/* * Author : GĂ©rald FENOY * * Copyright (c) 2009-2015 GeoLabs SARL * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN * THE SOFTWARE. */ #include "service_internal.h" #ifdef USE_MS #include "service_internal_ms.h" #else #include "cpl_vsi.h" #endif #ifndef TRUE #define TRUE 1 #endif #ifndef FALSE #define FALSE -1 #endif #ifndef WIN32 #include #endif #define ERROR_MSG_MAX_LENGTH 1024 #include "mimetypes.h" /** * Verify if a given language is listed in the lang list defined in the [main] * section of the main.cfg file. * * @param conf the map containing the settings from the main.cfg file * @param str the specific language * @return 1 if the specific language is listed, -1 in other case. */ int isValidLang(maps* conf,const char *str){ map *tmpMap=getMapFromMaps(conf,"main","lang"); char *tmp=zStrdup(tmpMap->value); char *pToken=strtok(tmp,","); int res=-1; while(pToken!=NULL){ if(strcasecmp(str,pToken)==0){ res=1; break; } pToken = strtok(NULL,","); } free(tmp); return res; } /** * Print the HTTP headers based on a map. * * @param m the map containing the headers informations */ void printHeaders(maps* m){ maps *_tmp=getMaps(m,"headers"); if(_tmp!=NULL){ map* _tmp1=_tmp->content; while(_tmp1!=NULL){ printf("%s: %s\r\n",_tmp1->name,_tmp1->value); _tmp1=_tmp1->next; } } } /** * Add a land attribute to a XML node * * @param n the XML node to add the attribute * @param m the map containing the language key to add as xml:lang */ void addLangAttr(xmlNodePtr n,maps *m){ map *tmpLmap=getMapFromMaps(m,"main","language"); if(tmpLmap!=NULL) xmlNewProp(n,BAD_CAST "xml:lang",BAD_CAST tmpLmap->value); else xmlNewProp(n,BAD_CAST "xml:lang",BAD_CAST "en-US"); } /** * Converts a hex character to its integer value * * @param ch the char to convert * @return the converted char */ char from_hex(char ch) { return isdigit(ch) ? ch - '0' : tolower(ch) - 'a' + 10; } /** * Converts an integer value to its hec character * * @param code the char to convert * @return the converted char */ char to_hex(char code) { static char hex[] = "0123456789abcdef"; return hex[code & 15]; } /** * Get the ongoing status of a running service * * @param conf the maps containing the setting of the main.cfg file * @param pid the service identifier (usid key from the [lenv] section) * @return the reported status char* (MESSAGE|POURCENTAGE) */ char* _getStatus(maps* conf,int pid){ char lid[1024]; sprintf(lid,"%d",pid); setMapInMaps(conf,"lenv","lid",lid); semid lockid=getShmLockId(conf,1); if( #ifdef WIN32 lockid==NULL #else lockid<0 #endif ){ char* tmp = (char*) malloc(3*sizeof(char)); sprintf(tmp,"%d",ZOO_LOCK_CREATE_FAILED); return tmp; } if(lockShm(lockid)<0){ fprintf(stderr,"%s %d\n",__FILE__,__LINE__); fflush(stderr); char* tmp = (char*) malloc(3*sizeof(char)); sprintf(tmp,"%d",ZOO_LOCK_ACQUIRE_FAILED); return tmp; } char *tmp=getStatus(pid); unlockShm(lockid); if(tmp==NULL || strncmp(tmp,"-1",2)==0){ removeShmLock(conf,1); } return tmp; } #ifdef WIN32 #include #include #include #include #include #define SHMEMSIZE 4096 size_t getKeyValue(maps* conf, char* key, size_t length){ if(conf==NULL) { strncpy(key, "700666", length); return strlen(key); } map *tmpMap=getMapFromMaps(conf,"lenv","lid"); if(tmpMap==NULL) tmpMap=getMapFromMaps(conf,"lenv","usid"); if(tmpMap!=NULL){ snprintf(key, length, "zoo_sem_%s", tmpMap->value); } else { strncpy(key, "-1", length); } return strlen(key); } semid getShmLockId(maps* conf, int nsems){ semid sem_id; char key[MAX_PATH]; getKeyValue(conf, key, MAX_PATH); sem_id = CreateSemaphore( NULL, nsems, nsems+1, key); if(sem_id==NULL){ #ifdef DEBUG fprintf(stderr,"Semaphore failed to create: %s\n", getLastErrorMessage()); #endif return NULL; } #ifdef DEBUG fprintf(stderr,"%s Accessed !\n",key); #endif return sem_id; } int removeShmLock(maps* conf, int nsems){ semid sem_id=getShmLockId(conf,1); if (CloseHandle(sem_id) == 0) { fprintf(stderr,"Unable to remove semaphore: %s\n", getLastErrorMessage()); return -1; } #ifdef DEBUG fprintf(stderr,"%d Removed !\n",sem_id); #endif return 0; } int lockShm(semid id){ DWORD dwWaitResult=WaitForSingleObject(id,INFINITE); switch (dwWaitResult){ case WAIT_OBJECT_0: return 0; break; case WAIT_TIMEOUT: return -1; break; default: return -2; break; } return 0; } int unlockShm(semid id){ if(!ReleaseSemaphore(id,1,NULL)){ return -1; } return 0; } static LPVOID lpvMemG = NULL; // pointer to shared memory static HANDLE hMapObjectG = NULL; // handle to file mapping int _updateStatus(maps *conf){ LPWSTR lpszTmp; BOOL fInit; char *final_string=NULL; char *s=NULL; map *tmpMap1; map *tmpMap=getMapFromMaps(conf,"lenv","usid"); semid lockid=getShmLockId(conf,1); if(lockid==NULL){ #ifdef DEBUG fprintf(stderr,"Unable to create semaphore on line %d!! \n",__LINE__); #endif return ZOO_LOCK_CREATE_FAILED; } if(lockShm(lockid)<0){ #ifdef DEBUG fprintf(stderr,"Unable to create semaphore on line %d!! \n",__LINE__); #endif return ZOO_LOCK_ACQUIRE_FAILED; } if(hMapObjectG==NULL) hMapObjectG = CreateFileMapping( INVALID_HANDLE_VALUE, // use paging file NULL, // default security attributes PAGE_READWRITE, // read/write access 0, // size: high 32-bits SHMEMSIZE, // size: low 32-bits TEXT(tmpMap->value)); // name of map object if (hMapObjectG == NULL){ #ifdef DEBUG fprintf(stderr,"Unable to create shared memory segment: %s\n", getLastErrorMessage()); #endif return -2; } fInit = (GetLastError() != ERROR_ALREADY_EXISTS); if(lpvMemG==NULL) lpvMemG = MapViewOfFile( hMapObjectG, // object to map view of FILE_MAP_WRITE, // read/write access 0, // high offset: map from 0, // low offset: beginning 0); // default: map entire file if (lpvMemG == NULL){ #ifdef DEBUG fprintf(stderr,"Unable to create or access the shared memory segment %s !! \n",tmpMap->value); #endif return -1; } memset(lpvMemG, '\0', SHMEMSIZE); tmpMap=getMapFromMaps(conf,"lenv","status"); tmpMap1=NULL; tmpMap1=getMapFromMaps(conf,"lenv","message"); lpszTmp = (LPWSTR) lpvMemG; final_string=(char*)malloc((strlen(tmpMap1->value)+strlen(tmpMap->value)+2)*sizeof(char)); sprintf(final_string,"%s|%s",tmpMap->value,tmpMap1->value); for(s=final_string;*s!