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// Copyright (c) 2006-2013, Andrey N. Sabelnikov, www.sabelnikov.net
// All rights reserved.
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are met:
// * Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
// * Redistributions in binary form must reproduce the above copyright
// notice, this list of conditions and the following disclaimer in the
// documentation and/or other materials provided with the distribution.
// * Neither the name of the Andrey N. Sabelnikov nor the
// names of its contributors may be used to endorse or promote products
// derived from this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
// ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
// WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
// DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER BE LIABLE FOR ANY
// DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
// (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
// LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
// ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
// SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
//
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# include "byte_slice.h"
# include "byte_stream.h"
# include "misc_log_ex.h"
# include "span.h"
# include "storages/portable_storage.h"
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# include "storages/portable_storage_to_json.h"
# include "storages/portable_storage_from_json.h"
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# include "storages/portable_storage_to_bin.h"
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# include "storages/portable_storage_from_bin.h"
# include <boost/utility/string_ref.hpp>
# include <string>
# include <sstream>
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namespace epee
{
namespace serialization
{
bool portable_storage : : store_to_binary ( byte_slice & target , const std : : size_t initial_buffer_size )
{
TRY_ENTRY ( ) ;
byte_stream ss ;
ss . reserve ( initial_buffer_size ) ;
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store_to_binary ( ss ) ;
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target = epee : : byte_slice { std : : move ( ss ) , false } ;
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return true ;
CATCH_ENTRY ( " portable_storage::store_to_binary " , false ) ;
}
bool portable_storage : : store_to_binary ( byte_stream & ss )
{
TRY_ENTRY ( ) ;
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storage_block_header sbh { } ;
sbh . m_signature_a = SWAP32LE ( PORTABLE_STORAGE_SIGNATUREA ) ;
sbh . m_signature_b = SWAP32LE ( PORTABLE_STORAGE_SIGNATUREB ) ;
sbh . m_ver = PORTABLE_STORAGE_FORMAT_VER ;
ss . write ( epee : : as_byte_span ( sbh ) ) ;
pack_entry_to_buff ( ss , m_root ) ;
return true ;
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CATCH_ENTRY ( " portable_storage::store_to_binary " , false ) ;
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}
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bool portable_storage : : dump_as_json ( std : : string & buff , size_t indent , bool insert_newlines )
{
TRY_ENTRY ( ) ;
std : : stringstream ss ;
epee : : serialization : : dump_as_json ( ss , m_root , indent , insert_newlines ) ;
buff = ss . str ( ) ;
return true ;
CATCH_ENTRY ( " portable_storage::dump_as_json " , false )
}
bool portable_storage : : load_from_json ( const std : : string & source )
{
TRY_ENTRY ( ) ;
return json : : load_from_json ( source , * this ) ;
CATCH_ENTRY ( " portable_storage::load_from_json " , false )
}
bool portable_storage : : load_from_binary ( const epee : : span < const uint8_t > source , const limits_t * limits )
{
m_root . m_entries . clear ( ) ;
if ( source . size ( ) < sizeof ( storage_block_header ) )
{
LOG_ERROR ( " portable_storage: wrong binary format, packet size = " < < source . size ( ) < < " less than expected sizeof(storage_block_header)= " < < sizeof ( storage_block_header ) ) ;
return false ;
}
storage_block_header * pbuff = ( storage_block_header * ) source . data ( ) ;
if ( pbuff - > m_signature_a ! = SWAP32LE ( PORTABLE_STORAGE_SIGNATUREA ) | |
pbuff - > m_signature_b ! = SWAP32LE ( PORTABLE_STORAGE_SIGNATUREB )
)
{
LOG_ERROR ( " portable_storage: wrong binary format - signature mismatch " ) ;
return false ;
}
if ( pbuff - > m_ver ! = PORTABLE_STORAGE_FORMAT_VER )
{
LOG_ERROR ( " portable_storage: wrong binary format - unknown format ver = " < < pbuff - > m_ver ) ;
return false ;
}
TRY_ENTRY ( ) ;
throwable_buffer_reader buf_reader ( source . data ( ) + sizeof ( storage_block_header ) , source . size ( ) - sizeof ( storage_block_header ) ) ;
if ( limits )
buf_reader . set_limits ( limits - > n_objects , limits - > n_fields , limits - > n_strings ) ;
buf_reader . read ( m_root ) ;
return true ; //TODO:
CATCH_ENTRY ( " portable_storage::load_from_binary " , false ) ;
}
hsection portable_storage : : open_section ( const std : : string & section_name , hsection hparent_section , bool create_if_notexist )
