reactos/rosapps/net/netreg/netreg.cpp
Daniel Reimer a7fddf9c07 Delete all Trailing spaces in code.
svn path=/trunk/; revision=29689
2007-10-19 23:05:02 +00:00

520 lines
12 KiB
C++

/*
* COPYRIGHT: See COPYING in the top level directory
* PROJECT: ReactOS test application
* FILE: apps/net/netreg/netreg.cpp
* PURPOSE: HTTP Registry Server
* PROGRAMMERS: Art Yerkes (arty@users.sf.net)
* REVISIONS:
* 01-17-2005 arty -- initial
*/
#include <windows.h>
#include <winsock.h>
#include <stdlib.h>
#include <map>
#include <string>
#include <sstream>
#include <iomanip>
using std::hex;
using std::setw;
using std::setfill;
using std::map;
using std::string;
using std::ostringstream;
const char *root_entries[] = {
"HKEY_LOCAL_MACHINE",
"HKEY_CURRENT_USER",
"HKEY_CLASSES_ROOT",
"HKEY_CURRENT_CONFIG",
"HKEY_USERS",
0
};
const HKEY root_handles[] = {
HKEY_LOCAL_MACHINE,
HKEY_CURRENT_USER,
HKEY_CLASSES_ROOT,
HKEY_CURRENT_CONFIG,
HKEY_USERS
};
class RequestHandler {
public:
RequestHandler( SOCKET s ) : socket( s ), state( NO_REQUEST_YET ) {}
~RequestHandler() { closesocket( socket ); }
void RecvData( string input ) {
full_input += input;
if( full_input.find( "\r\n\r\n" ) != string::npos ) {
// Full request received...
size_t space_pos = full_input.find( ' ' );
if( space_pos == string::npos ) { state = SHOULD_DIE; return; }
string method = full_input.substr( 0, space_pos );
if( method != "GET" ) { state = SHOULD_DIE; return; }
space_pos++;
if( full_input[space_pos] != '/' ) { state = SHOULD_DIE; return; }
space_pos++;
string reg_key_and_remainder =
full_input.substr( space_pos, full_input.size() - space_pos );
space_pos = reg_key_and_remainder.find( ' ' );
if( space_pos == string::npos ) { state = SHOULD_DIE; return; }
string reg_key_name = reg_key_and_remainder.substr( 0, space_pos );
process_request( urldec( reg_key_name ) );
state = REQUEST_RECVD_SENDING_REPLY;
}
}
void OkToSend() {
int rv = send( socket,
remaining_output.c_str(),
remaining_output.size(), 0 );
if( rv < 0 ) {
state = SHOULD_DIE;
return;
} else {
remaining_output =
remaining_output.substr( rv, remaining_output.size() - rv );
if( remaining_output.size() == 0 ) {
state = SHOULD_DIE;
}
}
}
SOCKET GetSocket() const { return socket; }
bool ShouldDie() const {
return state == SHOULD_DIE;
}
bool WantPollout() const {
return state == REQUEST_RECVD_SENDING_REPLY;
}
private:
string urlenc( string in ) {
ostringstream out;
for( string::iterator i = in.begin();
i != in.end();
i++ ) {
if( isalnum( *i ) || *i == '/' )
out << *i;
else {
char minibuf[10];
sprintf( minibuf, "%02x", *i );
out << "%" << minibuf;
}
}
return out.str();
}
string urldec( string in ) {
string out;
for( string::iterator i = in.begin();
i != in.end();
i++ ) {
if( *i == '%' ) {
char buf[3];
int res = ' ';
i++;
if( i != in.end() ) {
buf[0] = *i;
i++;
if( i != in.end() ) {
buf[1] = *i;
buf[2] = 0;
sscanf( buf, "%x", &res );
fprintf( stderr, "Interpreting %c%c as %02x\n",
buf[0], buf[1],
res );
out += (char)res;
}
}
} else out += *i;
}
return out;
}
string dump_one_line( const char *data, int llen, int len, int addr ) {
ostringstream out;
int i;
out << setw( 8 ) << setfill( '0' ) << hex << addr << ": ";
for( i = 0; i < llen; i++ ) {
if( i < len ) out << setw( 2 ) << setfill( '0' ) << hex <<
(data[i] & 0xff) << " ";
else out << " ";
}
out << " : ";
for( i = 0; i < llen; i++ ) {
if( i < len && i < llen &&
data[i] >= ' ' && data[i] < 0x7f ) out << data[i]; else out << '.';
}
out << "\n";
return out.str();
}
string bindump( const char *data, int len ) {
const char *end = data + len;
string out;
int addr = 0;
out += "<pre>";
while( data < end ) {
out += dump_one_line( data, 16, end - data, addr );
addr += 16;
data += 16;
}
out += "</pre>";
return out;
}
