samba-mirror/source/rpc_parse/parse_reg.c

/* 
 *  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;


/*******************************************************************
creates a structure.
********************************************************************/
void make_reg_q_open_hklm(REG_Q_OPEN_HKLM *q_o,
				uint16 unknown_0, uint32 level)
{
	q_o->ptr = 1;
	q_o->unknown_0 = unknown_0;
	q_o->unknown_1 = 0x0; /* random - changes */
	q_o->level = level;
}

/*******************************************************************
reads or writes a structure.
********************************************************************/
void reg_io_q_open_hklm(char *desc,  REG_Q_OPEN_HKLM *r_q, prs_struct *ps, int depth)
{
	if (r_q == NULL) return;

	prs_debug(ps, depth, desc, "reg_io_q_open_hklm");
	depth++;

	prs_align(ps);
	
	prs_uint32("ptr      ", ps, depth, &(r_q->ptr      ));
	if (r_q->ptr != 0)
	{
		prs_uint16("unknown_0", ps, depth, &(r_q->unknown_0));
		prs_uint16("unknown_1", ps, depth, &(r_q->unknown_1));
		prs_uint32("level    ", ps, depth, &(r_q->level    ));
	}
}


/*******************************************************************
reads or writes a structure.
********************************************************************/
void reg_io_r_open_hklm(char *desc,  REG_R_OPEN_HKLM *r_r, prs_struct *ps, int depth)
{
	if (r_r == NULL) return;

	prs_debug(ps, depth, desc, "reg_io_r_open_hklm");
	depth++;

	prs_align(ps);
	
	smb_io_pol_hnd("", &(r_r->pol), ps, depth);

	prs_uint32("status", ps, depth, &(r_r->status));
}


/*******************************************************************
creates a structure.
********************************************************************/
void make_reg_q_flush_key(REG_Q_FLUSH_KEY *q_u, POLICY_HND *pol)
{
	memcpy(&(q_u->pol), pol, sizeof(q_u->pol));
}

/*******************************************************************
reads or writes a structure.
********************************************************************/
void reg_io_q_flush_key(char *desc,  REG_Q_FLUSH_KEY *r_q, prs_struct *ps, int depth)
{
	if (r_q == NULL) return;

	prs_debug(ps, depth, desc, "reg_io_q_flush_key");
	depth++;

	prs_align(ps);
	
	smb_io_pol_hnd("", &(r_q->pol), ps, depth);
}


/*******************************************************************
reads or writes a structure.
********************************************************************/
void reg_io_r_flush_key(char *desc,  REG_R_FLUSH_KEY *r_r, prs_struct *ps, int depth)
{
	if (r_r == NULL) return;

	prs_debug(ps, depth, desc, "reg_io_r_flush_key");
	depth++;

	prs_align(ps);
	
	prs_uint32("status", ps, depth, &(r_r->status));
}

/*******************************************************************
reads or writes SEC_DESC_BUF and SEC_DATA structures.
********************************************************************/
static void reg_io_hdrbuf_sec(uint32 ptr, uint32 *ptr3, BUFHDR *hdr_sec, SEC_DESC_BUF *data, prs_struct *ps, int depth)
{
	if (ptr != 0)
	{
		uint32 hdr_offset;
		uint32 old_offset;
		smb_io_hdrbuf_pre("hdr_sec", hdr_sec, ps, depth, &hdr_offset);
		old_offset = ps->offset;
		if (ptr3 != NULL)
		{
			prs_uint32("ptr3", ps, depth, ptr3);
		}
		if (ptr3 == NULL || *ptr3 != 0)
		{
			/* JRA - this line is probably wrong... */
			sec_io_desc_buf("data   ", &data   , ps, depth);
		}
		smb_io_hdrbuf_post("hdr_sec", hdr_sec, ps, depth, hdr_offset,
		                   data->max_len, data->len);
		ps->offset = old_offset + data->len + sizeof(uint32) * ((ptr3 != NULL) ? 5 : 3);
		prs_align(ps);
	}
}


/*******************************************************************
creates a structure.
********************************************************************/
void make_reg_q_create_key(REG_Q_CREATE_KEY *q_c, POLICY_HND *hnd,
				char *name, char *class,
				SEC_ACCESS *sam_access,
				SEC_DESC_BUF *sec_buf)
{
	int len_name  = name  != NULL ? strlen(name ) + 1: 0;
	int len_class = class != NULL ? strlen(class) + 1: 0;

