File: fo_serve.cpp

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pluto-find-orb 0.0~git20180227-2
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/* fo_serve.cpp: Find_Orb for a server

Copyright (C) 2012, Project Pluto

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
Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
02110-1301, USA.    */

#include <math.h>
#include <stdio.h>
#include <string.h>
#include <stdlib.h>
#include <assert.h>
#include <ctype.h>
#include <time.h>
#include "watdefs.h"
#include "sigma.h"
#include "afuncs.h"
#include "comets.h"
#include "mpc_obs.h"
#include "date.h"
#include "monte0.h"
#include "cgi_func.h"

extern int debug_level;

int debug_level = 0;

const char *get_environment_ptr( const char *env_ptr);     /* mpc_obs.cpp */
void set_environment_ptr( const char *env_ptr, const char *new_value);
char *get_file_name( char *filename, const char *template_file_name);
int sanity_test_observations( const char *filename);
int debug_printf( const char *format, ...)                 /* runge.cpp */
#ifdef __GNUC__
         __attribute__ (( format( printf, 1, 2)))
#endif
;
int text_search_and_replace( char FAR *str, const char *oldstr,
                                     const char *newstr);   /* ephem0.cpp */
int get_defaults( int *ephemeris_output_options, int *element_format,
         int *element_precision, double *max_residual_for_filtering,
         double *noise_in_arcseconds);                /* elem_out.cpp */
int make_pseudo_mpec( const char *mpec_filename, const char *obj_name);
                                               /* ephem0.cpp */
int inquire( const char *prompt, char *buff, const int max_len,
                     const int color);          /* fo_serve.cpp */
void refresh_console( void);                    /* fo_serve.cpp */
void move_add_nstr( const int col, const int row, const char *msg,
                     const int n_bytes);        /* fo_serve.cpp */

/* In the server flavor of Find_Orb,  warning messages such as "3
observations were made in daylight" or "couldn't find thus-and-such file"
are stored/added to the 'mpec_error_message' text.  This is then shown
near the top of the pseudo-MPEC (see 'ephem0.cpp'). */

int inquire( const char *prompt, char *buff, const int max_len,
                     const int color)
{
   extern char *mpec_error_message;

   if( !mpec_error_message)
      {
      mpec_error_message = (char *)malloc( strlen( prompt) + 1);
      strcpy( mpec_error_message, prompt);
      }
   else
      {
      char *new_message = (char *)malloc( strlen( mpec_error_message) +
                                          strlen( prompt) + 1);

      strcpy( new_message, mpec_error_message);
      strcat( new_message, prompt);
      free( mpec_error_message);
      mpec_error_message = new_message;
      }
   return( 0);
}

/* In the (interactive) console Find_Orb,  these allow some functions in
orb_func.cpp to show info as orbits are being computed.  In this
non-interactive code,  they're mapped to do nothing. */

void refresh_console( void)
{
}

void move_add_nstr( const int col, const int row, const char *msg, const int n_bytes)
{
}

#ifndef strlcpy

      /* Some systems (BSD, Solaris,  others) offer this handy function. */
      /* Linux and Windows don't.                                        */

size_t strlcpy(char *dest, const char *src, size_t size)
{
   size_t i;

   for( i = 0; i < size && *src; i++)
      *dest++ = *src++;
   if( i == size)
      dest--;
   *dest = '\0';
   return( i);
}
#endif

static int desig_matches( const char *iline, const char *desig)
{
   const size_t len = strlen( desig);
   int rval = 0;

   while( *iline == ' ')
      iline++;
   if( !memcmp( iline, desig, len) && iline[len] == ' ')
      rval = 1;
   return( rval);
}

static int is_neocp_desig( const char *buff)
{
   const size_t len = strlen( buff);
   int rval = 0;

   if( len > 2 && len < 8 && !strchr( buff, ' '))
      {
      int unused, n_bytes;

      rval = 1;
      if( sscanf( buff, "%d%n", &unused, &n_bytes) == 1
                  && n_bytes == (int)len)    /* oops!  numbered object */
         rval = 0;
      }
   return( rval);
}

double current_jd( void);                       /* elem_out.cpp */
void compute_variant_orbit( double *variant, const double *ref_orbit,
                     const double n_sigmas);       /* orb_func.cpp */

