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// Copyright (c) 2011-2018 The Bitcoin Core developers
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// Distributed under the MIT software license, see the accompanying
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// file COPYING or http://www.opensource.org/licenses/mit-license.php.
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# include <util/system.h>
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# include <clientversion.h>
# include <primitives/transaction.h>
# include <sync.h>
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# include <util/strencodings.h>
# include <util/moneystr.h>
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# include <test/test_bitcoin.h>
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# include <stdint.h>
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# include <vector>
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# ifndef WIN32
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# include <signal.h>
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# include <sys/types.h>
# include <sys/wait.h>
# endif
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# include <boost/test/unit_test.hpp>
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BOOST_FIXTURE_TEST_SUITE ( util_tests , BasicTestingSetup )
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BOOST_AUTO_TEST_CASE ( util_criticalsection )
{
CCriticalSection cs ;
do {
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LOCK ( cs ) ;
break ;
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BOOST_ERROR ( " break was swallowed! " ) ;
} while ( 0 ) ;
do {
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TRY_LOCK ( cs , lockTest ) ;
if ( lockTest )
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break ;
BOOST_ERROR ( " break was swallowed! " ) ;
} while ( 0 ) ;
}
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static const unsigned char ParseHex_expected [ 65 ] = {
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0x04 , 0x67 , 0x8a , 0xfd , 0xb0 , 0xfe , 0x55 , 0x48 , 0x27 , 0x19 , 0x67 , 0xf1 , 0xa6 , 0x71 , 0x30 , 0xb7 ,
0x10 , 0x5c , 0xd6 , 0xa8 , 0x28 , 0xe0 , 0x39 , 0x09 , 0xa6 , 0x79 , 0x62 , 0xe0 , 0xea , 0x1f , 0x61 , 0xde ,
0xb6 , 0x49 , 0xf6 , 0xbc , 0x3f , 0x4c , 0xef , 0x38 , 0xc4 , 0xf3 , 0x55 , 0x04 , 0xe5 , 0x1e , 0xc1 , 0x12 ,
0xde , 0x5c , 0x38 , 0x4d , 0xf7 , 0xba , 0x0b , 0x8d , 0x57 , 0x8a , 0x4c , 0x70 , 0x2b , 0x6b , 0xf1 , 0x1d ,
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0x5f
} ;
BOOST_AUTO_TEST_CASE ( util_ParseHex )
{
std : : vector < unsigned char > result ;
std : : vector < unsigned char > expected ( ParseHex_expected , ParseHex_expected + sizeof ( ParseHex_expected ) ) ;
// Basic test vector
result = ParseHex ( " 04678afdb0fe5548271967f1a67130b7105cd6a828e03909a67962e0ea1f61deb649f6bc3f4cef38c4f35504e51ec112de5c384df7ba0b8d578a4c702b6bf11d5f " ) ;
BOOST_CHECK_EQUAL_COLLECTIONS ( result . begin ( ) , result . end ( ) , expected . begin ( ) , expected . end ( ) ) ;
// Spaces between bytes must be supported
result = ParseHex ( " 12 34 56 78 " ) ;
BOOST_CHECK ( result . size ( ) = = 4 & & result [ 0 ] = = 0x12 & & result [ 1 ] = = 0x34 & & result [ 2 ] = = 0x56 & & result [ 3 ] = = 0x78 ) ;
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// Leading space must be supported (used in BerkeleyEnvironment::Salvage)
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result = ParseHex ( " 89 34 56 78 " ) ;
BOOST_CHECK ( result . size ( ) = = 4 & & result [ 0 ] = = 0x89 & & result [ 1 ] = = 0x34 & & result [ 2 ] = = 0x56 & & result [ 3 ] = = 0x78 ) ;
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// Stop parsing at invalid value
result = ParseHex ( " 1234 invalid 1234 " ) ;
BOOST_CHECK ( result . size ( ) = = 2 & & result [ 0 ] = = 0x12 & & result [ 1 ] = = 0x34 ) ;
}
BOOST_AUTO_TEST_CASE ( util_HexStr )
{
BOOST_CHECK_EQUAL (
HexStr ( ParseHex_expected , ParseHex_expected + sizeof ( ParseHex_expected ) ) ,
" 04678afdb0fe5548271967f1a67130b7105cd6a828e03909a67962e0ea1f61deb649f6bc3f4cef38c4f35504e51ec112de5c384df7ba0b8d578a4c702b6bf11d5f " ) ;
BOOST_CHECK_EQUAL (
HexStr ( ParseHex_expected , ParseHex_expected + 5 , true ) ,
" 04 67 8a fd b0 " ) ;
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BOOST_CHECK_EQUAL (
HexStr ( ParseHex_expected + sizeof ( ParseHex_expected ) ,
ParseHex_expected + sizeof ( ParseHex_expected ) ) ,
" " ) ;
BOOST_CHECK_EQUAL (
HexStr ( ParseHex_expected + sizeof ( ParseHex_expected ) ,
ParseHex_expected + sizeof ( ParseHex_expected ) , true ) ,
" " ) ;
BOOST_CHECK_EQUAL (
HexStr ( ParseHex_expected , ParseHex_expected ) ,
" " ) ;
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BOOST_CHECK_EQUAL (
HexStr ( ParseHex_expected , ParseHex_expected , true ) ,
" " ) ;
std : : vector < unsigned char > ParseHex_vec ( ParseHex_expected , ParseHex_expected + 5 ) ;
BOOST_CHECK_EQUAL (
HexStr ( ParseHex_vec , true ) ,
" 04 67 8a fd b0 " ) ;
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BOOST_CHECK_EQUAL (
HexStr ( ParseHex_vec . rbegin ( ) , ParseHex_vec . rend ( ) ) ,
" b0fd8a6704 "
) ;
BOOST_CHECK_EQUAL (
HexStr ( ParseHex_vec . rbegin ( ) , ParseHex_vec . rend ( ) , true ) ,
" b0 fd 8a 67 04 "
) ;
BOOST_CHECK_EQUAL (
HexStr ( std : : reverse_iterator < const uint8_t * > ( ParseHex_expected ) ,
std : : reverse_iterator < const uint8_t * > ( ParseHex_expected ) ) ,
" "
) ;
BOOST_CHECK_EQUAL (
HexStr ( std : : reverse_iterator < const uint8_t * > ( ParseHex_expected ) ,
std : : reverse_iterator < const uint8_t * > ( ParseHex_expected ) , true ) ,
" "
) ;
BOOST_CHECK_EQUAL (
HexStr ( std : : reverse_iterator < const uint8_t * > ( ParseHex_expected + 1 ) ,
std : : reverse_iterator < const uint8_t * > ( ParseHex_expected ) ) ,
" 04 "
) ;
BOOST_CHECK_EQUAL (
HexStr ( std : : reverse_iterator < const uint8_t * > ( ParseHex_expected + 1 ) ,
std : : reverse_iterator < const uint8_t * > ( ParseHex_expected ) , true ) ,
" 04 "
) ;
BOOST_CHECK_EQUAL (
HexStr ( std : : reverse_iterator < const uint8_t * > ( ParseHex_expected + 5 ) ,
std : : reverse_iterator < const uint8_t * > ( ParseHex_expected ) ) ,
" b0fd8a6704 "
) ;
BOOST_CHECK_EQUAL (
HexStr ( std : : reverse_iterator < const uint8_t * > ( ParseHex_expected + 5 ) ,
std : : reverse_iterator < const uint8_t * > ( ParseHex_expected ) , true ) ,
" b0 fd 8a 67 04 "
) ;
BOOST_CHECK_EQUAL (
HexStr ( std : : reverse_iterator < const uint8_t * > ( ParseHex_expected + 65 ) ,
std : : reverse_iterator < const uint8_t * > ( ParseHex_expected ) ) ,
" 5f1df16b2b704c8a578d0bbaf74d385cde12c11ee50455f3c438ef4c3fbcf649b6de611feae06279a60939e028a8d65c10b73071a6f16719274855feb0fd8a6704 "
) ;
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}
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BOOST_AUTO_TEST_CASE ( util_FormatISO8601DateTime )
{
BOOST_CHECK_EQUAL ( FormatISO8601DateTime ( 1317425777 ) , " 2011-09-30T23:36:17Z " ) ;
}
BOOST_AUTO_TEST_CASE ( util_FormatISO8601Date )
{
BOOST_CHECK_EQUAL ( FormatISO8601Date ( 1317425777 ) , " 2011-09-30 " ) ;
}
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struct TestArgsManager : public ArgsManager
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{
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TestArgsManager ( ) { m_network_only_args . clear ( ) ; }
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std : : map < std : : string , std : : vector < std : : string > > & GetOverrideArgs ( ) { return m_override_args ; }
std : : map < std : : string , std : : vector < std : : string > > & GetConfigArgs ( ) { return m_config_args ; }
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void ReadConfigString ( const std : : string str_config )
{
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std : : istringstream streamConfig ( str_config ) ;
{
LOCK ( cs_args ) ;
m_config_args . clear ( ) ;
}
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std : : string error ;
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BOOST_REQUIRE ( ReadConfigStream ( streamConfig , error ) ) ;
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}
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void SetNetworkOnlyArg ( const std : : string arg )
{
LOCK ( cs_args ) ;
m_network_only_args . insert ( arg ) ;
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}
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void SetupArgs ( int argv , const char * args [ ] )
{
for ( int i = 0 ; i < argv ; + + i ) {
AddArg ( args [ i ] , " " , false , OptionsCategory : : OPTIONS ) ;
}
}
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} ;
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BOOST_AUTO_TEST_CASE ( util_ParseParameters )
{
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TestArgsManager testArgs ;
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const char * avail_args [ ] = { " -a " , " -b " , " -ccc " , " -d " } ;
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const char * argv_test [ ] = { " -ignored " , " -a " , " -b " , " -ccc=argument " , " -ccc=multiple " , " f " , " -d=e " } ;
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std : : string error ;
testArgs . SetupArgs ( 4 , avail_args ) ;
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BOOST_CHECK ( testArgs . ParseParameters ( 0 , ( char * * ) argv_test , error ) ) ;
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BOOST_CHECK ( testArgs . GetOverrideArgs ( ) . empty ( ) & & testArgs . GetConfigArgs ( ) . empty ( ) ) ;
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BOOST_CHECK ( testArgs . ParseParameters ( 1 , ( char * * ) argv_test , error ) ) ;
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BOOST_CHECK ( testArgs . GetOverrideArgs ( ) . empty ( ) & & testArgs . GetConfigArgs ( ) . empty ( ) ) ;
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BOOST_CHECK ( testArgs . ParseParameters ( 7 , ( char * * ) argv_test , error ) ) ;
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// expectation: -ignored is ignored (program name argument),
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// -a, -b and -ccc end up in map, -d ignored because it is after
// a non-option argument (non-GNU option parsing)
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BOOST_CHECK ( testArgs . GetOverrideArgs ( ) . size ( ) = = 3 & & testArgs . GetConfigArgs ( ) . empty ( ) ) ;
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BOOST_CHECK ( testArgs . IsArgSet ( " -a " ) & & testArgs . IsArgSet ( " -b " ) & & testArgs . IsArgSet ( " -ccc " )
& & ! testArgs . IsArgSet ( " f " ) & & ! testArgs . IsArgSet ( " -d " ) ) ;
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BOOST_CHECK ( testArgs . GetOverrideArgs ( ) . count ( " -a " ) & & testArgs . GetOverrideArgs ( ) . count ( " -b " ) & & testArgs . GetOverrideArgs ( ) . count ( " -ccc " )
& & ! testArgs . GetOverrideArgs ( ) . count ( " f " ) & & ! testArgs . GetOverrideArgs ( ) . count ( " -d " ) ) ;
BOOST_CHECK ( testArgs . GetOverrideArgs ( ) [ " -a " ] . size ( ) = = 1 ) ;
BOOST_CHECK ( testArgs . GetOverrideArgs ( ) [ " -a " ] . front ( ) = = " " ) ;
BOOST_CHECK ( testArgs . GetOverrideArgs ( ) [ " -ccc " ] . size ( ) = = 2 ) ;
BOOST_CHECK ( testArgs . GetOverrideArgs ( ) [ " -ccc " ] . front ( ) = = " argument " ) ;
BOOST_CHECK ( testArgs . GetOverrideArgs ( ) [ " -ccc " ] . back ( ) = = " multiple " ) ;
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BOOST_CHECK ( testArgs . GetArgs ( " -ccc " ) . size ( ) = = 2 ) ;
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}
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BOOST_AUTO_TEST_CASE ( util_GetBoolArg )
{
TestArgsManager testArgs ;
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const char * avail_args [ ] = { " -a " , " -b " , " -c " , " -d " , " -e " , " -f " } ;
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const char * argv_test [ ] = {
" ignored " , " -a " , " -nob " , " -c=0 " , " -d=1 " , " -e=false " , " -f=true " } ;
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std : : string error ;
testArgs . SetupArgs ( 6 , avail_args ) ;
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BOOST_CHECK ( testArgs . ParseParameters ( 7 , ( char * * ) argv_test , error ) ) ;
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// Each letter should be set.
