/* * Unix SMB/Netbios implementation. * Version 1.9. * RPC Pipe client / server routines * Copyright (C) Andrew Tridgell 1992-1997, * Copyright (C) Luke Kenneth Casson Leighton 1996-1997, * Copyright (C) Paul Ashton 1997. * * 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" extern int DEBUGLEVEL; /******************************************************************* reads or writes a UTIME type. ********************************************************************/ static void smb_io_utime(char *desc, UTIME *t, prs_struct *ps, int depth) { if (t == NULL) return; prs_debug(ps, depth, desc, "smb_io_utime"); depth++; prs_align(ps); prs_uint32 ("time", ps, depth, &(t->time)); } /******************************************************************* reads or writes an NTTIME structure. ********************************************************************/ void smb_io_time(char *desc, NTTIME *nttime, prs_struct *ps, int depth) { if (nttime == NULL) return; prs_debug(ps, depth, desc, "smb_io_time"); depth++; prs_align(ps); prs_uint32("low ", ps, depth, &(nttime->low )); /* low part */ prs_uint32("high", ps, depth, &(nttime->high)); /* high part */ } /******************************************************************* reads or writes a LOOKUP_LEVEL structure. ********************************************************************/ void smb_io_lookup_level(char *desc, LOOKUP_LEVEL *level, prs_struct *ps, int depth) { if (level == NULL) return; prs_debug(ps, depth, desc, "smb_io_lookup_level"); depth++; prs_align(ps); prs_uint16("value", ps, depth, &(level->value)); prs_align(ps); } /******************************************************************* gets an enumeration handle from an ENUM_HND structure. ********************************************************************/ uint32 get_enum_hnd(ENUM_HND *enh) { return (enh && enh->ptr_hnd != 0) ? enh->handle : 0; } /******************************************************************* makes an ENUM_HND structure. ********************************************************************/ void make_enum_hnd(ENUM_HND *enh, uint32 hnd) { if (enh == NULL) return; DEBUG(5,("smb_io_enum_hnd\n")); enh->ptr_hnd = (hnd != 0) ? 1 : 0; enh->handle = hnd; } /******************************************************************* reads or writes an ENUM_HND structure. ********************************************************************/ void smb_io_enum_hnd(char *desc, ENUM_HND *hnd, prs_struct *ps, int depth) { if (hnd == NULL) return; prs_debug(ps, depth, desc, "smb_io_enum_hnd"); depth++; prs_align(ps); prs_uint32("ptr_hnd", ps, depth, &(hnd->ptr_hnd)); /* pointer */ if (hnd->ptr_hnd != 0) { prs_uint32("handle ", ps, depth, &(hnd->handle )); /* enum handle */ } } /******************************************************************* reads or writes a DOM_SID structure. ********************************************************************/ void smb_io_dom_sid(char *desc, DOM_SID *sid, prs_struct *ps, int depth) { int i; if (sid == NULL) return; prs_debug(ps, depth, desc, "smb_io_dom_sid"); depth++; prs_align(ps); prs_uint8 ("sid_rev_num", ps, depth, &(sid->sid_rev_num)); prs_uint8 ("num_auths ", ps, depth, &(sid->num_auths)); for (i = 0; i < 6; i++) { fstring tmp; slprintf(tmp, sizeof(tmp) - 1, "id_auth[%d] ", i); prs_uint8 (tmp, ps, depth, &(sid->id_auth[i])); } /* oops! XXXX should really issue a warning here... */ if (sid->num_auths > MAXSUBAUTHS) sid->num_auths = MAXSUBAUTHS; prs_uint32s(False, "sub_auths ", ps, depth, sid->sub_auths, sid->num_auths); } /******************************************************************* creates a DOM_SID2 structure. ********************************************************************/ void make_dom_sid2(DOM_SID2 *sid2, DOM_SID *sid) { sid_copy(&sid2->sid, sid); sid2->num_auths = sid2->sid.num_auths; } /******************************************************************* reads or writes a DOM_SID2 structure. ********************************************************************/ void smb_io_dom_sid2(char *desc, DOM_SID2 *sid, prs_struct *ps, int depth) { if (sid == NULL) return; prs_debug(ps, depth, desc, "smb_io_dom_sid2"); depth++; prs_align(ps); prs_uint32("num_auths", ps, depth, &(sid->num_auths)); smb_io_dom_sid("sid", &(sid->sid), ps, depth); } /******************************************************************* creates a STRHDR structure. ********************************************************************/ void make_str_hdr(STRHDR *hdr, int max_len, int len, uint32 buffer) { hdr->str_max_len = max_len; hdr->str_str_len = len; hdr->buffer = buffer; } /******************************************************************* reads or writes a STRHDR structure. ********************************************************************/ void smb_io_strhdr(char *desc, STRHDR *hdr, prs_struct *ps, int depth) { if (hdr == NULL) return; prs_debug(ps, depth, desc, "smb_io_strhdr"); depth++; prs_align(ps); prs_uint16("str_str_len", ps, depth, &(hdr->str_str_len)); prs_uint16("str_max_len", ps, depth, &(hdr->str_max_len)); prs_uint32("buffer ", ps, depth, &(hdr->buffer )); /* oops! XXXX maybe issue a warning that this is happening... */ if (hdr->str_max_len > MAX_STRINGLEN) hdr->str_max_len = MAX_STRINGLEN; if (hdr->str_str_len > MAX_STRINGLEN) hdr->str_str_len = MAX_STRINGLEN; } /******************************************************************* creates a UNIHDR structure. ********************************************************************/ void make_uni_hdr(UNIHDR *hdr, int max_len, int len, uint32 buffer) { hdr->uni_str_len = 2 * len; hdr->uni_max_len = 2 * max_len; hdr->buffer = buffer; } /******************************************************************* reads or writes a UNIHDR structure. ********************************************************************/ void smb_io_unihdr(char *desc, UNIHDR *hdr, prs_struct *ps, int depth) { if (hdr == NULL) return; prs_debug(ps, depth, desc, "smb_io_unihdr"); depth++; prs_align(ps); prs_uint16("uni_str_len", ps, depth, &(hdr->uni_str_len)); prs_uint16("uni_max_len", ps, depth, &(hdr->uni_max_len)); prs_uint32("buffer ", ps, depth, &(hdr->buffer )); /* oops! XXXX maybe issue a warning that this is happening... */ if (hdr->uni_max_len > MAX_UNISTRLEN) hdr->uni_max_len = MAX_UNISTRLEN; if (hdr->uni_str_len > MAX_UNISTRLEN) hdr->uni_str_len = MAX_UNISTRLEN; } /******************************************************************* creates a BUFHDR structure. ********************************************************************/ void make_buf_hdr(BUFHDR *hdr, int max_len, int len) { hdr->buf_max_len = max_len; hdr->buf_len = len; } /******************************************************************* prs_uint16 wrapper. call this and it sets up a pointer to where the uint16 should be stored, or gets the size if reading ********************************************************************/ void smb_io_hdrbuf_pre(char *desc, BUFHDR *hdr, prs_struct *ps, int depth, uint32 *offset) { (*offset) = ps->offset; if (ps->io) { /* reading. */ smb_io_hdrbuf(desc, hdr, ps, depth); } else { ps->offset += sizeof(uint32) * 2; } } /******************************************************************* smb_io_hdrbuf wrapper. call this and it retrospectively stores the size. does nothing on reading, as that is already handled by ...._pre() ********************************************************************/ void smb_io_hdrbuf_post(char *desc, BUFHDR *hdr, prs_struct *ps, int depth, uint32 ptr_hdrbuf, uint32 max_len, uint32 len) { if (!ps->io) { /* storing: go back and