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// $Id$
// ============================================================================
//
// = LIBRARY
// asnmp
//
// = FILENAME
// octet.cpp
//
// = DESCRIPTION
// Implements the SMI Octet datatype (RFC 1155)
// This class is fully contained and does not rely on or any other
// SNMP libraries. Ported to ACE by Michael MacFaden mrm@cisco.com
//
// = AUTHOR
// Peter E Mellquist
//
// ============================================================================
/*===================================================================
Copyright (c) 1996
Hewlett-Packard Company
ATTENTION: USE OF THIS SOFTWARE IS SUBJECT TO THE FOLLOWING TERMS.
Permission to use, copy, modify, distribute and/or sell this software
and/or its documentation is hereby granted without fee. User agrees
to display the above copyright notice and this license notice in all
copies of the software and any documentation of the software. User
agrees to assume all liability for the use of the software; Hewlett-Packard
makes no representations about the suitability of this software for any
purpose. It is provided "AS-IS without warranty of any kind,either express
or implied. User hereby grants a royalty-free license to any and all
derivatives based upon this software code base.
=====================================================================*/
#include "ace/OS.h"
#include "asnmp/octet.h" // include definition for octet class
ACE_RCSID(asnmp, octet, "$Id$")
//============[ syntax type ]=========================================
SmiUINT32 OctetStr::get_syntax()
{
return sNMP_SYNTAX_OCTETS;
}
inline
void init_octet_smi(SmiVALUE& smi)
{
smi.syntax = sNMP_SYNTAX_OCTETS;
smi.value.string.ptr = 0;
smi.value.string.len = 0;
}
inline
void reset_octet_smi(SmiVALUE& smi)
{
delete [] smi.value.string.ptr;
smi.value.string.ptr = 0;
smi.value.string.len = 0;
}
inline
int copy_octet_smi(SmiVALUE& smi, int size, const char *src, int& valid_flag)
{
valid_flag = 0;
if (smi.value.string.ptr)
delete [] smi.value.string.ptr;
ACE_NEW_RETURN(smi.value.string.ptr, SmiBYTE[size], 1);
ACE_OS::memcpy( smi.value.string.ptr, src, size);
smi.value.string.len = size;
valid_flag = 1;
return 0;
}
//============[ default constructor ]=========================
OctetStr::OctetStr( const char * string, long size):
output_buffer(0), validity(0)
{
size_t z;
init_octet_smi(smival);
// check for null string
if ( !string)
return;
if (size == -1) // calc if no length given - assume c style string
size = z = ACE_OS::strlen( string);
copy_octet_smi(smival, size, string, validity);
}
//============[ set the data on an already constructed Octet ]============
// TODO: should return status since it can fail in so many places
void OctetStr::set_data( const SmiBYTE* string, long size)
{
size_t z;
// invalid args, set octetStr to not valid
if ( !string || !size) {
validity = 0;
return;
}
// assume non-zero terminated string
if (size == -1) // calc if no length given - assume c style string
size = z = ACE_OS::strlen( (char *)string);
// free up already used space
if ( smival.value.string.ptr ) {
reset_octet_smi(smival);
}
smival.value.string.len = 0;
copy_octet_smi(smival, size, (const char *)string, validity);
}
//============[ constructor using another octet object ]==============
OctetStr::OctetStr ( const OctetStr &octet):
output_buffer(0), validity(1)
{
init_octet_smi(smival);
// check for zero len case
if ( octet.smival.value.string.len == 0) {
return;
}
// must be a valid object
if ( octet.validity == 0) {
validity = 0;
return;
}
// get the mem needed
copy_octet_smi(smival, octet.smival.value.string.len,
(const char *)octet.smival.value.string.ptr, validity);
}