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for ( const char opt : " abcdef " )
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BOOST_CHECK ( testArgs . IsArgSet ( { ' - ' , opt } ) | | ! opt ) ;
// Nothing else should be in the map
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BOOST_CHECK ( testArgs . GetOverrideArgs ( ) . size ( ) = = 6 & &
testArgs . GetConfigArgs ( ) . empty ( ) ) ;
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// The -no prefix should get stripped on the way in.
BOOST_CHECK ( ! testArgs . IsArgSet ( " -nob " ) ) ;
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// The -b option is flagged as negated, and nothing else is
BOOST_CHECK ( testArgs . IsArgNegated ( " -b " ) ) ;
BOOST_CHECK ( ! testArgs . IsArgNegated ( " -a " ) ) ;
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// Check expected values.
BOOST_CHECK ( testArgs . GetBoolArg ( " -a " , false ) = = true ) ;
BOOST_CHECK ( testArgs . GetBoolArg ( " -b " , true ) = = false ) ;
BOOST_CHECK ( testArgs . GetBoolArg ( " -c " , true ) = = false ) ;
BOOST_CHECK ( testArgs . GetBoolArg ( " -d " , false ) = = true ) ;
BOOST_CHECK ( testArgs . GetBoolArg ( " -e " , true ) = = false ) ;
BOOST_CHECK ( testArgs . GetBoolArg ( " -f " , true ) = = false ) ;
}
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BOOST_AUTO_TEST_CASE ( util_GetBoolArgEdgeCases )
{
// Test some awful edge cases that hopefully no user will ever exercise.
TestArgsManager testArgs ;
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// Params test
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const char * avail_args [ ] = { " -foo " , " -bar " } ;
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const char * argv_test [ ] = { " ignored " , " -nofoo " , " -foo " , " -nobar=0 " } ;
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testArgs . SetupArgs ( 2 , avail_args ) ;
std : : string error ;
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BOOST_CHECK ( testArgs . ParseParameters ( 4 , ( char * * ) argv_test , error ) ) ;
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// This was passed twice, second one overrides the negative setting.
BOOST_CHECK ( ! testArgs . IsArgNegated ( " -foo " ) ) ;
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BOOST_CHECK ( testArgs . GetArg ( " -foo " , " xxx " ) = = " " ) ;
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// A double negative is a positive, and not marked as negated.
BOOST_CHECK ( ! testArgs . IsArgNegated ( " -bar " ) ) ;
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BOOST_CHECK ( testArgs . GetArg ( " -bar " , " xxx " ) = = " 1 " ) ;
// Config test
const char * conf_test = " nofoo=1 \n foo=1 \n nobar=0 \n " ;
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BOOST_CHECK ( testArgs . ParseParameters ( 1 , ( char * * ) argv_test , error ) ) ;
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testArgs . ReadConfigString ( conf_test ) ;
// This was passed twice, second one overrides the negative setting,
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// and the value.
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BOOST_CHECK ( ! testArgs . IsArgNegated ( " -foo " ) ) ;
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BOOST_CHECK ( testArgs . GetArg ( " -foo " , " xxx " ) = = " 1 " ) ;
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// A double negative is a positive, and does not count as negated.
BOOST_CHECK ( ! testArgs . IsArgNegated ( " -bar " ) ) ;
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BOOST_CHECK ( testArgs . GetArg ( " -bar " , " xxx " ) = = " 1 " ) ;
// Combined test
const char * combo_test_args [ ] = { " ignored " , " -nofoo " , " -bar " } ;
const char * combo_test_conf = " foo=1 \n nobar=1 \n " ;
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BOOST_CHECK ( testArgs . ParseParameters ( 3 , ( char * * ) combo_test_args , error ) ) ;
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testArgs . ReadConfigString ( combo_test_conf ) ;
// Command line overrides, but doesn't erase old setting
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BOOST_CHECK ( testArgs . IsArgNegated ( " -foo " ) ) ;
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BOOST_CHECK ( testArgs . GetArg ( " -foo " , " xxx " ) = = " 0 " ) ;
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BOOST_CHECK ( testArgs . GetArgs ( " -foo " ) . size ( ) = = 0 ) ;
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// Command line overrides, but doesn't erase old setting
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BOOST_CHECK ( ! testArgs . IsArgNegated ( " -bar " ) ) ;
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BOOST_CHECK ( testArgs . GetArg ( " -bar " , " xxx " ) = = " " ) ;
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BOOST_CHECK ( testArgs . GetArgs ( " -bar " ) . size ( ) = = 1
& & testArgs . GetArgs ( " -bar " ) . front ( ) = = " " ) ;
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}
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BOOST_AUTO_TEST_CASE ( util_ReadConfigStream )
{
const char * str_config =
" a= \n "
" b=1 \n "
" ccc=argument \n "
" ccc=multiple \n "
" d=e \n "
" nofff=1 \n "
" noggg=0 \n "
" h=1 \n "
" noh=1 \n "
" noi=1 \n "
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" i=1 \n "
" sec1.ccc=extend1 \n "
" \n "
" [sec1] \n "
" ccc=extend2 \n "
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" d=eee \n "
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" h=1 \n "
" [sec2] \n "
" ccc=extend3 \n "
" iii=2 \n " ;
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TestArgsManager test_args ;
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const char * avail_args [ ] = { " -a " , " -b " , " -ccc " , " -d " , " -e " , " -fff " , " -ggg " , " -h " , " -i " , " -iii " } ;
test_args . SetupArgs ( 10 , avail_args ) ;
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test_args . ReadConfigString ( str_config ) ;
// expectation: a, b, ccc, d, fff, ggg, h, i end up in map
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// so do sec1.ccc, sec1.d, sec1.h, sec2.ccc, sec2.iii
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BOOST_CHECK ( test_args . GetOverrideArgs ( ) . empty ( ) ) ;
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BOOST_CHECK ( test_args . GetConfigArgs ( ) . size ( ) = = 13 ) ;
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BOOST_CHECK ( test_args . GetConfigArgs ( ) . count ( " -a " )
& & test_args . GetConfigArgs ( ) . count ( " -b " )
& & test_args . GetConfigArgs ( ) . count ( " -ccc " )
& & test_args . GetConfigArgs ( ) . count ( " -d " )
& & test_args . GetConfigArgs ( ) . count ( " -fff " )
& & test_args . GetConfigArgs ( ) . count ( " -ggg " )
& & test_args . GetConfigArgs ( ) . count ( " -h " )
& & test_args . GetConfigArgs ( ) . count ( " -i " )
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) ;
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BOOST_CHECK ( test_args . GetConfigArgs ( ) . count ( " -sec1.ccc " )
& & test_args . GetConfigArgs ( ) . count ( " -sec1.h " )
& & test_args . GetConfigArgs ( ) . count ( " -sec2.ccc " )
& & test_args . GetConfigArgs ( ) . count ( " -sec2.iii " )
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) ;
BOOST_CHECK ( test_args . IsArgSet ( " -a " )
& & test_args . IsArgSet ( " -b " )
& & test_args . IsArgSet ( " -ccc " )
& & test_args . IsArgSet ( " -d " )
& & test_args . IsArgSet ( " -fff " )
& & test_args . IsArgSet ( " -ggg " )
& & test_args . IsArgSet ( " -h " )
& & test_args . IsArgSet ( " -i " )
& & ! test_args . IsArgSet ( " -zzz " )
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& & ! test_args . IsArgSet ( " -iii " )
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) ;
BOOST_CHECK ( test_args . GetArg ( " -a " , " xxx " ) = = " "
& & test_args . GetArg ( " -b " , " xxx " ) = = " 1 "
& & test_args . GetArg ( " -ccc " , " xxx " ) = = " argument "
& & test_args . GetArg ( " -d " , " xxx " ) = = " e "
& & test_args . GetArg ( " -fff " , " xxx " ) = = " 0 "
& & test_args . GetArg ( " -ggg " , " xxx " ) = = " 1 "
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& & test_args . GetArg ( " -h " , " xxx " ) = = " 0 "
& & test_args . GetArg ( " -i " , " xxx " ) = = " 1 "
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& & test_args . GetArg ( " -zzz " , " xxx " ) = = " xxx "
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& & test_args . GetArg ( " -iii " , " xxx " ) = = " xxx "
