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flightgear/utils/TerraSync/terrasync.cxx

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// terrasync.cxx -- "JIT" scenery fetcher
//
// Written by Curtis Olson, started November 2002.
//
// Copyright (C) 2002 Curtis L. Olson - http://www.flightgear.org/~curt
// Copyright (C) 2008 Alexander R. Perry <alex.perry@ieee.org>
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//
// This program is free software; you can redistribute it and/or
// modify it under the terms of the GNU General Public License as
// published by the Free Software Foundation; either version 2 of the
// License, or (at your option) any later version.
//
// This program is distributed in the hope that it will be useful, but
// WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
// General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program; if not, write to the Free Software
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// Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
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//
// $Id$
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#ifdef HAVE_WINDOWS_H
#include <windows.h>
#endif
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#include <stdlib.h> // atoi() atof() abs() system()
#include <simgear/compiler.h>
#include <iostream>
#include <string>
#include <deque>
#include <map>
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#include <plib/netSocket.h>
#include <plib/ul.h>
#include <simgear/bucket/newbucket.hxx>
#include <simgear/misc/sg_path.hxx>
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#ifdef HAVE_SVN_CLIENT_H
# ifdef HAVE_LIBSVN_CLIENT_1
# include <svn_auth.h>
# include <svn_client.h>
# include <svn_cmdline.h>
# include <svn_pools.h>
# else
# undef HAVE_SVN_CLIENT_H
# endif
#endif
using std::string;
using std::cout;
using std::endl;
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const char* source_base = NULL;
const char* svn_base =
"http://terrascenery.googlecode.com/svn/trunk/data/Scenery";
const char* rsync_base = "scenery.flightgear.org::Scenery";
const char* dest_base = "terrasyncdir";
const char* rsync_cmd =
"rsync --verbose --archive --delete --perms --owner --group";
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#ifdef HAVE_SVN_CLIENT_H
bool use_svn = true;
#else
bool use_svn = false;
const char* svn_cmd = "svn checkout";
#endif
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// display usage
static void usage( const string& prog ) {
cout << "Usage: " << endl
<< prog << " -p <port> "
<< "-R [ -s <rsync_source> ] -d <dest>" << endl
<< prog << " -p <port> "
<< "-S [ -s <svn_source> ] -d <dest>" << endl;
#ifdef HAVE_SVN_CLIENT_H
cout << " (defaults to the built in subversion)" << endl;
#else
cout << " (defaults to rsync, using external commands)" << endl;
#endif
}
std::deque<std::string> waitingTiles;
typedef std::map<std::string,time_t> CompletedTiles;
CompletedTiles completedTiles;
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#ifdef HAVE_SVN_CLIENT_H
// Things we need for doing subversion checkout - often
apr_pool_t *mysvn_pool = NULL;
svn_client_ctx_t *mysvn_ctx = NULL;
svn_opt_revision_t *mysvn_rev = NULL;
static const svn_version_checklist_t mysvn_checklist[] = {
{ "svn_subr", svn_subr_version },
{ "svn_client", svn_client_version },
{ "svn_wc", svn_wc_version },
{ "svn_ra", svn_ra_version },
{ "svn_delta", svn_delta_version },
{ "svn_diff", svn_diff_version },
{ NULL, NULL }
};
// Configure our subversion session
int mysvn_setup(void) {
// Are we already prepared?
if (mysvn_pool) return EXIT_SUCCESS;
// No, so initialize svn internals generally
#ifdef _MSC_VER
// there is a segfault when providing an error stream.
// Apparently, calling setvbuf with a nul buffer is
// not supported under msvc 7.1 ( code inside svn_cmdline_init )
if (svn_cmdline_init("terrasync", 0) != EXIT_SUCCESS)
return EXIT_FAILURE;
#else
if (svn_cmdline_init("terrasync", stderr) != EXIT_SUCCESS)
return EXIT_FAILURE;
#endif
apr_pool_t *pool;
apr_pool_create(&pool, NULL);
svn_error_t *err = NULL;
SVN_VERSION_DEFINE(mysvn_version);
err = svn_ver_check_list(&mysvn_version, mysvn_checklist);
if (err)
return svn_cmdline_handle_exit_error(err, pool, "terrasync: ");
err = svn_ra_initialize(pool);
if (err)
return svn_cmdline_handle_exit_error(err, pool, "terrasync: ");
char *config_dir = NULL;
err = svn_config_ensure(config_dir, pool);
if (err)
return svn_cmdline_handle_exit_error(err, pool, "terrasync: ");
err = svn_client_create_context(&mysvn_ctx, pool);
if (err)
return svn_cmdline_handle_exit_error(err, pool, "terrasync: ");
err = svn_config_get_config(&(mysvn_ctx->config),
config_dir, pool);