//=============[ destructor ]=========================================
OctetStr::~OctetStr()
{
reset_octet_smi(smival);
delete [] output_buffer;
}
//=============[ assignment to a string operator overloaded ]=========
OctetStr& OctetStr::operator=( const char *string)
{
// get the string size
size_t nz;
// free up previous memory if needed
if ( smival.value.string.ptr ) {
reset_octet_smi(smival);
}
// if empty then we are done
if (!string || !(nz = ACE_OS::strlen( string))) {
validity = 1;
return *this;
}
// get memory needed
copy_octet_smi(smival, nz, string, validity);
return *this;
}
//=============[ assignment to another oid object overloaded ]========
OctetStr& OctetStr::operator=( const OctetStr &octet)
{
// protect against assignment from self
if ( this == &octet )
return *this;
// don't assign from invalid objs
if (!octet.validity) {
return *this;
}
// free up previous memory if needed
if ( smival.value.string.len ) {
reset_octet_smi(smival);
}
if (!octet.smival.value.string.len) {
validity = 1;
return *this;
}
// get some memory
copy_octet_smi(smival, octet.smival.value.string.len,
(const char*) octet.smival.value.string.ptr, validity);
return *this; // return self reference
}
//==============[ equivlence operator overloaded ]====================
int operator==( const OctetStr &lhs, const OctetStr &rhs)
{
if( lhs.left_comparison( rhs.smival.value.string.len, rhs)==0)
return 1;
else
return 0;
}
//==============[ not equivlence operator overloaded ]================
int operator!=( const OctetStr &lhs, const OctetStr &rhs)
{
if( lhs.left_comparison( rhs.smival.value.string.len, rhs)!=0)
return 1;
else
return 0;
}
//==============[ less than < overloaded ]============================
int operator<( const OctetStr &lhs, const OctetStr &rhs)
{
if( lhs.left_comparison( rhs.smival.value.string.len, rhs)<0)
return 1;
else
return 0;
}
//==============[ less than <= overloaded ]===========================
int operator<=( const OctetStr &lhs, const OctetStr &rhs)
{
if(( lhs.left_comparison( rhs.smival.value.string.len, rhs)<0) ||
( lhs.left_comparison( rhs.smival.value.string.len, rhs)==0))
return 1;
else
return 0;
}
//===============[ greater than > overloaded ]========================
int operator>( const OctetStr &lhs, const OctetStr &rhs)
{
if( lhs.left_comparison( rhs.smival.value.string.len, rhs)>0)
return 1;
else
return 0;
}
//===============[ greater than >= overloaded ]=======================
int operator>=( const OctetStr &lhs, const OctetStr &rhs)
{
if(( lhs.left_comparison( rhs.smival.value.string.len, rhs)>0) ||
( lhs.left_comparison( rhs.smival.value.string.len, rhs)==0))
return 1;
else
return 0;
}
//===============[ equivlence operator overloaded ]===================
int operator==( const OctetStr &lhs,const char *rhs)
{
OctetStr to( rhs);
if( lhs.left_comparison( to.smival.value.string.len,to)==0)
return 1;
else
return 0;
}
//===============[ not equivlence operator overloaded ]===============
int operator!=( const OctetStr &lhs,const char *rhs)
{
OctetStr to( rhs);
if ( lhs.left_comparison( to.smival.value.string.len,to)!=0)
return 1;
else
return 0;
}
//===============[ less than < operator overloaded ]==================
int operator<( const OctetStr &lhs,const char *rhs)
{
OctetStr to( rhs);
if ( lhs.left_comparison( to.smival.value.string.len,to)<0)
return 1;
else
return 0;
}
//===============[ less than <= operator overloaded ]=================
int operator<=( const OctetStr &lhs,char *rhs)
{
OctetStr to( rhs);
if (( lhs.left_comparison( to.smival.value.string.len,to)<0) ||
( lhs.left_comparison( to.smival.value.string.len,to)==0))
return 1;
else
return 0;
}
//===============[ greater than > operator overloaded ]===============
int operator>( const OctetStr &lhs,const char *rhs)