{
TRY_ENTRY ( ) ;
hparent_section = hparent_section ? hparent_section : & m_root ;
storage_entry * pentry = find_storage_entry ( section_name , hparent_section ) ;
if ( ! pentry )
{
if ( ! create_if_notexist )
return nullptr ;
return insert_new_section ( section_name , hparent_section ) ;
}
CHECK_AND_ASSERT ( pentry , nullptr ) ;
//check that section_entry we find is real "CSSection"
if ( pentry - > type ( ) ! = typeid ( section ) )
{
if ( create_if_notexist )
* pentry = storage_entry ( section ( ) ) ; //replace
else
return nullptr ;
}
return & boost : : get < section > ( * pentry ) ;
CATCH_ENTRY ( " portable_storage::open_section " , nullptr ) ;
}
bool portable_storage : : get_value ( const std : : string & value_name , storage_entry & val , hsection hparent_section )
{
//TRY_ENTRY();
if ( ! hparent_section ) hparent_section = & m_root ;
storage_entry * pentry = find_storage_entry ( value_name , hparent_section ) ;
if ( ! pentry )
return false ;
val = * pentry ;
return true ;
//CATCH_ENTRY("portable_storage::template<>get_value", false);
}
storage_entry * portable_storage : : find_storage_entry ( const std : : string & pentry_name , hsection psection )
{
TRY_ENTRY ( ) ;
CHECK_AND_ASSERT ( psection , nullptr ) ;
auto it = psection - > m_entries . find ( pentry_name ) ;
if ( it = = psection - > m_entries . end ( ) )
return nullptr ;
return & it - > second ;
CATCH_ENTRY ( " portable_storage::find_storage_entry " , nullptr ) ;
}
hsection portable_storage : : insert_new_section ( const std : : string & pentry_name , hsection psection )
{
TRY_ENTRY ( ) ;
storage_entry * pse = insert_new_entry_get_storage_entry ( pentry_name , psection , section ( ) ) ;
if ( ! pse ) return nullptr ;
return & boost : : get < section > ( * pse ) ;
CATCH_ENTRY ( " portable_storage::insert_new_section " , nullptr ) ;
}
harray portable_storage : : get_first_section ( const std : : string & sec_name , hsection & h_child_section , hsection hparent_section )
{
TRY_ENTRY ( ) ;
if ( ! hparent_section ) hparent_section = & m_root ;
storage_entry * pentry = find_storage_entry ( sec_name , hparent_section ) ;
if ( ! pentry )
return nullptr ;
if ( pentry - > type ( ) ! = typeid ( array_entry ) )
return nullptr ;
array_entry & ar_entry = boost : : get < array_entry > ( * pentry ) ;
if ( ar_entry . type ( ) ! = typeid ( array_entry_t < section > ) )
return nullptr ;
array_entry_t < section > & sec_array = boost : : get < array_entry_t < section > > ( ar_entry ) ;
section * psec = sec_array . get_first_val ( ) ;
if ( ! psec )
return nullptr ;
h_child_section = psec ;
return & ar_entry ;
CATCH_ENTRY ( " portable_storage::get_first_section " , nullptr ) ;
}
bool portable_storage : : get_next_section ( harray hsec_array , hsection & h_child_section )
{
TRY_ENTRY ( ) ;
CHECK_AND_ASSERT ( hsec_array , false ) ;
if ( hsec_array - > type ( ) ! = typeid ( array_entry_t < section > ) )
return false ;
array_entry_t < section > & sec_array = boost : : get < array_entry_t < section > > ( * hsec_array ) ;
h_child_section = sec_array . get_next_val ( ) ;
if ( ! h_child_section )
return false ;
return true ;
CATCH_ENTRY ( " portable_storage::get_next_section " , false ) ;
}
harray portable_storage : : insert_first_section ( const std : : string & sec_name , hsection & hinserted_childsection , hsection hparent_section )
{
TRY_ENTRY ( ) ;
if ( ! hparent_section ) hparent_section = & m_root ;
storage_entry * pentry = find_storage_entry ( sec_name , hparent_section ) ;
if ( ! pentry )
{
pentry = insert_new_entry_get_storage_entry ( sec_name , hparent_section , array_entry ( array_entry_t < section > ( ) ) ) ;
if ( ! pentry )
return nullptr ;
}
if ( pentry - > type ( ) ! = typeid ( array_entry ) )
* pentry = storage_entry ( array_entry ( array_entry_t < section > ( ) ) ) ;
array_entry & ar_entry = boost : : get < array_entry > ( * pentry ) ;
if ( ar_entry . type ( ) ! = typeid ( array_entry_t < section > ) )
ar_entry = array_entry ( array_entry_t < section > ( ) ) ;
array_entry_t < section > & sec_array = boost : : get < array_entry_t < section > > ( ar_entry ) ;
hinserted_childsection = & sec_array . insert_first_val ( section ( ) ) ;
return & ar_entry ;
CATCH_ENTRY ( " portable_storage::insert_first_section " , nullptr ) ;
}
bool portable_storage : : insert_next_section ( harray hsec_array , hsection & hinserted_childsection )
{
TRY_ENTRY ( ) ;
CHECK_AND_ASSERT ( hsec_array , false ) ;
CHECK_AND_ASSERT_MES ( hsec_array - > type ( ) = = typeid ( array_entry_t < section > ) ,
false , " unexpected type(not 'section') in insert_next_section, type: " < < hsec_array - > type ( ) . name ( ) ) ;
array_entry_t < section > & sec_array = boost : : get < array_entry_t < section > > ( * hsec_array ) ;
hinserted_childsection = & sec_array . insert_next_value ( section ( ) ) ;
return true ;
CATCH_ENTRY ( " portable_storage::insert_next_section " , false ) ;
}
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}
}