buffer("buffer", ps, depth, &(q_u->buffer)); prs_uint32("buf_size", ps, depth, &q_u->buf_size); return True; } /**************************************************************************** ****************************************************************************/ void free_r_enumprinters(SPOOL_R_ENUMPRINTERS *r_u) { DEBUG(4,("free_enum_printers_info: [%d] structs to free at level [%d]\n", r_u->returned, r_u->level)); switch (r_u->level) { case 1: { free_print1_array(r_u->returned, r_u->ctr.printer.printers_1); break; } case 2: { free_print2_array(r_u->returned, r_u->ctr.printer.printers_2); break; } } } /******************************************************************* * write a structure. * called from spoolss_r_enum_printers (srv_spoolss.c) * ********************************************************************/ BOOL spoolss_io_r_enumprinters(char *desc, SPOOL_R_ENUMPRINTERS *r_u, prs_struct *ps, int depth) { uint32 useless_ptr=0xADDE0FF0; int i; uint32 start_offset, end_offset, beginning; uint32 bufsize_required=0; uint32 tmp_ct = 0; PRINTER_INFO_1 *info1; PRINTER_INFO_2 *info2; fstring tmp; slprintf(tmp, sizeof(tmp)-1, "spoolss_io_r_enumprinters %d", r_u->level); prs_debug(ps, depth, desc, tmp); depth++; prs_align(ps); prs_uint32("pointer", ps, depth, &useless_ptr); if (!ps->io) { /* writing */ for(i=0;ireturned;i++) { switch (r_u->level) { case 1: info1 = r_u->ctr.printer.printers_1[i]; bufsize_required += spoolss_size_printer_info_1(info1); break; case 2: info2 = r_u->ctr.printer.printers_2[i]; bufsize_required += spoolss_size_printer_info_2(info2); break; } } DEBUG(4,("spoolss_io_r_enumprinters, size needed: %d\n",bufsize_required)); DEBUG(4,("spoolss_io_r_enumprinters, size offered: %d\n",r_u->offered)); if (r_u->offeredstatus=ERROR_INSUFFICIENT_BUFFER; r_u->offered=0; /*r_u->returned=0;*/ DEBUG(4,("spoolss_io_r_enumprinters, buffer too small\n")); prs_uint32("size of buffer", ps, depth, &(r_u->offered)); prs_uint32("size of buffer needed", ps, depth, &(bufsize_required)); prs_uint32("count", ps, depth, &(r_u->returned)); prs_uint32("status", ps, depth, &(r_u->status)); return False; } DEBUG(4,("spoolss_io_r_enumprinters, buffer large enough\n")); } prs_uint32("size of buffer", ps, depth, &(r_u->offered)); /* have to skip to end of buffer when reading, and have to record * size of buffer when writing. *shudder*. */ beginning = prs_offset(ps); start_offset = prs_offset(ps); end_offset = start_offset + r_u->offered; if (ps->io) { /* reading */ prs_set_offset(ps, beginning + r_u->offered); prs_align(ps); prs_uint32("buffer size", ps, depth, &(bufsize_required)); prs_uint32("count", ps, depth, &(r_u->returned)); prs_set_offset(ps, beginning); } for(i=0;ireturned;i++) { switch (r_u->level) { case 1: { if (ps->io) { /* reading */ /* r_u->ctr.printer.printers_1[i] = add_print1_to_array(&tmp_ct, &r_u->ctr.printer.printers_1, NULL);*/ } info1 = r_u->ctr.printer.printers_1[i]; if (info1 == NULL) { return False; } smb_io_printer_info_1(desc, info1, ps, depth, &start_offset, &end_offset); break; } case 2: { if (ps->io) { /* reading */ /* r_u->ctr.printer.printers_2[i] = add_print2_to_array(&tmp_ct, &r_u->ctr.printer.printers_2, NULL); */ } info2 = r_u->ctr.printer.printers_2[i]; if (info2 == NULL) { return False; } smb_io_printer_info_2(desc, info2, ps, depth, &start_offset, &end_offset); break; } } } prs_set_offset(ps, beginning + r_u->offered); prs_align(ps); prs_uint32("buffer size", ps, depth, &(bufsize_required)); prs_uint32("count", ps, depth, &(r_u->returned)); prs_uint32("status", ps, depth, &(r_u->status)); if (!ps->io) { /* writing */ free_r_enumprinters(r_u); } return True; } /******************************************************************* * write a structure. * called from spoolss_r_enum_printers (srv_spoolss.c) * ********************************************************************/ BOOL spoolss_io_r_getprinter(char *desc, SPOOL_R_GETPRINTER *r_u, prs_struct *ps, int depth) { uint32 useless_ptr=0xADDE0FF0; uint32 start_offset, end_offset, beginning; uint32 bufsize_required=0; prs_debug(ps, depth, desc, "spoolss_io_r_getprinter"); depth++; prs_align(ps); prs_uint32("pointer", ps, depth, &useless_ptr); switch (r_u->level) { case 0: { PRINTER_INFO_0 *info; info = r_u->ctr.printer.info0; bufsize_required += spoolss_size_printer_info_0(info); break; } case 1: { PRINTER_INFO_1 *info; info = r_u->ctr.printer.info1; bufsize_required += spoolss_size_printer_info_1(info); break; } case 2: { PRINTER_INFO_2 *info; info = r_u->ctr.printer.info2; bufsize_required += spoolss_size_printer_info_2(info); break; } } DEBUG(4,("spoolss_io_r_getprinter, size needed: %d\n",bufsize_required)); DEBUG(4,("spoolss_io_r_getprinter, size offered: %d\n",r_u->offered)); /* check if the buffer is big enough for the datas */ if (r_u->offered < bufsize_required) { /* it's too small */ r_u->status = ERROR_INSUFFICIENT_BUFFER; /* say so */ r_u->offered = 0; /* don't send back the buffer */ DEBUG(4,("spoolss_io_r_getprinter, buffer too small\n")); prs_uint32("size of buffer", ps, depth, &(r_u->offered)); } else { DEBUG(4,("spoolss_io_r_getprinter, buffer large enough\n")); prs_uint32("size of buffer", ps, depth, &(r_u->offered)); } if (ps->io) { /* reading */ r_u->ctr.printer.info = Realloc(NULL, r_u->offered); } if (bufsize_required <= r_u->offered) { beginning=prs_offset(ps); start_offset=prs_offset(ps); end_offset=start_offset+r_u->offered; switch (r_u->level) { case 0: { PRINTER_INFO_0 *info; info = r_u->ctr.printer.info0; smb_io_printer_info_0(desc, info, ps, depth, &start_offset, &end_offset); if (!ps->io) { /* writing */ free(info); } break; } case 1: { PRINTER_INFO_1 *info; info = r_u->ctr.printer.info1; smb_io_printer_info_1(desc, info, ps, depth, &start_offset, &end_offset); if (!ps->io) { /* writing */ free(info); } break; } case 2: { PRINTER_INFO_2 *info; info = r_u->ctr.printer.info2; smb_io_printer_info_2(desc, info, ps, depth, &start_offset, &end_offset); if (!ps->io) { /* writing */ free_printer_info_2(info); } break; } } prs_set_offset(ps, beginning+r_u->offered); prs_align(ps); } /* * if the buffer was too small, send the minimum required size * if it was too large, send the real needed size */ prs_uint32("size of buffer needed", ps, depth, &(bufsize_required)); prs_uint32("status", ps, depth, &(r_u->status)); return True; } /******************************************************************* * read a uint8 buffer of size *size. * allocate memory for it * return a pointer to the allocated memory and the size * return NULL and a size of 0 if the buffer is empty * * jfmxxxx: fix it to also write a buffer ********************************************************************/ static BOOL spoolss_io_read_buffer8(char *desc, prs_struct *ps, uint8 **buffer, uint32 *size,int depth) { prs_debug(ps, depth, desc, "spoolss_io_read_buffer8"); depth++; prs_align(ps); prs_uint32("buffer size", ps, depth, size); *buffer = (uint8 *)Realloc(NULL, (*size) * sizeof(uint8) ); prs_uint8s(True,"buffer",ps,depth,*buffer,*size); prs_align(ps); return True; } /******************************************************************* * make a structure. * called from spoolss_getprinter (srv_spoolss.c) ********************************************************************/ BOOL make_spoolss_q_getprinter(SPOOL_Q_GETPRINTER *q_u, POLICY_HND *hnd, uint32 level, uint32 buf_size) { if (q_u == NULL) return False; memcpy(&q_u->handle, hnd, sizeof(q_u->handle)); q_u->level = level; q_u->buffer = (uint8 *)Realloc(NULL, (buf_size) * sizeof(uint8) ); q_u->offered = buf_size; return True; } /******************************************************************* * read a structure. * called from spoolss_getprinter (srv_spoolss.c) ********************************************************************/ BOOL spoolss_io_q_getprinter(char *desc, SPOOL_Q_GETPRINTER *q_u, prs_struct *ps, int depth) { uint32 count = 0; uint32 buf_ptr = q_u->buffer != NULL ? 