='\0';*s++){ *lpszTmp++ = *s; } *lpszTmp++ = '\0'; free(final_string); unlockShm(lockid); return 0; } char* getStatus(int pid){ char *lpszBuf=(char*) malloc(SHMEMSIZE*sizeof(char)); int i=0; LPWSTR lpszTmp=NULL; LPVOID lpvMem = NULL; HANDLE hMapObject = NULL; BOOL fIgnore,fInit; char tmp[1024]; sprintf(tmp,"%d",pid); if(hMapObject==NULL) hMapObject = CreateFileMapping( INVALID_HANDLE_VALUE, // use paging file NULL, // default security attributes PAGE_READWRITE, // read/write access 0, // size: high 32-bits 4096, // size: low 32-bits TEXT(tmp)); // name of map object if (hMapObject == NULL){ #ifdef DEBUG fprintf(stderr,"ERROR on line %d\n",__LINE__); #endif return "-1"; } if((GetLastError() != ERROR_ALREADY_EXISTS)){ #ifdef DEBUG fprintf(stderr,"ERROR on line %d\n",__LINE__); fprintf(stderr,"READING STRING S %s\n", getLastErrorMessage()); #endif fIgnore = UnmapViewOfFile(lpvMem); fIgnore = CloseHandle(hMapObject); return "-1"; } fInit=TRUE; if(lpvMem==NULL) lpvMem = MapViewOfFile( hMapObject, // object to map view of FILE_MAP_READ, // read/write access 0, // high offset: map from 0, // low offset: beginning 0); // default: map entire file if (lpvMem == NULL){ #ifdef DEBUG fprintf(stderr,"READING STRING S %d\n",__LINE__); fprintf(stderr,"READING STRING S %s\n", getLastErrorMessage()); #endif return "-1"; } lpszTmp = (LPWSTR) lpvMem; while (*lpszTmp){ lpszBuf[i] = (char)*lpszTmp; *lpszTmp++; lpszBuf[i+1] = '\0'; i++; } return (char*)lpszBuf; } void unhandleStatus(maps *conf){ BOOL fIgnore; fIgnore = UnmapViewOfFile(lpvMemG); fIgnore = CloseHandle(hMapObjectG); } #else /** * Number of time to try to access a semaphores set * @see getShmLockId */ #define MAX_RETRIES 10 #ifndef __APPLE__ union semun { int val; struct semid_ds *buf; ushort *array; }; #endif /** * Set in the pre-allocated key the zoo_sem_[SID] string * where [SID] is the lid (if any) or usid value from the [lenv] section. * * @param conf the map containing the setting of the main.cfg file */ int getKeyValue(maps* conf){ if(conf==NULL) return 700666; map *tmpMap=getMapFromMaps(conf,"lenv","lid"); if(tmpMap==NULL) tmpMap=getMapFromMaps(conf,"lenv","usid"); int key=-1; if(tmpMap!=NULL) key=atoi(tmpMap->value); return key; } /** * Try to create or access a semaphore set. * * @see getKeyValue * @param conf the map containing the setting of the main.cfg file * @param nsems number of semaphores * @return a semaphores set indentifier on success, -1 in other case */ int getShmLockId(maps* conf, int nsems){ int i; union semun arg; struct semid_ds buf; struct sembuf sb; semid sem_id; int key=getKeyValue(conf); sem_id = semget(key, nsems, IPC_CREAT | IPC_EXCL | 0666); if (sem_id >= 0) { /* we got it first */ sb.sem_op = 1; sb.sem_flg = 0; arg.val=1; for(sb.sem_num = 0; sb.sem_num < nsems; sb.sem_num++) { /* do a semop() to "free" the semaphores. */ /* this sets the sem_otime field, as needed below. */ if (semop(sem_id, &sb, 1) == -1) { int e = errno; semctl(sem_id, 0, IPC_RMID); /* clean up */ errno = e; return -1; /* error, check errno */ } } } else if (errno == EEXIST) { /* someone else got it first */ int ready = 0; sem_id = semget(key, nsems, 0); /* get the id */ if (sem_id < 0) return sem_id; /* error, check errno */ /* wait for other process to initialize the semaphore: */ arg.buf = &buf; for(i = 0; i < MAX_RETRIES && !ready; i++) { semctl(sem_id, nsems-1, IPC_STAT, arg); if (arg.buf->sem_otime != 0) { #ifdef DEBUG fprintf(stderr,"Semaphore acquired ...\n"); #endif ready = 1; } else { #ifdef DEBUG fprintf(stderr,"Retry to access the semaphore later ...\n"); #endif sleep(1); } } errno = ZOO_LOCK_ACQUIRE_FAILED; if (!ready) { #ifdef DEBUG fprintf(stderr,"Unable to access the semaphore ...\n"); #endif errno = ETIME; return -1; } } else { return sem_id; /* error, check errno */ } #ifdef DEBUG fprintf(stderr,"%d Created !\n",sem_id); #endif return sem_id; } /** * Try to remove a semaphore set. * * @param conf the map containing the setting of the main.cfg file * @param nsems number of semaphores * @return 0 if the semaphore can be removed, -1 in other case. */ int removeShmLock(maps* conf, int nsems){ union semun arg; int sem_id=getShmLockId(conf,nsems); if (semctl(sem_id, 0, IPC_RMID, arg) == -1) { perror("semctl"); return -1; } return 0; } /** * Lock a semaphore set. * * @param id the semaphores set indetifier * @return 0 if the semaphore can be locked, -1 in other case. */ int lockShm(int id){ struct sembuf sb; sb.sem_num = 0; sb.sem_op = -1; /* set to allocate resource */ sb.sem_flg = SEM_UNDO; if (semop(id, &sb, 1) == -1){ perror("semop"); return -1; } return 0; } /** * unLock a semaphore set. * * @param id the semaphores set indetifier * @return 0 if the semaphore can be locked, -1 in other case. */ int unlockShm(int id){ struct sembuf sb; sb.sem_num = 0; sb.sem_op = 1; /* free resource */ sb.sem_flg = SEM_UNDO; if (semop(id, &sb, 1) == -1) { perror("semop"); return -1; } return 0; } /** * Stop handling status repport. * * @param conf the map containing the setting of the main.cfg file */ void unhandleStatus(maps *conf){ int shmid; key_t key; void *shm; struct shmid_ds shmids; map *tmpMap=getMapFromMaps(conf,"lenv","usid"); if(tmpMap!=NULL){ key=atoi(tmpMap->value); if ((shmid = shmget(key, SHMSZ, IPC_CREAT | 0666)) < 0) { #ifdef DEBUG fprintf(stderr,"shmget failed to update value\n"); #endif }else{ if ((shm = shmat(shmid, NULL, 0)) == (char *) -1) { #ifdef DEBUG fprintf(stderr,"shmat failed to update value\n"); #endif }else{ shmdt(shm); shmctl(shmid,IPC_RMID,&shmids); } } } } /** * Update the current of the running service. * * @see getKeyValue, getShmLockId, lockShm * @param conf the map containing the setting of the main.cfg file * @return 0 on success, -2 if shmget failed, -1 if shmat failed */ int _updateStatus(maps *conf){ int shmid; char *shm,*s,*s1; map *tmpMap=NULL; key_t key=getKeyValue(conf); if(key!