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) ;
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for ( const bool def : { false , true } ) {
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BOOST_CHECK ( test_args . GetBoolArg ( " -a " , def )
& & test_args . GetBoolArg ( " -b " , def )
& & ! test_args . GetBoolArg ( " -ccc " , def )
& & ! test_args . GetBoolArg ( " -d " , def )
& & ! test_args . GetBoolArg ( " -fff " , def )
& & test_args . GetBoolArg ( " -ggg " , def )
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& & ! test_args . GetBoolArg ( " -h " , def )
& & test_args . GetBoolArg ( " -i " , def )
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& & test_args . GetBoolArg ( " -zzz " , def ) = = def
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& & test_args . GetBoolArg ( " -iii " , def ) = = def
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) ;
}
BOOST_CHECK ( test_args . GetArgs ( " -a " ) . size ( ) = = 1
& & test_args . GetArgs ( " -a " ) . front ( ) = = " " ) ;
BOOST_CHECK ( test_args . GetArgs ( " -b " ) . size ( ) = = 1
& & test_args . GetArgs ( " -b " ) . front ( ) = = " 1 " ) ;
BOOST_CHECK ( test_args . GetArgs ( " -ccc " ) . size ( ) = = 2
& & test_args . GetArgs ( " -ccc " ) . front ( ) = = " argument "
& & test_args . GetArgs ( " -ccc " ) . back ( ) = = " multiple " ) ;
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BOOST_CHECK ( test_args . GetArgs ( " -fff " ) . size ( ) = = 0 ) ;
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BOOST_CHECK ( test_args . GetArgs ( " -nofff " ) . size ( ) = = 0 ) ;
BOOST_CHECK ( test_args . GetArgs ( " -ggg " ) . size ( ) = = 1
& & test_args . GetArgs ( " -ggg " ) . front ( ) = = " 1 " ) ;
BOOST_CHECK ( test_args . GetArgs ( " -noggg " ) . size ( ) = = 0 ) ;
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BOOST_CHECK ( test_args . GetArgs ( " -h " ) . size ( ) = = 0 ) ;
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BOOST_CHECK ( test_args . GetArgs ( " -noh " ) . size ( ) = = 0 ) ;
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BOOST_CHECK ( test_args . GetArgs ( " -i " ) . size ( ) = = 1
& & test_args . GetArgs ( " -i " ) . front ( ) = = " 1 " ) ;
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BOOST_CHECK ( test_args . GetArgs ( " -noi " ) . size ( ) = = 0 ) ;
BOOST_CHECK ( test_args . GetArgs ( " -zzz " ) . size ( ) = = 0 ) ;
BOOST_CHECK ( ! test_args . IsArgNegated ( " -a " ) ) ;
BOOST_CHECK ( ! test_args . IsArgNegated ( " -b " ) ) ;
BOOST_CHECK ( ! test_args . IsArgNegated ( " -ccc " ) ) ;
BOOST_CHECK ( ! test_args . IsArgNegated ( " -d " ) ) ;
BOOST_CHECK ( test_args . IsArgNegated ( " -fff " ) ) ;
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BOOST_CHECK ( ! test_args . IsArgNegated ( " -ggg " ) ) ;
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BOOST_CHECK ( test_args . IsArgNegated ( " -h " ) ) ; // last setting takes precedence
BOOST_CHECK ( ! test_args . IsArgNegated ( " -i " ) ) ; // last setting takes precedence
BOOST_CHECK ( ! test_args . IsArgNegated ( " -zzz " ) ) ;
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// Test sections work
test_args . SelectConfigNetwork ( " sec1 " ) ;
// same as original
BOOST_CHECK ( test_args . GetArg ( " -a " , " xxx " ) = = " "
& & test_args . GetArg ( " -b " , " xxx " ) = = " 1 "
& & test_args . GetArg ( " -fff " , " xxx " ) = = " 0 "
& & test_args . GetArg ( " -ggg " , " xxx " ) = = " 1 "
& & test_args . GetArg ( " -zzz " , " xxx " ) = = " xxx "
& & test_args . GetArg ( " -iii " , " xxx " ) = = " xxx "
) ;
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// d is overridden
BOOST_CHECK ( test_args . GetArg ( " -d " , " xxx " ) = = " eee " ) ;
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// section-specific setting
BOOST_CHECK ( test_args . GetArg ( " -h " , " xxx " ) = = " 1 " ) ;
// section takes priority for multiple values
BOOST_CHECK ( test_args . GetArg ( " -ccc " , " xxx " ) = = " extend1 " ) ;
// check multiple values works
const std : : vector < std : : string > sec1_ccc_expected = { " extend1 " , " extend2 " , " argument " , " multiple " } ;
const auto & sec1_ccc_res = test_args . GetArgs ( " -ccc " ) ;
BOOST_CHECK_EQUAL_COLLECTIONS ( sec1_ccc_res . begin ( ) , sec1_ccc_res . end ( ) , sec1_ccc_expected . begin ( ) , sec1_ccc_expected . end ( ) ) ;
test_args . SelectConfigNetwork ( " sec2 " ) ;
// same as original
BOOST_CHECK ( test_args . GetArg ( " -a " , " xxx " ) = = " "
& & test_args . GetArg ( " -b " , " xxx " ) = = " 1 "
& & test_args . GetArg ( " -d " , " xxx " ) = = " e "
& & test_args . GetArg ( " -fff " , " xxx " ) = = " 0 "
& & test_args . GetArg ( " -ggg " , " xxx " ) = = " 1 "
& & test_args . GetArg ( " -zzz " , " xxx " ) = = " xxx "
& & test_args . GetArg ( " -h " , " xxx " ) = = " 0 "
) ;
// section-specific setting
BOOST_CHECK ( test_args . GetArg ( " -iii " , " xxx " ) = = " 2 " ) ;
// section takes priority for multiple values
BOOST_CHECK ( test_args . GetArg ( " -ccc " , " xxx " ) = = " extend3 " ) ;
// check multiple values works
const std : : vector < std : : string > sec2_ccc_expected = { " extend3 " , " argument " , " multiple " } ;
const auto & sec2_ccc_res = test_args . GetArgs ( " -ccc " ) ;
BOOST_CHECK_EQUAL_COLLECTIONS ( sec2_ccc_res . begin ( ) , sec2_ccc_res . end ( ) , sec2_ccc_expected . begin ( ) , sec2_ccc_expected . end ( ) ) ;
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// Test section only options
test_args . SetNetworkOnlyArg ( " -d " ) ;
test_args . SetNetworkOnlyArg ( " -ccc " ) ;
test_args . SetNetworkOnlyArg ( " -h " ) ;
test_args . SelectConfigNetwork ( CBaseChainParams : : MAIN ) ;
BOOST_CHECK ( test_args . GetArg ( " -d " , " xxx " ) = = " e " ) ;
BOOST_CHECK ( test_args . GetArgs ( " -ccc " ) . size ( ) = = 2 ) ;
BOOST_CHECK ( test_args . GetArg ( " -h " , " xxx " ) = = " 0 " ) ;
test_args . SelectConfigNetwork ( " sec1 " ) ;
BOOST_CHECK ( test_args . GetArg ( " -d " , " xxx " ) = = " eee " ) ;
BOOST_CHECK ( test_args . GetArgs ( " -d " ) . size ( ) = = 1 ) ;
BOOST_CHECK ( test_args . GetArgs ( " -ccc " ) . size ( ) = = 2 ) ;
BOOST_CHECK ( test_args . GetArg ( " -h " , " xxx " ) = = " 1 " ) ;
test_args . SelectConfigNetwork ( " sec2 " ) ;
BOOST_CHECK ( test_args . GetArg ( " -d " , " xxx " ) = = " xxx " ) ;
BOOST_CHECK ( test_args . GetArgs ( " -d " ) . size ( ) = = 0 ) ;
BOOST_CHECK ( test_args . GetArgs ( " -ccc " ) . size ( ) = = 1 ) ;
BOOST_CHECK ( test_args . GetArg ( " -h " , " xxx " ) = = " 0 " ) ;
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}
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BOOST_AUTO_TEST_CASE ( util_GetArg )
{
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TestArgsManager testArgs ;
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testArgs . GetOverrideArgs ( ) . clear ( ) ;
testArgs . GetOverrideArgs ( ) [ " strtest1 " ] = { " string... " } ;
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// strtest2 undefined on purpose
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testArgs . GetOverrideArgs ( ) [ " inttest1 " ] = { " 12345 " } ;
testArgs . GetOverrideArgs ( ) [ " inttest2 " ] = { " 81985529216486895 " } ;
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// inttest3 undefined on purpose
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testArgs . GetOverrideArgs ( ) [ " booltest1 " ] = { " " } ;
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// booltest2 undefined on purpose
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testArgs . GetOverrideArgs ( ) [ " booltest3 " ] = { " 0 " } ;
testArgs . GetOverrideArgs ( ) [ " booltest4 " ] = { " 1 " } ;
// priorities
testArgs . GetOverrideArgs ( ) [ " pritest1 " ] = { " a " , " b " } ;
testArgs . GetConfigArgs ( ) [ " pritest2 " ] = { " a " , " b " } ;
testArgs . GetOverrideArgs ( ) [ " pritest3 " ] = { " a " } ;
testArgs . GetConfigArgs ( ) [ " pritest3 " ] = { " b " } ;
testArgs . GetOverrideArgs ( ) [ " pritest4 " ] = { " a " , " b " } ;
testArgs . GetConfigArgs ( ) [ " pritest4 " ] = { " c " , " d " } ;
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BOOST_CHECK_EQUAL ( testArgs . GetArg ( " strtest1 " , " default " ) , " string... " ) ;
BOOST_CHECK_EQUAL ( testArgs . GetArg ( " strtest2 " , " default " ) , " default " ) ;
BOOST_CHECK_EQUAL ( testArgs . GetArg ( " inttest1 " , - 1 ) , 12345 ) ;
BOOST_CHECK_EQUAL ( testArgs . GetArg ( " inttest2 " , - 1 ) , 81985529216486895LL ) ;