	ZERO_STRUCTP(q_c);

	memcpy(&(q_c->pnt_pol), hnd, sizeof(q_c->pnt_pol));

	make_uni_hdr(&(q_c->hdr_name), len_name, len_name, 1);
	make_unistr2(&(q_c->uni_name), name, len_name);

	make_uni_hdr(&(q_c->hdr_class), len_class, len_class, 1);
	make_unistr2(&(q_c->uni_class), class, len_class);

	q_c->reserved = 0x00000000;
	memcpy(&(q_c->sam_access), sam_access, sizeof(q_c->sam_access));

	q_c->ptr1 = 1;
	q_c->sec_info = DACL_SECURITY_INFORMATION | SACL_SECURITY_INFORMATION;

	q_c->data = sec_buf;
	q_c->ptr2 = 1;
	make_buf_hdr(&(q_c->hdr_sec), sec_buf->len, sec_buf->len);
	q_c->ptr3 = 1;

	q_c->unknown_2 = 0x00000000;
}

/*******************************************************************
reads or writes a structure.
********************************************************************/
void reg_io_q_create_key(char *desc,  REG_Q_CREATE_KEY *r_q, prs_struct *ps, int depth)
{
	if (r_q == NULL) return;

	prs_debug(ps, depth, desc, "reg_io_q_create_key");
	depth++;

	prs_align(ps);
	
	smb_io_pol_hnd("", &(r_q->pnt_pol), ps, depth);

	smb_io_unihdr ("", &(r_q->hdr_name), ps, depth);
	smb_io_unistr2("", &(r_q->uni_name), r_q->hdr_name.buffer, ps, depth);
	prs_align(ps);

	smb_io_unihdr ("", &(r_q->hdr_class), ps, depth);
	smb_io_unistr2("", &(r_q->uni_class), r_q->hdr_class.buffer, ps, depth);
	prs_align(ps);

	prs_uint32("reserved", ps, depth, &(r_q->reserved));
	sec_io_access("sam_access", &r_q->sam_access, ps, depth);

	prs_uint32("ptr1", ps, depth, &(r_q->ptr1));
	if (r_q->ptr1 != 0)
	{
		prs_uint32("sec_info", ps, depth, &(r_q->sec_info));
	}

	prs_uint32("ptr2", ps, depth, &(r_q->ptr2));
	reg_io_hdrbuf_sec(r_q->ptr2, &r_q->ptr3, &r_q->hdr_sec, r_q->data, ps, depth);

	prs_uint32("unknown_2", ps, depth, &(r_q->unknown_2));
}


/*******************************************************************
reads or writes a structure.
********************************************************************/
void reg_io_r_create_key(char *desc,  REG_R_CREATE_KEY *r_r, prs_struct *ps, int depth)
{
	if (r_r == NULL) return;

	prs_debug(ps, depth, desc, "reg_io_r_create_key");
	depth++;

	prs_align(ps);
	
	smb_io_pol_hnd("", &(r_r->key_pol), ps, depth);
	prs_uint32("unknown", ps, depth, &(r_r->unknown));

	prs_uint32("status", ps, depth, &(r_r->status));
}


/*******************************************************************
creates a structure.
********************************************************************/
void make_reg_q_delete_val(REG_Q_DELETE_VALUE *q_c, POLICY_HND *hnd,
				char *name)
{
	int len_name  = name  != NULL ? strlen(name ) + 1: 0;
	ZERO_STRUCTP(q_c);

	memcpy(&(q_c->pnt_pol), hnd, sizeof(q_c->pnt_pol));

	make_uni_hdr(&(q_c->hdr_name), len_name, len_name, 1);
	make_unistr2(&(q_c->uni_name), name, len_name);
}

/*******************************************************************
reads or writes a structure.
********************************************************************/
void reg_io_q_delete_val(char *desc,  REG_Q_DELETE_VALUE *r_q, prs_struct *ps, int depth)
{
	if (r_q == NULL) return;

	prs_debug(ps, depth, desc, "reg_io_q_delete_val");
	depth++;

	prs_align(ps);
	
	smb_io_pol_hnd("", &(r_q->pnt_pol), ps, depth);

	smb_io_unihdr ("", &(r_q->hdr_name), ps, depth);
	smb_io_unistr2("", &(r_q->uni_name), r_q->hdr_name.buffer, ps, depth);
	prs_align(ps);
}


/*******************************************************************
reads or writes a structure.
********************************************************************/
void reg_io_r_delete_val(char *desc,  REG_R_DELETE_VALUE *r_r, prs_struct *ps, int depth)
{
	if (r_r == NULL) return;

	prs_debug(ps, depth, desc, "reg_io_r_delete_val");
	depth++;

	prs_align(ps);
	
	prs_uint32("status", ps, depth, &(r_r->status));
}


/*******************************************************************
creates a structure.
********************************************************************/
void make_reg_q_delete_key(REG_Q_DELETE_KEY *q_c, POLICY_HND *hnd,
				char *name)
{
	int len_name  = name  != NULL ? strlen(name ) + 1: 0;
	ZERO_STRUCTP(q_c);

	memcpy(&(q_c->pnt_pol), hnd, sizeof(q_c->pnt_pol));

	make_uni_hdr(&(q_c->hdr_name), len_name, len_name, 1);
	make_unistr2(&(q_c->uni_name), name, len_name);
}

/*******************************************************************
reads or writes a structure.
********************************************************************/
void reg_io_q_delete_key(char *desc,  REG_Q_DELETE_KEY *r_q, prs_struct *ps, int depth)
{
	if (r_q == NULL) return;

	prs_debug(ps, depth, desc, "reg_io_q_delete_key");
	depth++;

	prs_align(ps);
	
	smb_io_pol_hnd("", &(r_q->pnt_pol), ps, depth);

	smb_io_unihdr ("", &(r_q->hdr_name), ps, depth);
	smb_io_unistr2("", &(r_q->uni_name), r_q->hdr_name.buffer, ps, depth);
	prs_align(ps);
}