do a retrospective job. i hate this */ uint32 old_offset = ps->offset; make_buf_hdr(hdr, max_len, len); ps->offset = ptr_hdrbuf; smb_io_hdrbuf(desc, hdr, ps, depth); ps->offset = old_offset; } } /******************************************************************* reads or writes a BUFHDR structure. ********************************************************************/ void smb_io_hdrbuf(char *desc, BUFHDR *hdr, prs_struct *ps, int depth) { if (hdr == NULL) return; prs_debug(ps, depth, desc, "smb_io_hdrbuf"); depth++; prs_align(ps); prs_uint32("buf_max_len", ps, depth, &(hdr->buf_max_len)); prs_uint32("buf_len ", ps, depth, &(hdr->buf_len )); /* oops! XXXX maybe issue a warning that this is happening... */ if (hdr->buf_max_len > MAX_BUFFERLEN) hdr->buf_max_len = MAX_BUFFERLEN; if (hdr->buf_len > MAX_BUFFERLEN) hdr->buf_len = MAX_BUFFERLEN; } /******************************************************************* creates a UNIHDR2 structure. ********************************************************************/ void make_uni_hdr2(UNIHDR2 *hdr, int max_len, int len, uint16 terminate) { make_uni_hdr(&(hdr->unihdr), max_len, len, terminate); hdr->buffer = len > 0 ? 1 : 0; } /******************************************************************* reads or writes a UNIHDR2 structure. ********************************************************************/ void smb_io_unihdr2(char *desc, UNIHDR2 *hdr2, prs_struct *ps, int depth) { if (hdr2 == NULL) return; prs_debug(ps, depth, desc, "smb_io_unihdr2"); depth++; prs_align(ps); smb_io_unihdr("hdr", &(hdr2->unihdr), ps, depth); prs_uint32("buffer", ps, depth, &(hdr2->buffer)); } /******************************************************************* creates a UNISTR structure. ********************************************************************/ void make_unistr(UNISTR *str, char *buf) { /* store the string (null-terminated copy) */ struni2((char *)(str->buffer), buf); } /******************************************************************* reads or writes a UNISTR structure. XXXX NOTE: UNISTR structures NEED to be null-terminated. ********************************************************************/ void smb_io_unistr(char *desc, UNISTR *uni, prs_struct *ps, int depth) { if (uni == NULL) return; prs_debug(ps, depth, desc, "smb_io_unistr"); depth++; prs_unistr("unistr", ps, depth, uni); } /******************************************************************* creates a BUFFER3 structure from a uint32 ********************************************************************/ void make_buffer3_uint32(BUFFER3 *str, uint32 val) { ZERO_STRUCTP(str); /* set up string lengths. */ str->buf_max_len = sizeof(uint32); str->buf_len = sizeof(uint32); SIVAL(str->buffer, 0, val); } /******************************************************************* creates a BUFFER3 structure. ********************************************************************/ void make_buffer3_str(BUFFER3 *str, char *buf, int len) { ZERO_STRUCTP(str); /* set up string lengths. */ str->buf_max_len = len * 2; str->buf_len = len * 2; /* store the string (null-terminated 8 bit chars into 16 bit chars) */ struni2(str->buffer, buf); } /******************************************************************* creates a BUFFER3 structure from a hex string. ********************************************************************/ void make_buffer3_hex(BUFFER3 *str, char *buf) { ZERO_STRUCTP(str); str->buf_max_len = str->buf_len = strhex_to_str((char *)str->buffer, sizeof(str->buffer), buf); } /******************************************************************* creates a BUFFER3 structure. ********************************************************************/ void make_buffer3_bytes(BUFFER3 *str, uint8 *buf, int len) { ZERO_STRUCTP(str); /* max buffer size (allocated size) */ str->buf_max_len = len; if (buf != NULL) { memcpy(str->buffer, buf, MIN(str->buf_len, sizeof(str->buffer))); } str->buf_len = buf != NULL ? len : 0; } /******************************************************************* reads or writes a BUFFER3 structure. the uni_max_len member tells you how large the buffer is. the uni_str_len member tells you how much of the buffer is really used. ********************************************************************/ void smb_io_buffer3(char *desc, BUFFER3 *buf3, prs_struct *ps, int depth) { if (buf3 == NULL) return; prs_debug(ps, depth, desc, "smb_io_buffer3"); depth++; prs_align(ps); prs_uint32("uni_max_len", ps, depth, &(buf3->buf_max_len)); if (buf3->buf_max_len > MAX_UNISTRLEN) buf3->buf_max_len = MAX_UNISTRLEN; prs_uint8s(True, "buffer ", ps, depth, buf3->buffer, buf3->buf_max_len); prs_uint32("buf_len ", ps, depth, &(buf3->buf_len)); if (buf3->buf_len > MAX_UNISTRLEN) buf3->buf_len = MAX_UNISTRLEN; } /******************************************************************* creates a BUFFER2 structure. ********************************************************************/ void make_buffer2(BUFFER2 *str, uint8 *buf, int len) { ZERO_STRUCTP(str); /* max buffer size (allocated size) */ str->buf_max_len = len; str->undoc = 0; str->buf_len = buf != NULL ? len : 0; if (buf != NULL) { memcpy(str->buffer, buf, MIN(str->buf_len, sizeof(str->buffer))); } } /******************************************************************* reads or writes a BUFFER2 structure. the uni_max_len member tells you how large the buffer is. the uni_str_len member tells you how much of the buffer is really used. ********************************************************************/ void smb_io_buffer2(char *desc, BUFFER2 *buf2, uint32 buffer, prs_struct *ps, int depth) { if (buf2 == NULL) return; if (buffer) { prs_debug(ps, depth, desc, "smb_io_buffer2"); depth++; prs_align(ps); prs_uint32("buf_max_len", ps, depth, &(buf2->buf_max_len)); prs_uint32("undoc ", ps, depth, &(buf2->undoc )); prs_uint32("buf_len ", ps, depth, &(buf2->buf_len)); /* oops! XXXX maybe issue a warning that this is happening... */ if (buf2->buf_max_len > MAX_UNISTRLEN) buf2->buf_max_len = MAX_UNISTRLEN; if (buf2->buf_len > MAX_UNISTRLEN) buf2->buf_len = MAX_UNISTRLEN; /* buffer advanced by indicated length of string NOT by searching for null-termination */ prs_buffer2(True, "buffer ", ps, depth, buf2); } else { prs_debug(ps, depth, desc, "smb_io_buffer2 - NULL"); depth++; bzero(buf2, sizeof(*buf2)); } } /******************************************************************* creates a UNISTR2 structure: sets up the buffer, too ********************************************************************/ void make_buf_unistr2(UNISTR2 *str, uint32 *ptr, char *buf) { if (buf != NULL) { *ptr = 1; make_unistr2(str, buf, strlen(buf)+1); } else { *ptr = 0; make_unistr2(str, "", 0); } } /******************************************************************* copies a UNISTR2 structure. ********************************************************************/ void copy_unistr2(UNISTR2 *str, UNISTR2 *from) { /* set up string lengths. add one if string is not null-terminated */ str->uni_max_len = from->uni_max_len; str->undoc = from->undoc; str->uni_str_len = from->uni_str_len; /* copy the string */ memcpy(str->buffer, from->buffer, sizeof(from->buffer)); } /******************************************************************* creates a STRING2 structure. ********************************************************************/ void make_string2(STRING2 *str, char *buf, int len) { /* set up string lengths. */ str->str_max_len = len; str->undoc = 0; str->str_str_len = len; /* store the string */ if(len != 