BOOST_CHECK_EQUAL ( testArgs . GetArg ( " inttest3 " , - 1 ) , - 1 ) ;
BOOST_CHECK_EQUAL ( testArgs . GetBoolArg ( " booltest1 " , false ) , true ) ;
BOOST_CHECK_EQUAL ( testArgs . GetBoolArg ( " booltest2 " , false ) , false ) ;
BOOST_CHECK_EQUAL ( testArgs . GetBoolArg ( " booltest3 " , false ) , false ) ;
BOOST_CHECK_EQUAL ( testArgs . GetBoolArg ( " booltest4 " , false ) , true ) ;
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BOOST_CHECK_EQUAL ( testArgs . GetArg ( " pritest1 " , " default " ) , " b " ) ;
BOOST_CHECK_EQUAL ( testArgs . GetArg ( " pritest2 " , " default " ) , " a " ) ;
BOOST_CHECK_EQUAL ( testArgs . GetArg ( " pritest3 " , " default " ) , " a " ) ;
BOOST_CHECK_EQUAL ( testArgs . GetArg ( " pritest4 " , " default " ) , " b " ) ;
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}
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BOOST_AUTO_TEST_CASE ( util_GetChainName )
{
TestArgsManager test_args ;
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const char * avail_args [ ] = { " -testnet " , " -regtest " } ;
test_args . SetupArgs ( 2 , avail_args ) ;
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const char * argv_testnet [ ] = { " cmd " , " -testnet " } ;
const char * argv_regtest [ ] = { " cmd " , " -regtest " } ;
const char * argv_test_no_reg [ ] = { " cmd " , " -testnet " , " -noregtest " } ;
const char * argv_both [ ] = { " cmd " , " -testnet " , " -regtest " } ;
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// equivalent to "-testnet"
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// regtest in testnet section is ignored
const char * testnetconf = " testnet=1 \n regtest=0 \n [test] \n regtest=1 " ;
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std : : string error ;
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BOOST_CHECK ( test_args . ParseParameters ( 0 , ( char * * ) argv_testnet , error ) ) ;
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BOOST_CHECK_EQUAL ( test_args . GetChainName ( ) , " main " ) ;
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BOOST_CHECK ( test_args . ParseParameters ( 2 , ( char * * ) argv_testnet , error ) ) ;
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BOOST_CHECK_EQUAL ( test_args . GetChainName ( ) , " test " ) ;
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BOOST_CHECK ( test_args . ParseParameters ( 2 , ( char * * ) argv_regtest , error ) ) ;
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BOOST_CHECK_EQUAL ( test_args . GetChainName ( ) , " regtest " ) ;
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BOOST_CHECK ( test_args . ParseParameters ( 3 , ( char * * ) argv_test_no_reg , error ) ) ;
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BOOST_CHECK_EQUAL ( test_args . GetChainName ( ) , " test " ) ;
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BOOST_CHECK ( test_args . ParseParameters ( 3 , ( char * * ) argv_both , error ) ) ;
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BOOST_CHECK_THROW ( test_args . GetChainName ( ) , std : : runtime_error ) ;
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BOOST_CHECK ( test_args . ParseParameters ( 0 , ( char * * ) argv_testnet , error ) ) ;
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test_args . ReadConfigString ( testnetconf ) ;
BOOST_CHECK_EQUAL ( test_args . GetChainName ( ) , " test " ) ;
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BOOST_CHECK ( test_args . ParseParameters ( 2 , ( char * * ) argv_testnet , error ) ) ;
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test_args . ReadConfigString ( testnetconf ) ;
BOOST_CHECK_EQUAL ( test_args . GetChainName ( ) , " test " ) ;
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BOOST_CHECK ( test_args . ParseParameters ( 2 , ( char * * ) argv_regtest , error ) ) ;
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test_args . ReadConfigString ( testnetconf ) ;
BOOST_CHECK_THROW ( test_args . GetChainName ( ) , std : : runtime_error ) ;
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BOOST_CHECK ( test_args . ParseParameters ( 3 , ( char * * ) argv_test_no_reg , error ) ) ;
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test_args . ReadConfigString ( testnetconf ) ;
BOOST_CHECK_EQUAL ( test_args . GetChainName ( ) , " test " ) ;
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BOOST_CHECK ( test_args . ParseParameters ( 3 , ( char * * ) argv_both , error ) ) ;
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test_args . ReadConfigString ( testnetconf ) ;
BOOST_CHECK_THROW ( test_args . GetChainName ( ) , std : : runtime_error ) ;
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// check setting the network to test (and thus making
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// [test] regtest=1 potentially relevant) doesn't break things
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test_args . SelectConfigNetwork ( " test " ) ;
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BOOST_CHECK ( test_args . ParseParameters ( 0 , ( char * * ) argv_testnet , error ) ) ;
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test_args . ReadConfigString ( testnetconf ) ;
BOOST_CHECK_EQUAL ( test_args . GetChainName ( ) , " test " ) ;
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BOOST_CHECK ( test_args . ParseParameters ( 2 , ( char * * ) argv_testnet , error ) ) ;
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test_args . ReadConfigString ( testnetconf ) ;
BOOST_CHECK_EQUAL ( test_args . GetChainName ( ) , " test " ) ;
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BOOST_CHECK ( test_args . ParseParameters ( 2 , ( char * * ) argv_regtest , error ) ) ;
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test_args . ReadConfigString ( testnetconf ) ;
BOOST_CHECK_THROW ( test_args . GetChainName ( ) , std : : runtime_error ) ;
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BOOST_CHECK ( test_args . ParseParameters ( 2 , ( char * * ) argv_test_no_reg , error ) ) ;
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test_args . ReadConfigString ( testnetconf ) ;
BOOST_CHECK_EQUAL ( test_args . GetChainName ( ) , " test " ) ;
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BOOST_CHECK ( test_args . ParseParameters ( 3 , ( char * * ) argv_both , error ) ) ;
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test_args . ReadConfigString ( testnetconf ) ;
BOOST_CHECK_THROW ( test_args . GetChainName ( ) , std : : runtime_error ) ;
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}
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BOOST_AUTO_TEST_CASE ( util_FormatMoney )
{
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BOOST_CHECK_EQUAL ( FormatMoney ( 0 ) , " 0.00 " ) ;
BOOST_CHECK_EQUAL ( FormatMoney ( ( COIN / 10000 ) * 123456789 ) , " 12345.6789 " ) ;
BOOST_CHECK_EQUAL ( FormatMoney ( - COIN ) , " -1.00 " ) ;
BOOST_CHECK_EQUAL ( FormatMoney ( COIN * 100000000 ) , " 100000000.00 " ) ;
BOOST_CHECK_EQUAL ( FormatMoney ( COIN * 10000000 ) , " 10000000.00 " ) ;
BOOST_CHECK_EQUAL ( FormatMoney ( COIN * 1000000 ) , " 1000000.00 " ) ;
BOOST_CHECK_EQUAL ( FormatMoney ( COIN * 100000 ) , " 100000.00 " ) ;
BOOST_CHECK_EQUAL ( FormatMoney ( COIN * 10000 ) , " 10000.00 " ) ;
BOOST_CHECK_EQUAL ( FormatMoney ( COIN * 1000 ) , " 1000.00 " ) ;
BOOST_CHECK_EQUAL ( FormatMoney ( COIN * 100 ) , " 100.00 " ) ;
BOOST_CHECK_EQUAL ( FormatMoney ( COIN * 10 ) , " 10.00 " ) ;
BOOST_CHECK_EQUAL ( FormatMoney ( COIN ) , " 1.00 " ) ;
BOOST_CHECK_EQUAL ( FormatMoney ( COIN / 10 ) , " 0.10 " ) ;
BOOST_CHECK_EQUAL ( FormatMoney ( COIN / 100 ) , " 0.01 " ) ;
BOOST_CHECK_EQUAL ( FormatMoney ( COIN / 1000 ) , " 0.001 " ) ;
BOOST_CHECK_EQUAL ( FormatMoney ( COIN / 10000 ) , " 0.0001 " ) ;
BOOST_CHECK_EQUAL ( FormatMoney ( COIN / 100000 ) , " 0.00001 " ) ;
BOOST_CHECK_EQUAL ( FormatMoney ( COIN / 1000000 ) , " 0.000001 " ) ;
BOOST_CHECK_EQUAL ( FormatMoney ( COIN / 10000000 ) , " 0.0000001 " ) ;
BOOST_CHECK_EQUAL ( FormatMoney ( COIN / 100000000 ) , " 0.00000001 " ) ;
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}
BOOST_AUTO_TEST_CASE ( util_ParseMoney )
{
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CAmount ret = 0 ;
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BOOST_CHECK ( ParseMoney ( " 0.0 " , ret ) ) ;
BOOST_CHECK_EQUAL ( ret , 0 ) ;
BOOST_CHECK ( ParseMoney ( " 12345.6789 " , ret ) ) ;
BOOST_CHECK_EQUAL ( ret , ( COIN / 10000 ) * 123456789 ) ;
BOOST_CHECK ( ParseMoney ( " 100000000.00 " , ret ) ) ;