=-1){ semid lockid=getShmLockId(conf,1); if(lockid<0) return ZOO_LOCK_CREATE_FAILED; if(lockShm(lockid)<0){ return ZOO_LOCK_ACQUIRE_FAILED; } if ((shmid = shmget(key, SHMSZ, IPC_CREAT | 0666)) < 0) { #ifdef DEBUG fprintf(stderr,"shmget failed to create new Shared memory segment\n"); #endif unlockShm(lockid); return -2; }else{ if ((shm = (char*) shmat(shmid, NULL, 0)) == (char *) -1) { #ifdef DEBUG fprintf(stderr,"shmat failed to update value\n"); #endif unlockShm(lockid); return -1; } else{ tmpMap=getMapFromMaps(conf,"lenv","status"); s1=shm; for(s=tmpMap->value;*s!=NULL && *s!=0;s++){ *s1++=*s; } *s1++='|'; tmpMap=getMapFromMaps(conf,"lenv","message"); if(tmpMap!=NULL) for(s=tmpMap->value;*s!=NULL && *s!=0;s++){ *s1++=*s; } *s1=NULL; shmdt((void *)shm); unlockShm(lockid); } } } return 0; } /** * Update the current of the running service. * * @see getKeyValue, getShmLockId, lockShm * @param pid the semaphores * @return 0 on success, -2 if shmget failed, -1 if shmat failed */ char* getStatus(int pid){ int shmid; key_t key; void *shm; key=pid; if ((shmid = shmget(key, SHMSZ, 0666)) < 0) { #ifdef DEBUG fprintf(stderr,"shmget failed in getStatus\n"); #endif }else{ if ((shm = shmat(shmid, NULL, 0)) == (char *) -1) { #ifdef DEBUG fprintf(stderr,"shmat failed in getStatus\n"); #endif }else{ char *ret=strdup((char*)shm); shmdt((void *)shm); return ret; } } return (char*)"-1"; } #endif /** * URLEncode an url * * @param str the url to encode * @return a url-encoded version of str * @warning be sure to free() the returned string after use */ char *url_encode(char *str) { char *pstr = str, *buf = (char*) malloc(strlen(str) * 3 + 1), *pbuf = buf; while (*pstr) { if (isalnum(*pstr) || *pstr == '-' || *pstr == '_' || *pstr == '.' || *pstr == '~') *pbuf++ = *pstr; else if (*pstr == ' ') *pbuf++ = '+'; else *pbuf++ = '%', *pbuf++ = to_hex(*pstr >> 4), *pbuf++ = to_hex(*pstr & 15); pstr++; } *pbuf = '\0'; return buf; } /** * Decode an URLEncoded url * * @param str the URLEncoded url to decode * @return a url-decoded version of str * @warning be sure to free() the returned string after use */ char *url_decode(char *str) { char *pstr = str, *buf = (char*) malloc(strlen(str) + 1), *pbuf = buf; while (*pstr) { if (*pstr == '%') { if (pstr[1] && pstr[2]) { *pbuf++ = from_hex(pstr[1]) << 4 | from_hex(pstr[2]); pstr += 2; } } else if (*pstr == '+') { *pbuf++ = ' '; } else { *pbuf++ = *pstr; } pstr++; } *pbuf = '\0'; return buf; } /** * Replace the first letter by its upper case version in a new char array * * @param tmp the char* * @return a new char* with first letter in upper case * @warning be sure to free() the returned string after use */ char *zCapitalize1(char *tmp){ char *res=zStrdup(tmp); if(res[0]>=97 && res[0]<=122) res[0]-=32; return res; } /** * Replace all letters by their upper case version in a new char array * * @param tmp the char* * @return a new char* with first letter in upper case * @warning be sure to free() the returned string after use */ char *zCapitalize(char *tmp){ int i=0; char *res=zStrdup(tmp); for(i=0;i=97 && res[i]<=122) res[i]-=32; return res; } /** * Search for an existing XML namespace in usedNS. * * @param name the name of the XML namespace to search * @return the index of the XML namespace found or -1 if not found. */ int zooXmlSearchForNs(const char* name){ int i; int res=-1; for(i=0;i=0;j--){ #ifdef DEBUG fprintf(stderr,"zooXmlCleanup %d\n",j); #endif if(j==0) xmlFreeNs(usedNs[j]); free(nsName[j]); nbNs--; } nbNs=0; } /** * Add a XML document to the iDocs. * * @param value the string containing the XML document * @return the index of the XML document added. */ int zooXmlAddDoc(const char* value){ int currId=0; nbDocs++; currId=nbDocs-1; iDocs[currId]=xmlParseMemory(value,strlen(value)); return currId; } /** * Free allocated memort to store XML documents */ void zooXmlCleanupDocs(){ int j; for(j=nbDocs-1;j>=0;j--){ xmlFreeDoc(iDocs[j]); } nbDocs=0; } /** * Generate a SOAP Envelope node when required (if the isSoap key of the [main] * section is set to true). * * @param conf the conf maps containing the main.cfg settings * @param n the node used as children of the generated soap:Envelope * @return the generated soap:Envelope (if isSoap=true) or the input node n * (when isSoap=false) */ xmlNodePtr soapEnvelope(maps* conf,xmlNodePtr n){ map* soap=getMapFromMaps(conf,"main","isSoap"); if(soap!=NULL && strcasecmp(soap->value,"true")==0){ int lNbNs=nbNs; nsName[lNbNs]=strdup("soap"); usedNs[lNbNs]=xmlNewNs(NULL,BAD_CAST "http://www.w3.org/2003/05/soap-envelope",BAD_CAST "soap"); nbNs++; xmlNodePtr nr = xmlNewNode(usedNs[lNbNs], BAD_CAST "Envelope"); nsName[nbNs]=strdup("soap"); usedNs[nbNs]=xmlNewNs(nr,BAD_CAST "http://www.w3.org/2003/05/soap-envelope",BAD_CAST "soap"); nbNs++; nsName[nbNs]=strdup("xsi"); usedNs[nbNs]=xmlNewNs(nr,BAD_CAST "http://www.w3.org/2001/XMLSchema-instance",BAD_CAST "xsi"); nbNs++; xmlNsPtr ns_xsi=usedNs[nbNs-1]; xmlNewNsProp(nr,ns_xsi,BAD_CAST "schemaLocation",BAD_CAST "http://www.w3.org/2003/05/soap-envelope http://www.w3.org/2003/05/soap-envelope"); xmlNodePtr nr1 = xmlNewNode(usedNs[lNbNs], BAD_CAST "Body"); xmlAddChild(nr1,n); xmlAddChild(nr,nr1); return nr; }else return n; } /** * Generate a WPS header. * * @param doc the document to add the header * @param m the conf maps containing the main.cfg settings * @param req the request type (GetCapabilities,DescribeProcess,Execute) * @param rname the root node name * @return the generated wps:rname xmlNodePtr (can be wps: Capabilities, * wps:ProcessDescriptions,wps:ExecuteResponse) */ xmlNodePtr printWPSHeader(xmlDocPtr doc,maps* m,const char* req,const char* rname){ xmlNsPtr ns,ns_xsi; xmlNodePtr n; int wpsId=zooXmlAddNs(NULL,"http://schemas.opengis.net/wps/1.0.0","wps"); ns=usedNs[wpsId]; n = xmlNewNode(ns, BAD_CAST rname); zooXmlAddNs(n,"http://www.opengis.net/ows/1.1","ows"); xmlNewNs(n,BAD_CAST "http://www.opengis.net/wps/1.0.0",BAD_CAST "wps"); zooXmlAddNs(n,"http://www.w3.org/1999/xlink","xlink"); int