0) memcpy(str->buffer, buf, len); } /******************************************************************* reads or writes a STRING2 structure. XXXX NOTE: STRING2 structures need NOT be null-terminated. the str_str_len member tells you how long the string is; the str_max_len member tells you how large the buffer is. ********************************************************************/ void smb_io_string2(char *desc, STRING2 *str2, uint32 buffer, prs_struct *ps, int depth) { if (str2 == NULL) return; if (buffer) { prs_debug(ps, depth, desc, "smb_io_string2"); depth++; prs_align(ps); prs_uint32("str_max_len", ps, depth, &(str2->str_max_len)); prs_uint32("undoc ", ps, depth, &(str2->undoc )); prs_uint32("str_str_len", ps, depth, &(str2->str_str_len)); /* oops! XXXX maybe issue a warning that this is happening... */ if (str2->str_max_len > MAX_STRINGLEN) str2->str_max_len = MAX_STRINGLEN; if (str2->str_str_len > MAX_STRINGLEN) str2->str_str_len = MAX_STRINGLEN; /* buffer advanced by indicated length of string NOT by searching for null-termination */ prs_string2(True, "buffer ", ps, depth, str2); } else { prs_debug(ps, depth, desc, "smb_io_string2 - NULL"); depth++; bzero(str2, sizeof(*str2)); } } /******************************************************************* creates a UNISTR2 structure. ********************************************************************/ void make_unistr2(UNISTR2 *str, char *buf, int len) { ZERO_STRUCTP(str); /* set up string lengths. */ str->uni_max_len = len; str->undoc = 0; str->uni_str_len = len; /* store the string (null-terminated 8 bit chars into 16 bit chars) */ struni2((char *)(str->buffer), buf); } /******************************************************************* reads or writes a UNISTR2 structure. XXXX NOTE: UNISTR2 structures need NOT be null-terminated. the uni_str_len member tells you how long the string is; the uni_max_len member tells you how large the buffer is. ********************************************************************/ void smb_io_unistr2(char *desc, UNISTR2 *uni2, uint32 buffer, prs_struct *ps, int depth) { if (uni2 == NULL) return; if (buffer) { prs_debug(ps, depth, desc, "smb_io_unistr2"); depth++; prs_align(ps); prs_uint32("uni_max_len", ps, depth, &(uni2->uni_max_len)); prs_uint32("undoc ", ps, depth, &(uni2->undoc )); prs_uint32("uni_str_len", ps, depth, &(uni2->uni_str_len)); /* oops! XXXX maybe issue a warning that this is happening... */ if (uni2->uni_max_len > MAX_UNISTRLEN) uni2->uni_max_len = MAX_UNISTRLEN; if (uni2->uni_str_len > MAX_UNISTRLEN) uni2->uni_str_len = MAX_UNISTRLEN; /* buffer advanced by indicated length of string NOT by searching for null-termination */ prs_unistr2(True, "buffer ", ps, depth, uni2); } else { prs_debug(ps, depth, desc, "smb_io_unistr2 - NULL"); depth++; bzero(uni2, sizeof(*uni2)); } } /******************************************************************* creates a DOM_RID2 structure. ********************************************************************/ void make_dom_rid2(DOM_RID2 *rid2, uint32 rid, uint8 type, uint32 idx) { rid2->type = type; rid2->rid = rid; rid2->rid_idx = idx; } /******************************************************************* reads or writes a DOM_RID2 structure. ********************************************************************/ void smb_io_dom_rid2(char *desc, DOM_RID2 *rid2, prs_struct *ps, int depth) { if (rid2 == NULL) return; prs_debug(ps, depth, desc, "smb_io_dom_rid2"); depth++; prs_align(ps); prs_uint8("type ", ps, depth, &(rid2->type)); prs_align(ps); prs_uint32("rid ", ps, depth, &(rid2->rid )); prs_uint32("rid_idx", ps, depth, &(rid2->rid_idx )); } /******************************************************************* creates a DOM_RID3 structure. ********************************************************************/ void make_dom_rid3(DOM_RID3 *rid3, uint32 rid, uint8 type) { rid3->rid = rid; rid3->type1 = type; rid3->ptr_type = 0x1; /* non-zero, basically. */ rid3->type2 = 0x1; rid3->unk = type; } /******************************************************************* reads or writes a DOM_RID3 structure. ********************************************************************/ void smb_io_dom_rid3(char *desc, DOM_RID3 *rid3, prs_struct *ps, int depth) { if (rid3 == NULL) return; prs_debug(ps, depth, desc, "smb_io_dom_rid3"); depth++; prs_align(ps); prs_uint32("rid ", ps, depth, &(rid3->rid )); prs_uint32("type1 ", ps, depth, &(rid3->type1 )); prs_uint32("ptr_type", ps, depth, &(rid3->ptr_type)); prs_uint32("type2 ", ps, depth, &(rid3->type2 )); prs_uint32("unk ", ps, depth, &(rid3->unk )); } /******************************************************************* creates a DOM_RID4 structure. ********************************************************************/ void make_dom_rid4(DOM_RID4 *rid4, uint16 unknown, uint16 attr, uint32 rid) { rid4->unknown = unknown; rid4->attr = attr; rid4->rid = rid; } /******************************************************************* makes a DOM_CLNT_SRV structure. ********************************************************************/ static void make_clnt_srv(DOM_CLNT_SRV *log, char *logon_srv, char *comp_name) { if (log == NULL) return; DEBUG(5,("make_clnt_srv: %d\n", __LINE__)); if (logon_srv != NULL) { log->undoc_buffer = 1; make_unistr2(&(log->uni_logon_srv), logon_srv, strlen(logon_srv)+1); } else { log->undoc_buffer = 0; } if (comp_name != NULL) { log->undoc_buffer2 = 1; make_unistr2(&(log->uni_comp_name), comp_name, strlen(comp_name)+1); } else { log->undoc_buffer2 = 0; } } /******************************************************************* reads or writes a DOM_CLNT_SRV structure. ********************************************************************/ static void smb_io_clnt_srv(char *desc, DOM_CLNT_SRV *log, prs_struct *ps, int depth) { if (log == NULL) return; prs_debug(ps, depth, desc, "smb_io_clnt_srv"); depth++; prs_align(ps); prs_uint32("undoc_buffer ", ps, depth, &(log->undoc_buffer )); if (log->undoc_buffer != 0) { smb_io_unistr2("unistr2", &(log->uni_logon_srv), log->undoc_buffer, ps, depth); } prs_align(ps); prs_uint32("undoc_buffer2", ps, depth, &(log->undoc_buffer2)); if (log->undoc_buffer2 != 0) { smb_io_unistr2("unistr2", &(log->uni_comp_name), log->undoc_buffer2, ps, depth); } } /******************************************************************* makes a DOM_LOG_INFO structure. ********************************************************************/ void make_log_info(DOM_LOG_INFO *log, char *logon_srv, char *acct_name, uint16 sec_chan, char *comp_name) { if (log == NULL) return; DEBUG(5,("make_log_info %d\n", __LINE__)); log->undoc_buffer = 1; make_unistr2(&(log->uni_logon_srv), logon_srv, strlen(logon_srv)+1); make_unistr2(&(log->uni_acct_name), acct_name, strlen(acct_name)+1); log->sec_chan = sec_chan; make_unistr2(&(log->uni_comp_name), comp_name, strlen(comp_name)+1); } /******************************************************************* reads or writes a DOM_LOG_INFO structure. ********************************************************************/ void smb_io_log_info(char *desc, DOM_LOG_INFO *log, prs_struct *ps, int depth) { if (log == NULL) return; prs_debug(ps, depth, desc, "smb_io_log_info"); depth++; prs_align(ps); prs_uint32("undoc_buffer", ps, depth, &(log->undoc_buffer)); smb_io_unistr2("unistr2", &(log->uni_logon_srv), True, ps, depth); smb_io_unistr2("unistr2", &(log->uni_acct_name), True, ps, depth); prs_uint16("sec_chan", ps, depth, &(log->sec_chan)); smb_io_unistr2("unistr2", &(log->uni_comp_name), True, ps, depth); } /******************************************************************* reads