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5fcb4d328c
Guenther
468 lines
12 KiB
C
468 lines
12 KiB
C
/*
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Unix SMB/CIFS implementation.
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Samba memory buffer functions
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Copyright (C) Andrew Tridgell 1992-1997
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Copyright (C) Luke Kenneth Casson Leighton 1996-1997
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Copyright (C) Jeremy Allison 1999
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Copyright (C) Andrew Bartlett 2003.
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This program is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#include "includes.h"
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#include "reg_parse_prs.h"
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#include "rpc_dce.h"
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#undef DBGC_CLASS
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#define DBGC_CLASS DBGC_RPC_PARSE
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/*******************************************************************
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Debug output for parsing info
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XXXX side-effect of this function is to increase the debug depth XXXX.
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********************************************************************/
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void prs_debug(prs_struct *ps, int depth, const char *desc, const char *fn_name)
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{
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DEBUG(5+depth, ("%s%06x %s %s\n", tab_depth(5+depth,depth), ps->data_offset, fn_name, desc));
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}
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/**
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* Initialise an expandable parse structure.
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*
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* @param size Initial buffer size. If >0, a new buffer will be
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* created with talloc().
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*
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* @return False if allocation fails, otherwise True.
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**/
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bool prs_init(prs_struct *ps, uint32 size, TALLOC_CTX *ctx, bool io)
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{
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ZERO_STRUCTP(ps);
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ps->io = io;
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ps->bigendian_data = RPC_LITTLE_ENDIAN;
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ps->align = RPC_PARSE_ALIGN;
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ps->is_dynamic = False;
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ps->data_offset = 0;
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ps->buffer_size = 0;
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ps->data_p = NULL;
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ps->mem_ctx = ctx;
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if (size != 0) {
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ps->buffer_size = size;
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ps->data_p = (char *)talloc_zero_size(ps->mem_ctx, size);
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if(ps->data_p == NULL) {
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DEBUG(0,("prs_init: talloc fail for %u bytes.\n", (unsigned int)size));
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return False;
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}
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ps->is_dynamic = True; /* We own this memory. */
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} else if (MARSHALLING(ps)) {
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/* If size is zero and we're marshalling we should allocate memory on demand. */
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ps->is_dynamic = True;
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}
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return True;
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}
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/*******************************************************************
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Delete the memory in a parse structure - if we own it.
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NOTE: Contrary to the somewhat confusing naming, this function is not
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intended for freeing memory allocated by prs_alloc_mem().
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That memory is also attached to the talloc context given by
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ps->mem_ctx, but is only freed when that talloc context is
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freed. prs_mem_free() is used to delete "dynamic" memory
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allocated in marshalling/unmarshalling.
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********************************************************************/
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void prs_mem_free(prs_struct *ps)
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{
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if(ps->is_dynamic) {
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TALLOC_FREE(ps->data_p);
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}
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ps->is_dynamic = False;
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ps->buffer_size = 0;
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ps->data_offset = 0;
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}
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/*******************************************************************
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Allocate memory when unmarshalling... Always zero clears.
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********************************************************************/
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#if defined(PARANOID_MALLOC_CHECKER)
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char *prs_alloc_mem_(prs_struct *ps, size_t size, unsigned int count)
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#else
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char *prs_alloc_mem(prs_struct *ps, size_t size, unsigned int count)
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#endif
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{
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char *ret = NULL;
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if (size && count) {
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/* We can't call the type-safe version here. */
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ret = (char *)_talloc_zero_array(ps->mem_ctx, size, count,
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"parse_prs");
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}
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return ret;
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}
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/*******************************************************************
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Return the current talloc context we're using.
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********************************************************************/
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TALLOC_CTX *prs_get_mem_context(prs_struct *ps)
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{
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return ps->mem_ctx;
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}
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/*******************************************************************
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Attempt, if needed, to grow a data buffer.
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Also depends on the data stream mode (io).
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********************************************************************/
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bool prs_grow(prs_struct *ps, uint32 extra_space)
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{
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uint32 new_size;
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ps->grow_size = MAX(ps->grow_size, ps->data_offset + extra_space);
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if(ps->data_offset + extra_space <= ps->buffer_size)
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return True;
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/*
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* We cannot grow the buffer if we're not reading
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* into the prs_struct, or if we don't own the memory.