/*******************************************************************
reads or writes a structure.
********************************************************************/
void reg_io_r_delete_key(char *desc,  REG_R_DELETE_KEY *r_r, prs_struct *ps, int depth)
{
	if (r_r == NULL) return;

	prs_debug(ps, depth, desc, "reg_io_r_delete_key");
	depth++;

	prs_align(ps);
	
	prs_uint32("status", ps, depth, &(r_r->status));
}


/*******************************************************************
creates a structure.
********************************************************************/
void make_reg_q_query_key(REG_Q_QUERY_KEY *q_o, POLICY_HND *hnd,
				uint32 max_class_len)
{
	ZERO_STRUCTP(q_o);

	memcpy(&(q_o->pol), hnd, sizeof(q_o->pol));
	make_uni_hdr(&q_o->hdr_class, max_class_len, 0, max_class_len > 0 ? 1 : 0);
	q_o->uni_class.uni_max_len = max_class_len;
}

/*******************************************************************
reads or writes a structure.
********************************************************************/
void reg_io_q_query_key(char *desc,  REG_Q_QUERY_KEY *r_q, prs_struct *ps, int depth)
{
	if (r_q == NULL) return;

	prs_debug(ps, depth, desc, "reg_io_q_query_key");
	depth++;

	prs_align(ps);
	
	smb_io_pol_hnd("", &(r_q->pol), ps, depth);
	smb_io_unihdr ("", &(r_q->hdr_class), ps, depth);
	smb_io_unistr2("", &(r_q->uni_class), r_q->hdr_class.buffer, ps, depth);

	prs_align(ps);
}


/*******************************************************************
reads or writes a structure.
********************************************************************/
void reg_io_r_query_key(char *desc,  REG_R_QUERY_KEY *r_r, prs_struct *ps, int depth)
{
	if (r_r == NULL) return;

	prs_debug(ps, depth, desc, "reg_io_r_query_key");
	depth++;

	prs_align(ps);
	
	smb_io_unihdr ("", &(r_r->hdr_class), ps, depth);
	smb_io_unistr2("", &(r_r->uni_class), r_r->hdr_class.buffer, ps, depth);

	prs_align(ps);

	prs_uint32("num_subkeys   ", ps, depth, &(r_r->num_subkeys   ));
	prs_uint32("max_subkeylen ", ps, depth, &(r_r->max_subkeylen ));
	prs_uint32("mak_subkeysize", ps, depth, &(r_r->max_subkeysize));
	prs_uint32("num_values    ", ps, depth, &(r_r->num_values    ));
	prs_uint32("max_valnamelen", ps, depth, &(r_r->max_valnamelen));
	prs_uint32("max_valbufsize", ps, depth, &(r_r->max_valbufsize));
	prs_uint32("sec_desc      ", ps, depth, &(r_r->sec_desc      ));
	smb_io_time("mod_time     ", &(r_r->mod_time), ps, depth);
	
	prs_uint32("status", ps, depth, &(r_r->status));
}


/*******************************************************************
creates a structure.
********************************************************************/
void make_reg_q_unk_1a(REG_Q_UNK_1A *q_o, POLICY_HND *hnd)
{
	memcpy(&(q_o->pol), hnd, sizeof(q_o->pol));
}

/*******************************************************************
reads or writes a structure.
********************************************************************/
void reg_io_q_unk_1a(char *desc,  REG_Q_UNK_1A *r_q, prs_struct *ps, int depth)
{
	if (r_q == NULL) return;

	prs_debug(ps, depth, desc, "reg_io_q_unk_1a");
	depth++;

	prs_align(ps);
	
	smb_io_pol_hnd("", &(r_q->pol), ps, depth);
}


/*******************************************************************
reads or writes a structure.
********************************************************************/
void reg_io_r_unk_1a(char *desc,  REG_R_UNK_1A *r_r, prs_struct *ps, int depth)
{
	if (r_r == NULL) return;

	prs_debug(ps, depth, desc, "reg_io_r_unk_1a");
	depth++;

	prs_align(ps);
	
	prs_uint32("unknown", ps, depth, &(r_r->unknown));
	prs_uint32("status" , ps, depth, &(r_r->status ));
}


/*******************************************************************
creates a structure.
********************************************************************/
void make_reg_q_open_hku(REG_Q_OPEN_HKU *q_o,
				uint16 unknown_0, uint32 level)
{
	q_o->ptr = 1;
	q_o->unknown_0 = unknown_0;
	q_o->unknown_1 = 0x0; /* random - changes */
	q_o->level = level;
}

/*******************************************************************
reads or writes a structure.
********************************************************************/
void reg_io_q_open_hku(char *desc,  REG_Q_OPEN_HKU *r_q, prs_struct *ps, int depth)
{
	if (r_q == NULL) return;

	prs_debug(ps, depth, desc, "reg_io_q_open_hku");
	depth++;

	prs_align(ps);
	
	prs_uint32("ptr      ", ps, depth, &(r_q->ptr      ));
	if (r_q->ptr != 0)
	{
		prs_uint16("unknown_0", ps, depth, &(r_q->unknown_0));
		prs_uint16("unknown_1", ps, depth, &(r_q->unknown_1));
		prs_uint32("level    ", ps, depth, &(r_q->level    ));
	}
}


