peerplays-fc/src/crypto/sha1.cpp

#include <fc/crypto/hex.hpp>
#include <fc/fwd_impl.hpp>
#include <openssl/sha.h>
#include <string.h>
#include <fc/crypto/sha1.hpp>
#include <fc/variant.hpp>
#include <vector>
#include "_digest_common.hpp"

namespace fc 
{
  
sha1::sha1() { memset( _hash, 0, sizeof(_hash) ); }
sha1::sha1( const string& hex_str ) {
  fc::from_hex( hex_str, (char*)_hash, sizeof(_hash) );  
}

string sha1::str()const {
  return fc::to_hex( (char*)_hash, sizeof(_hash) );
}
sha1::operator string()const { return  str(); }

char* sha1::data()const { return (char*)&_hash[0]; }


struct sha1::encoder::impl {
   SHA_CTX ctx;
};

sha1::encoder::~encoder() {}
sha1::encoder::encoder() {
  reset();
}

sha1 sha1::hash( const char* d, uint32_t dlen ) {
  encoder e;
  e.write(d,dlen);
  return e.result();
}
sha1 sha1::hash( const string& s ) {
  return hash( s.c_str(), s.size() );
}

void sha1::encoder::write( const char* d, uint32_t dlen ) {
  SHA1_Update( &my->ctx, d, dlen); 
}
sha1 sha1::encoder::result() {
  sha1 h;
  SHA1_Final((uint8_t*)h.data(), &my->ctx );
  return h;
}
void sha1::encoder::reset() {
  SHA1_Init( &my->ctx);  
}

sha1 operator << ( const sha1& h1, uint32_t i ) {
  sha1 result;
  fc::detail::shift_l( h1.data(), result.data(), result.data_size(), i );
  return result;
}
sha1 operator ^ ( const sha1& h1, const sha1& h2 ) {
  sha1 result;
  result._hash[0] = h1._hash[0] ^ h2._hash[0];
  result._hash[1] = h1._hash[1] ^ h2._hash[1];
  result._hash[2] = h1._hash[2] ^ h2._hash[2];
  result._hash[3] = h1._hash[3] ^ h2._hash[3];
  result._hash[4] = h1._hash[4] ^ h2._hash[4];
  return result;
}
bool operator >= ( const sha1& h1, const sha1& h2 ) {
  return memcmp( h1._hash, h2._hash, sizeof(h1._hash) ) >= 0;
}
bool operator > ( const sha1& h1, const sha1& h2 ) {
  return memcmp( h1._hash, h2._hash, sizeof(h1._hash) ) > 0;
}
bool operator < ( const sha1& h1, const sha1& h2 ) {
  return memcmp( h1._hash, h2._hash, sizeof(h1._hash) ) < 0;
}
bool operator != ( const sha1& h1, const sha1& h2 ) {
  return memcmp( h1._hash, h2._hash, sizeof(h1._hash) ) != 0;
}
bool operator == ( const sha1& h1, const sha1& h2 ) {
  return memcmp( h1._hash, h2._hash, sizeof(h1._hash) ) == 0;
}
  
  void to_variant( const sha1& bi, variant& v )
  {
     v = std::vector<char>( (const char*)&bi, ((const char*)&bi) + sizeof(bi) );
  }
  void from_variant( const variant& v, sha1& bi )
  {
    std::vector<char> ve = v.as< std::vector<char> >();
    if( ve.size() )
    {
        memcpy(&bi, ve.data(), fc::min<size_t>(ve.size(),sizeof(bi)) );
    }
    else
        memset( &bi, char(0), sizeof(bi) );
  }
  
} // fc
Updating FC with changes from phoenix-int 2013-06-05 19:19:00 +00:00			`#include <fc/crypto/hex.hpp>`
			`#include <fc/fwd_impl.hpp>`
			`#include <openssl/sha.h>`
			`#include <string.h>`
			`#include <fc/crypto/sha1.hpp>`
adding variant support to sha1 2013-06-07 19:59:01 +00:00			`#include <fc/variant.hpp>`
			`#include <vector>`
Fixed shift in hashes + more tests 2015-07-29 21:22:34 +00:00			`#include "_digest_common.hpp"`
Updating FC with changes from phoenix-int 2013-06-05 19:19:00 +00:00
			`namespace fc`
			`{`