BOOST_CHECK_EQUAL ( ret , COIN * 100000000 ) ;
BOOST_CHECK ( ParseMoney ( " 10000000.00 " , ret ) ) ;
BOOST_CHECK_EQUAL ( ret , COIN * 10000000 ) ;
BOOST_CHECK ( ParseMoney ( " 1000000.00 " , ret ) ) ;
BOOST_CHECK_EQUAL ( ret , COIN * 1000000 ) ;
BOOST_CHECK ( ParseMoney ( " 100000.00 " , ret ) ) ;
BOOST_CHECK_EQUAL ( ret , COIN * 100000 ) ;
BOOST_CHECK ( ParseMoney ( " 10000.00 " , ret ) ) ;
BOOST_CHECK_EQUAL ( ret , COIN * 10000 ) ;
BOOST_CHECK ( ParseMoney ( " 1000.00 " , ret ) ) ;
BOOST_CHECK_EQUAL ( ret , COIN * 1000 ) ;
BOOST_CHECK ( ParseMoney ( " 100.00 " , ret ) ) ;
BOOST_CHECK_EQUAL ( ret , COIN * 100 ) ;
BOOST_CHECK ( ParseMoney ( " 10.00 " , ret ) ) ;
BOOST_CHECK_EQUAL ( ret , COIN * 10 ) ;
BOOST_CHECK ( ParseMoney ( " 1.00 " , ret ) ) ;
BOOST_CHECK_EQUAL ( ret , COIN ) ;
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BOOST_CHECK ( ParseMoney ( " 1 " , ret ) ) ;
BOOST_CHECK_EQUAL ( ret , COIN ) ;
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BOOST_CHECK ( ParseMoney ( " 0.1 " , ret ) ) ;
BOOST_CHECK_EQUAL ( ret , COIN / 10 ) ;
BOOST_CHECK ( ParseMoney ( " 0.01 " , ret ) ) ;
BOOST_CHECK_EQUAL ( ret , COIN / 100 ) ;
BOOST_CHECK ( ParseMoney ( " 0.001 " , ret ) ) ;
BOOST_CHECK_EQUAL ( ret , COIN / 1000 ) ;
BOOST_CHECK ( ParseMoney ( " 0.0001 " , ret ) ) ;
BOOST_CHECK_EQUAL ( ret , COIN / 10000 ) ;
BOOST_CHECK ( ParseMoney ( " 0.00001 " , ret ) ) ;
BOOST_CHECK_EQUAL ( ret , COIN / 100000 ) ;
BOOST_CHECK ( ParseMoney ( " 0.000001 " , ret ) ) ;
BOOST_CHECK_EQUAL ( ret , COIN / 1000000 ) ;
BOOST_CHECK ( ParseMoney ( " 0.0000001 " , ret ) ) ;
BOOST_CHECK_EQUAL ( ret , COIN / 10000000 ) ;
BOOST_CHECK ( ParseMoney ( " 0.00000001 " , ret ) ) ;
BOOST_CHECK_EQUAL ( ret , COIN / 100000000 ) ;
// Attempted 63 bit overflow should fail
BOOST_CHECK ( ! ParseMoney ( " 92233720368.54775808 " , ret ) ) ;
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// Parsing negative amounts must fail
BOOST_CHECK ( ! ParseMoney ( " -1 " , ret ) ) ;
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}
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BOOST_AUTO_TEST_CASE ( util_IsHex )
{
BOOST_CHECK ( IsHex ( " 00 " ) ) ;
BOOST_CHECK ( IsHex ( " 00112233445566778899aabbccddeeffAABBCCDDEEFF " ) ) ;
BOOST_CHECK ( IsHex ( " ff " ) ) ;
BOOST_CHECK ( IsHex ( " FF " ) ) ;
BOOST_CHECK ( ! IsHex ( " " ) ) ;
BOOST_CHECK ( ! IsHex ( " 0 " ) ) ;
BOOST_CHECK ( ! IsHex ( " a " ) ) ;
BOOST_CHECK ( ! IsHex ( " eleven " ) ) ;
BOOST_CHECK ( ! IsHex ( " 00xx00 " ) ) ;
BOOST_CHECK ( ! IsHex ( " 0x0000 " ) ) ;
}
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BOOST_AUTO_TEST_CASE ( util_IsHexNumber )
{
BOOST_CHECK ( IsHexNumber ( " 0x0 " ) ) ;
BOOST_CHECK ( IsHexNumber ( " 0 " ) ) ;
BOOST_CHECK ( IsHexNumber ( " 0x10 " ) ) ;
BOOST_CHECK ( IsHexNumber ( " 10 " ) ) ;
BOOST_CHECK ( IsHexNumber ( " 0xff " ) ) ;
BOOST_CHECK ( IsHexNumber ( " ff " ) ) ;
BOOST_CHECK ( IsHexNumber ( " 0xFfa " ) ) ;
BOOST_CHECK ( IsHexNumber ( " Ffa " ) ) ;
BOOST_CHECK ( IsHexNumber ( " 0x00112233445566778899aabbccddeeffAABBCCDDEEFF " ) ) ;
BOOST_CHECK ( IsHexNumber ( " 00112233445566778899aabbccddeeffAABBCCDDEEFF " ) ) ;
BOOST_CHECK ( ! IsHexNumber ( " " ) ) ; // empty string not allowed
BOOST_CHECK ( ! IsHexNumber ( " 0x " ) ) ; // empty string after prefix not allowed
BOOST_CHECK ( ! IsHexNumber ( " 0x0 " ) ) ; // no spaces at end,
BOOST_CHECK ( ! IsHexNumber ( " 0x0 " ) ) ; // or beginning,
BOOST_CHECK ( ! IsHexNumber ( " 0x 0 " ) ) ; // or middle,
BOOST_CHECK ( ! IsHexNumber ( " " ) ) ; // etc.
BOOST_CHECK ( ! IsHexNumber ( " 0x0ga " ) ) ; // invalid character
BOOST_CHECK ( ! IsHexNumber ( " x0 " ) ) ; // broken prefix
BOOST_CHECK ( ! IsHexNumber ( " 0x0x00 " ) ) ; // two prefixes not allowed
}
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BOOST_AUTO_TEST_CASE ( util_seed_insecure_rand )
{
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SeedInsecureRand ( true ) ;
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for ( int mod = 2 ; mod < 11 ; mod + + )
{
int mask = 1 ;
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// Really rough binomial confidence approximation.
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int err = 30 * 10000. / mod * sqrt ( ( 1. / mod * ( 1 - 1. / mod ) ) / 10000. ) ;
//mask is 2^ceil(log2(mod))-1
while ( mask < mod - 1 ) mask = ( mask < < 1 ) + 1 ;
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int count = 0 ;
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//How often does it get a zero from the uniform range [0,mod)?
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for ( int i = 0 ; i < 10000 ; i + + ) {
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uint32_t rval ;
do {
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rval = InsecureRand32 ( ) & mask ;
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} while ( rval > = ( uint32_t ) mod ) ;
count + = rval = = 0 ;
}
BOOST_CHECK ( count < = 10000 / mod + err ) ;
BOOST_CHECK ( count > = 10000 / mod - err ) ;
}
}
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BOOST_AUTO_TEST_CASE ( util_TimingResistantEqual )
{
BOOST_CHECK ( TimingResistantEqual ( std : : string ( " " ) , std : : string ( " " ) ) ) ;
BOOST_CHECK ( ! TimingResistantEqual ( std : : string ( " abc " ) , std : : string ( " " ) ) ) ;
BOOST_CHECK ( ! TimingResistantEqual ( std : : string ( " " ) , std : : string ( " abc " ) ) ) ;
BOOST_CHECK ( ! TimingResistantEqual ( std : : string ( " a " ) , std : : string ( " aa " ) ) ) ;
BOOST_CHECK ( ! TimingResistantEqual ( std : : string ( " aa " ) , std : : string ( " a " ) ) ) ;
BOOST_CHECK ( TimingResistantEqual ( std : : string ( " abc " ) , std : : string ( " abc " ) ) ) ;
BOOST_CHECK ( ! TimingResistantEqual ( std : : string ( " abc " ) , std : : string ( " aba " ) ) ) ;
}
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/* Test strprintf formatting directives.
* Put a string before and after to ensure sanity of element sizes on stack . */
# define B "check_prefix"
# define E "check_postfix"
BOOST_AUTO_TEST_CASE ( strprintf_numbers )
{
int64_t s64t = - 9223372036854775807LL ; /* signed 64 bit test value */
uint64_t u64t = 18446744073709551615ULL ; /* unsigned 64 bit test value */
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BOOST_CHECK ( strprintf ( " %s %d %s " , B , s64t , E ) = = B " -9223372036854775807 " E ) ;
BOOST_CHECK ( strprintf ( " %s %u %s " , B , u64t , E ) = = B " 18446744073709551615 " E ) ;
BOOST_CHECK ( strprintf ( " %s %x %s " , B , u64t , E ) = = B " ffffffffffffffff " E ) ;
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size_t st = 12345678 ; /* unsigned size_t test value */
ssize_t sst = - 12345678 ; /* signed size_t test value */
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BOOST_CHECK ( strprintf ( " %s %d %s " , B , sst , E ) = = B " -12345678 " E ) ;
BOOST_CHECK ( strprintf ( " %s %u %s " , B , st , E ) = = B " 12345678 " E ) ;
BOOST_CHECK ( strprintf ( " %s %x %s " , B , st , E ) = = B " bc614e " E ) ;
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ptrdiff_t pt = 87654321 ; /* positive ptrdiff_t test value */
ptrdiff_t spt = - 87654321 ; /* negative ptrdiff_t test value */
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BOOST_CHECK ( strprintf ( " %s %d %s " , B , spt , E ) = = B " -87654321 " E ) ;
BOOST_CHECK ( strprintf ( " %s %u %s " , B , pt , E ) = = B " 87654321 " E ) ;
BOOST_CHECK ( strprintf ( " %s %x %s " , B , pt , E ) = = B " 5397fb1 " E ) ;
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}
# undef B
# undef E
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/* Check for mingw/wine issue #3494
* Remove this test before time . ctime ( 0xffffffff ) = = ' Sun Feb 7 07 : 28 : 15 2106 '
*/
BOOST_AUTO_TEST_CASE ( gettime )
{
BOOST_CHECK ( ( GetTime ( ) & ~ 0xFFFFFFFFLL ) = = 0 ) ;
}
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BOOST_AUTO_TEST_CASE ( test_IsDigit )
{
BOOST_CHECK_EQUAL ( IsDigit ( ' 0 ' ) , true ) ;
BOOST_CHECK_EQUAL ( IsDigit ( ' 1 ' ) , true ) ;
BOOST_CHECK_EQUAL ( IsDigit ( ' 8 ' ) , true ) ;
BOOST_CHECK_EQUAL ( IsDigit ( ' 9 ' ) , true ) ;
BOOST_CHECK_EQUAL ( IsDigit ( ' 0 ' - 1 ) , false ) ;
BOOST_CHECK_EQUAL ( IsDigit ( ' 9 ' + 1 ) , false ) ;
BOOST_CHECK_EQUAL ( IsDigit ( 0 ) , false ) ;
BOOST_CHECK_EQUAL ( IsDigit ( 1 ) , false ) ;
BOOST_CHECK_EQUAL ( IsDigit ( 8 ) , false ) ;
BOOST_CHECK_EQUAL ( IsDigit ( 9 ) , false ) ;
}
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BOOST_AUTO_TEST_CASE ( test_ParseInt32 )
{
int32_t n ;