/*******************************************************************
reads or writes a structure.
********************************************************************/
void reg_io_r_open_hku(char *desc,  REG_R_OPEN_HKU *r_r, prs_struct *ps, int depth)
{
	if (r_r == NULL) return;

	prs_debug(ps, depth, desc, "reg_io_r_open_hku");
	depth++;

	prs_align(ps);
	
	smb_io_pol_hnd("", &(r_r->pol), ps, depth);

	prs_uint32("status", ps, depth, &(r_r->status));
}


/*******************************************************************
makes an REG_Q_CLOSE structure.
********************************************************************/
void make_reg_q_close(REG_Q_CLOSE *q_c, POLICY_HND *hnd)
{
	if (q_c == NULL || hnd == NULL) return;

	DEBUG(5,("make_reg_q_close\n"));

	memcpy(&(q_c->pol), hnd, sizeof(q_c->pol));
}

/*******************************************************************
reads or writes a structure.
********************************************************************/
void reg_io_q_close(char *desc,  REG_Q_CLOSE *q_u, prs_struct *ps, int depth)
{
	if (q_u == NULL) return;

	prs_debug(ps, depth, desc, "reg_io_q_unknown_1");
	depth++;

	prs_align(ps);

	smb_io_pol_hnd("", &(q_u->pol), ps, depth); 
	prs_align(ps);
}

/*******************************************************************
reads or writes a structure.
********************************************************************/
void reg_io_r_close(char *desc,  REG_R_CLOSE *r_u, prs_struct *ps, int depth)
{
	if (r_u == NULL) return;

	prs_debug(ps, depth, desc, "reg_io_r_unknown_1");
	depth++;

	prs_align(ps);

	smb_io_pol_hnd("", &(r_u->pol), ps, depth); 
	prs_align(ps);

	prs_uint32("status", ps, depth, &(r_u->status));
}

/*******************************************************************
makes a structure.
********************************************************************/
void make_reg_q_set_key_sec(REG_Q_SET_KEY_SEC *q_i, POLICY_HND *pol,
				SEC_DESC_BUF *sec_desc_buf)
{
	if (q_i == NULL) return;

	memcpy(&(q_i->pol), pol, sizeof(q_i->pol));

	q_i->sec_info = DACL_SECURITY_INFORMATION;

	q_i->ptr = 1;
	make_buf_hdr(&(q_i->hdr_sec), sec_desc_buf->len, sec_desc_buf->len);
	q_i->data = sec_desc_buf;
}

/*******************************************************************
reads or writes a structure.
********************************************************************/
void reg_io_q_set_key_sec(char *desc,  REG_Q_SET_KEY_SEC *r_q, prs_struct *ps, int depth)
{
	if (r_q == NULL) return;

	prs_debug(ps, depth, desc, "reg_io_q_set_key_sec");
	depth++;

	prs_align(ps);
	
	smb_io_pol_hnd("", &(r_q->pol), ps, depth); 

	prs_uint32("sec_info", ps, depth, &(r_q->sec_info));
	prs_uint32("ptr    ", ps, depth, &(r_q->ptr    ));

	reg_io_hdrbuf_sec(r_q->ptr, NULL, &r_q->hdr_sec, r_q->data, ps, depth);
}

/*******************************************************************
reads or writes a structure.
********************************************************************/
void reg_io_r_set_key_sec(char *desc, REG_R_SET_KEY_SEC *r_q, prs_struct *ps, int depth)
{
	if (r_q == NULL) return;

	prs_debug(ps, depth, desc, "reg_io_r_set_key_sec");
	depth++;

	prs_align(ps);
	
	prs_uint32("status", ps, depth, &(r_q->status));
}


/*******************************************************************
makes a structure.
********************************************************************/
void make_reg_q_get_key_sec(REG_Q_GET_KEY_SEC *q_i, POLICY_HND *pol, 
				uint32 sec_buf_size, SEC_DESC_BUF *psdb)
{
	if (q_i == NULL) return;

	memcpy(&(q_i->pol), pol, sizeof(q_i->pol));

	q_i->sec_info = OWNER_SECURITY_INFORMATION |
	                GROUP_SECURITY_INFORMATION |
	                DACL_SECURITY_INFORMATION;

	q_i->ptr = psdb != NULL ? 1 : 0;
	q_i->data = psdb;

	make_buf_hdr(&(q_i->hdr_sec), sec_buf_size, 0);
}

/*******************************************************************
reads or writes a structure.
********************************************************************/
void reg_io_q_get_key_sec(char *desc,  REG_Q_GET_KEY_SEC *r_q, prs_struct *ps, int depth)
{
	if (r_q == NULL) return;

	prs_debug(ps, depth, desc, "reg_io_q_get_key_sec");
	depth++;