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*/
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if(UNMARSHALLING(ps) || !ps->is_dynamic) {
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DEBUG(0,("prs_grow: Buffer overflow - unable to expand buffer by %u bytes.\n",
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(unsigned int)extra_space));
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return False;
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}
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/*
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* Decide how much extra space we really need.
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*/
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extra_space -= (ps->buffer_size - ps->data_offset);
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if(ps->buffer_size == 0) {
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/*
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* Start with 128 bytes (arbitrary value), enough for small rpc
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* requests
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*/
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new_size = MAX(128, extra_space);
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ps->data_p = (char *)talloc_zero_size(ps->mem_ctx, new_size);
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if(ps->data_p == NULL) {
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DEBUG(0,("prs_grow: talloc failure for size %u.\n", (unsigned int)new_size));
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return False;
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}
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} else {
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/*
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* If the current buffer size is bigger than the space needed,
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* just double it, else add extra_space. Always keep 64 bytes
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* more, so that after we added a large blob we don't have to
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* realloc immediately again.
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*/
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new_size = MAX(ps->buffer_size*2,
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ps->buffer_size + extra_space + 64);
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ps->data_p = talloc_realloc(ps->mem_ctx,
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ps->data_p,
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char,
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new_size);
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if (ps->data_p == NULL) {
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DEBUG(0,("prs_grow: Realloc failure for size %u.\n",
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(unsigned int)new_size));
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return False;
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}
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memset(&ps->data_p[ps->buffer_size], '\0', (size_t)(new_size - ps->buffer_size));
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}
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ps->buffer_size = new_size;
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return True;
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}
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/*******************************************************************
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Get the data pointer (external interface).
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********************************************************************/
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char *prs_data_p(prs_struct *ps)
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{
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return ps->data_p;
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}
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/*******************************************************************
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Get the current data size (external interface).
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********************************************************************/
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uint32 prs_data_size(prs_struct *ps)
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{
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return ps->buffer_size;
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}
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/*******************************************************************
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Fetch the current offset (external interface).
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********************************************************************/
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uint32 prs_offset(prs_struct *ps)
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{
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return ps->data_offset;
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}
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/*******************************************************************
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Set the current offset (external interface).
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********************************************************************/
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bool prs_set_offset(prs_struct *ps, uint32 offset)
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{
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if ((offset > ps->data_offset)
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&& !prs_grow(ps, offset - ps->data_offset)) {
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return False;
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}
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ps->data_offset = offset;
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return True;
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}
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/*******************************************************************
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Append the data from a buffer into a parse_struct.
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********************************************************************/
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bool prs_copy_data_in(prs_struct *dst, const char *src, uint32 len)
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{
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if (len == 0)
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return True;
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if(!prs_grow(dst, len))
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return False;
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memcpy(&dst->data_p[dst->data_offset], src, (size_t)len);
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dst->data_offset += len;
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return True;
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}
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/*******************************************************************
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Align a the data_len to a multiple of align bytes - filling with
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zeros.
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********************************************************************/
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bool prs_align(prs_struct *ps)
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{
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uint32 mod = ps->data_offset & (ps->align-1);
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if (ps->align != 0 && mod != 0) {
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uint32 extra_space = (ps->align - mod);
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if(!prs_grow(ps, extra_space))
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return False;
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memset(&ps->data_p[ps->data_offset], '\0', (size_t)extra_space);
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ps->data_offset += extra_space;
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}
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return True;
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}
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/******************************************************************
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Align on a 8 byte boundary
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*****************************************************************/
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bool prs_align_uint64(prs_struct *ps)
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{
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bool ret;
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uint8 old_align = ps->align;
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ps->align = 8;
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ret = prs_align(ps);
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ps->align = old_align;
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return ret;
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}
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/*******************************************************************
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Ensure we can read/write to a given offset.
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********************************************************************/
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char *prs_mem_get(prs_struct *ps, uint32 extra_size)
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{
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if(UNMARSHALLING(ps)) {
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/*
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* If reading, ensure that we can read the requested size item.
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*/
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if (ps->data_offset + extra_size > ps->buffer_size) {
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DEBUG(0,("prs_mem_get: reading data of size %u would overrun "
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"buffer by %u bytes.\n",
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(unsigned int)extra_size,
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(unsigned int)(ps->data_offset + extra_size - ps->buffer_size) ));
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return NULL;
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}
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} else {
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/*
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* Writing - grow the buffer if needed.