// Valid values
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BOOST_CHECK ( ParseInt32 ( " 1234 " , nullptr ) ) ;
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BOOST_CHECK ( ParseInt32 ( " 0 " , & n ) & & n = = 0 ) ;
BOOST_CHECK ( ParseInt32 ( " 1234 " , & n ) & & n = = 1234 ) ;
BOOST_CHECK ( ParseInt32 ( " 01234 " , & n ) & & n = = 1234 ) ; // no octal
BOOST_CHECK ( ParseInt32 ( " 2147483647 " , & n ) & & n = = 2147483647 ) ;
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BOOST_CHECK ( ParseInt32 ( " -2147483648 " , & n ) & & n = = ( - 2147483647 - 1 ) ) ; // (-2147483647 - 1) equals INT_MIN
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BOOST_CHECK ( ParseInt32 ( " -1234 " , & n ) & & n = = - 1234 ) ;
// Invalid values
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BOOST_CHECK ( ! ParseInt32 ( " " , & n ) ) ;
BOOST_CHECK ( ! ParseInt32 ( " 1 " , & n ) ) ; // no padding inside
BOOST_CHECK ( ! ParseInt32 ( " 1 " , & n ) ) ;
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BOOST_CHECK ( ! ParseInt32 ( " 1a " , & n ) ) ;
BOOST_CHECK ( ! ParseInt32 ( " aap " , & n ) ) ;
BOOST_CHECK ( ! ParseInt32 ( " 0x1 " , & n ) ) ; // no hex
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BOOST_CHECK ( ! ParseInt32 ( " 0x1 " , & n ) ) ; // no hex
const char test_bytes [ ] = { ' 1 ' , 0 , ' 1 ' } ;
std : : string teststr ( test_bytes , sizeof ( test_bytes ) ) ;
BOOST_CHECK ( ! ParseInt32 ( teststr , & n ) ) ; // no embedded NULs
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// Overflow and underflow
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BOOST_CHECK ( ! ParseInt32 ( " -2147483649 " , nullptr ) ) ;
BOOST_CHECK ( ! ParseInt32 ( " 2147483648 " , nullptr ) ) ;
BOOST_CHECK ( ! ParseInt32 ( " -32482348723847471234 " , nullptr ) ) ;
BOOST_CHECK ( ! ParseInt32 ( " 32482348723847471234 " , nullptr ) ) ;
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}
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BOOST_AUTO_TEST_CASE ( test_ParseInt64 )
{
int64_t n ;
// Valid values
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BOOST_CHECK ( ParseInt64 ( " 1234 " , nullptr ) ) ;
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BOOST_CHECK ( ParseInt64 ( " 0 " , & n ) & & n = = 0LL ) ;
BOOST_CHECK ( ParseInt64 ( " 1234 " , & n ) & & n = = 1234LL ) ;
BOOST_CHECK ( ParseInt64 ( " 01234 " , & n ) & & n = = 1234LL ) ; // no octal
BOOST_CHECK ( ParseInt64 ( " 2147483647 " , & n ) & & n = = 2147483647LL ) ;
BOOST_CHECK ( ParseInt64 ( " -2147483648 " , & n ) & & n = = - 2147483648LL ) ;
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BOOST_CHECK ( ParseInt64 ( " 9223372036854775807 " , & n ) & & n = = ( int64_t ) 9223372036854775807 ) ;
BOOST_CHECK ( ParseInt64 ( " -9223372036854775808 " , & n ) & & n = = ( int64_t ) - 9223372036854775807 - 1 ) ;
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BOOST_CHECK ( ParseInt64 ( " -1234 " , & n ) & & n = = - 1234LL ) ;
// Invalid values
BOOST_CHECK ( ! ParseInt64 ( " " , & n ) ) ;
BOOST_CHECK ( ! ParseInt64 ( " 1 " , & n ) ) ; // no padding inside
BOOST_CHECK ( ! ParseInt64 ( " 1 " , & n ) ) ;
BOOST_CHECK ( ! ParseInt64 ( " 1a " , & n ) ) ;
BOOST_CHECK ( ! ParseInt64 ( " aap " , & n ) ) ;
BOOST_CHECK ( ! ParseInt64 ( " 0x1 " , & n ) ) ; // no hex
const char test_bytes [ ] = { ' 1 ' , 0 , ' 1 ' } ;
std : : string teststr ( test_bytes , sizeof ( test_bytes ) ) ;
BOOST_CHECK ( ! ParseInt64 ( teststr , & n ) ) ; // no embedded NULs
// Overflow and underflow
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BOOST_CHECK ( ! ParseInt64 ( " -9223372036854775809 " , nullptr ) ) ;
BOOST_CHECK ( ! ParseInt64 ( " 9223372036854775808 " , nullptr ) ) ;
BOOST_CHECK ( ! ParseInt64 ( " -32482348723847471234 " , nullptr ) ) ;
BOOST_CHECK ( ! ParseInt64 ( " 32482348723847471234 " , nullptr ) ) ;
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}
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BOOST_AUTO_TEST_CASE ( test_ParseUInt32 )
{
uint32_t n ;
// Valid values
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BOOST_CHECK ( ParseUInt32 ( " 1234 " , nullptr ) ) ;
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BOOST_CHECK ( ParseUInt32 ( " 0 " , & n ) & & n = = 0 ) ;
BOOST_CHECK ( ParseUInt32 ( " 1234 " , & n ) & & n = = 1234 ) ;
BOOST_CHECK ( ParseUInt32 ( " 01234 " , & n ) & & n = = 1234 ) ; // no octal
BOOST_CHECK ( ParseUInt32 ( " 2147483647 " , & n ) & & n = = 2147483647 ) ;
BOOST_CHECK ( ParseUInt32 ( " 2147483648 " , & n ) & & n = = ( uint32_t ) 2147483648 ) ;
BOOST_CHECK ( ParseUInt32 ( " 4294967295 " , & n ) & & n = = ( uint32_t ) 4294967295 ) ;
// Invalid values
BOOST_CHECK ( ! ParseUInt32 ( " " , & n ) ) ;
BOOST_CHECK ( ! ParseUInt32 ( " 1 " , & n ) ) ; // no padding inside
BOOST_CHECK ( ! ParseUInt32 ( " -1 " , & n ) ) ;
BOOST_CHECK ( ! ParseUInt32 ( " 1 " , & n ) ) ;
BOOST_CHECK ( ! ParseUInt32 ( " 1a " , & n ) ) ;
BOOST_CHECK ( ! ParseUInt32 ( " aap " , & n ) ) ;
BOOST_CHECK ( ! ParseUInt32 ( " 0x1 " , & n ) ) ; // no hex
BOOST_CHECK ( ! ParseUInt32 ( " 0x1 " , & n ) ) ; // no hex
const char test_bytes [ ] = { ' 1 ' , 0 , ' 1 ' } ;
std : : string teststr ( test_bytes , sizeof ( test_bytes ) ) ;
BOOST_CHECK ( ! ParseUInt32 ( teststr , & n ) ) ; // no embedded NULs
// Overflow and underflow
BOOST_CHECK ( ! ParseUInt32 ( " -2147483648 " , & n ) ) ;
BOOST_CHECK ( ! ParseUInt32 ( " 4294967296 " , & n ) ) ;
BOOST_CHECK ( ! ParseUInt32 ( " -1234 " , & n ) ) ;
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BOOST_CHECK ( ! ParseUInt32 ( " -32482348723847471234 " , nullptr ) ) ;
BOOST_CHECK ( ! ParseUInt32 ( " 32482348723847471234 " , nullptr ) ) ;
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}
BOOST_AUTO_TEST_CASE ( test_ParseUInt64 )
{
uint64_t n ;
// Valid values
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BOOST_CHECK ( ParseUInt64 ( " 1234 " , nullptr ) ) ;
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BOOST_CHECK ( ParseUInt64 ( " 0 " , & n ) & & n = = 0LL ) ;
BOOST_CHECK ( ParseUInt64 ( " 1234 " , & n ) & & n = = 1234LL ) ;
BOOST_CHECK ( ParseUInt64 ( " 01234 " , & n ) & & n = = 1234LL ) ; // no octal
BOOST_CHECK ( ParseUInt64 ( " 2147483647 " , & n ) & & n = = 2147483647LL ) ;
BOOST_CHECK ( ParseUInt64 ( " 9223372036854775807 " , & n ) & & n = = 9223372036854775807ULL ) ;
BOOST_CHECK ( ParseUInt64 ( " 9223372036854775808 " , & n ) & & n = = 9223372036854775808ULL ) ;
BOOST_CHECK ( ParseUInt64 ( " 18446744073709551615 " , & n ) & & n = = 18446744073709551615ULL ) ;
// Invalid values
BOOST_CHECK ( ! ParseUInt64 ( " " , & n ) ) ;
BOOST_CHECK ( ! ParseUInt64 ( " 1 " , & n ) ) ; // no padding inside
BOOST_CHECK ( ! ParseUInt64 ( " -1 " , & n ) ) ;
BOOST_CHECK ( ! ParseUInt64 ( " 1 " , & n ) ) ;
BOOST_CHECK ( ! ParseUInt64 ( " 1a " , & n ) ) ;
BOOST_CHECK ( ! ParseUInt64 ( " aap " , & n ) ) ;
BOOST_CHECK ( ! ParseUInt64 ( " 0x1 " , & n ) ) ; // no hex
const char test_bytes [ ] = { ' 1 ' , 0 , ' 1 ' } ;
std : : string teststr ( test_bytes , sizeof ( test_bytes ) ) ;
BOOST_CHECK ( ! ParseUInt64 ( teststr , & n ) ) ; // no embedded NULs
// Overflow and underflow
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BOOST_CHECK ( ! ParseUInt64 ( " -9223372036854775809 " , nullptr ) ) ;
BOOST_CHECK ( ! ParseUInt64 ( " 18446744073709551616 " , nullptr ) ) ;
BOOST_CHECK ( ! ParseUInt64 ( " -32482348723847471234 " , nullptr ) ) ;
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BOOST_CHECK ( ! ParseUInt64 ( " -2147483648 " , & n ) ) ;
BOOST_CHECK ( ! ParseUInt64 ( " -9223372036854775808 " , & n ) ) ;
BOOST_CHECK ( ! ParseUInt64 ( " -1234 " , & n ) ) ;
}
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BOOST_AUTO_TEST_CASE ( test_ParseDouble )
{
double n ;
// Valid values
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BOOST_CHECK ( ParseDouble ( " 1234 " , nullptr ) ) ;
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BOOST_CHECK ( ParseDouble ( " 0 " , & n ) & & n = = 0.0 ) ;
BOOST_CHECK ( ParseDouble ( " 1234 " , & n ) & & n = = 1234.0 ) ;
BOOST_CHECK ( ParseDouble ( " 01234 " , & n ) & & n = = 1234.0 ) ; // no octal
BOOST_CHECK ( ParseDouble ( " 2147483647 " , & n ) & & n = = 2147483647.0 ) ;
BOOST_CHECK ( ParseDouble ( " -2147483648 " , & n ) & & n = = - 2147483648.0 ) ;
BOOST_CHECK ( ParseDouble ( " -1234 " , & n ) & & n = = - 1234.0 ) ;
BOOST_CHECK ( ParseDouble ( " 1e6 " , & n ) & & n = = 1e6 ) ;
BOOST_CHECK ( ParseDouble ( " -1e6 " , & n ) & & n = = - 1e6 ) ;
// Invalid values