int main( const int argc, const char **argv)
{
   const size_t max_buff_size = 40000;       /* room for 500 obs */
   char *buff = (char *)malloc( max_buff_size);
   char boundary[100], mpec_name[100];
   char ephemeris_step_size[80], mpc_code[20];
   int n_ids, n_ephem_steps = 0;
   char field[30];
   OBJECT_INFO *ids;
   FILE *ifile;
   FILE *lock_file = fopen( "lock.txt", "w");
   extern int combine_all_observations;
   const char *temp_obs_filename = "temp_obs.txt";
   double jd_start = 0., user_selected_epoch = 0.;
   int ephemeris_output_options = OPTION_ROUND_TO_NEAREST_STEP;
   int residual_format = RESIDUAL_FORMAT_SHORT;
   double mag_limit = 99.;
   extern double ephemeris_mag_limit;
   size_t i, bytes_written = 0;
   int element_format = ELEM_OUT_ALTERNATIVE_FORMAT;
   extern bool neocp_redaction_turned_on;
   int center_object = -2;
#ifndef _WIN32
   extern char **environ;

   avoid_runaway_process( 45);
#endif         /* _WIN32 */
   setvbuf( lock_file, NULL, _IONBF, 0);
   neocp_redaction_turned_on = false;
   printf( "Content-type: text/html\n\n");
   if( !lock_file)
      {
      printf( "<p> Server is busy.  Try again in a minute or two. </p>");
      printf( "<p> Your orbit is very important to us! </p>");
      return( 0);
      }
   fprintf( lock_file, "We're in\n");
   combine_all_observations = 1;
#ifndef _WIN32
   for( i = 0; environ[i]; i++)
      fprintf( lock_file, "%s\n", environ[i]);
#endif

   fprintf( lock_file, "setrlimit called\n");
   strcpy( mpc_code, "500");

   if( !fgets( boundary, sizeof( boundary), stdin))
      {
      printf( "<b> No info read from stdin</b>");
      printf( "This isn't supposed to happen.\n");
      return( 0);
      }
   fprintf( lock_file, "Got boundary line: %s", boundary);
   while( get_multipart_form_data( boundary, field, buff, NULL, max_buff_size) >= 0)
      {
      const double min_jd = 2400000.5;
      const double max_jd = 2600000.5;

      if( !strcmp( field, "TextArea") || !strcmp( field, "upfile"))
         {
         if( strlen( buff) > 70)
            {
            char *tptr = strstr( buff, "Debug level:");
            FILE *ofile = fopen( temp_obs_filename,
                               (bytes_written ? "ab" : "wb"));

            assert( ofile);
            bytes_written += fwrite( buff, 1, strlen( buff), ofile);
            fclose( ofile);
            if( tptr)
               debug_level = atoi( tptr + 12);
            }
         }
      else if( !strcmp( field, "obj_name") && *buff)
         {
         char tbuff[100];
         size_t neocp_bytes_found = 0;
         FILE *ofile = fopen( temp_obs_filename,
                               (bytes_written ? "ab" : "wb"));

         assert( ofile);
         if( is_neocp_desig( buff))
            {
            FILE *ifile = fopen( "../../neocp2/neocp.txt", "rb");

            assert( ifile);
            while( fgets( tbuff, sizeof( tbuff), ifile))
               if( desig_matches( tbuff, buff))
                  neocp_bytes_found += fwrite( tbuff, 1, strlen( tbuff), ofile);
            fclose( ifile);
            }
         bytes_written += neocp_bytes_found;
         if( !neocp_bytes_found)   /* not an NEOCP object;  let's see if */
            {                      /* we can get astrometry elsewhere    */
            unsigned j = 0;
            char filename[40];

            for( i = 0; buff[i]; i++)
               j = j * 314159u + (unsigned)buff[i];
            sprintf( filename, "temp%02d.ast", j % 100);
            sprintf( tbuff, "./grab_mpc %s %s", filename, buff);
            i = system( tbuff);
            debug_printf( "'%s': %ld\n", tbuff, (long)i);
            if( !i)
               {
               FILE *ifile = fopen( filename, "rb");