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*/
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if(!prs_grow(ps, extra_size))
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return NULL;
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}
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return &ps->data_p[ps->data_offset];
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}
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/*******************************************************************
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Change the struct type.
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********************************************************************/
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void prs_switch_type(prs_struct *ps, bool io)
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{
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if ((ps->io ^ io) == True)
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ps->io=io;
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}
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/*******************************************************************
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Stream a uint8.
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********************************************************************/
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bool prs_uint8(const char *name, prs_struct *ps, int depth, uint8 *data8)
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{
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char *q = prs_mem_get(ps, 1);
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if (q == NULL)
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return False;
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if (UNMARSHALLING(ps))
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*data8 = CVAL(q,0);
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else
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SCVAL(q,0,*data8);
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DEBUGADD(5,("%s%04x %s: %02x\n", tab_depth(5,depth), ps->data_offset, name, *data8));
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ps->data_offset += 1;
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return True;
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}
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/*******************************************************************
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Stream a uint16.
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********************************************************************/
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bool prs_uint16(const char *name, prs_struct *ps, int depth, uint16 *data16)
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{
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char *q = prs_mem_get(ps, sizeof(uint16));
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if (q == NULL)
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return False;
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if (UNMARSHALLING(ps)) {
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if (ps->bigendian_data)
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*data16 = RSVAL(q,0);
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else
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*data16 = SVAL(q,0);
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} else {
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if (ps->bigendian_data)
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RSSVAL(q,0,*data16);
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else
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SSVAL(q,0,*data16);
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}
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DEBUGADD(5,("%s%04x %s: %04x\n", tab_depth(5,depth), ps->data_offset, name, *data16));
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ps->data_offset += sizeof(uint16);
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return True;
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}
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/*******************************************************************
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Stream a uint32.
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********************************************************************/
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bool prs_uint32(const char *name, prs_struct *ps, int depth, uint32 *data32)
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{
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char *q = prs_mem_get(ps, sizeof(uint32));
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if (q == NULL)
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return False;
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if (UNMARSHALLING(ps)) {
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if (ps->bigendian_data)
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*data32 = RIVAL(q,0);
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else
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*data32 = IVAL(q,0);
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} else {
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if (ps->bigendian_data)
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RSIVAL(q,0,*data32);
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else
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SIVAL(q,0,*data32);
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}
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DEBUGADD(5,("%s%04x %s: %08x\n", tab_depth(5,depth), ps->data_offset, name, *data32));
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ps->data_offset += sizeof(uint32);
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return True;
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}
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/*******************************************************************
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Stream a uint64_struct
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********************************************************************/
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bool prs_uint64(const char *name, prs_struct *ps, int depth, uint64 *data64)
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{
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if (UNMARSHALLING(ps)) {
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uint32 high, low;
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if (!prs_uint32(name, ps, depth+1, &low))
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return False;
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if (!prs_uint32(name, ps, depth+1, &high))
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return False;
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*data64 = ((uint64_t)high << 32) + low;
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return True;
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} else {
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uint32 high = (*data64) >> 32, low = (*data64) & 0xFFFFFFFF;
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return prs_uint32(name, ps, depth+1, &low) &&
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prs_uint32(name, ps, depth+1, &high);
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}
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}
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/******************************************************************
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Stream an array of uint8s. Length is number of uint8s.
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********************************************************************/
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bool prs_uint8s(bool charmode, const char *name, prs_struct *ps, int depth, uint8 *data8s, int len)
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{
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int i;
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char *q = prs_mem_get(ps, len);
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if (q == NULL)
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return False;
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if (UNMARSHALLING(ps)) {
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for (i = 0; i < len; i++)
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data8s[i] = CVAL(q,i);
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} else {
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for (i = 0; i < len; i++)
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SCVAL(q, i, data8s[i]);
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}
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DEBUGADD(5,("%s%04x %s: ", tab_depth(5,depth), ps->data_offset ,name));
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if (charmode)
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print_asc(5, (unsigned char*)data8s, len);
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else {
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for (i = 0; i < len; i++)
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DEBUGADD(5,("%02x ", data8s[i]));
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}
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DEBUGADD(5,("\n"));
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ps->data_offset += len;
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return True;
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}
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