	prs_align(ps);
	
	smb_io_pol_hnd("", &(r_q->pol), ps, depth); 

	prs_uint32("sec_info", ps, depth, &(r_q->sec_info));
	prs_uint32("ptr     ", ps, depth, &(r_q->ptr     ));

	reg_io_hdrbuf_sec(r_q->ptr, NULL, &r_q->hdr_sec, r_q->data, ps, depth);
}

#if 0
/*******************************************************************
makes a structure.
********************************************************************/
 void make_reg_r_get_key_sec(REG_R_GET_KEY_SEC *r_i, POLICY_HND *pol, 
				uint32 buf_len, uint8 *buf,
				uint32 status)
{
	if (r_i == NULL) return;

	r_i->ptr = 1;
	make_buf_hdr(&(r_i->hdr_sec), buf_len, buf_len);
	make_sec_desc_buf(r_i->data, buf_len, 1);

	r_i->status = status; /* 0x0000 0000 or 0x0000 007a */
}
#endif 

/*******************************************************************
reads or writes a structure.
********************************************************************/
void reg_io_r_get_key_sec(char *desc,  REG_R_GET_KEY_SEC *r_q, prs_struct *ps, int depth)
{
	if (r_q == NULL) return;

	prs_debug(ps, depth, desc, "reg_io_r_get_key_sec");
	depth++;

	prs_align(ps);
	
	prs_uint32("ptr      ", ps, depth, &(r_q->ptr      ));

	if (r_q->ptr != 0)
	{
		sec_io_desc_buf("", &r_q->data, ps, depth);

		prs_align(ps);
	}

	prs_uint32("status", ps, depth, &(r_q->status));
}


/*******************************************************************
makes a structure.
********************************************************************/
void make_reg_q_info(REG_Q_INFO *q_i, POLICY_HND *pol, char *product_type,
				time_t unix_time, uint8 major, uint8 minor)
{
	int len_type  = strlen(product_type);

	if (q_i == NULL) return;

	memcpy(&(q_i->pol), pol, sizeof(q_i->pol));

	make_uni_hdr(&(q_i->hdr_type), len_type, len_type, 1);
	make_unistr2(&(q_i->uni_type), product_type, len_type);

	q_i->ptr1 = 1;
	unix_to_nt_time(&(q_i->time), unix_time);
	q_i->major_version1 = major;
	q_i->minor_version1 = minor;
	memset(q_i->pad1, 0, sizeof(q_i->pad1));

	q_i->ptr2 = 1;
	q_i->major_version2 = major;
	q_i->minor_version2 = minor;
	memset(q_i->pad2, 0, sizeof(q_i->pad2));

	q_i->ptr3 = 1;
	q_i->unknown = 0x00000000;
}

/*******************************************************************
reads or writes a structure.
********************************************************************/
void reg_io_q_info(char *desc,  REG_Q_INFO *r_q, prs_struct *ps, int depth)
{
	if (r_q == NULL) return;

	prs_debug(ps, depth, desc, "reg_io_q_info");
	depth++;

	prs_align(ps);
	
	smb_io_pol_hnd("", &(r_q->pol), ps, depth); 
	smb_io_unihdr ("", &(r_q->hdr_type), ps, depth);
	smb_io_unistr2("", &(r_q->uni_type), r_q->hdr_type.buffer, ps, depth);

	prs_align(ps);
	
	prs_uint32("ptr1", ps, depth, &(r_q->ptr1));

	if (r_q->ptr1 != 0)
	{
		smb_io_time("", &(r_q->time), ps, depth);
		prs_uint8 ("major_version1", ps, depth, &(r_q->major_version1));
		prs_uint8 ("minor_version1", ps, depth, &(r_q->minor_version1));
		prs_uint8s(False, "pad1", ps, depth, r_q->pad1, sizeof(r_q->pad1));
	}

	prs_uint32("ptr2", ps, depth, &(r_q->ptr2));

	if (r_q->ptr2 != 0)
	{
		prs_uint8 ("major_version2", ps, depth, &(r_q->major_version2));
		prs_uint8 ("minor_version2", ps, depth, &(r_q->minor_version2));
		prs_uint8s(False, "pad2", ps, depth, r_q->pad2, sizeof(r_q->pad2));
	}

	prs_uint32("ptr3", ps, depth, &(r_q->ptr3));

	if (r_q->ptr3 != 0)
	{
		prs_uint32("unknown", ps, depth, &(r_q->unknown));
	}
}


/*******************************************************************
creates a structure.
********************************************************************/
void make_reg_r_info(REG_R_INFO *r_r,
				uint32 level, char *os_type,
				uint32 status)
{
	char buf[512];
	int len;

	len = ascii_to_unibuf(buf, os_type, sizeof(buf)-2) - buf;

	r_r->ptr1 = 1;
	r_r->level = level;

	r_r->ptr_type = 1;
	make_buffer2(&(r_r->uni_type), buf, len);

	r_r->ptr2 = 1;
	r_r->unknown_0 = len;

	r_r->ptr3 = 1;
	r_r->unknown_1 = len;