               assert( ifile);
               while( fgets( tbuff, sizeof( tbuff), ifile))
                  bytes_written += fwrite( tbuff, 1, strlen( tbuff), ofile);
               fclose( ifile);
               }
            }
         fclose( ofile);
         }
      else if( !strcmp( field, "year"))
         {
         jd_start = get_time_from_string( current_jd( ), buff,
             CALENDAR_JULIAN_GREGORIAN | FULL_CTIME_YMD | FULL_CTIME_TWO_DIGIT_YEAR, NULL);
         if( jd_start < min_jd || jd_start > max_jd)
            {
            printf( "Ephemeris date out of range\n");
            printf( "'%s' parsed as JD %f\n", buff, jd_start);
            printf( "The ephemeris starting date must be between JD %.1f and %.1f.\n",
                              min_jd, max_jd);
            return( 0);
            }
         }
      else if( !strcmp( field, "epoch"))
         {
         if( strcmp( buff, "default"))
            user_selected_epoch = get_time_from_string( 0., buff,
                CALENDAR_JULIAN_GREGORIAN | FULL_CTIME_YMD | FULL_CTIME_TWO_DIGIT_YEAR, NULL);
         if( user_selected_epoch
                  && (user_selected_epoch < min_jd || user_selected_epoch > max_jd))
            {
            printf( "Epoch of elements out of range\n");
            printf( "'%s' parsed as JD %f\n", buff, user_selected_epoch);
            printf( "The epoch must be between JD %.1f and %.1f.\n",
                              min_jd, max_jd);
            return( 0);
            }
         }
      else if( !strcmp( field, "n_steps"))
         n_ephem_steps = atoi( buff);
      else if( !strcmp( field, "stepsize"))
         strlcpy( ephemeris_step_size, buff, sizeof( ephemeris_step_size));
      else if( !strcmp( field, "mpc_code"))
         strlcpy( mpc_code, buff, sizeof( mpc_code));
      else if( !strcmp( field, "faint_limit"))
         mag_limit = atof( buff);
      else if( !strcmp( field, "element_center"))
         center_object = atoi( buff);
      else if( !strcmp( field, "motion"))
         {             /* '0'=no motions, '1'=total motion & PA', */
         if( buff[0] != '0')       /* '2'=separate RA/dec motions */
            ephemeris_output_options |= OPTION_MOTION_OUTPUT;
         if( buff[0] == '2')
            ephemeris_output_options |= OPTION_SEPARATE_MOTIONS;
         }
      else if( !strcmp( field, "resids"))
         {
         if( buff[0] == '1')
            residual_format |= RESIDUAL_FORMAT_PRECISE;
         if( buff[0] == '2')
            residual_format |= RESIDUAL_FORMAT_TIME_RESIDS;
         }
      else if( !strcmp( field, "alt_az"))
         ephemeris_output_options |= OPTION_ALT_AZ_OUTPUT;
      else if( !strcmp( field, "radial"))
         ephemeris_output_options |= OPTION_RADIAL_VEL_OUTPUT;
      else if( !strcmp( field, "phase"))
         ephemeris_output_options |= OPTION_PHASE_ANGLE_OUTPUT;
      else if( !strcmp( field, "pab"))
         ephemeris_output_options |= OPTION_PHASE_ANGLE_BISECTOR;
      else if( !strcmp( field, "hel_ec"))
         ephemeris_output_options |= OPTION_HELIO_ECLIPTIC;
      else if( !strcmp( field, "ground"))
         ephemeris_output_options |= OPTION_GROUND_TRACK;
      else if( !strcmp( field, "visib"))
         ephemeris_output_options |= OPTION_VISIBILITY;
      else if( !strcmp( field, "top_ec"))
         ephemeris_output_options |= OPTION_TOPO_ECLIPTIC;
      else if( !strcmp( field, "unobs"))
         ephemeris_output_options |= OPTION_SUPPRESS_UNOBSERVABLE;
      else if( !strcmp( field, "sigmas"))
         ephemeris_output_options |= OPTION_SHOW_SIGMAS;
      else if( !strcmp( field, "comp_fr"))
         ephemeris_output_options |= OPTION_COMPUTER_FRIENDLY;
      else if( !strcmp( field, "redact_neocp"))
         neocp_redaction_turned_on = true;
      else if( !strcmp( field, "ephem_type"))
         ephemeris_output_options += atoi( buff);
      else if( !strcmp( field, "language"))
         {
         extern char findorb_language;

         findorb_language = buff[0];
         }
      }
   fprintf( lock_file, "Options read and parsed\n");
   if( !bytes_written)
      {
      printf( "<p> No observations were found.  Click on the browser back arrow\n"
              "and make sure valid 80-column observations are provided in the\n"
              "text box or the uploaded file,  or that a valid object name was\n"
              "given for which MPC has observations. </p>");
      return( 0);
      }