1 : 0; prs_debug(ps, depth, desc, "spoolss_io_q_getprinter"); depth++; prs_align(ps); smb_io_prt_hnd("printer handle",&(q_u->handle),ps,depth); prs_uint32("level", ps, depth, &(q_u->level)); if (!ps->io) { /* writing */ buf_ptr = q_u->buffer != NULL ? 1 : 0; } prs_uint32("buffer pointer", ps, depth, &buf_ptr); if (buf_ptr != 0) { spoolss_io_read_buffer8("",ps, &q_u->buffer, &count,depth); } if (q_u->buffer != NULL) { free(q_u->buffer); } prs_uint32("buffer size", ps, depth, &(q_u->offered)); return count == q_u->offered; } /******************************************************************* ********************************************************************/ BOOL spoolss_io_r_setprinter(char *desc, SPOOL_R_SETPRINTER *r_u, prs_struct *ps, int depth) { prs_debug(ps, depth, desc, "spoolss_io_r_setprinter"); depth++; prs_align(ps); prs_uint32("status", ps, depth, &(r_u->status)); return True; } /******************************************************************* ********************************************************************/ BOOL spoolss_io_q_setprinter(char *desc, SPOOL_Q_SETPRINTER *q_u, prs_struct *ps, int depth) { prs_debug(ps, depth, desc, "spoolss_io_q_setprinter"); depth++; prs_align(ps); smb_io_prt_hnd("printer handle", &(q_u->handle),ps,depth); prs_uint32("level", ps, depth, &(q_u->level)); /* again a designed mess */ /* sometimes I'm wondering how all of this work ! */ /* To be correct it need to be split in 3 functions */ spool_io_printer_info_level("", &(q_u->info), ps, depth); spoolss_io_devmode(desc, ps, depth, q_u->devmode); prs_uint32("security.size_of_buffer", ps, depth, &(q_u->security.size_of_buffer)); prs_uint32("security.data", ps, depth, &(q_u->security.data)); prs_uint32("command", ps, depth, &(q_u->command)); return True; } /******************************************************************* ********************************************************************/ BOOL spoolss_io_r_fcpn(char *desc, SPOOL_R_FCPN *r_u, prs_struct *ps, int depth) { prs_debug(ps, depth, desc, "spoolss_io_r_fcpn"); depth++; prs_align(ps); prs_uint32("status", ps, depth, &(r_u->status)); return True; } /******************************************************************* ********************************************************************/ BOOL spoolss_io_q_fcpn(char *desc, SPOOL_Q_FCPN *q_u, prs_struct *ps, int depth) { prs_debug(ps, depth, desc, "spoolss_io_q_fcpn"); depth++; prs_align(ps); smb_io_prt_hnd("printer handle",&(q_u->handle),ps,depth); return True; } /******************************************************************* ********************************************************************/ BOOL spoolss_io_r_addjob(char *desc, SPOOL_R_ADDJOB *r_u, prs_struct *ps, int depth) { prs_debug(ps, depth, desc, ""); depth++; prs_align(ps); prs_uint32("status", ps, depth, &(r_u->status)); return True; } /******************************************************************* ********************************************************************/ BOOL spoolss_io_q_addjob(char *desc, SPOOL_Q_ADDJOB *q_u, prs_struct *ps, int depth) { prs_debug(ps, depth, desc, ""); depth++; prs_align(ps); smb_io_prt_hnd("printer handle",&(q_u->handle),ps,depth); prs_uint32("level", ps, depth, &(q_u->level)); spoolss_io_read_buffer("", ps, depth, &(q_u->buffer)); prs_align(ps); prs_uint32("buf_size", ps, depth, &(q_u->buf_size)); return True; } /**************************************************************************** ****************************************************************************/ void free_job_info_ctr(JOB_INFO_CTR *ctr, uint32 level, uint32 numofjobs) { DEBUG(4,("free_enum_jobs_info: [%d] structs to free at level [%d]\n", numofjobs, level)); switch (level) { case 1: { free_job1_array(numofjobs, ctr->job.job_info_1); break; } case 2: { free_job2_array(numofjobs, ctr->job.job_info_2); break; } } } /**************************************************************************** ****************************************************************************/ void free_r_enumjobs(SPOOL_R_ENUMJOBS *r_u) { free_job_info_ctr(&r_u->ctr, r_u->level, r_u->numofjobs); } /******************************************************************* ********************************************************************/ BOOL spoolss_io_r_enumjobs(char *desc, SPOOL_R_ENUMJOBS *r_u, prs_struct *ps, int depth) { uint32 useless_ptr = 0; uint32 start_offset, end_offset, beginning; uint32 bufsize_required=0; uint32 tmp_ct = 0; int i; prs_debug(ps, depth, desc, "spoolss_io_r_enumjobs"); depth++; prs_align(ps); if (!ps->io) { /* writing */ switch (r_u->level) { case 1: { for (i=0; inumofjobs; i++) { JOB_INFO_1 *info; info=r_u->ctr.job.job_info_1[i]; bufsize_required += spoolss_size_job_info_1(&(info[i])); } break; } case 2: { for (i=0; inumofjobs; i++) { JOB_INFO_2 *info; info=r_u->ctr.job.job_info_2[i]; bufsize_required += spoolss_size_job_info_2(&(info[i])); } break; } } DEBUG(4,("spoolss_io_r_enumjobs, size needed: %d\n", bufsize_required)); DEBUG(4,("spoolss_io_r_enumjobs, size offered: %d\n", r_u->offered)); /* check if the buffer is big enough for the datas */ if (r_u->offeredstatus = ERROR_INSUFFICIENT_BUFFER; /* say so */ r_u->offered = bufsize_required; useless_ptr = 0; DEBUG(4,("spoolss_io_r_enumjobs, buffer too small\n")); } else { useless_ptr = 1; } } prs_uint32("pointer", ps, depth, &useless_ptr); prs_uint32("size of buffer", ps, depth, &(r_u->offered)); if (useless_ptr != 0) { beginning=prs_offset(ps); start_offset=prs_offset(ps); end_offset=start_offset+r_u->offered; tmp_ct = 0; if (ps->io) { /* reading */ prs_set_offset(ps, beginning + r_u->offered); prs_align(ps); prs_uint32("buffer size", ps, depth, &(bufsize_required)); prs_uint32("numofjobs", ps, depth, &(r_u->numofjobs)); prs_set_offset(ps, beginning); } switch (r_u->level) { case 1: { JOB_INFO_1 *info; for (i=0; inumofjobs; i++) { if (ps->io) { /* reading */ /* r_u->ctr.job.job_info_1[i] = add_job1_to_array(&tmp_ct, &r_u->ctr.job.job_info_1, NULL);*/ } info = r_u->ctr.job.job_info_1[i]; smb_io_job_info_1(desc, info, ps, depth, &start_offset, &end_offset); } break; } case 2: { JOB_INFO_2 *info; for (i=0; inumofjobs; i++) { if (ps->io) { /* reading */ /* r_u->ctr.job.job_info_2[i] = add_job2_to_array(&tmp_ct, &r_u->ctr.job.job_info_2, NULL);*/ } info = r_u->ctr.job.job_info_2[i]; smb_io_job_info_2(desc, info, ps, depth, &start_offset, &end_offset); } break; } } prs_set_offset(ps, beginning+r_u->offered); prs_align(ps); /* * if the buffer was too small, send the minimum required size * if it was too large, send the real needed size */ prs_uint32("buffer size", ps, depth, &(bufsize_required)); } prs_uint32("numofjobs", ps, depth, &(r_u->numofjobs)); prs_uint32("status", ps, depth, &(r_u->status)); if (!ps->io) { /* writing */ free_r_enumjobs(r_u); } return True; } /******************************************************************* ********************************************************************/ BOOL make_spoolss_q_enumjobs(SPOOL_Q_ENUMJOBS *q_u, const POLICY_HND *hnd, uint32 firstjob, uint32 numofjobs, uint32 level, uint32 buf_size) { if (q_u == NULL) { return False; } memcpy(&q_u->handle, hnd, sizeof(q_u->handle)); q_u->firstjob = firstjob; q_u->numofjobs = numofjobs; q_u->level = level; if (!make_spoolss_buffer(&q_u->buffer, buf_size)) { return False; } q_u->buf_size = buf_size; return True; } /******************************************************************* ********************************************************************/ BOOL spoolss_io_q_enumjobs(char *desc, SPOOL_Q_ENUMJOBS *q_u, prs_struct *ps, int depth) { prs_debug(ps, depth, desc, "spoolss_io_q_enumjobs"); depth++; prs_align(ps); smb_io_prt_hnd("printer handle",&(q_u->handle),ps,depth); prs_uint32("firstjob", ps, depth, &(q_u->firstjob)); prs_uint32("numofjobs", ps, depth, &(q_u->numofjobs)); prs_uint32("level", ps, depth, &(q_u->level)); spoolss_io_read_buffer("", ps, depth, &(q_u->buffer)); prs_uint32("buf_size", ps, depth, &(q_u->buf_size)); return True; } /******************************************************************* ********************************************************************/ BOOL spoolss_io_r_schedulejob(char *desc, SPOOL_R_SCHEDULEJOB *r_u, prs_struct *ps, int depth) { prs_debug(ps, depth, desc, "spoolss_io_r_schedulejob"); depth++; prs_align(ps); prs_uint32("status", ps, depth, &(r_u->status)); return True; } /******************************************************************* ********************************************************************/ BOOL spoolss_io_q_schedulejob(char *desc, SPOOL_Q_SCHEDULEJOB *q_u, prs_struct *ps, int depth) { prs_debug(ps, depth, desc, "spoolss_io_q_schedulejob"); depth++; prs_align(ps); smb_io_prt_hnd("printer handle",&(q_u->handle),ps,depth); prs_uint32("jobid", ps, depth, &(q_u->jobid)); return True; } /******************************************************************* ********************************************************************/ BOOL spoolss_io_r_setjob(char *desc, SPOOL_R_SETJOB *r_u, prs_struct *ps, int depth) { prs_debug(ps, depth, desc, "spoolss_io_r_setjob"); depth++; prs_align(ps); prs_uint32("status", ps, depth, &(r_u->status)); return True; } /******************************************************************* ********************************************************************/ BOOL spoolss_io_q_setjob(char *desc, SPOOL_Q_SETJOB *q_u, prs_struct *ps, int depth) { prs_debug(ps, depth, desc, "spoolss_io_q_setjob"); depth++; prs_align(ps); smb_io_prt_hnd("printer handle",&(q_u->handle),ps,depth); prs_uint32("jobid", ps, depth, &(q_u->jobid)); /* * level is usually 0. If (level!=0) then I'm in trouble ! * I will try to generate setjob command with level!=0, one day. */ prs_uint32("level", ps, depth, &(q_u->level)); prs_uint32("command", ps, depth, &(q_u->command)); return True; } /******************************************************************* ********************************************************************/ BOOL spoolss_io_r_enumdrivers(char *desc, SPOOL_R_ENUMPRINTERDRIVERS *r_u, prs_struct *ps, int depth) { uint32 useless_ptr=0xADDE0FF0; uint32 start_offset, end_offset, beginning; uint32 bufsize_required=0; int i; prs_debug(ps, depth, desc, "spoolss_io_r_enumdrivers"); depth++; prs_align(ps); prs_uint32("pointer", ps, depth, &useless_ptr); DEBUG(7,("Level [%d], number [%d]\n", r_u->level, r_u->numofdrivers)); switch (r_u->level) { case 1: { DRIVER_INFO_1 *driver_info_1; driver_info_1=r_u->ctr.driver.info1; for (i=0; inumofdrivers; i++) { bufsize_required += spoolss_size_printer_driver_info_1(&(driver_info_1[i])); } break; } case 2: { DRIVER_INFO_2 *driver_info_2; driver_info_2=r_u->ctr.driver.info2; for (i=0; inumofdrivers; i++) { bufsize_required += spoolss_size_printer_driver_info_2(&(driver_info_2[i])); } break; } case 3: { DRIVER_INFO_3 *driver_info_3; driver_info_3=r_u->ctr.driver.info3; for (i=0; inumofdrivers; i++) { bufsize_required += spoolss_size_printer_driver_info_3(&(driver_info_3[i])); } break; } } DEBUGADD(7,("size needed: %d\n",bufsize_required)); DEBUGADD(7,("size offered: %d\n",r_u->offered)); /* check if the buffer is big enough for the datas */ if (r_u->offeredstatus=ERROR_INSUFFICIENT_BUFFER; /* say so */ r_u->offered=0; /* don't send back the buffer */ DEBUGADD(8,("buffer too small\n")); prs_uint32("size of buffer", ps, depth, &(r_u->offered)); } else { DEBUGADD(8,("buffer large enough\n")); prs_uint32("size of buffer", ps, depth, &(r_u->offered)); beginning=prs_offset(ps); start_offset=prs_offset(ps); end_offset=start_offset+r_u->offered; switch (r_u->level) { case 1: { DRIVER_INFO_1 *info; for (i=0; inumofdrivers; i++) { info = &(r_u->ctr.driver.info1[i]); smb_io_printer_driver_info_1(desc, info, ps, depth, &start_offset, &end_offset); } break; } case 2: { DRIVER_INFO_2 *info; for (i=0; inumofdrivers; i++) { info = &(r_u->ctr.driver.info2[i]); smb_io_printer_driver_info_2(desc, info, ps, depth, &start_offset, &end_offset); } break; } case 3: { DRIVER_INFO_3 *info; for (i=0; inumofdrivers; i++) { info = &(r_u->ctr.driver.info3[i]); smb_io_printer_driver_info_3(desc, info, ps, depth, &start_offset, &end_offset); } break; } } prs_set_offset(ps, beginning+r_u->offered); prs_align(ps); } /* * if the buffer was too small, send the minimum required size * if it was too large, send the real needed size */ prs_uint32("size of buffer needed", ps, depth, &(bufsize_required)); prs_uint32("numofdrivers", ps, depth, &(r_u->numofdrivers)); prs_uint32("status", ps, depth, &(r_u->status)); return True; } void free_spoolss_r_enumdrivers(SPOOL_R_ENUMPRINTERDRIVERS *r_u) { switch (r_u->level) { case 1: { DRIVER_INFO_1 *driver_info_1; driver_info_1=r_u->ctr.driver.info1; free(driver_info_1); break; } case 2: { DRIVER_INFO_2 *driver_info_2; driver_info_2=r_u->ctr.driver.info2; free(driver_info_2); break; } case 3: { DRIVER_INFO_3 *driver_info_3; UNISTR **dependentfiles; int i; driver_info_3=r_u->ctr.driver.info3; for (i=0; inumofdrivers; i++) { int j=0; dependentfiles=(driver_info_3[i]).dependentfiles; while ( dependentfiles[j] != NULL ) { free(dependentfiles[j]); j++; } free(dependentfiles); } free(driver_info_3); break; } } } /******************************************************************* ********************************************************************/ BOOL spoolss_io_q_enumprinterdrivers(char *desc, SPOOL_Q_ENUMPRINTERDRIVERS *q_u, prs_struct *ps, int depth) { uint32 useless_ptr=0xADDE0FF0; prs_debug(ps, depth, desc, ""); depth++; prs_align(ps); prs_uint32("pointer", ps, depth, &useless_ptr); smb_io_unistr2("", &(q_u->name),True,ps,depth); prs_align(ps); prs_uint32("pointer", ps, depth, &useless_ptr); smb_io_unistr2("", &(q_u->environment),True,ps,depth); prs_align(ps); prs_uint32("level", ps, depth, &(q_u->level)); spoolss_io_read_buffer("", ps, depth, &(q_u->buffer)); prs_align(ps); prs_uint32("buf_size", ps, depth, &(q_u->buf_size)); return True; } /******************************************************************* ********************************************************************/ BOOL spoolss_io_q_enumforms(char *desc, SPOOL_Q_ENUMFORMS *q_u, prs_struct *ps, int depth) { prs_debug(ps, depth, desc, "spoolss_io_q_enumforms"); depth++; if (!prs_align(ps)) return False; if (!smb_io_prt_hnd("printer handle",&(q_u->handle),ps,depth)) return False; if (!prs_uint32("level", ps, depth, &(q_u->level))) return False; if (!new_spoolss_io_buffer("", ps, depth, q_u->buffer)) return False; if (!prs_align(ps)) return False; if (!prs_uint32("offered", ps, depth, &(q_u->offered))) return False; return True; } /******************************************************************* ********************************************************************/ BOOL new_spoolss_io_r_enumforms(char *desc, SPOOL_R_ENUMFORMS *r_u, prs_struct *ps, int depth) { prs_debug(ps, depth, desc, "new_spoolss_io_r_enumforms"); depth++; if (!prs_align(ps)) return False; if (!new_spoolss_io_buffer("", ps, depth, r_u->buffer)) return False; if (!prs_align(ps)) return False; if (!prs_uint32("size of buffer needed", ps, depth, &(r_u->needed))) return False; if (!prs_uint32("numofforms", ps, depth, &(r_u->numofforms))) return False; if (!prs_uint32("status", ps, depth, &(r_u->status))) return False; return True; } /******************************************************************* ********************************************************************/ BOOL spoolss_io_r_enumports(char *desc, SPOOL_R_ENUMPORTS *r_u, prs_struct *ps, int depth) { uint32 useless_ptr=0xADDE0FF0; uint32 start_offset, end_offset, beginning; uint32 bufsize_required=0; int i; prs_debug(ps, depth, desc, "spoolss_io_r_enumports"); depth++; prs_align(ps); prs_uint32("pointer", ps, depth, &useless_ptr); switch (r_u->level) { case 2: { PORT_INFO_2 *port_2; port_2=r_u->ctr.port.info_2; for (i=0; inumofports; i++) { bufsize_required += spoolss_size_port_info_2(&(port_2[i])); } break; } } DEBUG(4,("size needed: %d\n",bufsize_required)); DEBUG(4,("size offered: %d\n",r_u->offered)); /* check if the buffer is big enough for the datas */ if (r_u->offeredstatus=ERROR_INSUFFICIENT_BUFFER; /* say so */ r_u->offered=0; /* don't send back the buffer */ DEBUG(4,("buffer too small\n")); prs_uint32("size of buffer", ps, depth, &(r_u->offered)); } else { DEBUG(4,("buffer large enough\n")); prs_uint32("size of buffer", ps, depth, &(r_u->offered)); beginning=prs_offset(ps); start_offset=prs_offset(ps); end_offset=start_offset+r_u->offered; switch (r_u->level) { case 2: { PORT_INFO_2 *info; for (i=0; inumofports; i++) { info = &(r_u->ctr.port.info_2[i]); smb_io_port_2(desc, info, ps, depth, &start_offset, &end_offset); } break; } } prs_set_offset(ps, beginning+r_u->offered); prs_align(ps); } /* * if the buffer was too small, send the minimum required size * if it was too large, send the real needed size */ prs_uint32("size of buffer needed", ps, depth, &(bufsize_required)); prs_uint32("numofports", ps, depth, &(r_u->numofports)); prs_uint32("status", ps, depth, &(r_u->status)); return True; } void spoolss_free_r_enumports(SPOOL_R_ENUMPORTS *r_u) { switch (r_u->level) { case 2: { safe_free(r_u->ctr.port.info_2); break; } } } /******************************************************************* ********************************************************************/ BOOL spoolss_io_q_enumports(char *desc, SPOOL_Q_ENUMPORTS *q_u, prs_struct *ps, int depth) { uint32 useless; prs_debug(ps, depth, desc, ""); depth++; prs_align(ps); prs_uint32("useless", ps, depth, &useless); smb_io_unistr2("", &(q_u->name),True,ps,depth); prs_align(ps); prs_uint32("level", ps, depth, &(q_u->level)); spoolss_io_read_buffer("", ps, depth, &(q_u->buffer)); prs_align(ps); prs_uint32("buf_size", ps, depth, &(q_u->buf_size)); return True; } /******************************************************************* ********************************************************************/ BOOL spool_io_printer_info_level_2(char *desc, SPOOL_PRINTER_INFO_LEVEL_2 **q_u, prs_struct *ps, int depth) { SPOOL_PRINTER_INFO_LEVEL_2 *il; prs_debug(ps, depth, desc, ""); depth++; /* reading */ if (ps->io) { il=(SPOOL_PRINTER_INFO_LEVEL_2 *)malloc(sizeof(SPOOL_PRINTER_INFO_LEVEL_2)); ZERO_STRUCTP(il); *q_u=il; DEBUG(7,("lecture: memoire ok\n")); } else { il=*q_u; } prs_align(ps); prs_uint32("servername_ptr", ps, depth, &(il->servername_ptr)); prs_uint32("printername_ptr", ps, depth, &(il->printername_ptr)); prs_uint32("sharename_ptr", ps, depth, &(il->sharename_ptr)); prs_uint32("portname_ptr", ps, depth, &(il->portname_ptr)); prs_uint32("drivername_ptr", ps, depth, &(il->drivername_ptr)); prs_uint32("comment_ptr", ps, depth, &(il->comment_ptr)); prs_uint32("location_ptr", ps, depth, &(il->location_ptr)); prs_uint32("devmode_ptr", ps, depth, &(il->devmode_ptr)); prs_uint32("sepfile_ptr", ps, depth, &(il->sepfile_ptr)); prs_uint32("printprocessor_ptr", ps, depth, &(il->printprocessor_ptr)); prs_uint32("datatype_ptr", ps, depth, &(il->datatype_ptr)); prs_uint32("parameters_ptr", ps, depth, &(il->parameters_ptr)); prs_uint32("secdesc_ptr", ps, depth, &(il->secdesc_ptr)); prs_uint32("attributes", ps, depth, &(il->attributes)); prs_uint32("priority", ps, depth, &(il->priority)); prs_uint32("default_priority", ps, depth, &(il->default_priority)); prs_uint32("starttime", ps, depth, &(il->starttime)); prs_uint32("untiltime", ps, depth, &(il->untiltime)); prs_uint32("status", ps, depth, &(il->status)); prs_uint32("cjobs", ps, depth, &(il->cjobs)); prs_uint32("averageppm", ps, depth, &(il->averageppm)); smb_io_unistr2("", &(il->servername), il->servername_ptr, ps, depth); smb_io_unistr2("", &(il->printername), il->printername_ptr, ps, depth); smb_io_unistr2("", &(il->sharename), il->sharename_ptr, ps, depth); smb_io_unistr2("", &(il->portname), il->portname_ptr, ps, depth); smb_io_unistr2("", &(il->drivername), il->drivername_ptr, ps, depth); smb_io_unistr2("", &(il->comment), il->comment_ptr, ps, depth); smb_io_unistr2("", &(il->location), il->location_ptr, ps, depth); smb_io_unistr2("", &(il->sepfile), il->sepfile_ptr, ps, depth); smb_io_unistr2("", &(il->printprocessor), il->printprocessor_ptr, ps, depth); smb_io_unistr2("", &(il->datatype), il->datatype_ptr, ps, depth); smb_io_unistr2("", &(il->parameters), il->parameters_ptr, ps, depth); prs_align(ps); /* this code as nothing to do here !!! if (il->secdesc_ptr) { il->secdesc=NULL; sec_io_desc_buf("", &(il->secdesc), ps, depth); } */ return True; } /******************************************************************* ********************************************************************/ BOOL spool_io_printer_info_level(char *desc, SPOOL_PRINTER_INFO_LEVEL *il, prs_struct *ps, int depth) { uint32 useless; uint32 level; prs_debug(ps, depth, desc, ""); depth++; prs_align(ps); prs_uint32("info level", ps, depth, &level); prs_uint32("useless", ps, depth, &useless); switch (level) { /* * level 0 is used by setprinter when managing the queue * (hold, stop, start a queue) */ case 0: break; /* * level 2 is used by addprinter * and by setprinter when updating printer's info */ case 2: spool_io_printer_info_level_2("", &(il->info_2), ps, depth); break; } return True; } /******************************************************************* ********************************************************************/ BOOL spoolss_io_q_addprinterex(char *desc, SPOOL_Q_ADDPRINTEREX *q_u, prs_struct *ps, int depth) { uint32 useless; prs_debug(ps, depth, desc, "spoolss_io_q_addprinterex"); depth++; /* * I think that's one of the few well written functions. * the sub-structures are correctly parsed and analysed * the info level are handled in a nice way. */ prs_align(ps); prs_uint32("useless", ps, depth, &useless); smb_io_unistr2("", &(q_u->server_name),True,ps,depth); prs_align(ps); prs_uint32("info_level", ps, depth, &(q_u->level)); spool_io_printer_info_level("", &(q_u->info), ps, depth); /* the 4 unknown are all 0 */ /* * en fait ils sont pas inconnu * par recoupement avec rpcSetPrinter * c'est le devicemode * et le security descriptor. */ prs_uint32("unk0", ps, depth, &(q_u->unk0)); prs_uint32("unk1", ps, depth, &(q_u->unk1)); prs_uint32("unk2", ps, depth, &(q_u->unk2)); prs_uint32("unk3", ps, depth, &(q_u->unk3)); prs_uint32("info_level", ps, depth, &(q_u->user_level)); spool_io_user_level("", &(q_u->user), ps, depth); return True; } /******************************************************************* ********************************************************************/ BOOL spoolss_io_r_addprinterex(char *desc, SPOOL_R_ADDPRINTEREX *r_u, prs_struct *ps, int depth) { prs_debug(ps, depth, desc, "spoolss_io_r_addprinterex"); depth++; smb_io_prt_hnd("printer handle",&(r_u->handle),ps,depth); prs_uint32("status", ps, depth, &(r_u->status)); return True; } /******************************************************************* ********************************************************************/ BOOL spool_io_printer_driver_info_level_3(char *desc, SPOOL_PRINTER_DRIVER_INFO_LEVEL_3 **q_u, prs_struct *ps, int depth) { SPOOL_PRINTER_DRIVER_INFO_LEVEL_3 *il; prs_debug(ps, depth, desc, ""); depth++; /* reading */ if (ps->io) { il=(SPOOL_PRINTER_DRIVER_INFO_LEVEL_3 *)malloc(sizeof(SPOOL_PRINTER_DRIVER_INFO_LEVEL_3)); ZERO_STRUCTP(il); *q_u=il; DEBUG(1,("lecture: memoire ok\n")); } else { il=*q_u; } prs_align(ps); prs_uint32("cversion", ps, depth, &(il->cversion)); prs_uint32("name", ps, depth, &(il->name_ptr)); prs_uint32("environment", ps, depth, &(il->environment_ptr)); prs_uint32("driverpath", ps, depth, &(il->driverpath_ptr)); prs_uint32("datafile", ps, depth, &(il->datafile_ptr)); prs_uint32("configfile", ps, depth, &(il->configfile_ptr)); prs_uint32("helpfile", ps, depth, &(il->helpfile_ptr)); prs_uint32("monitorname", ps, depth, &(il->monitorname_ptr)); prs_uint32("defaultdatatype", ps, depth, &(il->defaultdatatype_ptr)); prs_uint32("dependentfilessize", ps, depth, &(il->dependentfilessize)); prs_uint32("dependentfiles", ps, depth, &(il->dependentfiles_ptr)); prs_align(ps); smb_io_unistr2("", &(il->name), il->name_ptr, ps, depth); smb_io_unistr2("", &(il->environment), il->environment_ptr, ps, depth); smb_io_unistr2("", &(il->driverpath), il->driverpath_ptr, ps, depth); smb_io_unistr2("", &(il->datafile), il->datafile_ptr, ps, depth); smb_io_unistr2("", &(il->configfile), il->configfile_ptr, ps, depth); smb_io_unistr2("", &(il->helpfile), il->helpfile_ptr, ps, depth); smb_io_unistr2("", &(il->monitorname), il->monitorname_ptr, ps, depth); smb_io_unistr2("", &(il->defaultdatatype), il->defaultdatatype_ptr, ps, depth); prs_align(ps); if (il->dependentfiles_ptr) smb_io_buffer5("", &(il->dependentfiles), ps, depth); return True; } /******************************************************************* convert a buffer of UNICODE strings null terminated the buffer is terminated by a NULL convert to an ascii array (null terminated) dynamically allocate memory ********************************************************************/ BOOL uniarray_2_ascarray(BUFFER5 *buf5, char ***ar) { char **array; char *string; char *destend; char *dest; uint32 n; uint32 i; uint16 *src; if (buf5==NULL) return False; array=NULL; n=0; i=0; src=buf5->buffer; string=(char *)malloc(sizeof(char)*buf5->buf_len); destend = string + buf5->buf_len; dest=string; while (dest < destend) { *(dest++) = (char)*(src++); } /* that ugly for the first one but that's working */ array=(char **)Realloc(array, sizeof(char *)*(i+1)); array[i++]=string; while ( n < buf5->buf_len ) { if ( *(string++) == '\0' ) { array=(char **)Realloc(array, sizeof(char *)*(i+1)); array[i++]=string; } n++; } *ar=array; DEBUG(10,("Number of dependent files: [%d]\n", i-1)); return True; } /******************************************************************* read a UNICODE array with null terminated strings and null terminated array and size of array at beginning ********************************************************************/ BOOL smb_io_unibuffer(char *desc, UNISTR2 *buffer, prs_struct *ps, int depth) { if (buffer==NULL) return False; buffer->undoc=0; buffer->uni_str_len=buffer->uni_max_len; prs_uint32("buffer_size", ps, depth, &(buffer->uni_max_len)); prs_unistr2(True, "buffer ", ps, depth, buffer); return True; } /******************************************************************* ********************************************************************/ BOOL spool_io_printer_driver_info_level(char *desc, SPOOL_PRINTER_DRIVER_INFO_LEVEL *il, prs_struct *ps, int depth) { uint32 useless; uint32 level; prs_debug(ps, depth, desc, ""); depth++; prs_align(ps); prs_uint32("info level", ps, depth, &level); prs_uint32("useless", ps, depth, &useless); switch (level) { case 3: spool_io_printer_driver_info_level_3("", &(il->info_3), ps, depth); break; } return True; } /******************************************************************* ********************************************************************/ BOOL spoolss_io_q_addprinterdriver(char *desc, SPOOL_Q_ADDPRINTERDRIVER *q_u, prs_struct *ps, int depth) { uint32 useless; prs_debug(ps, depth, desc, ""); depth++; prs_align(ps); prs_uint32("useless", ps, depth, &useless); smb_io_unistr2("", &(q_u->server_name),True,ps,depth); prs_align(ps); prs_uint32("info_level", ps, depth, &(q_u->level)); spool_io_printer_driver_info_level("", &(q_u->info), ps, depth); return True; } /******************************************************************* ********************************************************************/ BOOL spoolss_io_r_addprinterdriver(char *desc, SPOOL_R_ADDPRINTERDRIVER *q_u, prs_struct *ps, int depth) { prs_debug(ps, depth, desc, ""); depth++; prs_uint32("status", ps, depth, &(q_u->status)); return True; } /******************************************************************* ********************************************************************/ BOOL uni_2_asc_printer_driver_3(SPOOL_PRINTER_DRIVER_INFO_LEVEL_3 *uni, NT_PRINTER_DRIVER_INFO_LEVEL_3 **asc) { NT_PRINTER_DRIVER_INFO_LEVEL_3 *d; DEBUG(7,("uni_2_asc_printer_driver_3: Converting from UNICODE to ASCII\n")); if (*asc==NULL) { *asc=(NT_PRINTER_DRIVER_INFO_LEVEL_3 *)malloc(sizeof(NT_PRINTER_DRIVER_INFO_LEVEL_3)); ZERO_STRUCTP(*asc); } d=*asc; d->cversion=uni->cversion; unistr2_to_ascii(d->name, &(uni->name), sizeof(d->name)-1); unistr2_to_ascii(d->environment, &(uni->environment), sizeof(d->environment)-1); unistr2_to_ascii(d->driverpath, &(uni->driverpath), sizeof(d->driverpath)-1); unistr2_to_ascii(d->datafile, &(uni->datafile), sizeof(d->datafile)-1); unistr2_to_ascii(d->configfile, &(uni->configfile), sizeof(d->configfile)-1); unistr2_to_ascii(d->helpfile, &(uni->helpfile), sizeof(d->helpfile)-1); unistr2_to_ascii(d->monitorname, &(uni->monitorname), sizeof(d->monitorname)-1); unistr2_to_ascii(d->defaultdatatype, &(uni->defaultdatatype), sizeof(d->defaultdatatype)-1); DEBUGADD(8,( "version: %d\n", d->cversion)); DEBUGADD(8,( "name: %s\n", d->name)); DEBUGADD(8,( "environment: %s\n", d->environment)); DEBUGADD(8,( "driverpath: %s\n", d->driverpath)); DEBUGADD(8,( "datafile: %s\n", d->datafile)); DEBUGADD(8,( "configfile: %s\n", d->configfile)); DEBUGADD(8,( "helpfile: %s\n", d->helpfile)); DEBUGADD(8,( "monitorname: %s\n", d->monitorname)); DEBUGADD(8,( "defaultdatatype: %s\n", d->defaultdatatype)); uniarray_2_ascarray(&(uni->dependentfiles), &(d->dependentfiles) ); return True; } BOOL uni_2_asc_printer_info_2(const SPOOL_PRINTER_INFO_LEVEL_2 *uni, NT_PRINTER_INFO_LEVEL_2 **asc) { NT_PRINTER_INFO_LEVEL_2 *d; DEBUG(7,("Converting from UNICODE to ASCII\n")); if (*asc==NULL) { DEBUGADD(8,("allocating memory\n")); *asc=(NT_PRINTER_INFO_LEVEL_2 *)malloc(sizeof(NT_PRINTER_INFO_LEVEL_2)); ZERO_STRUCTP(*asc); } DEBUGADD(8,("start converting\n")); d=*asc; d->attributes=uni->attributes; d->priority=uni->priority; d->default_priority=uni->default_priority; d->starttime=uni->starttime; d->untiltime=uni->untiltime; d->status=uni->status; d->cjobs=uni->cjobs; unistr2_to_ascii(d->servername, &(uni->servername), sizeof(d->servername)-1); unistr2_to_ascii(d->printername, &(uni->printername), sizeof(d->printername)-1); unistr2_to_ascii(d->sharename, &(uni->sharename), sizeof(d->sharename)-1); unistr2_to_ascii(d->portname, &(uni->portname), sizeof(d->portname)-1); unistr2_to_ascii(d->drivername, &(uni->drivername), sizeof(d->drivername)-1); unistr2_to_ascii(d->comment, &(uni->comment), sizeof(d->comment)-1); unistr2_to_ascii(d->location, &(uni->location), sizeof(d->location)-1); unistr2_to_ascii(d->sepfile, &(uni->sepfile), sizeof(d->sepfile)-1); unistr2_to_ascii(d->printprocessor, &(uni->printprocessor), sizeof(d->printprocessor)-1); unistr2_to_ascii(d->datatype, &(uni->datatype), sizeof(d->datatype)-1); unistr2_to_ascii(d->parameters, &(uni->parameters), sizeof(d->parameters)-1); return True; } /******************************************************************* ********************************************************************/ BOOL spoolss_io_r_getprinterdriverdir(char *desc, SPOOL_R_GETPRINTERDRIVERDIR *r_u, prs_struct *ps, int depth) { uint32 useless_ptr=0xADDE0FF0; uint32 start_offset, end_offset, beginning; uint32 bufsize_required=0; prs_debug(ps, depth, desc, "spoolss_io_r_getprinterdriverdir"); depth++; prs_align(ps); prs_uint32("pointer", ps, depth, &useless_ptr); switch (r_u->level) { case 1: { DRIVER_DIRECTORY_1 *driver_info_1; driver_info_1=&(r_u->ctr.driver.info_1); bufsize_required = size_of_relative_string(&(driver_info_1->name)); break; } } DEBUG(4,("spoolss_io_r_getprinterdriverdir, size needed: %d\n",bufsize_required)); DEBUG(4,("spoolss_io_r_getprinterdriverdir, size offered: %d\n",r_u->offered)); /* check if the buffer is big enough for the datas */ if (r_u->offeredstatus=ERROR_INSUFFICIENT_BUFFER; /* say so */ r_u->offered=0; /* don't send back the buffer */ DEBUG(4,("spoolss_io_r_getprinterdriverdir, buffer too small\n")); prs_uint32("size of buffer", ps, depth, &(r_u->offered)); } else { DEBUG(4,("spoolss_io_r_getprinterdriverdir, buffer large enough\n")); prs_uint32("size of buffer", ps, depth, &(r_u->offered)); beginning=prs_offset(ps); start_offset=prs_offset(ps); end_offset=start_offset+r_u->offered; switch (r_u->level) { case 1: { DRIVER_DIRECTORY_1 *info; info = &(r_u->ctr.driver.info_1); prs_unistr("name", ps, depth, &(info->name)); /*smb_io_printer_driver_dir_1(desc, info, ps, depth, &start_offset, &end_offset);*/ break; } } prs_set_offset(ps, beginning+r_u->offered); prs_align(ps); } /* * if the buffer was too small, send the minimum required size * if it was too large, send the real needed size */ prs_uint32("size of buffer needed", ps, depth, &(bufsize_required)); prs_uint32("status", ps, depth, &(r_u->status)); return True; } /******************************************************************* ********************************************************************/ BOOL spoolss_io_q_getprinterdriverdir(char *desc, SPOOL_Q_GETPRINTERDRIVERDIR *q_u, prs_struct *ps, int depth) { uint32 useless_ptr=0xADDE0FF0; prs_debug(ps, depth, desc, ""); depth++; prs_align(ps); prs_uint32("pointer", ps, depth, &useless_ptr); smb_io_unistr2("", &(q_u->name),True,ps,depth); prs_align(ps); prs_uint32("pointer", ps, depth, &useless_ptr); smb_io_unistr2("", &(q_u->environment),True,ps,depth); prs_align(ps); prs_uint32("level", ps, depth, &(q_u->level)); spoolss_io_read_buffer("", ps, depth, &(q_u->buffer)); prs_align(ps); prs_uint32("buf_size", ps, depth, &(q_u->buf_size)); return True; } /******************************************************************* ********************************************************************/ BOOL spoolss_io_r_enumprintprocessors(char *desc, SPOOL_R_ENUMPRINTPROCESSORS *r_u, prs_struct *ps, int depth) { uint32 useless_ptr=0xADDE0FF0; uint32 start_offset, end_offset, beginning; uint32 bufsize_required=0; int i; prs_debug(ps, depth, desc, "spoolss_io_r_enumprintprocessors"); depth++; prs_align(ps); prs_uint32("pointer", ps, depth, &useless_ptr); switch (r_u->level) { case 1: { PRINTPROCESSOR_1 *info_1; info_1=r_u->info_1; for (i=0; inumofprintprocessors; i++) { bufsize_required += spoolss_size_processor_info_1(&(info_1[i])); } break; } } DEBUG(4,("size needed: %d\n",bufsize_required)); DEBUG(4,("size offered: %d\n",r_u->offered)); /* check if the buffer is big enough for the datas */ if (r_u->offeredstatus=ERROR_INSUFFICIENT_BUFFER; /* say so */ r_u->offered=0; /* don't send back the buffer */ DEBUG(4,("buffer too small\n")); prs_uint32("size of buffer", ps, depth, &(r_u->offered)); } else { DEBUG(4,("buffer large enough\n")); prs_uint32("size of buffer", ps, depth, &(r_u->offered)); beginning=prs_offset(ps); start_offset=prs_offset(ps); end_offset=start_offset+r_u->offered; switch (r_u->level) { case 1: { PRINTPROCESSOR_1 *info_1; for (i=0; inumofprintprocessors; i++) { info_1 = &(r_u->info_1[i]); smb_io_processor_info_1(desc, info_1, ps, depth, &start_offset, &end_offset); } break; } } prs_set_offset(ps, beginning+r_u->offered); prs_align(ps); } /* * if the buffer was too small, send the minimum required size * if it was too large, send the real needed size */ prs_uint32("size of buffer needed", ps, depth, &(bufsize_required)); prs_uint32("numofprintprocessors", ps, depth, &(r_u->numofprintprocessors)); prs_uint32("status", ps, depth, &(r_u->status)); return True; } /******************************************************************* ********************************************************************/ BOOL spoolss_io_q_enumprintprocessors(char *desc, SPOOL_Q_ENUMPRINTPROCESSORS *q_u, prs_struct *ps, int depth) { uint32 useless; prs_debug(ps, depth, desc, "spoolss_io_q_enumprintprocessors"); depth++; prs_align(ps); prs_uint32("useless", ps, depth, &useless); smb_io_unistr2("", &(q_u->name),True,ps,depth); prs_align(ps); prs_uint32("useless", ps, depth, &useless); smb_io_unistr2("", &(q_u->environment),True,ps,depth); prs_align(ps); prs_uint32("level", ps, depth, &(q_u->level)); spoolss_io_read_buffer("", ps, depth, &(q_u->buffer)); prs_align(ps); prs_uint32("buf_size", ps, depth, &(q_u->buf_size)); return