xsiId=zooXmlAddNs(n,"http://www.w3.org/2001/XMLSchema-instance","xsi"); ns_xsi=usedNs[xsiId]; char *tmp=(char*) malloc((86+strlen(req)+1)*sizeof(char)); sprintf(tmp,"http://www.opengis.net/wps/1.0.0 http://schemas.opengis.net/wps/1.0.0/wps%s_response.xsd",req); xmlNewNsProp(n,ns_xsi,BAD_CAST "schemaLocation",BAD_CAST tmp); free(tmp); xmlNewProp(n,BAD_CAST "service",BAD_CAST "WPS"); xmlNewProp(n,BAD_CAST "version",BAD_CAST "1.0.0"); addLangAttr(n,m); xmlNodePtr fn=soapEnvelope(m,n); xmlDocSetRootElement(doc, fn); return n; } /** * Generate a Capabilities header. * * @param doc the document to add the header * @param m the conf maps containing the main.cfg settings * @return the generated wps:ProcessOfferings xmlNodePtr */ xmlNodePtr printGetCapabilitiesHeader(xmlDocPtr doc,maps* m){ xmlNsPtr ns,ns_ows,ns_xlink; xmlNodePtr n,nc,nc1,nc2,nc3,nc4,nc5,nc6; n = printWPSHeader(doc,m,"GetCapabilities","Capabilities"); maps* toto1=getMaps(m,"main"); char tmp[256]; int wpsId=zooXmlAddNs(NULL,"http://www.opengis.net/wps/1.0.0","wps"); ns=usedNs[wpsId]; int xlinkId=zooXmlAddNs(NULL,"http://www.w3.org/1999/xlink","xlink"); ns_xlink=usedNs[xlinkId]; int owsId=zooXmlAddNs(NULL,"http://www.opengis.net/ows/1.1","ows"); ns_ows=usedNs[owsId]; nc = xmlNewNode(ns_ows, BAD_CAST "ServiceIdentification"); maps* tmp4=getMaps(m,"identification"); if(tmp4!=NULL){ map* tmp2=tmp4->content; const char *orderedFields[5]; orderedFields[0]="Title"; orderedFields[1]="Abstract"; orderedFields[2]="Keywords"; orderedFields[3]="Fees"; orderedFields[4]="AccessConstraints"; int oI=0; for(oI=0;oI<5;oI++) if((tmp2=getMap(tmp4->content,orderedFields[oI]))!=NULL){ if(strcasecmp(tmp2->name,"abstract")==0 || strcasecmp(tmp2->name,"title")==0 || strcasecmp(tmp2->name,"accessConstraints")==0 || strcasecmp(tmp2->name,"fees")==0){ tmp2->name[0]=toupper(tmp2->name[0]); nc1 = xmlNewNode(ns_ows, BAD_CAST tmp2->name); xmlAddChild(nc1,xmlNewText(BAD_CAST tmp2->value)); xmlAddChild(nc,nc1); } else if(strcmp(tmp2->name,"keywords")==0){ nc1 = xmlNewNode(ns_ows, BAD_CAST "Keywords"); char *toto=tmp2->value; char buff[256]; int i=0; int j=0; while(toto[i]){ if(toto[i]!=',' && toto[i]!=0){ buff[j]=toto[i]; buff[j+1]=0; j++; } else{ nc2 = xmlNewNode(ns_ows, BAD_CAST "Keyword"); xmlAddChild(nc2,xmlNewText(BAD_CAST buff)); xmlAddChild(nc1,nc2); j=0; } i++; } if(strlen(buff)>0){ nc2 = xmlNewNode(ns_ows, BAD_CAST "Keyword"); xmlAddChild(nc2,xmlNewText(BAD_CAST buff)); xmlAddChild(nc1,nc2); } xmlAddChild(nc,nc1); nc2 = xmlNewNode(ns_ows, BAD_CAST "ServiceType"); xmlAddChild(nc2,xmlNewText(BAD_CAST "WPS")); xmlAddChild(nc,nc2); nc2 = xmlNewNode(ns_ows, BAD_CAST "ServiceTypeVersion"); xmlAddChild(nc2,xmlNewText(BAD_CAST "1.0.0")); xmlAddChild(nc,nc2); } tmp2=tmp2->next; } } else{ fprintf(stderr,"TMP4 NOT FOUND !!"); return NULL; } xmlAddChild(n,nc); nc = xmlNewNode(ns_ows, BAD_CAST "ServiceProvider"); nc3 = xmlNewNode(ns_ows, BAD_CAST "ServiceContact"); nc4 = xmlNewNode(ns_ows, BAD_CAST "ContactInfo"); nc5 = xmlNewNode(ns_ows, BAD_CAST "Phone"); nc6 = xmlNewNode(ns_ows, BAD_CAST "Address"); tmp4=getMaps(m,"provider"); if(tmp4!=NULL){ map* tmp2=tmp4->content; const char *tmpAddress[6]; tmpAddress[0]="addressDeliveryPoint"; tmpAddress[1]="addressCity"; tmpAddress[2]="addressAdministrativeArea"; tmpAddress[3]="addressPostalCode"; tmpAddress[4]="addressCountry"; tmpAddress[5]="addressElectronicMailAddress"; const char *tmpPhone[2]; tmpPhone[0]="phoneVoice"; tmpPhone[1]="phoneFacsimile"; const char *orderedFields[12]; orderedFields[0]="providerName"; orderedFields[1]="providerSite"; orderedFields[2]="individualName"; orderedFields[3]="positionName"; orderedFields[4]=tmpPhone[0]; orderedFields[5]=tmpPhone[1]; orderedFields[6]=tmpAddress[0]; orderedFields[7]=tmpAddress[1]; orderedFields[8]=tmpAddress[2]; orderedFields[9]=tmpAddress[3]; orderedFields[10]=tmpAddress[4]; orderedFields[11]=tmpAddress[5]; int oI=0; for(oI=0;oI<12;oI++) if((tmp2=getMap(tmp4->content,orderedFields[oI]))!=NULL){ if(strcmp(tmp2->name,"keywords")!=0 && strcmp(tmp2->name,"serverAddress")!=0 && strcmp(tmp2->name,"lang")!=0){ tmp2->name[0]=toupper(tmp2->name[0]); if(strcmp(tmp2->name,"ProviderName")==0){ nc1 = xmlNewNode(ns_ows, BAD_CAST tmp2->name); xmlAddChild(nc1,xmlNewText(BAD_CAST tmp2->value)); xmlAddChild(nc,nc1); } else{ if(strcmp(tmp2->name,"ProviderSite")==0){ nc1 = xmlNewNode(ns_ows, BAD_CAST tmp2->name); xmlNewNsProp(nc1,ns_xlink,BAD_CAST "href",BAD_CAST tmp2->value); xmlAddChild(nc,nc1); } else if(strcmp(tmp2->name,"IndividualName")==0 || strcmp(tmp2->name,"PositionName")==0){ nc1 = xmlNewNode(ns_ows, BAD_CAST tmp2->name); xmlAddChild(nc1,xmlNewText(BAD_CAST tmp2->value)); xmlAddChild(nc3,nc1); } else if(strncmp(tmp2->name,"Phone",5)==0){ int j; for(j=0;j<2;j++) if(strcasecmp(tmp2->name,tmpPhone[j])==0){ char *tmp4=tmp2->name; nc1 = xmlNewNode(ns_ows, BAD_CAST tmp4+5); xmlAddChild(nc1,xmlNewText(BAD_CAST tmp2->value)); xmlAddChild(nc5,nc1); } } else if(strncmp(tmp2->name,"Address",7)==0){ int j; for(j=0;j<6;j++) if(strcasecmp(tmp2->name,tmpAddress[j])==0){ char *tmp4=tmp2->name; nc1 = xmlNewNode(ns_ows, BAD_CAST tmp4+7); xmlAddChild(nc1,xmlNewText(BAD_CAST tmp2->value)); xmlAddChild(nc6,nc1); } } } } else if(strcmp(tmp2->name,"keywords")==0){ nc1 = xmlNewNode(ns_ows, BAD_CAST "Keywords"); char *toto=tmp2->value; char buff[256]; int i=0; int j=0; while(toto[i]){ if(toto[i]!=',' && toto[i]!=0){ buff[j]=toto[i]; buff[j+1]=0; j++; } else{ nc2 = xmlNewNode(ns_ows, BAD_CAST "Keyword"); xmlAddChild(nc2,xmlNewText(BAD_CAST buff)); xmlAddChild(nc1,nc2); j=0; } i++; } if(strlen(buff)>0){ nc2 = xmlNewNode(ns_ows, BAD_CAST "Keyword"); xmlAddChild(nc2,xmlNewText(BAD_CAST buff)); xmlAddChild(nc1,nc2); } xmlAddChild(nc,nc1); } tmp2=tmp2->next; } } else{ fprintf(stderr,"TMP4 NOT FOUND !!"); } xmlAddChild(nc4,nc5); xmlAddChild(nc4,nc6); xmlAddChild(nc3,nc4); xmlAddChild(nc,nc3); xmlAddChild(n,nc); nc = xmlNewNode(ns_ows, BAD_CAST "OperationsMetadata"); char *tmp2[3]; tmp2[0]=strdup("GetCapabilities"); tmp2[1]=strdup("DescribeProcess"); tmp2[2]=strdup("Execute"); int j=0; if(toto1!