string present_value( DWORD type, const char *data, DWORD len ) {
switch( type ) {
default:
return bindump( data, len );
}
}
void process_valid_request( HKEY open_reg_key, string key_name ) {
size_t ending_slash;
string up_level;
ostringstream text_out;
DWORD num_sub_keys;
DWORD max_subkey_len;
DWORD num_values;
DWORD max_value_name_len;
DWORD max_value_len;
char *value_name_buf;
char *value_buf;
char *key_name_buf;
if( RegQueryInfoKey( open_reg_key,
NULL,
NULL,
NULL,
&num_sub_keys,
&max_subkey_len,
NULL,
&num_values,
&max_value_name_len,
&max_value_len,
NULL,
NULL ) != ERROR_SUCCESS ) {
process_invalid_request( key_name );
return;
}
value_name_buf = new char [max_value_name_len+1];
value_buf = new char [max_value_len+1];
key_name_buf = new char [max_subkey_len+1];
ending_slash = key_name.rfind( '/' );
if( ending_slash != string::npos )
up_level = key_name.substr( 0, ending_slash );
text_out << "HTTP/1.0 200 OK\r\n"
<< "Content-Type: text/html\r\n"
<< "\r\n"
<< "<html><head><title>Registry Key `"
<< key_name
<< "'</title></head><body>\r\n"
<< "<h1>Registry Key `" << key_name << "'</h1>\r\n"
<< "<a href='/" << urlenc(up_level)
<< "'>(Up one level)</a><p>\r\n"
<< "<h2>Subkeys:</h2><table border='1'>\r\n";
DWORD which_index;
DWORD key_name_size;
for( which_index = 0; which_index < num_sub_keys; which_index++ ) {
key_name_size = max_subkey_len+1;
RegEnumKeyEx( open_reg_key,
which_index,
key_name_buf,
&key_name_size,
NULL,
NULL,
NULL,
NULL );
text_out << "<tr><td><a href='/" << urlenc(key_name) << "/"
<< urlenc(string(key_name_buf,key_name_size)) << "'>"
<< string(key_name_buf,key_name_size)
<< "</a></td></tr>\r\n";
}
text_out << "</table><h2>Values:</h2><table border='1'>\r\n";
DWORD value_name_size;
DWORD value_data_size;
DWORD value_type;
for( which_index = 0; which_index < num_values; which_index++ ) {
value_name_size = max_value_name_len+1;
value_data_size = max_value_len+1;
RegEnumValue( open_reg_key,
which_index,
value_name_buf,
&value_name_size,
NULL,
&value_type,
(BYTE *)value_buf,
&value_data_size );
text_out << "<tr><td><b>" << string(value_name_buf,value_name_size)
<< "</b></td><td>"
<< present_value( value_type, value_buf, value_data_size )
<< "</td></tr>";
}
text_out << "</ul></body></html>\r\n";
delete [] key_name_buf;
delete [] value_name_buf;
delete [] value_buf;
remaining_output = text_out.str();
}
void process_invalid_request( string reg_key ) {
ostringstream text_out;
text_out << "HTTP/1.0 404 Not Found\r\n"
<< "Content-Type: text/html\r\n"
<< "\r\n"
<< "<html><head><title>Can't find registry key `"
<< reg_key
<< "'</title></head><body>\r\n"
<< "<H1>Can't find registry key `"
<< reg_key
<< "'</H1>\r\n"
<< "The registry key doesn't exist in the local registry.\r\n"
<< "</body></html>\r\n";
remaining_output = text_out.str();
}
void process_root_request() {
ostringstream text_out;
int i;
text_out << "HTTP/1.0 200 OK\r\n"
<< "Content-Type: text/html\r\n"
<< "\r\n"
<< "<html><head><title>Registry Browser</title></head>\r\n"
<< "<body>\r\n"
<< "<H1>Registry Browser</H1>"
<< "You can use this interface to browse the registry."
<< "You will be presented with one registry key at a time and "
<< "the decendents.\r\n"
<< "<h2>Root Level</h2>\r\n"
<< "Subkeys:<ul>\r\n";
for( i = 0; root_entries[i]; i++ )
text_out << "<li>"
<< "<a href='/" << urlenc(root_entries[i])
<< "'>" << root_entries[i]
<< "</a></li>\r\n";
text_out << "</ul></body></html>\r\n";
remaining_output = text_out.str();
}
void process_request( string reg_key ) {
int i;
bool is_predefined_key = true;
if( reg_key == "" ) { process_root_request(); return; }
HKEY hRegKey = 0;
// Parse the key name...
size_t slash = reg_key.find( '/' );
string reg_initial = "";
if( slash == string::npos ) // A root key...