	r_r->status = status;
}

/*******************************************************************
reads or writes a structure.
********************************************************************/
void reg_io_r_info(char *desc, REG_R_INFO *r_r, prs_struct *ps, int depth)
{
	if (r_r == NULL) return;

	prs_debug(ps, depth, desc, "reg_io_r_info");
	depth++;

	prs_align(ps);
	
	prs_uint32("ptr1", ps, depth, &(r_r->ptr1));

	if (r_r->ptr1 != 0)
	{
		prs_uint32("level", ps, depth, &(r_r->level));
		prs_uint32("ptr_type", ps, depth, &(r_r->ptr_type));

		smb_io_buffer2("uni_type", &(r_r->uni_type), r_r->ptr_type, ps, depth);
		prs_align(ps);

		prs_uint32("ptr2", ps, depth, &(r_r->ptr2));

		if (r_r->ptr2 != 0)
		{
			prs_uint32("unknown_0", ps, depth, &(r_r->unknown_0));
		}

		prs_uint32("ptr3", ps, depth, &(r_r->ptr3));

		if (r_r->ptr3 != 0)
		{
			prs_uint32("unknown_1", ps, depth, &(r_r->unknown_1));
		}

	}
	prs_uint32("status", ps, depth, &(r_r->status));
}

/*******************************************************************
makes a structure.
********************************************************************/
void make_reg_q_enum_val(REG_Q_ENUM_VALUE *q_i, POLICY_HND *pol,
				uint32 val_idx, uint32 max_val_len,
				uint32 max_buf_len)
{
	if (q_i == NULL) return;

	ZERO_STRUCTP(q_i);

	memcpy(&(q_i->pol), pol, sizeof(q_i->pol));

	q_i->val_index = val_idx;
	make_uni_hdr(&q_i->hdr_name, max_val_len, 0, 1);
	q_i->uni_name.uni_max_len = max_val_len;
	
	q_i->ptr_type = 1;
	q_i->type = 0x0;

	q_i->ptr_value = 1;
	q_i->buf_value.buf_max_len = max_buf_len;

	q_i->ptr1 = 1;
	q_i->len_value1 = max_buf_len;

	q_i->ptr2 = 1;
	q_i->len_value2 = 0;
}

/*******************************************************************
reads or writes a structure.
********************************************************************/
void reg_io_q_enum_val(char *desc,  REG_Q_ENUM_VALUE *q_q, prs_struct *ps, int depth)
{
	if (q_q == NULL) return;

	prs_debug(ps, depth, desc, "reg_io_q_enum_val");
	depth++;

	prs_align(ps);
	
	smb_io_pol_hnd("", &(q_q->pol), ps, depth); 
	
	prs_uint32("val_index", ps, depth, &(q_q->val_index));
	smb_io_unihdr ("hdr_name", &(q_q->hdr_name), ps, depth);
	smb_io_unistr2("uni_name", &(q_q->uni_name), q_q->hdr_name.buffer, ps, depth);
	prs_align(ps);

	prs_uint32("ptr_type", ps, depth, &(q_q->ptr_type));

	if (q_q->ptr_type != 0)
	{
		prs_uint32("type", ps, depth, &(q_q->type));
	}

	prs_uint32("ptr_value", ps, depth, &(q_q->ptr_value));
	smb_io_buffer2("buf_value", &(q_q->buf_value), q_q->ptr_value, ps, depth);
	prs_align(ps);

	prs_uint32("ptr1", ps, depth, &(q_q->ptr1));
	if (q_q->ptr1 != 0)
	{
		prs_uint32("len_value1", ps, depth, &(q_q->len_value1));
	}
	prs_uint32("ptr2", ps, depth, &(q_q->ptr2));
	if (q_q->ptr2 != 0)
	{
		prs_uint32("len_value2", ps, depth, &(q_q->len_value2));
	}
}

/*******************************************************************
reads or writes a structure.
********************************************************************/
void reg_io_r_enum_val(char *desc,  REG_R_ENUM_VALUE *r_q, prs_struct *ps, int depth)
{
	if (r_q == NULL) return;

	prs_debug(ps, depth, desc, "reg_io_r_enum_val");
	depth++;

	prs_align(ps);
	
	smb_io_unihdr ("hdr_name", &(r_q->hdr_name), ps, depth);
	smb_io_unistr2("uni_name", &(r_q->uni_name), r_q->hdr_name.buffer, ps, depth);
	prs_align(ps);

	prs_uint32("ptr_type", ps, depth, &(r_q->ptr_type));

	if (r_q->ptr_type != 0)
	{
		prs_uint32("type", ps, depth, &(r_q->type));
	}

	prs_uint32("ptr_value", ps, depth, &(r_q->ptr_value));
	smb_io_buffer2("buf_value", r_q->buf_value, r_q->ptr_value, ps, depth);
	prs_align(ps);

	prs_uint32("ptr1", ps, depth, &(r_q->ptr1));
	if (r_q->ptr1 != 0)
	{
		prs_uint32("len_value1", ps, depth, &(r_q->len_value1));
	}

	prs_uint32("ptr2", ps, depth, &(r_q->ptr2));
	if (r_q->ptr2 != 0)
	{
		prs_uint32("len_value2", ps, depth, &(r_q->len_value2));
	}

	prs_uint32("status", ps, depth, &(r_q->status));
}

/*******************************************************************
makes a structure.
********************************************************************/
void make_reg_q_create_val(REG_Q_CREATE_VALUE *q_i, POLICY_HND *pol,
				char *val_name, uint32 type,
				BUFFER3 *val)
{
	int val_len = strlen(val_name) + 1;

	if (q_i == NULL) return;