=NULL){ map* tmp=getMap(toto1->content,"serverAddress"); if(tmp!=NULL){ SERVICE_URL = strdup(tmp->value); } else SERVICE_URL = strdup("not_defined"); } else SERVICE_URL = strdup("not_defined"); for(j=0;j<3;j++){ nc1 = xmlNewNode(ns_ows, BAD_CAST "Operation"); xmlNewProp(nc1,BAD_CAST "name",BAD_CAST tmp2[j]); nc2 = xmlNewNode(ns_ows, BAD_CAST "DCP"); nc3 = xmlNewNode(ns_ows, BAD_CAST "HTTP"); nc4 = xmlNewNode(ns_ows, BAD_CAST "Get"); sprintf(tmp,"%s",SERVICE_URL); xmlNewNsProp(nc4,ns_xlink,BAD_CAST "href",BAD_CAST tmp); xmlAddChild(nc3,nc4); nc4 = xmlNewNode(ns_ows, BAD_CAST "Post"); xmlNewNsProp(nc4,ns_xlink,BAD_CAST "href",BAD_CAST tmp); xmlAddChild(nc3,nc4); xmlAddChild(nc2,nc3); xmlAddChild(nc1,nc2); xmlAddChild(nc,nc1); } for(j=2;j>=0;j--) free(tmp2[j]); xmlAddChild(n,nc); nc = xmlNewNode(ns, BAD_CAST "ProcessOfferings"); xmlAddChild(n,nc); nc1 = xmlNewNode(ns, BAD_CAST "Languages"); nc2 = xmlNewNode(ns, BAD_CAST "Default"); nc3 = xmlNewNode(ns, BAD_CAST "Supported"); toto1=getMaps(m,"main"); if(toto1!=NULL){ map* tmp1=getMap(toto1->content,"lang"); char *toto=tmp1->value; char buff[256]; int i=0; int j=0; int dcount=0; while(toto[i]){ if(toto[i]!=',' && toto[i]!=0){ buff[j]=toto[i]; buff[j+1]=0; j++; } else{ nc4 = xmlNewNode(ns_ows, BAD_CAST "Language"); xmlAddChild(nc4,xmlNewText(BAD_CAST buff)); if(dcount==0){ xmlAddChild(nc2,nc4); xmlAddChild(nc1,nc2); dcount++; } nc4 = xmlNewNode(ns_ows, BAD_CAST "Language"); xmlAddChild(nc4,xmlNewText(BAD_CAST buff)); xmlAddChild(nc3,nc4); j=0; buff[j]=0; } i++; } if(strlen(buff)>0){ nc4 = xmlNewNode(ns_ows, BAD_CAST "Language"); xmlAddChild(nc4,xmlNewText(BAD_CAST buff)); xmlAddChild(nc3,nc4); } } xmlAddChild(nc1,nc3); xmlAddChild(n,nc1); free(SERVICE_URL); return nc; } /** * Add prefix to the service name. * * @param conf the conf maps containing the main.cfg settings * @param level the map containing the level information * @param serv the service structure created from the zcfg file */ void addPrefix(maps* conf,map* level,service* serv){ if(level!=NULL){ char key[25]; char* prefix=NULL; int clevel=atoi(level->value); int cl=0; for(cl=0;clvalue); else{ int plen=strlen(prefix); prefix=(char*)realloc(prefix,(plen+strlen(tmp2->value)+2)*sizeof(char)); memcpy(prefix+plen,tmp2->value,strlen(tmp2->value)*sizeof(char)); prefix[plen+strlen(tmp2->value)]=0; } } } if(prefix!=NULL){ char* tmp0=strdup(serv->name); free(serv->name); serv->name=(char*)malloc((strlen(prefix)+strlen(tmp0)+1)*sizeof(char)); sprintf(serv->name,"%s%s",prefix,tmp0); free(tmp0); free(prefix); prefix=NULL; } } } /** * Generate a wps:Process node for a servie and add it to a given node. * * @param m the conf maps containing the main.cfg settings * @param registry the profile registry if any * @param nc the XML node to add the Process node * @param serv the service structure created from the zcfg file * @return the generated wps:ProcessOfferings xmlNodePtr */ void printGetCapabilitiesForProcess(maps* m,xmlNodePtr nc,service* serv){ xmlNsPtr ns,ns_ows,ns_xlink; xmlNodePtr n=NULL,nc1,nc2; /** * Initialize or get existing namspaces */ int wpsId=zooXmlAddNs(NULL,"http://www.opengis.net/wps/1.0.0","wps"); ns=usedNs[wpsId]; int owsId=zooXmlAddNs(NULL,"http://www.opengis.net/ows/1.1","ows"); ns_ows=usedNs[owsId]; int xlinkId=zooXmlAddNs(n,"http://www.w3.org/1999/xlink","xlink"); ns_xlink=usedNs[xlinkId]; map* tmp1; if(serv->content!=NULL){ nc1 = xmlNewNode(ns, BAD_CAST "Process"); tmp1=getMap(serv->content,"processVersion"); if(tmp1!=NULL) xmlNewNsProp(nc1,ns,BAD_CAST "processVersion",BAD_CAST tmp1->value); map* tmp3=getMapFromMaps(m,"lenv","level"); addPrefix(m,tmp3,serv); printDescription(nc1,ns_ows,serv->name,serv->content); tmp1=serv->metadata; while(tmp1!=NULL){ nc2 = xmlNewNode(ns_ows, BAD_CAST "Metadata"); xmlNewNsProp(nc2,ns_xlink,BAD_CAST tmp1->name,BAD_CAST tmp1->value); xmlAddChild(nc1,nc2); tmp1=tmp1->next; } xmlAddChild(nc,nc1); } } /** * Generate a ProcessDescription node for a servie and add it to a given node. * * @param m the conf maps containing the main.cfg settings * @param nc the XML node to add the Process node * @param serv the servive structure created from the zcfg file * @return the generated wps:ProcessOfferings xmlNodePtr */ void printDescribeProcessForProcess(maps* m,xmlNodePtr nc,service* serv){ xmlNsPtr ns,ns_ows,ns_xlink; xmlNodePtr n,nc1; n=nc; int wpsId=zooXmlAddNs(NULL,"http://schemas.opengis.net/wps/1.0.0","wps"); ns=usedNs[wpsId]; int owsId=zooXmlAddNs(NULL,"http://www.opengis.net/ows/1.1","ows"); ns_ows=usedNs[owsId]; int xlinkId=zooXmlAddNs(NULL,"http://www.w3.org/1999/xlink","xlink"); ns_xlink=usedNs[xlinkId]; nc = xmlNewNode(NULL, BAD_CAST "ProcessDescription"); const char *tmp4[3]; tmp4[0]="processVersion"; tmp4[1]="storeSupported"; tmp4[2]="statusSupported"; int j=0; map* tmp1=NULL; for(j=0;j<3;j++){ tmp1=getMap(serv->content,tmp4[j]); if(tmp1!=NULL){ if(j==0) xmlNewNsProp(nc,ns,BAD_CAST "processVersion",BAD_CAST tmp1->value); else xmlNewProp(nc,BAD_CAST tmp4[j],BAD_CAST tmp1->value); } else{ if(j>0) xmlNewProp(nc,BAD_CAST tmp4[j],BAD_CAST "false"); } } tmp1=getMapFromMaps(m,"lenv","level"); addPrefix(m,tmp1,serv); printDescription(nc,ns_ows,serv->name,serv->content); tmp1=serv->metadata; while(tmp1!=NULL){ nc1 = xmlNewNode(ns_ows, BAD_CAST "Metadata"); xmlNewNsProp(nc1,ns_xlink,BAD_CAST tmp1->name,BAD_CAST tmp1->value); xmlAddChild(nc,nc1); tmp1=tmp1->next; } tmp1=getMap(serv->content,"Profile"); if(tmp1!=NULL){ nc1 = xmlNewNode(ns, BAD_CAST "Profile"); xmlAddChild(nc1,xmlNewText(BAD_CAST tmp1->value)); xmlAddChild(nc,nc1); } if(serv->inputs!