True; } /******************************************************************* ********************************************************************/ BOOL spoolss_io_r_enumprintmonitors(char *desc, SPOOL_R_ENUMPRINTMONITORS *r_u, prs_struct *ps, int depth) { uint32 useless_ptr=0xADDE0FF0; uint32 start_offset, end_offset, beginning; uint32 bufsize_required=0; int i; prs_debug(ps, depth, desc, "spoolss_io_r_enumprintmonitors"); depth++; prs_align(ps); prs_uint32("pointer", ps, depth, &useless_ptr); switch (r_u->level) { case 1: { PRINTMONITOR_1 *info_1; info_1=r_u->info_1; for (i=0; inumofprintmonitors; i++) { bufsize_required += spoolss_size_monitor_info_1(&(info_1[i])); } break; } } DEBUG(4,("size needed: %d\n",bufsize_required)); DEBUG(4,("size offered: %d\n",r_u->offered)); /* check if the buffer is big enough for the datas */ if (r_u->offeredstatus=ERROR_INSUFFICIENT_BUFFER; /* say so */ r_u->offered=0; /* don't send back the buffer */ DEBUG(4,("buffer too small\n")); prs_uint32("size of buffer", ps, depth, &(r_u->offered)); } else { DEBUG(4,("buffer large enough\n")); prs_uint32("size of buffer", ps, depth, &(r_u->offered)); beginning=prs_offset(ps); start_offset=prs_offset(ps); end_offset=start_offset+r_u->offered; switch (r_u->level) { case 1: { PRINTMONITOR_1 *info_1; for (i=0; inumofprintmonitors; i++) { info_1 = &(r_u->info_1[i]); smb_io_monitor_info_1(desc, info_1, ps, depth, &start_offset, &end_offset); } break; } } prs_set_offset(ps, beginning+r_u->offered); prs_align(ps); } /* * if the buffer was too small, send the minimum required size * if it was too large, send the real needed size */ prs_uint32("size of buffer needed", ps, depth, &(bufsize_required)); prs_uint32("numofprintmonitors", ps, depth, &(r_u->numofprintmonitors)); prs_uint32("status", ps, depth, &(r_u->status)); return True; } /******************************************************************* ********************************************************************/ BOOL spoolss_io_q_enumprintmonitors(char *desc, SPOOL_Q_ENUMPRINTMONITORS *q_u, prs_struct *ps, int depth) { uint32 useless; prs_debug(ps, depth, desc, "spoolss_io_q_enumprintmonitors"); depth++; prs_align(ps); prs_uint32("useless", ps, depth, &useless); smb_io_unistr2("", &(q_u->name),True,ps,depth); prs_align(ps); prs_uint32("level", ps, depth, &(q_u->level)); spoolss_io_read_buffer("", ps, depth, &(q_u->buffer)); prs_align(ps); prs_uint32("buf_size", ps, depth, &(q_u->buf_size)); return True; } /******************************************************************* ********************************************************************/ BOOL spoolss_io_r_enumprinterdata(char *desc, SPOOL_R_ENUMPRINTERDATA *r_u, prs_struct *ps, int depth) { prs_debug(ps, depth, desc, "spoolss_io_r_enumprinterdata"); depth++; prs_align(ps); prs_uint32("valuesize", ps, depth, &(r_u->valuesize)); prs_unistr("value", ps, depth, &(r_u->value)); prs_uint32("realvaluesize", ps, depth, &(r_u->realvaluesize)); prs_uint32("type", ps, depth, &(r_u->type)); prs_uint32("datasize", ps, depth, &(r_u->datasize)); prs_uint8s(False, "data", ps, depth, r_u->data, r_u->datasize); prs_uint32("realdatasize", ps, depth, &(r_u->realdatasize)); prs_uint32("status", ps, depth, &(r_u->status)); return True; } /******************************************************************* ********************************************************************/ BOOL spoolss_io_q_enumprinterdata(char *desc, SPOOL_Q_ENUMPRINTERDATA *q_u, prs_struct *ps, int depth) { prs_debug(ps, depth, desc, "spoolss_io_q_enumprinterdata"); depth++; prs_align(ps); smb_io_prt_hnd("printer handle",&(q_u->handle),ps,depth); prs_uint32("index", ps, depth, &(q_u->index)); prs_uint32("valuesize", ps, depth, &(q_u->valuesize)); prs_uint32("datasize", ps, depth, &(q_u->datasize)); return True; } /******************************************************************* ********************************************************************/ BOOL spoolss_io_q_setprinterdata(char *desc, SPOOL_Q_SETPRINTERDATA *q_u, prs_struct *ps, int depth) { prs_debug(ps, depth, desc, "spoolss_io_q_setprinterdata"); depth++; prs_align(ps); smb_io_prt_hnd("printer handle", &(q_u->handle), ps, depth); smb_io_unistr2("", &(q_u->value), True, ps, depth); prs_align(ps); prs_uint32("type", ps, depth, &(q_u->type)); prs_uint32("max_len", ps, depth, &(q_u->max_len)); switch (q_u->type) { case 0x1: case 0x3: case 0x4: case 0x7: q_u->data=(uint8 *)malloc(q_u->max_len * sizeof(uint8)); prs_uint8s(False,"data", ps, depth, q_u->data, q_u->max_len); prs_align(ps); break; } prs_uint32("real_len", ps, depth, &(q_u->real_len)); return True; } /******************************************************************* ********************************************************************/ BOOL spoolss_io_r_setprinterdata(char *desc, SPOOL_R_SETPRINTERDATA *r_u, prs_struct *ps, int depth) { prs_debug(ps, depth, desc, "spoolss_io_r_setprinterdata"); depth++; prs_align(ps); prs_uint32("status", ps, depth, &(r_u->status)); return True; } /******************************************************************* ********************************************************************/ BOOL convert_specific_param(NT_PRINTER_PARAM **param, const UNISTR2 *value, uint32 type, const uint8 *data, uint32 len) { DEBUG(5,("converting a specific param struct\n")); if (*param == NULL) { *param=(NT_PRINTER_PARAM *)malloc(sizeof(NT_PRINTER_PARAM)); ZERO_STRUCTP(*param); DEBUGADD(6,("Allocated a new PARAM struct\n")); } unistr2_to_ascii((*param)->value, value, sizeof((*param)->value)-1); (*param)->type = type; /* le champ data n'est pas NULL termine */ /* on stocke donc la longueur */ (*param)->data_len=len; (*param)->data=(uint8 *)malloc(len * sizeof(uint8)); memcpy((*param)->data, data, len); DEBUGADD(6,("\tvalue:[%s], len:[%d]\n",(*param)->value, (*param)->data_len)); return True; } /******************************************************************* ********************************************************************/ static BOOL spoolss_io_addform(char *desc, FORM *f, uint32 ptr, prs_struct *ps, int depth) { prs_debug(ps, depth, desc, "spoolss_io_addform"); depth++; prs_align(ps); if (ptr!=0) { prs_uint32("flags", ps, depth, &(f->flags)); prs_uint32("name_ptr", ps, depth, &(f->name_ptr)); prs_uint32("size_x", ps, depth, &(f->size_x)); prs_uint32("size_y", ps, depth, &(f->size_y)); prs_uint32("left", ps, depth, &(f->left)); prs_uint32("top", ps, depth, &(f->top)); prs_uint32("right", ps, depth, &(f->right)); prs_uint32("bottom", ps, depth, &(f->bottom)); smb_io_unistr2("", &(f->name), f->name_ptr, ps, depth); } return True; } /******************************************************************* ********************************************************************/ BOOL spoolss_io_q_addform(char *desc, SPOOL_Q_ADDFORM *q_u, prs_struct *ps, int depth) { uint32 useless_ptr=0; prs_debug(ps, depth, desc, "spoolss_io_q_addform"); depth++; prs_align(ps); smb_io_prt_hnd("printer handle", &(q_u->handle), ps, depth); prs_uint32("level", ps, depth, &(q_u->level)); prs_uint32("level2", ps, depth, &(q_u->level2)); if (q_u->level==1) { prs_uint32("useless_ptr", ps, depth, &(useless_ptr)); spoolss_io_addform("", &(q_u->form), useless_ptr, ps, depth); } return