{
OctetStr to( rhs);
if ( lhs.left_comparison( to.smival.value.string.len,to)>0)
return 1;
else
return 0;
}
//===============[ greater than >= operator overloaded ]==============
int operator>=( const OctetStr &lhs,const char *rhs)
{
OctetStr to( rhs);
if (( lhs.left_comparison( to.smival.value.string.len,to)>0) ||
( lhs.left_comparison( to.smival.value.string.len,to)==0))
return 1;
else
return 0;
}
//===============[ append operator, appends a string ]================
OctetStr& OctetStr::operator+=( const char *a)
{
SmiBYTE *tmp; // temp pointer
size_t slen,nlen;
// get len of string
if ( !a || ((slen = ACE_OS::strlen( a)) == 0))
return *this;
// total len of octet
nlen = slen + (size_t) smival.value.string.len;
ACE_NEW_RETURN(tmp, SmiBYTE [ nlen], *this);
ACE_OS::memcpy ( tmp, smival.value.string.ptr,
(size_t) smival.value.string.len);
ACE_OS::memcpy( tmp + smival.value.string.len, a, (size_t) slen);
// delete the original
if ( smival.value.string.ptr )
reset_octet_smi(smival);
smival.value.string.ptr = tmp;
smival.value.string.len = nlen;
return *this;
}
//================[ append one OctetStr to another ]==================
OctetStr& OctetStr::operator+=( const OctetStr& octetstr)
{
SmiBYTE *tmp; // temp pointer
size_t slen,nlen;
if (!octetstr.validity ||
!(slen = (size_t)octetstr.length()))
return *this;
// total len of octet
nlen = slen + (size_t) smival.value.string.len;
// get mem needed
ACE_NEW_RETURN(tmp, SmiBYTE[ nlen], *this);
ACE_OS::memcpy ( tmp, smival.value.string.ptr,
(size_t) smival.value.string.len);
ACE_OS::memcpy( tmp + smival.value.string.len, octetstr.data(),
(size_t) slen);
if ( smival.value.string.ptr )
reset_octet_smi(smival);
smival.value.string.ptr = tmp;
smival.value.string.len = nlen;
return *this;
}
//================[ appends an int ]==================================
OctetStr& OctetStr::operator+=( const char c)
{
SmiBYTE *tmp;
// get the memory needed plus one extra byte
ACE_NEW_RETURN(tmp, SmiBYTE[ smival.value.string.len + 1], *this);
ACE_OS::memcpy ( tmp, smival.value.string.ptr,
(size_t) smival.value.string.len); // len of original
tmp[ smival.value.string.len ] = c; // assign in byte
if ( smival.value.string.ptr ) // delete the original
reset_octet_smi(smival);
smival.value.string.ptr = tmp; // point to one
smival.value.string.len++; // up the len
return *this;
}
//================[ compare n elements of an Octet ]==================
int OctetStr::left_comparison( const long n, const OctetStr &o) const
{
long z, w;
// both are empty, they are equal
if (( smival.value.string.len == 0) &&
( o.smival.value.string.len == 0))
return 0; // equal
// self is empty and param has something
if (( smival.value.string.len == 0) &&
( o.smival.value.string.len >0) &&
(n>0))
return -1;
// self has something and param has nothing
if (( smival.value.string.len > 0) &&
( o.smival.value.string.len ==0) &&
(n>0))
return 1;
// special case
if (( smival.value.string.len == 0) &&
( o.smival.value.string.len > 0) &&
( n == 0))
return 0;
// pick the Min of n, this and the param len
// this is the maximum # to iterate a search
w = smival.value.string.len < o.smival.value.string.len
? smival.value.string.len : o.smival.value.string.len;
if (n<w) w=n;
z = 0;
while( z < w) {
if ( smival.value.string.ptr[z] < o.smival.value.string.ptr[z])
return -1; // less than
if ( smival.value.string.ptr[z] > o.smival.value.string.ptr[z])
return 1; // greater than
z++;
}
if (( z == 0) &&
( smival.value.string.len == 0) &&
( o.smival.value.string.len > 0))
return -1;
if (( z == 0) &&
( o.smival.value.string.len == 0) &&
( smival.value.string.len > 0))
return 1;
return 0;
}
//================[ return the length of the oid ]=======================
size_t OctetStr::length() const