or writes a DOM_CHAL structure. ********************************************************************/ void smb_io_chal(char *desc, DOM_CHAL *chal, prs_struct *ps, int depth) { if (chal == NULL) return; prs_debug(ps, depth, desc, "smb_io_chal"); depth++; prs_align(ps); prs_uint8s (False, "data", ps, depth, chal->data, 8); } /******************************************************************* reads or writes a DOM_CRED structure. ********************************************************************/ void smb_io_cred(char *desc, DOM_CRED *cred, prs_struct *ps, int depth) { if (cred == NULL) return; prs_debug(ps, depth, desc, "smb_io_cred"); depth++; prs_align(ps); smb_io_chal ("", &(cred->challenge), ps, depth); smb_io_utime("", &(cred->timestamp), ps, depth); } /******************************************************************* makes a DOM_CLNT_INFO2 structure. ********************************************************************/ void make_clnt_info2(DOM_CLNT_INFO2 *clnt, char *logon_srv, char *comp_name, DOM_CRED *clnt_cred) { if (clnt == NULL) return; DEBUG(5,("make_clnt_info: %d\n", __LINE__)); make_clnt_srv(&(clnt->login), logon_srv, comp_name); if (clnt_cred != NULL) { clnt->ptr_cred = 1; memcpy(&(clnt->cred), clnt_cred, sizeof(clnt->cred)); } else { clnt->ptr_cred = 0; } } /******************************************************************* reads or writes a DOM_CLNT_INFO2 structure. ********************************************************************/ void smb_io_clnt_info2(char *desc, DOM_CLNT_INFO2 *clnt, prs_struct *ps, int depth) { if (clnt == NULL) return; prs_debug(ps, depth, desc, "smb_io_clnt_info2"); depth++; prs_align(ps); smb_io_clnt_srv("", &(clnt->login), ps, depth); prs_align(ps); prs_uint32("ptr_cred", ps, depth, &(clnt->ptr_cred)); smb_io_cred ("", &(clnt->cred ), ps, depth); } /******************************************************************* makes a DOM_CLNT_INFO structure. ********************************************************************/ void make_clnt_info(DOM_CLNT_INFO *clnt, char *logon_srv, char *acct_name, uint16 sec_chan, char *comp_name, DOM_CRED *cred) { if (clnt == NULL || cred == NULL) return; DEBUG(5,("make_clnt_info\n")); make_log_info(&(clnt->login), logon_srv, acct_name, sec_chan, comp_name); memcpy(&(clnt->cred), cred, sizeof(clnt->cred)); } /******************************************************************* reads or writes a DOM_CLNT_INFO structure. ********************************************************************/ void smb_io_clnt_info(char *desc, DOM_CLNT_INFO *clnt, prs_struct *ps, int depth) { if (clnt == NULL) return; prs_debug(ps, depth, desc, "smb_io_clnt_info"); depth++; prs_align(ps); smb_io_log_info("", &(clnt->login), ps, depth); smb_io_cred ("", &(clnt->cred ), ps, depth); } /******************************************************************* makes a DOM_LOGON_ID structure. ********************************************************************/ void make_logon_id(DOM_LOGON_ID *log, uint32 log_id_low, uint32 log_id_high) { if (log == NULL) return; DEBUG(5,("make_logon_id: %d\n", __LINE__)); log->low = log_id_low; log->high = log_id_high; } /******************************************************************* reads or writes a DOM_LOGON_ID structure. ********************************************************************/ void smb_io_logon_id(char *desc, DOM_LOGON_ID *log, prs_struct *ps, int depth) { if (log == NULL) return; prs_debug(ps, depth, desc, "smb_io_logon_id"); depth++; prs_align(ps); prs_uint32("low ", ps, depth, &(log->low )); prs_uint32("high", ps, depth, &(log->high)); } /******************************************************************* makes an OWF_INFO structure. ********************************************************************/ void make_owf_info(OWF_INFO *hash, uint8 data[16]) { if (hash == NULL) return; DEBUG(5,("make_owf_info: %d\n", __LINE__)); if (data != NULL) { memcpy(hash->data, data, sizeof(hash->data)); } else { bzero(hash->data, sizeof(hash->data)); } } /******************************************************************* reads or writes an OWF_INFO structure. ********************************************************************/ void smb_io_owf_info(char *desc, OWF_INFO *hash, prs_struct *ps, int depth) { if (hash == NULL) return; prs_debug(ps, depth, desc, "smb_io_owf_info"); depth++; prs_align(ps); prs_uint8s (False, "data", ps, depth, hash->data, 16); } /******************************************************************* reads or writes a DOM_GID structure. ********************************************************************/ void smb_io_gid(char *desc, DOM_GID *gid, prs_struct *ps, int depth) { if (gid == NULL) return; prs_debug(ps, depth, desc, "smb_io_gid"); depth++; prs_align(ps); prs_uint32("g_rid", ps, depth, &(gid->g_rid)); prs_uint32("attr ", ps, depth, &(gid->attr )); } /******************************************************************* reads or writes an POLICY_HND structure. ********************************************************************/ void smb_io_pol_hnd(char *desc, POLICY_HND *pol, prs_struct *ps, int depth) { if (pol == NULL) return; prs_debug(ps, depth, desc, "smb_io_pol_hnd"); depth++; prs_align(ps); prs_uint8s (False, "data", ps, depth, pol->data, POL_HND_SIZE); } /******************************************************************* reads or writes a dom query structure. ********************************************************************/ static void smb_io_dom_query(char *desc, DOM_QUERY *d_q, prs_struct *ps, int depth) { if (d_q == NULL) return; prs_debug(ps, depth, desc, "smb_io_dom_query"); depth++; prs_align(ps); prs_uint16("uni_dom_max_len", ps, depth, &(d_q->uni_dom_max_len)); /* domain name string length * 2 */ prs_uint16("uni_dom_str_len", ps, depth, &(d_q->uni_dom_str_len)); /* domain name string length * 2 */ prs_uint32("buffer_dom_name", ps, depth, &(d_q->buffer_dom_name)); /* undocumented domain name string buffer pointer */ prs_uint32("buffer_dom_sid ", ps, depth, &(d_q->buffer_dom_sid )); /* undocumented domain SID string buffer pointer */ smb_io_unistr2("unistr2", &(d_q->uni_domain_name), d_q->buffer_dom_name, ps, depth); /* domain name (unicode string) */ if (d_q->buffer_dom_sid != 0) { smb_io_dom_sid2("", &(d_q->dom_sid), ps, depth); /* domain SID */ } else { bzero(&(d_q->dom_sid), sizeof(d_q->dom_sid)); } } /******************************************************************* reads or writes a dom query structure. ********************************************************************/ void smb_io_dom_query_3(char *desc, DOM_QUERY_3 *d_q, prs_struct *ps, int depth) { smb_io_dom_query("", d_q, ps, depth); } /******************************************************************* reads or writes a dom query structure. ********************************************************************/ void smb_io_dom_query_5(char *desc, DOM_QUERY_3 *d_q, prs_struct *ps, int depth) { smb_io_dom_query("", d_q, ps, depth); } /******************************************************************* reads or writes a UNISTR3 structure. ********************************************************************/ void smb_io_unistr3(char *desc, UNISTR3 *name, prs_struct *ps, int depth) { if (name == NULL) return; prs_debug(ps, depth, desc, "smb_io_unistr3"); depth++; prs_align(ps); prs_uint32("uni_str_len", ps, depth, &(name->uni_str_len)); /* don't know if len is specified by uni_str_len member... */ /* assume unicode string is unicode-null-terminated, instead */ prs_unistr3(True, "unistr", name, ps, depth); }