	ZERO_STRUCTP(q_i);

	memcpy(&(q_i->pol), pol, sizeof(q_i->pol));

	make_uni_hdr(&q_i->hdr_name, val_len, val_len, 1);
	make_unistr2(&(q_i->uni_name), val_name, val_len);
	
	q_i->type      = type;
	q_i->buf_value = val;
}

/*******************************************************************
reads or writes a structure.
********************************************************************/
void reg_io_q_create_val(char *desc,  REG_Q_CREATE_VALUE *q_q, prs_struct *ps, int depth)
{
	if (q_q == NULL) return;

	prs_debug(ps, depth, desc, "reg_io_q_create_val");
	depth++;

	prs_align(ps);
	
	smb_io_pol_hnd("", &(q_q->pol), ps, depth); 
	
	smb_io_unihdr ("hdr_name", &(q_q->hdr_name), ps, depth);
	smb_io_unistr2("uni_name", &(q_q->uni_name), q_q->hdr_name.buffer, ps, depth);
	prs_align(ps);

	prs_uint32("type", ps, depth, &(q_q->type));
	smb_io_buffer3("buf_value", q_q->buf_value, ps, depth);
	prs_align(ps);
}

/*******************************************************************
reads or writes a structure.
********************************************************************/
void reg_io_r_create_val(char *desc,  REG_R_CREATE_VALUE *r_q, prs_struct *ps, int depth)
{
	if (r_q == NULL) return;

	prs_debug(ps, depth, desc, "reg_io_r_create_val");
	depth++;

	prs_align(ps);
	
	prs_uint32("status", ps, depth, &(r_q->status));
}

/*******************************************************************
makes a structure.
********************************************************************/
void make_reg_q_enum_key(REG_Q_ENUM_KEY *q_i, POLICY_HND *pol, uint32 key_idx)
{
	if (q_i == NULL) return;

	memcpy(&(q_i->pol), pol, sizeof(q_i->pol));

	q_i->key_index = key_idx;
	q_i->key_name_len = 0;
	q_i->unknown_1 = 0x0414;

	q_i->ptr1 = 1;
	q_i->unknown_2 = 0x0000020A;
	memset(q_i->pad1, 0, sizeof(q_i->pad1));

	q_i->ptr2 = 1;
	memset(q_i->pad2, 0, sizeof(q_i->pad2));

	q_i->ptr3 = 1;
	init_nt_time(&(q_i->time));   /* ignored ? */
}

/*******************************************************************
reads or writes a structure.
********************************************************************/
void reg_io_q_enum_key(char *desc,  REG_Q_ENUM_KEY *q_q, prs_struct *ps, int depth)
{
	if (q_q == NULL) return;

	prs_debug(ps, depth, desc, "reg_io_q_enum_key");
	depth++;

	prs_align(ps);
	
	smb_io_pol_hnd("", &(q_q->pol), ps, depth); 
	
	prs_uint32("key_index", ps, depth, &(q_q->key_index));
	prs_uint16("key_name_len", ps, depth, &(q_q->key_name_len));
	prs_uint16("unknown_1", ps, depth, &(q_q->unknown_1));

	prs_uint32("ptr1", ps, depth, &(q_q->ptr1));

	if (q_q->ptr1 != 0)
	{
		prs_uint32("unknown_2", ps, depth, &(q_q->unknown_2));
		prs_uint8s(False, "pad1", ps, depth, q_q->pad1, sizeof(q_q->pad1));
	}

	prs_uint32("ptr2", ps, depth, &(q_q->ptr2));

	if (q_q->ptr2 != 0)
	{
		prs_uint8s(False, "pad2", ps, depth, q_q->pad2, sizeof(q_q->pad2));
	}

	prs_uint32("ptr3", ps, depth, &(q_q->ptr3));

	if (q_q->ptr3 != 0)
	{
		smb_io_time("", &(q_q->time), ps, depth);
	}
}

/*******************************************************************
reads or writes a structure.
********************************************************************/
void reg_io_r_enum_key(char *desc,  REG_R_ENUM_KEY *r_q, prs_struct *ps, int depth)
{
	if (r_q == NULL) return;

	prs_debug(ps, depth, desc, "reg_io_r_enum_key");
	depth++;

	prs_align(ps);
	
	prs_uint16("key_name_len", ps, depth, &(r_q->key_name_len));
	prs_uint16("unknown_1", ps, depth, &(r_q->unknown_1));

	prs_uint32("ptr1", ps, depth, &(r_q->ptr1));