BOOST_CHECK ( ! ParseDouble ( " " , & n ) ) ;
BOOST_CHECK ( ! ParseDouble ( " 1 " , & n ) ) ; // no padding inside
BOOST_CHECK ( ! ParseDouble ( " 1 " , & n ) ) ;
BOOST_CHECK ( ! ParseDouble ( " 1a " , & n ) ) ;
BOOST_CHECK ( ! ParseDouble ( " aap " , & n ) ) ;
BOOST_CHECK ( ! ParseDouble ( " 0x1 " , & n ) ) ; // no hex
const char test_bytes [ ] = { ' 1 ' , 0 , ' 1 ' } ;
std : : string teststr ( test_bytes , sizeof ( test_bytes ) ) ;
BOOST_CHECK ( ! ParseDouble ( teststr , & n ) ) ; // no embedded NULs
// Overflow and underflow
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BOOST_CHECK ( ! ParseDouble ( " -1e10000 " , nullptr ) ) ;
BOOST_CHECK ( ! ParseDouble ( " 1e10000 " , nullptr ) ) ;
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}
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BOOST_AUTO_TEST_CASE ( test_FormatParagraph )
{
BOOST_CHECK_EQUAL ( FormatParagraph ( " " , 79 , 0 ) , " " ) ;
BOOST_CHECK_EQUAL ( FormatParagraph ( " test " , 79 , 0 ) , " test " ) ;
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BOOST_CHECK_EQUAL ( FormatParagraph ( " test " , 79 , 0 ) , " test " ) ;
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BOOST_CHECK_EQUAL ( FormatParagraph ( " test test " , 79 , 0 ) , " test test " ) ;
BOOST_CHECK_EQUAL ( FormatParagraph ( " test test " , 4 , 0 ) , " test \n test " ) ;
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BOOST_CHECK_EQUAL ( FormatParagraph ( " testerde test " , 4 , 0 ) , " testerde \n test " ) ;
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BOOST_CHECK_EQUAL ( FormatParagraph ( " test test " , 4 , 4 ) , " test \n test " ) ;
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// Make sure we don't indent a fully-new line following a too-long line ending
BOOST_CHECK_EQUAL ( FormatParagraph ( " test test \n abc " , 4 , 4 ) , " test \n test \n abc " ) ;
BOOST_CHECK_EQUAL ( FormatParagraph ( " This_is_a_very_long_test_string_without_any_spaces_so_it_should_just_get_returned_as_is_despite_the_length until it gets here " , 79 ) , " This_is_a_very_long_test_string_without_any_spaces_so_it_should_just_get_returned_as_is_despite_the_length \n until it gets here " ) ;
// Test wrap length is exact
BOOST_CHECK_EQUAL ( FormatParagraph ( " a b c d e f g h i j k l m n o p q r s t u v w x y z 1 2 3 4 5 6 7 8 9 a b c de f g h i j k l m n o p " , 79 ) , " a b c d e f g h i j k l m n o p q r s t u v w x y z 1 2 3 4 5 6 7 8 9 a b c de \n f g h i j k l m n o p " ) ;
BOOST_CHECK_EQUAL ( FormatParagraph ( " x \n a b c d e f g h i j k l m n o p q r s t u v w x y z 1 2 3 4 5 6 7 8 9 a b c de f g h i j k l m n o p " , 79 ) , " x \n a b c d e f g h i j k l m n o p q r s t u v w x y z 1 2 3 4 5 6 7 8 9 a b c de \n f g h i j k l m n o p " ) ;
// Indent should be included in length of lines
BOOST_CHECK_EQUAL ( FormatParagraph ( " x \n a b c d e f g h i j k l m n o p q r s t u v w x y z 1 2 3 4 5 6 7 8 9 a b c de f g h i j k l m n o p q r s t u v w x y z 0 1 2 3 4 5 6 7 8 9 a b c d e fg h i j k " , 79 , 4 ) , " x \n a b c d e f g h i j k l m n o p q r s t u v w x y z 1 2 3 4 5 6 7 8 9 a b c de \n f g h i j k l m n o p q r s t u v w x y z 0 1 2 3 4 5 6 7 8 9 a b c d e fg \n h i j k " ) ;
BOOST_CHECK_EQUAL ( FormatParagraph ( " This is a very long test string. This is a second sentence in the very long test string. " , 79 ) , " This is a very long test string. This is a second sentence in the very long \n test string. " ) ;
BOOST_CHECK_EQUAL ( FormatParagraph ( " This is a very long test string. \n This is a second sentence in the very long test string. This is a third sentence in the very long test string. " , 79 ) , " This is a very long test string. \n This is a second sentence in the very long test string. This is a third \n sentence in the very long test string. " ) ;
BOOST_CHECK_EQUAL ( FormatParagraph ( " This is a very long test string. \n \n This is a second sentence in the very long test string. This is a third sentence in the very long test string. " , 79 ) , " This is a very long test string. \n \n This is a second sentence in the very long test string. This is a third \n sentence in the very long test string. " ) ;
BOOST_CHECK_EQUAL ( FormatParagraph ( " Testing that normal newlines do not get indented. \n Like here. " , 79 ) , " Testing that normal newlines do not get indented. \n Like here. " ) ;
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}
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BOOST_AUTO_TEST_CASE ( test_FormatSubVersion )
{
std : : vector < std : : string > comments ;
comments . push_back ( std : : string ( " comment1 " ) ) ;
std : : vector < std : : string > comments2 ;
comments2 . push_back ( std : : string ( " comment1 " ) ) ;
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comments2 . push_back ( SanitizeString ( std : : string ( " Comment2; .,_?@-; ! \" #$%&'()*+/<=>[] \\ ^`{|}~ " ) , SAFE_CHARS_UA_COMMENT ) ) ; // Semicolon is discouraged but not forbidden by BIP-0014
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BOOST_CHECK_EQUAL ( FormatSubVersion ( " Test " , 99900 , std : : vector < std : : string > ( ) ) , std : : string ( " /Test:0.9.99/ " ) ) ;
BOOST_CHECK_EQUAL ( FormatSubVersion ( " Test " , 99900 , comments ) , std : : string ( " /Test:0.9.99(comment1)/ " ) ) ;
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BOOST_CHECK_EQUAL ( FormatSubVersion ( " Test " , 99900 , comments2 ) , std : : string ( " /Test:0.9.99(comment1; Comment2; .,_?@-; )/ " ) ) ;
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}
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BOOST_AUTO_TEST_CASE ( test_ParseFixedPoint )
{
int64_t amount = 0 ;
BOOST_CHECK ( ParseFixedPoint ( " 0 " , 8 , & amount ) ) ;
BOOST_CHECK_EQUAL ( amount , 0LL ) ;
BOOST_CHECK ( ParseFixedPoint ( " 1 " , 8 , & amount ) ) ;
BOOST_CHECK_EQUAL ( amount , 100000000LL ) ;
BOOST_CHECK ( ParseFixedPoint ( " 0.0 " , 8 , & amount ) ) ;
BOOST_CHECK_EQUAL ( amount , 0LL ) ;
BOOST_CHECK ( ParseFixedPoint ( " -0.1 " , 8 , & amount ) ) ;
BOOST_CHECK_EQUAL ( amount , - 10000000LL ) ;
BOOST_CHECK ( ParseFixedPoint ( " 1.1 " , 8 , & amount ) ) ;
BOOST_CHECK_EQUAL ( amount , 110000000LL ) ;
BOOST_CHECK ( ParseFixedPoint ( " 1.10000000000000000 " , 8 , & amount ) ) ;
BOOST_CHECK_EQUAL ( amount , 110000000LL ) ;
BOOST_CHECK ( ParseFixedPoint ( " 1.1e1 " , 8 , & amount ) ) ;
BOOST_CHECK_EQUAL ( amount , 1100000000LL ) ;
BOOST_CHECK ( ParseFixedPoint ( " 1.1e-1 " , 8 , & amount ) ) ;
BOOST_CHECK_EQUAL ( amount , 11000000LL ) ;
BOOST_CHECK ( ParseFixedPoint ( " 1000 " , 8 , & amount ) ) ;
BOOST_CHECK_EQUAL ( amount , 100000000000LL ) ;
BOOST_CHECK ( ParseFixedPoint ( " -1000 " , 8 , & amount ) ) ;
BOOST_CHECK_EQUAL ( amount , - 100000000000LL ) ;
BOOST_CHECK ( ParseFixedPoint ( " 0.00000001 " , 8 , & amount ) ) ;
BOOST_CHECK_EQUAL ( amount , 1LL ) ;
BOOST_CHECK ( ParseFixedPoint ( " 0.0000000100000000 " , 8 , & amount ) ) ;
BOOST_CHECK_EQUAL ( amount , 1LL ) ;
BOOST_CHECK ( ParseFixedPoint ( " -0.00000001 " , 8 , & amount ) ) ;
BOOST_CHECK_EQUAL ( amount , - 1LL ) ;
BOOST_CHECK ( ParseFixedPoint ( " 1000000000.00000001 " , 8 , & amount ) ) ;
BOOST_CHECK_EQUAL ( amount , 100000000000000001LL ) ;
BOOST_CHECK ( ParseFixedPoint ( " 9999999999.99999999 " , 8 , & amount ) ) ;
BOOST_CHECK_EQUAL ( amount , 999999999999999999LL ) ;
BOOST_CHECK ( ParseFixedPoint ( " -9999999999.99999999 " , 8 , & amount ) ) ;
BOOST_CHECK_EQUAL ( amount , - 999999999999999999LL ) ;
BOOST_CHECK ( ! ParseFixedPoint ( " " , 8 , & amount ) ) ;
BOOST_CHECK ( ! ParseFixedPoint ( " - " , 8 , & amount ) ) ;
BOOST_CHECK ( ! ParseFixedPoint ( " a-1000 " , 8 , & amount ) ) ;
BOOST_CHECK ( ! ParseFixedPoint ( " -a1000 " , 8 , & amount ) ) ;
BOOST_CHECK ( ! ParseFixedPoint ( " -1000a " , 8 , & amount ) ) ;
BOOST_CHECK ( ! ParseFixedPoint ( " -01000 " , 8 , & amount ) ) ;
BOOST_CHECK ( ! ParseFixedPoint ( " 00.1 " , 8 , & amount ) ) ;
BOOST_CHECK ( ! ParseFixedPoint ( " .1 " , 8 , & amount ) ) ;
BOOST_CHECK ( ! ParseFixedPoint ( " --0.1 " , 8 , & amount ) ) ;
BOOST_CHECK ( ! ParseFixedPoint ( " 0.000000001 " , 8 , & amount ) ) ;
BOOST_CHECK ( ! ParseFixedPoint ( " -0.000000001 " , 8 , & amount ) ) ;
BOOST_CHECK ( ! ParseFixedPoint ( " 0.00000001000000001 " , 8 , & amount ) ) ;
BOOST_CHECK ( ! ParseFixedPoint ( " -10000000000.00000000 " , 8 , & amount ) ) ;
BOOST_CHECK ( ! ParseFixedPoint ( " 10000000000.00000000 " , 8 , & amount ) ) ;
BOOST_CHECK ( ! ParseFixedPoint ( " -10000000000.00000001 " , 8 , & amount ) ) ;