=NULL){ nc1 = xmlNewNode(NULL, BAD_CAST "DataInputs"); elements* e=serv->inputs; printFullDescription(1,e,"Input",ns_ows,nc1); xmlAddChild(nc,nc1); } nc1 = xmlNewNode(NULL, BAD_CAST "ProcessOutputs"); elements* e=serv->outputs; printFullDescription(0,e,"Output",ns_ows,nc1); xmlAddChild(nc,nc1); xmlAddChild(n,nc); } /** * Generate the required XML tree for the detailled metadata informations of * inputs or outputs * * @param in 1 in case of inputs, 0 for outputs * @param elem the elements structure containing the metadata informations * @param type the name ("Input" or "Output") of the XML node to create * @param ns_ows the ows XML namespace * @param nc1 the XML node to use to add the created tree */ void printFullDescription(int in,elements *elem,const char* type,xmlNsPtr ns_ows,xmlNodePtr nc1){ const char *orderedFields[13]; orderedFields[0]="mimeType"; orderedFields[1]="encoding"; orderedFields[2]="schema"; orderedFields[3]="dataType"; orderedFields[4]="uom"; orderedFields[5]="CRS"; orderedFields[6]="value"; orderedFields[7]="AllowedValues"; orderedFields[8]="range"; orderedFields[9]="rangeMin"; orderedFields[10]="rangeMax"; orderedFields[11]="rangeClosure"; orderedFields[12]="rangeSpace"; xmlNodePtr nc2,nc3,nc4,nc5,nc6,nc7,nc8,nc9; elements* e=elem; map* tmp1=NULL; while(e!=NULL){ int default1=0; int isAnyValue=1; nc2 = xmlNewNode(NULL, BAD_CAST type); if(strncmp(type,"Input",5)==0){ tmp1=getMap(e->content,"minOccurs"); if(tmp1!=NULL){ xmlNewProp(nc2,BAD_CAST tmp1->name,BAD_CAST tmp1->value); }else xmlNewProp(nc2,BAD_CAST "minOccurs",BAD_CAST "0"); tmp1=getMap(e->content,"maxOccurs"); if(tmp1!=NULL){ if(strcasecmp(tmp1->value,"unbounded")!=0) xmlNewProp(nc2,BAD_CAST tmp1->name,BAD_CAST tmp1->value); else xmlNewProp(nc2,BAD_CAST "maxOccurs",BAD_CAST "1000"); }else xmlNewProp(nc2,BAD_CAST "maxOccurs",BAD_CAST "1"); if((tmp1=getMap(e->content,"maximumMegabytes"))!=NULL){ xmlNewProp(nc2,BAD_CAST "maximumMegabytes",BAD_CAST tmp1->value); } } printDescription(nc2,ns_ows,e->name,e->content); /** * Build the (Literal/Complex/BoundingBox)Data node */ if(strncmp(type,"Output",6)==0){ if(strncasecmp(e->format,"LITERALDATA",strlen(e->format))==0) nc3 = xmlNewNode(NULL, BAD_CAST "LiteralOutput"); else if(strncasecmp(e->format,"COMPLEXDATA",strlen(e->format))==0) nc3 = xmlNewNode(NULL, BAD_CAST "ComplexOutput"); else if(strncasecmp(e->format,"BOUNDINGBOXDATA",strlen(e->format))==0) nc3 = xmlNewNode(NULL, BAD_CAST "BoundingBoxOutput"); else nc3 = xmlNewNode(NULL, BAD_CAST e->format); }else{ if(strncasecmp(e->format,"LITERALDATA",strlen(e->format))==0){ nc3 = xmlNewNode(NULL, BAD_CAST "LiteralData"); } else if(strncasecmp(e->format,"COMPLEXDATA",strlen(e->format))==0) nc3 = xmlNewNode(NULL, BAD_CAST "ComplexData"); else if(strncasecmp(e->format,"BOUNDINGBOXDATA",strlen(e->format))==0) nc3 = xmlNewNode(NULL, BAD_CAST "BoundingBoxData"); else nc3 = xmlNewNode(NULL, BAD_CAST e->format); } iotype* _tmp0=NULL; iotype* _tmp=e->defaults; int datatype=0; bool hasUOM=false; bool hasUOM1=false; if(_tmp!=NULL){ if(strcmp(e->format,"LiteralOutput")==0 || strcmp(e->format,"LiteralData")==0){ datatype=1; nc4 = xmlNewNode(NULL, BAD_CAST "UOMs"); nc5 = xmlNewNode(NULL, BAD_CAST "Default"); } else if(strcmp(e->format,"BoundingBoxOutput")==0 || strcmp(e->format,"BoundingBoxData")==0){ datatype=2; nc5 = xmlNewNode(NULL, BAD_CAST "Default"); } else{ nc4 = xmlNewNode(NULL, BAD_CAST "Default"); nc5 = xmlNewNode(NULL, BAD_CAST "Format"); } tmp1=_tmp->content; if((tmp1=getMap(_tmp->content,"DataType"))!=NULL){ nc8 = xmlNewNode(ns_ows, BAD_CAST "DataType"); xmlAddChild(nc8,xmlNewText(BAD_CAST tmp1->value)); char tmp[1024]; sprintf(tmp,"http://www.w3.org/TR/xmlschema-2/#%s",tmp1->value); xmlNewNsProp(nc8,ns_ows,BAD_CAST "reference",BAD_CAST tmp); xmlAddChild(nc3,nc8); datatype=1; } if(strncmp(type,"Input",5)==0){ if((tmp1=getMap(_tmp->content,"AllowedValues"))!=NULL){ nc6 = xmlNewNode(ns_ows, BAD_CAST "AllowedValues"); char *token,*saveptr1; token=strtok_r(tmp1->value,",",&saveptr1); while(token!=NULL){ nc7 = xmlNewNode(ns_ows, BAD_CAST "Value"); char *tmps=strdup(token); tmps[strlen(tmps)]=0; xmlAddChild(nc7,xmlNewText(BAD_CAST tmps)); free(tmps); xmlAddChild(nc6,nc7); token=strtok_r(NULL,",",&saveptr1); } if(getMap(_tmp->content,"range")!=NULL || getMap(_tmp->content,"rangeMin")!=NULL || getMap(_tmp->content,"rangeMax")!=NULL || getMap(_tmp->content,"rangeClosure")!=NULL ) goto doRange; xmlAddChild(nc3,nc6); isAnyValue=-1; } tmp1=getMap(_tmp->content,"range"); if(tmp1==NULL) tmp1=getMap(_tmp->content,"rangeMin"); if(tmp1==NULL) tmp1=getMap(_tmp->content,"rangeMax"); if(tmp1!=NULL && isAnyValue==1){ nc6 = xmlNewNode(ns_ows, BAD_CAST "AllowedValues"); doRange: /** * Range: Table 46 OGC Web Services Common Standard */ nc8 = xmlNewNode(ns_ows, BAD_CAST "Range"); map* tmp0=getMap(tmp1,"range"); if(tmp0!=NULL){ char* pToken; char* orig=zStrdup(tmp0->value); /** * RangeClosure: Table 47 OGC Web Services Common Standard */ const char *tmp="closed"; if(orig[0]=='[' && orig[strlen(orig)-1]=='[') tmp="closed-open"; else if(orig[0]==']' && orig[strlen(orig)-1]==']') tmp="open-closed"; else if(orig[0]==']' && orig[strlen(orig)-1]=='[') tmp="open"; xmlNewNsProp(nc8,ns_ows,BAD_CAST "rangeClosure",BAD_CAST tmp); pToken=strtok(orig,","); int nci0=0; while(pToken!=NULL){ char *tmpStr=(char*) malloc((strlen(pToken))*sizeof(char)); if(nci0==0){ nc7 = xmlNewNode(ns_ows, BAD_CAST "MinimumValue"); strncpy( tmpStr, pToken+1, strlen(pToken)-1 ); tmpStr[strlen(pToken)-1] = '\0'; }else{ nc7 = xmlNewNode(ns_ows, BAD_CAST "MaximumValue"); const char* bkt; if ( ( bkt = strchr(pToken, '[') ) != NULL || ( bkt = strchr(pToken, ']') ) != NULL ){ strncpy( tmpStr, pToken, bkt - pToken ); tmpStr[bkt - pToken] = '\0'; } } xmlAddChild(nc7,xmlNewText(BAD_CAST tmpStr)); free(tmpStr); xmlAddChild(nc8,nc7); nci0++; pToken = strtok(NULL,","); } if(getMap(tmp1,"rangeSpacing")==NULL){ nc7 = xmlNewNode(ns_ows, BAD_CAST "Spacing"); xmlAddChild(nc7,xmlNewText(BAD_CAST "1")); xmlAddChild(nc8,nc7); } free(orig); }else{ tmp0=getMap(tmp1,"rangeMin"); if(tmp0!=NULL){ nc7 = xmlNewNode(ns_ows, BAD_CAST "MinimumValue"); xmlAddChild(nc7,xmlNewText(BAD_CAST tmp0->value)); xmlAddChild(nc8,nc7); }else{ nc7 = xmlNewNode(ns_ows, BAD_CAST "MinimumValue"); xmlAddChild(nc8,nc7); } tmp0=getMap(tmp1,"rangeMax"); if(tmp0!