	if (r_q->ptr1 != 0)
	{
		prs_uint32("unknown_2", ps, depth, &(r_q->unknown_2));
		prs_uint32("unknown_3", ps, depth, &(r_q->unknown_3));
		smb_io_unistr3("key_name", &(r_q->key_name), ps, depth);
		prs_align(ps);
	}

	prs_uint32("ptr2", ps, depth, &(r_q->ptr2));

	if (r_q->ptr2 != 0)
	{
		prs_uint8s(False, "pad2", ps, depth, r_q->pad2, sizeof(r_q->pad2));
	}

	prs_uint32("ptr3", ps, depth, &(r_q->ptr3));

	if (r_q->ptr3 != 0)
	{
		smb_io_time("", &(r_q->time), ps, depth);
	}

	prs_uint32("status", ps, depth, &(r_q->status));
}


/*******************************************************************
makes a structure.
********************************************************************/
void make_reg_q_open_entry(REG_Q_OPEN_ENTRY *r_q, POLICY_HND *pol,
				char *key_name, uint32 unk)
{
	int len_name = strlen(key_name)+1;

	if (r_q == NULL) return;

	memcpy(&(r_q->pol), pol, sizeof(r_q->pol));

	make_uni_hdr(&(r_q->hdr_name), len_name, len_name, 1);
	make_unistr2(&(r_q->uni_name), key_name, len_name);

	r_q->unknown_0 = 0x00000000;
	r_q->unknown_1 = unk;
}

/*******************************************************************
reads or writes a structure.
********************************************************************/
void reg_io_q_open_entry(char *desc,  REG_Q_OPEN_ENTRY *r_q, prs_struct *ps, int depth)
{
	if (r_q == NULL) return;

	prs_debug(ps, depth, desc, "reg_io_q_entry");
	depth++;

	prs_align(ps);
	
	smb_io_pol_hnd("", &(r_q->pol), ps, depth);
	smb_io_unihdr ("", &(r_q->hdr_name), ps, depth);
	smb_io_unistr2("", &(r_q->uni_name), r_q->hdr_name.buffer, ps, depth);

	prs_align(ps);
	
	prs_uint32("unknown_0", ps, depth, &(r_q->unknown_0));
	prs_uint32("unknown_1", ps, depth, &(r_q->unknown_1));
}


/*******************************************************************
creates a structure.
********************************************************************/
void make_reg_r_open_entry(REG_R_OPEN_ENTRY *r_r,
				POLICY_HND *pol, uint32 status)
{
	if (r_r == NULL) return;

	memcpy(&(r_r->pol), pol, sizeof(r_r->pol));
	r_r->status = status;
}

/*******************************************************************
reads or writes a structure.
********************************************************************/
void reg_io_r_open_entry(char *desc,  REG_R_OPEN_ENTRY *r_r, prs_struct *ps, int depth)
{
	if (r_r == NULL) return;

	prs_debug(ps, depth, desc, "reg_io_r_open_entry");
	depth++;

	prs_align(ps);
	
	smb_io_pol_hnd("", &(r_r->pol), ps, depth);

	prs_uint32("status", ps, depth, &(r_r->status));
}

/*******************************************************************
makes a structure.
********************************************************************/
void make_reg_q_shutdown(REG_Q_SHUTDOWN *q_i,
				char *msg, uint32 timeout, uint16 flags)
{
	int len = strlen(msg) + 1;

	if (q_i == NULL) return;

	ZERO_STRUCTP(q_i);

	q_i->ptr_0 = 1;
	q_i->ptr_1 = 1;
	q_i->ptr_2 = 1;

	make_uni_hdr(&q_i->hdr_msg, len, len, 1);
	make_unistr2(&(q_i->uni_msg), msg, len);
	
	q_i->timeout = timeout;
	q_i->flags   = flags;
}

/*******************************************************************
reads or writes a structure.
********************************************************************/
void reg_io_q_shutdown(char *desc,  REG_Q_SHUTDOWN *q_q, prs_struct *ps, int depth)
{
	if (q_q == NULL) return;

	prs_debug(ps, depth, desc, "reg_io_q_shutdown");
	depth++;

	prs_align(ps);
	
	prs_uint32("ptr_0", ps, depth, &(q_q->ptr_0));
	prs_uint32("ptr_1", ps, depth, &(q_q->ptr_1));
	prs_uint32("ptr_2", ps, depth, &(q_q->ptr_2));
	
	smb_io_unihdr ("hdr_msg", &(q_q->hdr_msg), ps, depth);
	smb_io_unistr2("uni_msg", &(q_q->uni_msg), q_q->hdr_msg.buffer, ps, depth);
	prs_align(ps);

	prs_uint32("timeout", ps, depth, &(q_q->timeout));
	prs_uint16("flags  ", ps, depth, &(q_q->flags  ));
	prs_align(ps);
}

/*******************************************************************
reads or writes a structure.
********************************************************************/
void reg_io_r_shutdown(char *desc,  REG_R_SHUTDOWN *r_q, prs_struct *ps, int depth)
{
	if (r_q == NULL) return;

	prs_debug(ps, depth, desc, "reg_io_r_shutdown");
	depth++;

	prs_align(ps);
	
	prs_uint32("status", ps, depth, &(r_q->status));
}