if (err)
return svn_cmdline_handle_exit_error(err, pool, "terrasync: ");
svn_config_t *cfg;
cfg = ( svn_config_t*) apr_hash_get(
mysvn_ctx->config,
SVN_CONFIG_CATEGORY_CONFIG,
APR_HASH_KEY_STRING);
if (err)
return svn_cmdline_handle_exit_error(err, pool, "terrasync: ");
svn_auth_baton_t *ab;
err = svn_cmdline_setup_auth_baton(&ab,
TRUE, NULL, NULL, config_dir, TRUE, cfg,
mysvn_ctx->cancel_func, mysvn_ctx->cancel_baton, pool);
if (err)
return svn_cmdline_handle_exit_error(err, pool, "terrasync: ");
mysvn_ctx->auth_baton = ab;
mysvn_ctx->conflict_func = NULL;
mysvn_ctx->conflict_baton = NULL;
mysvn_rev = (svn_opt_revision_t*) apr_palloc(pool,
sizeof(svn_opt_revision_t));
if (!mysvn_rev)
return EXIT_FAILURE;
mysvn_rev->kind = svn_opt_revision_head;
// Success if we got this far
mysvn_pool = pool;
return EXIT_SUCCESS;
}
#endif
// sync one directory tree
void sync_tree(const char* dir) {
int rc;
char command[512];
SGPath path( dest_base );
path.append( dir );
rc = path.create_dir( 0755 );
if (rc) {
cout << "Return code = " << rc << endl;
exit(1);
}
if (use_svn) {
#ifdef HAVE_SVN_CLIENT_H
cout << dir << " ... ";
cout.flush();
char dest_base_dir[512];
snprintf( command, 512,
"%s/%s", source_base, dir);
snprintf( dest_base_dir, 512,
"%s/%s", dest_base, dir);
svn_error_t *err = NULL;
if (mysvn_setup() != EXIT_SUCCESS)
exit(1);
apr_pool_t *subpool = svn_pool_create(mysvn_pool);
err = svn_client_checkout(NULL,
command,
dest_base_dir,
mysvn_rev,
1,
mysvn_ctx,
subpool);
if (err) {
// Report errors from the checkout attempt
cout << "failed: " << endl
<< err->message << endl;
svn_error_clear(err);
return;
} else {
cout << "done" << endl;
}
svn_pool_destroy(subpool);
return;
#else
snprintf( command, 512,
"%s %s/%s %s/%s", svn_cmd,
source_base, dir,
dest_base, dir );
#endif
} else {
snprintf( command, 512,
"%s %s/%s/ %s/%s/", rsync_cmd,
source_base, dir,
dest_base, dir );
}
cout << command << endl;
rc = system( command );
if (rc) {
cout << "Return code = " << rc << endl;
if (rc == 5120) exit(1);
}
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}
const int nowhere = -9999;
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// parse message
static void parse_message( const string &msg, int *lat, int *lon ) {
double dlat, dlon;
string text = msg;
// find GGA string and advance to start of lat
string::size_type pos = text.find( "$GPGGA" );
if ( pos == string::npos )
{
*lat = -9999.0;
*lon = -9999.0;
return;
}
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string tmp = text.substr( pos + 7 );
pos = tmp.find( "," );
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tmp = tmp.substr( pos + 1 );
// cout << "-> " << tmp << endl;
// find lat then advance to start of hemisphere
pos = tmp.find( "," );
string lats = tmp.substr( 0, pos );
dlat = atof( lats.c_str() ) / 100.0;
tmp = tmp.substr( pos + 1 );
// find N/S hemisphere and advance to start of lon
if ( tmp.substr( 0, 1 ) == "S" ) {
dlat = -dlat;
}
pos = tmp.find( "," );
tmp = tmp.substr( pos + 1 );
// find lon
pos = tmp.find( "," );
string lons = tmp.substr( 0, pos );
dlon = atof( lons.c_str() ) / 100.0;
tmp = tmp.substr( pos + 1 );
// find E/W hemisphere and advance to start of lon
if ( tmp.substr( 0, 1 ) == "W" ) {
dlon = -dlon;
}
if ( dlat < 0 ) {
*lat = (int)dlat - 1;
} else {
*lat = (int)dlat;
}
if ( dlon < 0 ) {
*lon = (int)dlon - 1;
} else {
*lon = (int)dlon;
}
if ((dlon == 0) && (dlat == 0)) {
*lon = nowhere;
*lat = nowhere;
}
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}
// sync area
static void sync_area( int lat, int lon ) {
if ( lat < -90 || lat > 90 || lon < -180 || lon > 180 )
return;
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char NS, EW;
int baselat, baselon;
if ( lat < 0 ) {
int base = (int)(lat / 10);
if ( lat == base * 10 ) {
baselat = base * 10;
} else {
baselat = (base - 1) * 10;
}
NS = 's';
} else {
baselat = (int)(lat / 10) * 10;
NS = 'n';
}
if ( lon < 0 ) {
int base = (int)(lon / 10);
if ( lon == base * 10 ) {
baselon = base * 10;
} else {
baselon = (base - 1) * 10;
}
EW = 'w';
} else {
baselon = (int)(lon / 10) * 10;
EW = 'e';
}
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const char* terrainobjects[3] = { "Terrain", "Objects", 0 };
for (const char** tree = &terrainobjects[0]; *tree; tree++) {
char dir[512];
snprintf( dir, 512, "%s/%c%03d%c%02d/%c%03d%c%02d",
*tree,
EW, abs(baselon), NS, abs(baselat),
EW, abs(lon), NS, abs(lat) );
waitingTiles.push_back( dir );
}
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}
// sync areas
static void sync_areas( int lat, int lon, int lat_dir, int lon_dir ) {
// do current 1x1 degree area first
sync_area( lat, lon );
if ( lat_dir == 0 && lon_dir == 0 ) {
// now do surrounding 8 1x1 degree areas.