=NULL){ nc7 = xmlNewNode(ns_ows, BAD_CAST "MaximumValue"); xmlAddChild(nc7,xmlNewText(BAD_CAST tmp0->value)); xmlAddChild(nc8,nc7); }else{ nc7 = xmlNewNode(ns_ows, BAD_CAST "MaximumValue"); xmlAddChild(nc8,nc7); } tmp0=getMap(tmp1,"rangeSpacing"); if(tmp0!=NULL){ nc7 = xmlNewNode(ns_ows, BAD_CAST "Spacing"); xmlAddChild(nc7,xmlNewText(BAD_CAST tmp0->value)); xmlAddChild(nc8,nc7); } tmp0=getMap(tmp1,"rangeClosure"); if(tmp0!=NULL){ const char *tmp="closed"; if(strcasecmp(tmp0->value,"co")==0) tmp="closed-open"; else if(strcasecmp(tmp0->value,"oc")==0) tmp="open-closed"; else if(strcasecmp(tmp0->value,"o")==0) tmp="open"; xmlNewNsProp(nc8,ns_ows,BAD_CAST "rangeClosure",BAD_CAST tmp); }else xmlNewNsProp(nc8,ns_ows,BAD_CAST "rangeClosure",BAD_CAST "closed"); } if(_tmp0==NULL){ xmlAddChild(nc6,nc8); _tmp0=e->supported; if(_tmp0!=NULL && (getMap(_tmp0->content,"range")!=NULL || getMap(_tmp0->content,"rangeMin")!=NULL || getMap(_tmp0->content,"rangeMax")!=NULL || getMap(_tmp0->content,"rangeClosure")!=NULL )){ tmp1=_tmp0->content; goto doRange; } }else{ _tmp0=_tmp0->next; if(_tmp0!=NULL){ xmlAddChild(nc6,nc8); if(getMap(_tmp0->content,"range")!=NULL || getMap(_tmp0->content,"rangeMin")!=NULL || getMap(_tmp0->content,"rangeMax")!=NULL || getMap(_tmp0->content,"rangeClosure")!=NULL ){ tmp1=_tmp0->content; goto doRange; } } } xmlAddChild(nc6,nc8); xmlAddChild(nc3,nc6); isAnyValue=-1; } } int oI=0; for(oI=0;oI<13;oI++) if((tmp1=getMap(_tmp->content,orderedFields[oI]))!=NULL){ #ifdef DEBUG printf("DATATYPE DEFAULT ? %s\n",tmp1->name); #endif if(strcmp(tmp1->name,"asReference")!=0 && strncasecmp(tmp1->name,"DataType",8)!=0 && strcasecmp(tmp1->name,"extension")!=0 && strcasecmp(tmp1->name,"value")!=0 && strcasecmp(tmp1->name,"AllowedValues")!=0 && strncasecmp(tmp1->name,"range",5)!=0){ if(datatype!=1){ char *tmp2=zCapitalize1(tmp1->name); nc9 = xmlNewNode(NULL, BAD_CAST tmp2); free(tmp2); } else{ char *tmp2=zCapitalize(tmp1->name); nc9 = xmlNewNode(ns_ows, BAD_CAST tmp2); free(tmp2); } xmlAddChild(nc9,xmlNewText(BAD_CAST tmp1->value)); xmlAddChild(nc5,nc9); if(strcasecmp(tmp1->name,"uom")==0) hasUOM1=true; hasUOM=true; }else tmp1=tmp1->next; } if(datatype!=2){ if(hasUOM==true){ xmlAddChild(nc4,nc5); xmlAddChild(nc3,nc4); }else{ if(hasUOM1==false){ xmlFreeNode(nc5); if(datatype==1) xmlFreeNode(nc4); } } }else{ xmlAddChild(nc3,nc5); } if(datatype!=1 && default1<0){ xmlFreeNode(nc5); if(datatype!=2) xmlFreeNode(nc4); } map* metadata=e->metadata; xmlNodePtr n=NULL; int xlinkId=zooXmlAddNs(n,"http://www.w3.org/1999/xlink","xlink"); xmlNsPtr ns_xlink=usedNs[xlinkId]; while(metadata!=NULL){ nc6=xmlNewNode(ns_ows, BAD_CAST "Metadata"); xmlNewNsProp(nc6,ns_xlink,BAD_CAST metadata->name,BAD_CAST metadata->value); xmlAddChild(nc2,nc6); metadata=metadata->next; } } _tmp=e->supported; if(_tmp==NULL && datatype!=1) _tmp=e->defaults; int hasSupported=-1; while(_tmp!=NULL){ if(hasSupported<0){ if(datatype==0){ nc4 = xmlNewNode(NULL, BAD_CAST "Supported"); nc5 = xmlNewNode(NULL, BAD_CAST "Format"); } else nc5 = xmlNewNode(NULL, BAD_CAST "Supported"); hasSupported=0; }else if(datatype==0) nc5 = xmlNewNode(NULL, BAD_CAST "Format"); tmp1=_tmp->content; int oI=0; for(oI=0;oI<6;oI++) if((tmp1=getMap(_tmp->content,orderedFields[oI]))!=NULL){ #ifdef DEBUG printf("DATATYPE SUPPORTED ? %s\n",tmp1->name); #endif if(strcmp(tmp1->name,"asReference")!=0 && strcmp(tmp1->name,"value")!=0 && strcmp(tmp1->name,"DataType")!=0 && strcasecmp(tmp1->name,"extension")!=0){ if(datatype!=1){ char *tmp2=zCapitalize1(tmp1->name); nc6 = xmlNewNode(NULL, BAD_CAST tmp2); free(tmp2); } else{ char *tmp2=zCapitalize(tmp1->name); nc6 = xmlNewNode(ns_ows, BAD_CAST tmp2); free(tmp2); } if(datatype==2){ char *tmpv,*tmps; tmps=strtok_r(tmp1->value,",",&tmpv); while(tmps){ xmlAddChild(nc6,xmlNewText(BAD_CAST tmps)); tmps=strtok_r(NULL,",",&tmpv); if(tmps){ char *tmp2=zCapitalize1(tmp1->name); nc6 = xmlNewNode(NULL, BAD_CAST tmp2); free(tmp2); } } } else{ xmlAddChild(nc6,xmlNewText(BAD_CAST tmp1->value)); } xmlAddChild(nc5,nc6); } tmp1=tmp1->next; } if(hasSupported<=0){ if(datatype==0){ xmlAddChild(nc4,nc5); xmlAddChild(nc3,nc4); }else{ if(datatype!=1) xmlAddChild(nc3,nc5); } hasSupported=1; } else if(datatype==0){ xmlAddChild(nc4,nc5); xmlAddChild(nc3,nc4); } else if(datatype!=1) xmlAddChild(nc3,nc5); _tmp=_tmp->next; } if(hasSupported==0){ if(datatype==0) xmlFreeNode(nc4); xmlFreeNode(nc5); } _tmp=e->defaults; if(datatype==1 && hasUOM1==true){ xmlAddChild(nc4,nc5); xmlAddChild(nc3,nc4); } if(in>0 && datatype==1 && getMap(_tmp->content,"AllowedValues")==NULL && getMap(_tmp->content,"range")==NULL && getMap(_tmp->content,"rangeMin")==NULL && getMap(_tmp->content,"rangeMax")==NULL && getMap(_tmp->content,"rangeClosure")==NULL ){ tmp1=getMap(_tmp->content,"dataType"); if(tmp1!=NULL && strcasecmp(tmp1->value,"boolean")==0){ nc6 = xmlNewNode(ns_ows, BAD_CAST "AllowedValues"); nc7 = xmlNewNode(ns_ows, BAD_CAST "Value"); xmlAddChild(nc7,xmlNewText(BAD_CAST "true")); xmlAddChild(nc6,nc7); nc7 = xmlNewNode(ns_ows, BAD_CAST "Value"); xmlAddChild(nc7,xmlNewText(BAD_CAST "false")); xmlAddChild(nc6,nc7); xmlAddChild(nc3,nc6); } else xmlAddChild(nc3,xmlNewNode(ns_ows, BAD_CAST "AnyValue")); } if((tmp1=getMap(_tmp->content,"value"))!=NULL){ nc7 = xmlNewNode(NULL, BAD_CAST "DefaultValue"); xmlAddChild(nc7,xmlNewText(BAD_CAST tmp1->value)); xmlAddChild(nc3,nc7); } xmlAddChild(nc2,nc3); xmlAddChild(nc1,nc2); e=e->next; } } /** * Generate a wps:Execute XML document. * * @param m the conf maps containing the main.cfg settings * @param request the map representing the HTTP request * @param pid the process identifier linked to a service * @param serv the serv structure created from the zcfg file * @param service the service name * @param status the status returned by the service * @param inputs the inputs provided * @param outputs the outputs generated by the service */ void printProcessResponse(maps* m,map* request, int pid,service* serv,const char* service,int status,maps* inputs,maps* outputs){ xmlNsPtr ns,ns_ows,ns_xlink; xmlNodePtr nr,n,nc,nc1=NULL,nc3; xmlDocPtr doc; time_t time1; time(&time1); nr=NULL; doc = xmlNewDoc(BAD_CAST "1.0"); n = printWPSHeader(doc,m,"Execute","ExecuteResponse"); int wpsId=zooXmlAddNs(NULL,"http://www.opengis.net/wps/1.0.0","wps"); ns=usedNs[wpsId]; int owsId=zooXmlAddNs(NULL,"http://www.opengis.net/ows/1.1","ows"); ns_ows=usedNs[owsId]; int xlinkId=zooXmlAddNs(NULL,"http://www.w3.org/1999/xlink","xlink"); ns_xlink=usedNs[xlinkId]; char tmp[256]; char url[1024]; char stored_path[1024]; memset(tmp,0,256); memset(url,0,1024); memset(stored_path,0,1024); maps* tmp_maps=getMaps(m,"main"); if(tmp_maps!