{
return (size_t) smival.value.string.len;
}
//================[ operator[]: access as if array ]==================
SmiBYTE& OctetStr::operator[]( int position)
{
return smival.value.string.ptr[position];
}
//===============[ reuturns pointer to internal data ]===============
SmiBYTE * OctetStr::data() const
{
return smival.value.string.ptr;
}
//================[ returns validity ]================================
int OctetStr::valid() const
{
return validity;
}
//================[ clone() ]=========================================
SnmpSyntax * OctetStr::clone() const
{
OctetStr *tmp = new OctetStr(*this);
return ( SnmpSyntax *) tmp;
}
//================[ ASCII format return ]=============================
char * OctetStr::to_string()
{
for ( unsigned long i=0; i < smival.value.string.len; i++) {
if (( smival.value.string.ptr[i] != '\r')&&
( smival.value.string.ptr[i] != '\n')&&
(isprint((int) (smival.value.string.ptr[i]))==0))
return(to_string_hex());
}
if ( output_buffer != 0)
delete [] output_buffer;
ACE_NEW_RETURN(output_buffer, char[smival.value.string.len + 1], "");
if (smival.value.string.len)
ACE_OS::memcpy(output_buffer, smival.value.string.ptr,
(int) smival.value.string.len);
output_buffer[smival.value.string.len] = '\0';
return output_buffer;
}
//================[ general Value = operator ]========================
SnmpSyntax& OctetStr::operator=( SnmpSyntax &val)
{
// protect against assignment from self
if ( this == &val )
return *this;
// blow away the old value
validity=0;
if (smival.value.string.ptr) {
reset_octet_smi(smival);
}
smival.value.string.len = 0;
if (val.valid()){
switch (val.get_syntax()) {
case sNMP_SYNTAX_OCTETS:
case sNMP_SYNTAX_IPADDR:
set_data( ((OctetStr &)val).smival.value.string.ptr,
((OctetStr &)val).smival.value.string.len);
break;
}
}
return *this;
}
//================[ format the output into hex ]========================
char *OctetStr::to_string_hex()
{
int cnt;
char char_buf[80]; // holds ASCII representation of data
char *buf_ptr; // pointer into ASCII listing
char *line_ptr; // pointer into Hex listing
int storageNeeded; // how much space do we need ?
int local_len = (int) smival.value.string.len;
SmiBYTE *bytes = smival.value.string.ptr;
storageNeeded = (int) ((smival.value.string.len/16)+1) * 72 + 1;
if ( output_buffer != 0)
delete [] output_buffer;
ACE_NEW_RETURN(output_buffer, char[storageNeeded], "");
line_ptr = output_buffer;
/*----------------------------------------*/
/* processing loop for entire data buffer */
/*----------------------------------------*/
while (local_len > 0) {
cnt = 16; /* print 16 bytes per line */
buf_ptr = char_buf;
sprintf(line_ptr, " ");
line_ptr += 2; /* indent */
/*-----------------------*/
/* process a single line */
/*-----------------------*/
while (cnt-- > 0 && local_len-- > 0) {
sprintf(line_ptr, "%2.2X ", *bytes);
line_ptr +=3; /* the display of a byte always 3 chars long */
if (isprint(*bytes))
sprintf(buf_ptr, "%c", *bytes);
else
sprintf(buf_ptr, ".");
bytes++;
buf_ptr++;
}
cnt++;
/*----------------------------------------------------------*/
/* this is to make sure that the ASCII displays line up for */
/* incomplete lines of hex */
/*----------------------------------------------------------*/
while (cnt-- > 0) {
sprintf(line_ptr," ");
line_ptr += 3;
}
/*------------------------------------------*/
/* append the ASCII display to the Hex line */
/*------------------------------------------*/
// TODO: verify ACE_OS:: on NT works like this or not
#if defined(__unix)
char *fmt = " %s\n";
#endif // __unix
#if defined(_WIN32)
char *fmt = " %s\r\n";
#endif // _WIN32
ACE_OS::sprintf(line_ptr, fmt, char_buf);
line_ptr += 3 + strlen(char_buf);
}
return output_buffer;
}
|