for ( int i = lat - 1; i <= lat + 1; ++i ) {
for ( int j = lon - 1; j <= lon + 1; ++j ) {
if ( i != lat || j != lon ) {
sync_area( i, j );
}
}
}
} else {
if ( lat_dir != 0 ) {
sync_area( lat + lat_dir, lon );
sync_area( lat + lat_dir, lon - 1 );
sync_area( lat + lat_dir, lon + 1 );
}
if ( lon_dir != 0 ) {
sync_area( lat, lon + lon_dir );
sync_area( lat - 1, lon + lon_dir );
sync_area( lat + 1, lon + lon_dir );
}
}
}
void getWaitingTile() {
while ( !waitingTiles.empty() ) {
CompletedTiles::iterator ii = completedTiles.find( waitingTiles.front() );
time_t now = time(0);
if ( ii == completedTiles.end() || ii->second + 600 < now ) {
sync_tree(waitingTiles.front().c_str());
completedTiles[ waitingTiles.front() ] = now;
waitingTiles.pop_front();
break;
}
waitingTiles.pop_front();
}
}
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int main( int argc, char **argv ) {
int port = 5501;
char host[256] = ""; // accept messages from anyone
bool testing = false;
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// parse arguments
int i = 1;
while ( i < argc ) {
if ( (string)argv[i] == "-p" ) {
++i;
port = atoi( argv[i] );
} else if ( (string)argv[i] == "-s" ) {
++i;
source_base = argv[i];
} else if ( (string)argv[i] == "-d" ) {
++i;
dest_base = argv[i];
} else if ( (string)argv[i] == "-R" ) {
use_svn = false;
} else if ( (string)argv[i] == "-S" ) {
use_svn = true;
} else if ( (string)argv[i] == "-T" ) {
testing = true;
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} else {
usage( argv[0] );
exit(-1);
}
++i;
}
// Use the appropriate default for the "-s" flag
if (source_base == NULL) {
if (use_svn)
source_base = svn_base;
else
source_base = rsync_base;
}
// We just want one grid square, no FGFS communications
if (testing) {
sync_areas( 37, -123, 0, 0 );
exit(0);
}
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// Must call this before any other net stuff
netInit( &argc,argv );
netSocket s;
if ( ! s.open( false ) ) { // open a UDP socket
printf("error opening socket\n");
return -1;
}
s.setBlocking( false );
if ( s.bind( host, port ) == -1 ) {
printf("error binding to port %d\n", port);
return -1;
}
char msg[256];
int maxlen = 256;
int len;
int lat, lon;
int last_lat = nowhere;
int last_lon = nowhere;
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bool recv_msg = false;
char synced_other = 'J';
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while ( true ) {
recv_msg = false;
while ( (len = s.recv(msg, maxlen, 0)) >= 0 ) {
msg[len] = '\0';
recv_msg = true;
parse_message( msg, &lat, &lon );
}
if ( recv_msg ) {
if ( lat != last_lat || lon != last_lon ) {
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cout << "pos in msg = " << lat << "," << lon << endl;
std::deque<std::string> oldRequests;
oldRequests.swap( waitingTiles );
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int lat_dir, lon_dir, dist;
if ( last_lat == nowhere || last_lon == nowhere ) {
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lat_dir = lon_dir = 0;
} else {
dist = lat - last_lat;
if ( dist != 0 ) {
lat_dir = dist / abs(dist);
} else {
lat_dir = 0;
}
dist = lon - last_lon;
if ( dist != 0 ) {
lon_dir = dist / abs(dist);
} else {
lon_dir = 0;
}
}
cout << "lat = " << lat << " lon = " << lon << endl;
cout << "lat_dir = " << lat_dir << " "
<< "lon_dir = " << lon_dir << endl;
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sync_areas( lat, lon, lat_dir, lon_dir );
while ( !oldRequests.empty() ) {
waitingTiles.push_back( oldRequests.front() );
oldRequests.pop_front();
}
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} else if ( !waitingTiles.empty() ) {
getWaitingTile();
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} else {
if ( last_lat == nowhere || last_lon == nowhere ) {
cout << "Waiting for FGFS to finish startup" << endl;
}
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char c;
while ( !isdigit( c = ++synced_other ) && !isupper( c ) );
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char dir[512];
snprintf( dir, 512, "Airports/%c", c );
waitingTiles.push_back( dir );
}
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last_lat = lat;
last_lon = lon;
} else if ( !waitingTiles.empty() ) {
getWaitingTile();
}
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ulSleep( 1 );
} // while true
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return 0;
}