True; } /******************************************************************* ********************************************************************/ BOOL spoolss_io_r_addform(char *desc, SPOOL_R_ADDFORM *r_u, prs_struct *ps, int depth) { prs_debug(ps, depth, desc, "spoolss_io_r_addform"); depth++; prs_align(ps); prs_uint32("status", ps, depth, &(r_u->status)); return True; } /******************************************************************* ********************************************************************/ BOOL spoolss_io_q_setform(char *desc, SPOOL_Q_SETFORM *q_u, prs_struct *ps, int depth) { uint32 useless_ptr=0; prs_debug(ps, depth, desc, "spoolss_io_q_setform"); depth++; prs_align(ps); smb_io_prt_hnd("printer handle", &(q_u->handle), ps, depth); smb_io_unistr2("", &(q_u->name), True, ps, depth); prs_align(ps); prs_uint32("level", ps, depth, &(q_u->level)); prs_uint32("level2", ps, depth, &(q_u->level2)); if (q_u->level==1) { prs_uint32("useless_ptr", ps, depth, &(useless_ptr)); spoolss_io_addform("", &(q_u->form), useless_ptr, ps, depth); } return True; } /******************************************************************* ********************************************************************/ BOOL spoolss_io_r_setform(char *desc, SPOOL_R_SETFORM *r_u, prs_struct *ps, int depth) { prs_debug(ps, depth, desc, "spoolss_io_r_setform"); depth++; prs_align(ps); prs_uint32("status", ps, depth, &(r_u->status)); return True; } /******************************************************************* ********************************************************************/ BOOL spoolss_io_r_getjob(char *desc, SPOOL_R_GETJOB *r_u, prs_struct *ps, int depth) { uint32 useless_ptr=0xADDE0FF0; uint32 start_offset, end_offset, beginning; uint32 bufsize_required=0; prs_debug(ps, depth, desc, "spoolss_io_r_getjob"); depth++; prs_align(ps); prs_uint32("pointer", ps, depth, &useless_ptr); switch (r_u->level) { case 1: { JOB_INFO_1 *info; info=r_u->ctr.job.job_info_1; bufsize_required += spoolss_size_job_info_1(info); break; } case 2: { JOB_INFO_2 *info; info=r_u->ctr.job.job_info_2; bufsize_required += spoolss_size_job_info_2(info); break; } } DEBUG(4,("spoolss_io_r_getjob, size needed: %d\n",bufsize_required)); DEBUG(4,("spoolss_io_r_getjob, size offered: %d\n",r_u->offered)); /* check if the buffer is big enough for the datas */ if (r_u->offeredstatus=ERROR_INSUFFICIENT_BUFFER; /* say so */ r_u->offered=0; /* don't send back the buffer */ DEBUG(4,("spoolss_io_r_getjob, buffer too small\n")); prs_uint32("size of buffer", ps, depth, &(r_u->offered)); } else { DEBUG(4,("spoolss_io_r_enumjobs, buffer large enough\n")); prs_uint32("size of buffer", ps, depth, &(r_u->offered)); beginning=prs_offset(ps); start_offset=prs_offset(ps); end_offset=start_offset+r_u->offered; switch (r_u->level) { case 1: { JOB_INFO_1 *info; info = r_u->ctr.job.job_info_1; smb_io_job_info_1(desc, info, ps, depth, &start_offset, &end_offset); break; } case 2: { JOB_INFO_2 *info; info = r_u->ctr.job.job_info_2; smb_io_job_info_2(desc, info, ps, depth, &start_offset, &end_offset); break; } } prs_set_offset(ps, beginning+r_u->offered); prs_align(ps); } /* * if the buffer was too small, send the minimum required size * if it was too large, send the real needed size */ prs_uint32("size of buffer needed", ps, depth, &(bufsize_required)); prs_uint32("status", ps, depth, &(r_u->status)); return True; } /**************************************************************************** ****************************************************************************/ void free_spoolss_r_getjob(SPOOL_R_GETJOB *r_u) { switch (r_u->level) { case 1: { free(r_u->ctr.job.job_info_1); break; } case 2: { free_job_info_2(r_u->ctr.job.job_info_2); break; } } } /******************************************************************* ********************************************************************/ BOOL spoolss_io_q_getjob(char *desc, SPOOL_Q_GETJOB *q_u, prs_struct *ps, int depth) { prs_debug(ps, depth, desc, ""); depth++; prs_align(ps); smb_io_prt_hnd("printer handle",&(q_u->handle),ps,depth); prs_uint32("jobid", ps, depth, &(q_u->jobid)); prs_uint32("level", ps, depth, &(q_u->level)); spoolss_io_read_buffer("", ps, depth, &(q_u->buffer)); prs_align(ps); prs_uint32("buf_size", ps, depth, &(q_u->buf_size)); return True; } void free_devmode(DEVICEMODE *devmode) { if (devmode!=NULL) { if (devmode->private!=NULL) free(devmode->private); free(devmode); } } void free_printer_info_2(PRINTER_INFO_2 *printer) { if (printer!=NULL) { free_devmode(printer->devmode); free(printer); } } static PRINTER_INFO_2 *prt2_dup(const PRINTER_INFO_2* from) { PRINTER_INFO_2 *copy = (PRINTER_INFO_2 *)malloc(sizeof(PRINTER_INFO_2)); if (copy != NULL) { if (from != NULL) { memcpy(copy, from, sizeof(*copy)); } else { ZERO_STRUCTP(copy); } } return copy; } void free_print2_array(uint32 num_entries, PRINTER_INFO_2 **entries) { void(*fn)(void*) = (void(*)(void*))&free_printer_info_2; free_void_array(num_entries, (void**)entries, *fn); } PRINTER_INFO_2 *add_print2_to_array(uint32 *len, PRINTER_INFO_2 ***array, const PRINTER_INFO_2 *prt) { void*(*fn)(const void*) = (void*(*)(const void*))&prt2_dup; return (PRINTER_INFO_2*)add_copy_to_array(len, (void***)array, (const void*)prt, *fn, True); } static PRINTER_INFO_1 *prt1_dup(const PRINTER_INFO_1* from) { PRINTER_INFO_1 *copy = (PRINTER_INFO_1 *)malloc(sizeof(PRINTER_INFO_1)); if (copy != NULL) { if (from != NULL) { memcpy(copy, from, sizeof(*copy)); } else { ZERO_STRUCTP(copy); } } return copy; } void free_print1_array(uint32 num_entries, PRINTER_INFO_1 **entries) { void(*fn)(void*) = (void(*)(void*))&free; free_void_array(num_entries, (void**)entries, *fn); } PRINTER_INFO_1 *add_print1_to_array(uint32 *len, PRINTER_INFO_1 ***array, const PRINTER_INFO_1 *prt) { void*(*fn)(const void*) = (void*(*)(const void*))&prt1_dup; return (PRINTER_INFO_1*)add_copy_to_array(len, (void***)array, (const void*)prt, *fn, True); } static JOB_INFO_1 *job1_dup(const JOB_INFO_1* from) { JOB_INFO_1 *copy = (JOB_INFO_1 *)malloc(sizeof(JOB_INFO_1)); if (copy != NULL) { if (from != NULL) { memcpy(copy, from, sizeof(*copy)); } else { ZERO_STRUCTP(copy); } } return copy; } void free_job1_array(uint32 num_entries, JOB_INFO_1 **entries) { void(*fn)(void*) = (void(*)(void*))&free; free_void_array(num_entries, (void**)entries, *fn); } JOB_INFO_1 *add_job1_to_array(uint32 *len, JOB_INFO_1 ***array, const JOB_INFO_1 *job) { void*(*fn)(const void*) = (void*(*)(const void*))&job1_dup; return (JOB_INFO_1*)add_copy_to_array(len, (void***)array, (const void*)job, *fn, True); } static JOB_INFO_2 *job2_dup(const JOB_INFO_2* from) { JOB_INFO_2 *copy = (JOB_INFO_2 *)malloc(sizeof(JOB_INFO_2)); if (copy != NULL) { if (from != NULL) { memcpy(copy, from, sizeof(*copy)); } else { ZERO_STRUCTP(copy); } } return copy; } void free_job_info_2(JOB_INFO_2 *job) { if (job!=NULL) { free_devmode(job->devmode); free(job); } } void free_job2_array(uint32 num_entries, JOB_INFO_2 **entries) { void(*fn)(void*) = (void(*)(void*))&free_job_info_2; free_void_array(num_entries, (void**)entries, *fn); } JOB_INFO_2 *add_job2_to_array(uint32 *len, JOB_INFO_2 ***array, const JOB_INFO_2 *job) { void*(*fn)(const void*) = (void*(*)(const void*))&job2_dup; return (JOB_INFO_2*)add_copy_to_array(len, (void***)array, (const void*)job, *fn, True); }