			`sha1::sha1() { memset( _hash, 0, sizeof(_hash) ); }`
			`sha1::sha1( const string& hex_str ) {`
			`fc::from_hex( hex_str, (char*)_hash, sizeof(_hash) );`
			`}`

			`string sha1::str()const {`
			`return fc::to_hex( (char*)_hash, sizeof(_hash) );`
			`}`
			`sha1::operator string()const { return str(); }`

			`char* sha1::data()const { return (char*)&_hash[0]; }`


			`struct sha1::encoder::impl {`
			`SHA_CTX ctx;`
			`};`

			`sha1::encoder::~encoder() {}`
			`sha1::encoder::encoder() {`
			`reset();`
			`}`

			`sha1 sha1::hash( const char* d, uint32_t dlen ) {`
			`encoder e;`
			`e.write(d,dlen);`
			`return e.result();`
			`}`
			`sha1 sha1::hash( const string& s ) {`
			`return hash( s.c_str(), s.size() );`
			`}`

			`void sha1::encoder::write( const char* d, uint32_t dlen ) {`
			`SHA1_Update( &my->ctx, d, dlen);`
			`}`
			`sha1 sha1::encoder::result() {`
			`sha1 h;`
			`SHA1_Final((uint8_t*)h.data(), &my->ctx );`
			`return h;`
			`}`
			`void sha1::encoder::reset() {`
			`SHA1_Init( &my->ctx);`
			`}`

			`sha1 operator << ( const sha1& h1, uint32_t i ) {`
			`sha1 result;`
Fixed shift in hashes + more tests 2015-07-29 21:22:34 +00:00			`fc::detail::shift_l( h1.data(), result.data(), result.data_size(), i );`
Updating FC with changes from phoenix-int 2013-06-05 19:19:00 +00:00			`return result;`
			`}`
			`sha1 operator ^ ( const sha1& h1, const sha1& h2 ) {`
			`sha1 result;`
			`result._hash[0] = h1._hash[0] ^ h2._hash[0];`
			`result._hash[1] = h1._hash[1] ^ h2._hash[1];`
			`result._hash[2] = h1._hash[2] ^ h2._hash[2];`
			`result._hash[3] = h1._hash[3] ^ h2._hash[3];`
			`result._hash[4] = h1._hash[4] ^ h2._hash[4];`
			`return result;`
			`}`
			`bool operator >= ( const sha1& h1, const sha1& h2 ) {`
			`return memcmp( h1._hash, h2._hash, sizeof(h1._hash) ) >= 0;`
			`}`
			`bool operator > ( const sha1& h1, const sha1& h2 ) {`
			`return memcmp( h1._hash, h2._hash, sizeof(h1._hash) ) > 0;`
			`}`
			`bool operator < ( const sha1& h1, const sha1& h2 ) {`
			`return memcmp( h1._hash, h2._hash, sizeof(h1._hash) ) < 0;`
			`}`
			`bool operator != ( const sha1& h1, const sha1& h2 ) {`
			`return memcmp( h1._hash, h2._hash, sizeof(h1._hash) ) != 0;`
			`}`
			`bool operator == ( const sha1& h1, const sha1& h2 ) {`
			`return memcmp( h1._hash, h2._hash, sizeof(h1._hash) ) == 0;`
			`}`

adding variant support to sha1 2013-06-07 19:59:01 +00:00			`void to_variant( const sha1& bi, variant& v )`
			`{`
			`v = std::vector<char>( (const char)&bi, ((const char)&bi) + sizeof(bi) );`
			`}`
			`void from_variant( const variant& v, sha1& bi )`
			`{`
			`std::vector<char> ve = v.as< std::vector<char> >();`
			`if( ve.size() )`
			`{`
			`memcpy(&bi, ve.data(), fc::min<size_t>(ve.size(),sizeof(bi)) );`
			`}`
			`else`
			`memset( &bi, char(0), sizeof(bi) );`
			`}`

Updating FC with changes from phoenix-int 2013-06-05 19:19:00 +00:00			`} // fc`