reg_initial = reg_key;
else // Any other key
reg_initial = reg_key.substr( 0, slash );
fprintf( stderr, "reg_init = %s, reg_key = %s\n",
reg_initial.c_str(),
reg_key.c_str() );
for( i = 0; root_entries[i]; i++ )
if( reg_initial == root_entries[i] ) hRegKey = root_handles[i];
if( hRegKey != 0 && reg_initial != reg_key ) {
size_t start_of_reg_path = reg_initial.size() + 1;
string reg_path = reg_key.substr( start_of_reg_path,
reg_key.size() - start_of_reg_path );
string reg_open_path = reg_path;
do {
slash = reg_open_path.find( '/' );
string reg_single_key = reg_open_path;
if( slash != string::npos ) {
reg_single_key = reg_open_path.substr( 0, slash );
reg_open_path = reg_open_path.substr( slash+1,
reg_open_path.size() );
}
HKEY oldKey = hRegKey;
fprintf( stderr, "Opening %s\n", reg_single_key.c_str() );
if( RegOpenKey( hRegKey, reg_single_key.c_str(), &hRegKey ) !=
ERROR_SUCCESS ) {
hRegKey = 0;
break;
} else RegCloseKey( oldKey );
is_predefined_key = false;
} while( slash != string::npos );
}
if( hRegKey == 0 ) process_invalid_request( reg_key );
else {
process_valid_request( hRegKey, reg_key );
if( !is_predefined_key ) RegCloseKey( hRegKey );
}
}
typedef enum _RHState {
NO_REQUEST_YET,
REQUEST_RECVD_SENDING_REPLY,
SHOULD_DIE
} RHState;
string full_input;
string remaining_output;
SOCKET socket;
RHState state;
};
SOCKET make_listening_socket( int port ) {
struct sockaddr_in sa;
ZeroMemory( &sa, sizeof( sa ) );
sa.sin_family = PF_INET;
sa.sin_port = ntohs( port );
fprintf( stderr, "Creating the listener\n" );
SOCKET l = socket( PF_INET, SOCK_STREAM, 0 );
fprintf( stderr, "Socket %x\n", l );
if( l == INVALID_SOCKET ) return l;
if( bind( l, (struct sockaddr *)&sa, sizeof( sa ) ) < 0 ) {
fprintf( stderr, "Bad response from bind: %d\n", WSAGetLastError() );
closesocket( l ); return INVALID_SOCKET;
}
if( listen( l, 5 ) < 0 ) {
fprintf( stderr, "Listening: %d\n", WSAGetLastError() );
closesocket( l );
return INVALID_SOCKET;
}
return l;
}
int main( int argc, char **argv ) {
WSADATA wdWinsockData;
map<SOCKET,RequestHandler *> requests;
fd_set pollin,pollout,pollerr;
SOCKET listen_socket;
int i;
int port_to_listen = 80;
unsigned int active_fds = 0;
for( i = 1; i < argc; i++ ) {
if( string( "-p" ) == argv[i] ) {
i++;
if( i < argc ) port_to_listen = atoi( argv[i] );
}
}
WSAStartup( 0x0101, &wdWinsockData );
listen_socket = make_listening_socket( port_to_listen );
if( listen_socket == INVALID_SOCKET ) return 1;
while( true ) {
FD_ZERO( &pollin );
FD_ZERO( &pollout );
FD_ZERO( &pollerr );
active_fds = listen_socket + 1;
for( std::map<SOCKET,RequestHandler *>::iterator i = requests.begin();
i != requests.end();
i++ ) {
if( i->second->ShouldDie() ) {
delete i->second;
requests.erase( i );
i = requests.begin();
break;
}
FD_SET(i->first,&pollin);
FD_SET(i->first,&pollerr);
if( i->first > active_fds ) active_fds = i->first + 1;
if( i->second->WantPollout() ) FD_SET(i->first,&pollout);
}
FD_SET(listen_socket,&pollin);
active_fds = select( active_fds, &pollin, &pollout, &pollerr, NULL );
if( active_fds > 0 ) {
if( FD_ISSET(listen_socket,&pollin) ) {
SOCKET ns = accept( listen_socket, NULL, NULL );
if( ns != INVALID_SOCKET ) {
requests.insert( std::make_pair( ns, new RequestHandler( ns ) ) );
}
}
for( std::map<SOCKET,RequestHandler *>::iterator i = requests.begin();
i != requests.end();
i++ ) {
if( FD_ISSET(i->first,&pollin) ) {
char inbuf[1024];
int rv = recv(i->first,inbuf,1024,0);
if( rv < 0 ) {
delete i->second;
requests.erase( i );
i = requests.begin();
break;
} else i->second->RecvData( string( inbuf, rv ) );
}
if( FD_ISSET(i->first,&pollout) ) {
i->second->OkToSend();
}
if( FD_ISSET(i->first,&pollerr) ) {
delete i->second;
requests.erase( i );
i = requests.begin();
break;
}
}
}
}
WSACleanup();
}