               /* get_defaults( ) collects a lot of data that's for the  */
               /* interactive find_orb program.  But it also sets some   */
               /* important internal values for blunder detection,  etc. */
               /* So we still call it:                                   */
   get_defaults( NULL, NULL, NULL, NULL, NULL);
   fprintf( lock_file, "defaults loaded\n");
   ephemeris_mag_limit = mag_limit;
   if( center_object == -2)
      element_format &= ~ELEM_OUT_HELIOCENTRIC_ONLY;
   else
      {
      extern int forced_central_body;

      forced_central_body = center_object;
      element_format |= ELEM_OUT_HELIOCENTRIC_ONLY;
      }

   load_up_sigma_records( "sigma.txt");
   fprintf( lock_file, "Default uncertainties table read\n");

   ids = find_objects_in_file( temp_obs_filename, &n_ids, NULL);
   fprintf( lock_file, "%d objects found in file\n", n_ids);
   if( n_ids <= 0)
      {
      printf( n_ids == -1 ? "Couldn't open observation file\n" :
                            "No valid observations found in that data\n");
      return( 0);
      }

   const char *orbit_constraints = "";
   OBSERVE FAR *obs;
   const int n_obs = ids[0].n_obs;
   extern int n_obs_actually_loaded;
   const int element_precision = 5;
   double epoch_shown, curr_epoch, orbit[12];
   double *orbits_to_use = orbit;
   extern const char *ephemeris_filename;
   extern const char *residual_filename;
   extern int available_sigmas;
   unsigned n_orbits_in_ephem = 1;

   ifile = fopen( temp_obs_filename, "rb");
   obs = load_object( ifile, ids, &curr_epoch, &epoch_shown, orbit);
   fclose( ifile);

   if( available_sigmas == COVARIANCE_AVAILABLE)
      {
      extern unsigned perturbers;
      const int sigma_type = ((element_format & ELEM_OUT_HELIOCENTRIC_ONLY) ?
                           HELIOCENTRIC_SIGMAS_ONLY : ORBIT_SIGMAS_REQUESTED);

      perturbers = 0x7fe;     /* all planets plus the moon */
      if( user_selected_epoch)
         epoch_shown = user_selected_epoch;
      full_improvement( obs, n_obs, orbit, curr_epoch, "",
                    sigma_type, epoch_shown);
      }

   if( n_obs_actually_loaded > 1 && curr_epoch > 0.)
      {
      write_out_elements_to_file( orbit, curr_epoch, epoch_shown,
            obs, n_obs, orbit_constraints, element_precision,
            0, element_format);
      }
   else
      printf( "Problem loading observations\n");

   create_obs_file( obs, n_obs_actually_loaded, 0);
   if( available_sigmas == COVARIANCE_AVAILABLE)
      {
      n_orbits_in_ephem = 2;
      compute_variant_orbit( orbit + 6, orbit, 1.);
      }
   if( available_sigmas == SR_SIGMAS_AVAILABLE)
      {
      extern double *sr_orbits;
      extern unsigned n_sr_orbits;

      orbits_to_use = sr_orbits;
      n_orbits_in_ephem = n_sr_orbits;
      }
   if( ephemeris_in_a_file_from_mpc_code( ephemeris_filename,
               orbits_to_use, obs, n_obs_actually_loaded,
               curr_epoch, jd_start, ephemeris_step_size,
               n_ephem_steps, mpc_code,
               ephemeris_output_options,
               n_orbits_in_ephem))
      {
      printf( "Ephem generation failed\n");
      return( 0);
      }
   write_residuals_to_file( residual_filename, temp_obs_filename,
                  n_obs_actually_loaded, obs, residual_format);

   strlcpy( mpec_name, get_environment_ptr( "MPEC_NAME"), sizeof( mpec_name));
   if( !*mpec_name)
      strcpy( mpec_name, "mpec.htm");
   make_pseudo_mpec( mpec_name, ids[0].obj_name);
   unload_observations( obs, n_obs);
   ifile = fopen( mpec_name, "rb");
   while( fgets( buff, max_buff_size, ifile))
      printf( "%s", buff);
   fclose( ifile);
   if( (i = strlen( mpec_name)) > 8)
      {
      const int counter = atoi( mpec_name + i - 7);

      if( counter)
         {
         sprintf( mpec_name + i - 7, "%03d.htm", counter % 999 + 1);
         set_environment_ptr( "MPEC_NAME", mpec_name);
         }
      }
   clean_up_find_orb_memory( );
   return( 0);
}