BOOST_CHECK ( ! ParseFixedPoint ( " 10000000000.00000001 " , 8 , & amount ) ) ;
BOOST_CHECK ( ! ParseFixedPoint ( " -10000000000.00000009 " , 8 , & amount ) ) ;
BOOST_CHECK ( ! ParseFixedPoint ( " 10000000000.00000009 " , 8 , & amount ) ) ;
BOOST_CHECK ( ! ParseFixedPoint ( " -99999999999.99999999 " , 8 , & amount ) ) ;
BOOST_CHECK ( ! ParseFixedPoint ( " 99999909999.09999999 " , 8 , & amount ) ) ;
BOOST_CHECK ( ! ParseFixedPoint ( " 92233720368.54775807 " , 8 , & amount ) ) ;
BOOST_CHECK ( ! ParseFixedPoint ( " 92233720368.54775808 " , 8 , & amount ) ) ;
BOOST_CHECK ( ! ParseFixedPoint ( " -92233720368.54775808 " , 8 , & amount ) ) ;
BOOST_CHECK ( ! ParseFixedPoint ( " -92233720368.54775809 " , 8 , & amount ) ) ;
BOOST_CHECK ( ! ParseFixedPoint ( " 1.1e " , 8 , & amount ) ) ;
BOOST_CHECK ( ! ParseFixedPoint ( " 1.1e- " , 8 , & amount ) ) ;
BOOST_CHECK ( ! ParseFixedPoint ( " 1. " , 8 , & amount ) ) ;
}
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static void TestOtherThread ( fs : : path dirname , std : : string lockname , bool * result )
{
* result = LockDirectory ( dirname , lockname ) ;
}
# ifndef WIN32 // Cannot do this test on WIN32 due to lack of fork()
static constexpr char LockCommand = ' L ' ;
static constexpr char UnlockCommand = ' U ' ;
static constexpr char ExitCommand = ' X ' ;
static void TestOtherProcess ( fs : : path dirname , std : : string lockname , int fd )
{
char ch ;
while ( true ) {
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int rv = read ( fd , & ch , 1 ) ; // Wait for command
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assert ( rv = = 1 ) ;
switch ( ch ) {
case LockCommand :
ch = LockDirectory ( dirname , lockname ) ;
rv = write ( fd , & ch , 1 ) ;
assert ( rv = = 1 ) ;
break ;
case UnlockCommand :
ReleaseDirectoryLocks ( ) ;
ch = true ; // Always succeeds
rv = write ( fd , & ch , 1 ) ;
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assert ( rv = = 1 ) ;
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break ;
case ExitCommand :
close ( fd ) ;
exit ( 0 ) ;
default :
assert ( 0 ) ;
}
}
}
# endif
BOOST_AUTO_TEST_CASE ( test_LockDirectory )
{
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fs : : path dirname = SetDataDir ( " test_LockDirectory " ) / fs : : unique_path ( ) ;
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const std : : string lockname = " .lock " ;
# ifndef WIN32
// Revert SIGCHLD to default, otherwise boost.test will catch and fail on
// it: there is BOOST_TEST_IGNORE_SIGCHLD but that only works when defined
// at build-time of the boost library
void ( * old_handler ) ( int ) = signal ( SIGCHLD , SIG_DFL ) ;
// Fork another process for testing before creating the lock, so that we
// won't fork while holding the lock (which might be undefined, and is not
// relevant as test case as that is avoided with -daemonize).
int fd [ 2 ] ;
BOOST_CHECK_EQUAL ( socketpair ( AF_UNIX , SOCK_STREAM , 0 , fd ) , 0 ) ;
pid_t pid = fork ( ) ;
if ( ! pid ) {
BOOST_CHECK_EQUAL ( close ( fd [ 1 ] ) , 0 ) ; // Child: close parent end
TestOtherProcess ( dirname , lockname , fd [ 0 ] ) ;
}
BOOST_CHECK_EQUAL ( close ( fd [ 0 ] ) , 0 ) ; // Parent: close child end
# endif
// Lock on non-existent directory should fail
BOOST_CHECK_EQUAL ( LockDirectory ( dirname , lockname ) , false ) ;
fs : : create_directories ( dirname ) ;
// Probing lock on new directory should succeed
BOOST_CHECK_EQUAL ( LockDirectory ( dirname , lockname , true ) , true ) ;
// Persistent lock on new directory should succeed
BOOST_CHECK_EQUAL ( LockDirectory ( dirname , lockname ) , true ) ;
// Another lock on the directory from the same thread should succeed
BOOST_CHECK_EQUAL ( LockDirectory ( dirname , lockname ) , true ) ;
// Another lock on the directory from a different thread within the same process should succeed
bool threadresult ;
std : : thread thr ( TestOtherThread , dirname , lockname , & threadresult ) ;
thr . join ( ) ;
BOOST_CHECK_EQUAL ( threadresult , true ) ;
# ifndef WIN32
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// Try to acquire lock in child process while we're holding it, this should fail.
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char ch ;
BOOST_CHECK_EQUAL ( write ( fd [ 1 ] , & LockCommand , 1 ) , 1 ) ;
BOOST_CHECK_EQUAL ( read ( fd [ 1 ] , & ch , 1 ) , 1 ) ;
BOOST_CHECK_EQUAL ( ( bool ) ch , false ) ;
// Give up our lock
ReleaseDirectoryLocks ( ) ;
// Probing lock from our side now should succeed, but not hold on to the lock.
BOOST_CHECK_EQUAL ( LockDirectory ( dirname , lockname , true ) , true ) ;
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// Try to acquire the lock in the child process, this should be successful.
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BOOST_CHECK_EQUAL ( write ( fd [ 1 ] , & LockCommand , 1 ) , 1 ) ;
BOOST_CHECK_EQUAL ( read ( fd [ 1 ] , & ch , 1 ) , 1 ) ;
BOOST_CHECK_EQUAL ( ( bool ) ch , true ) ;
// When we try to probe the lock now, it should fail.
BOOST_CHECK_EQUAL ( LockDirectory ( dirname , lockname , true ) , false ) ;
// Unlock the lock in the child process
BOOST_CHECK_EQUAL ( write ( fd [ 1 ] , & UnlockCommand , 1 ) , 1 ) ;
BOOST_CHECK_EQUAL ( read ( fd [ 1 ] , & ch , 1 ) , 1 ) ;
BOOST_CHECK_EQUAL ( ( bool ) ch , true ) ;
// When we try to probe the lock now, it should succeed.
BOOST_CHECK_EQUAL ( LockDirectory ( dirname , lockname , true ) , true ) ;
// Re-lock the lock in the child process, then wait for it to exit, check
// successful return. After that, we check that exiting the process
// has released the lock as we would expect by probing it.
int processstatus ;
BOOST_CHECK_EQUAL ( write ( fd [ 1 ] , & LockCommand , 1 ) , 1 ) ;
BOOST_CHECK_EQUAL ( write ( fd [ 1 ] , & ExitCommand , 1 ) , 1 ) ;
BOOST_CHECK_EQUAL ( waitpid ( pid , & processstatus , 0 ) , pid ) ;
BOOST_CHECK_EQUAL ( processstatus , 0 ) ;
BOOST_CHECK_EQUAL ( LockDirectory ( dirname , lockname , true ) , true ) ;
// Restore SIGCHLD
signal ( SIGCHLD , old_handler ) ;
BOOST_CHECK_EQUAL ( close ( fd [ 1 ] ) , 0 ) ; // Close our side of the socketpair
# endif
// Clean up
ReleaseDirectoryLocks ( ) ;
fs : : remove_all ( dirname ) ;
}
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BOOST_AUTO_TEST_CASE ( test_DirIsWritable )
{
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// Should be able to write to the data dir.
fs : : path tmpdirname = SetDataDir ( " test_DirIsWritable " ) ;
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BOOST_CHECK_EQUAL ( DirIsWritable ( tmpdirname ) , true ) ;
// Should not be able to write to a non-existent dir.
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tmpdirname = tmpdirname / fs : : unique_path ( ) ;
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BOOST_CHECK_EQUAL ( DirIsWritable ( tmpdirname ) , false ) ;
fs : : create_directory ( tmpdirname ) ;
// Should be able to write to it now.
BOOST_CHECK_EQUAL ( DirIsWritable ( tmpdirname ) , true ) ;
fs : : remove ( tmpdirname ) ;
}
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BOOST_AUTO_TEST_CASE ( test_ToLower )
{
BOOST_CHECK_EQUAL ( ToLower ( ' @ ' ) , ' @ ' ) ;
BOOST_CHECK_EQUAL ( ToLower ( ' A ' ) , ' a ' ) ;
BOOST_CHECK_EQUAL ( ToLower ( ' Z ' ) , ' z ' ) ;
BOOST_CHECK_EQUAL ( ToLower ( ' [ ' ) , ' [ ' ) ;
BOOST_CHECK_EQUAL ( ToLower ( 0 ) , 0 ) ;
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BOOST_CHECK_EQUAL ( ToLower ( ' \xff ' ) , ' \xff ' ) ;
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std : : string testVector ;
Downcase ( testVector ) ;
BOOST_CHECK_EQUAL ( testVector , " " ) ;
testVector = " #HODL " ;
Downcase ( testVector ) ;
BOOST_CHECK_EQUAL ( testVector , " #hodl " ) ;
testVector = " \x00 \xfe \xff " ;
Downcase ( testVector ) ;
BOOST_CHECK_EQUAL ( testVector , " \x00 \xfe \xff " ) ;
}
BOOST_AUTO_TEST_CASE ( test_ToUpper )
{
BOOST_CHECK_EQUAL ( ToUpper ( ' ` ' ) , ' ` ' ) ;
BOOST_CHECK_EQUAL ( ToUpper ( ' a ' ) , ' A ' ) ;
BOOST_CHECK_EQUAL ( ToUpper ( ' z ' ) , ' Z ' ) ;
BOOST_CHECK_EQUAL ( ToUpper ( ' { ' ) , ' { ' ) ;
BOOST_CHECK_EQUAL ( ToUpper ( 0 ) , 0 ) ;
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BOOST_CHECK_EQUAL ( ToUpper ( ' \xff ' ) , ' \xff ' ) ;
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}
BOOST_AUTO_TEST_CASE ( test_Capitalize )
{
BOOST_CHECK_EQUAL ( Capitalize ( " " ) , " " ) ;
BOOST_CHECK_EQUAL ( Capitalize ( " bitcoin " ) , " Bitcoin " ) ;
BOOST_CHECK_EQUAL ( Capitalize ( " \x00 \xfe \xff " ) , " \x00 \xfe \xff " ) ;
}
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BOOST_AUTO_TEST_SUITE_END ( )