=NULL){ map* tmpm1=getMap(tmp_maps->content,"serverAddress"); /** * Check if the ZOO Service GetStatus is available in the local directory. * If yes, then it uses a reference to an URL which the client can access * to get information on the status of a running Service (using the * percentCompleted attribute). * Else fallback to the initial method using the xml file to write in ... */ char ntmp[1024]; #ifndef WIN32 getcwd(ntmp,1024); #else _getcwd(ntmp,1024); #endif struct stat myFileInfo; int statRes; char file_path[1024]; sprintf(file_path,"%s/GetStatus.zcfg",ntmp); statRes=stat(file_path,&myFileInfo); if(statRes==0){ char currentSid[128]; map* tmpm=getMap(tmp_maps->content,"rewriteUrl"); map *tmp_lenv=NULL; tmp_lenv=getMapFromMaps(m,"lenv","usid"); if(tmp_lenv==NULL) sprintf(currentSid,"%i",pid); else sprintf(currentSid,"%s",tmp_lenv->value); if(tmpm==NULL || strcasecmp(tmpm->value,"false")==0){ sprintf(url,"%s?request=Execute&service=WPS&version=1.0.0&Identifier=GetStatus&DataInputs=sid=%s&RawDataOutput=Result",tmpm1->value,currentSid); }else{ if(strlen(tmpm->value)>0) if(strcasecmp(tmpm->value,"true")!=0) sprintf(url,"%s/%s/GetStatus/%s",tmpm1->value,tmpm->value,currentSid); else sprintf(url,"%s/GetStatus/%s",tmpm1->value,currentSid); else sprintf(url,"%s/?request=Execute&service=WPS&version=1.0.0&Identifier=GetStatus&DataInputs=sid=%s&RawDataOutput=Result",tmpm1->value,currentSid); } }else{ int lpid; map* tmpm2=getMapFromMaps(m,"lenv","usid"); lpid=atoi(tmpm2->value); tmpm2=getMap(tmp_maps->content,"tmpUrl"); if(tmpm1!=NULL && tmpm2!=NULL){ if( strncasecmp( tmpm2->value, "http://", 7) == 0 || strncasecmp( tmpm2->value, "https://", 8 ) == 0 ){ sprintf(url,"%s/%s_%i.xml",tmpm2->value,service,lpid); }else sprintf(url,"%s/%s/%s_%i.xml",tmpm1->value,tmpm2->value,service,lpid); } } if(tmpm1!=NULL) sprintf(tmp,"%s",tmpm1->value); int lpid; tmpm1=getMapFromMaps(m,"lenv","usid"); lpid=atoi(tmpm1->value); tmpm1=getMapFromMaps(m,"main","TmpPath"); sprintf(stored_path,"%s/%s_%i.xml",tmpm1->value,service,lpid); } xmlNewProp(n,BAD_CAST "serviceInstance",BAD_CAST tmp); map* test=getMap(request,"storeExecuteResponse"); bool hasStoredExecuteResponse=false; if(test!=NULL && strcasecmp(test->value,"true")==0){ xmlNewProp(n,BAD_CAST "statusLocation",BAD_CAST url); hasStoredExecuteResponse=true; } nc = xmlNewNode(ns, BAD_CAST "Process"); map* tmp2=getMap(serv->content,"processVersion"); if(tmp2!=NULL) xmlNewNsProp(nc,ns,BAD_CAST "processVersion",BAD_CAST tmp2->value); map* tmpI=getMapFromMaps(m,"lenv","oIdentifier"); printDescription(nc,ns_ows,tmpI->value,serv->content); xmlAddChild(n,nc); nc = xmlNewNode(ns, BAD_CAST "Status"); const struct tm *tm; size_t len; time_t now; char *tmp1; map *tmpStatus; now = time ( NULL ); tm = localtime ( &now ); tmp1 = (char*)malloc((TIME_SIZE+1)*sizeof(char)); len = strftime ( tmp1, TIME_SIZE, "%Y-%m-%dT%I:%M:%SZ", tm ); xmlNewProp(nc,BAD_CAST "creationTime",BAD_CAST tmp1); char sMsg[2048]; switch(status){ case SERVICE_SUCCEEDED: nc1 = xmlNewNode(ns, BAD_CAST "ProcessSucceeded"); sprintf(sMsg,_("The service \"%s\" ran successfully."),serv->name); nc3=xmlNewText(BAD_CAST sMsg); xmlAddChild(nc1,nc3); break; case SERVICE_STARTED: nc1 = xmlNewNode(ns, BAD_CAST "ProcessStarted"); tmpStatus=getMapFromMaps(m,"lenv","status"); xmlNewProp(nc1,BAD_CAST "percentCompleted",BAD_CAST tmpStatus->value); sprintf(sMsg,_("The ZOO service \"%s\" is currently running. Please reload this document to get the up-to-date status of the service."),serv->name); nc3=xmlNewText(BAD_CAST sMsg); xmlAddChild(nc1,nc3); break; case SERVICE_ACCEPTED: nc1 = xmlNewNode(ns, BAD_CAST "ProcessAccepted"); sprintf(sMsg,_("The service \"%s\" was accepted by the ZOO kernel and is running as a background task. Please access the URL in the statusLocation attribute provided in this document to get the up-to-date status and results."),serv->name); nc3=xmlNewText(BAD_CAST sMsg); xmlAddChild(nc1,nc3); break; case SERVICE_FAILED: nc1 = xmlNewNode(ns, BAD_CAST "ProcessFailed"); map *errorMap; map *te; te=getMapFromMaps(m,"lenv","code"); if(te!=NULL) errorMap=createMap("code",te->value); else errorMap=createMap("code","NoApplicableCode"); te=getMapFromMaps(m,"lenv","message"); if(te!=NULL) addToMap(errorMap,"text",_ss(te->value)); else addToMap(errorMap,"text",_("No more information available")); nc3=createExceptionReportNode(m,errorMap,0); freeMap(&errorMap); free(errorMap); xmlAddChild(nc1,nc3); break; default : printf(_("error code not know : %i\n"),status); //exit(1); break; } xmlAddChild(nc,nc1); xmlAddChild(n,nc); free(tmp1); #ifdef DEBUG fprintf(stderr,"printProcessResponse 1 161\n"); #endif map* lineage=getMap(request,"lineage"); if(lineage!=NULL && strcasecmp(lineage->value,"true")==0){ nc = xmlNewNode(ns, BAD_CAST "DataInputs"); maps* mcursor=inputs; elements* scursor=NULL; while(mcursor!=NULL /*&& scursor!=NULL*/){ scursor=getElements(serv->inputs,mcursor->name); printIOType(doc,nc,ns,ns_ows,ns_xlink,scursor,mcursor,"Input"); mcursor=mcursor->next; } xmlAddChild(n,nc); #ifdef DEBUG fprintf(stderr,"printProcessResponse 1 177\n"); #endif nc = xmlNewNode(ns, BAD_CAST "OutputDefinitions"); mcursor=outputs; scursor=NULL; while(mcursor!=NULL){ scursor=getElements(serv->outputs,mcursor->name); printOutputDefinitions(doc,nc,ns,ns_ows,scursor,mcursor,"Output"); mcursor=mcursor->next; } xmlAddChild(n,nc); } #ifdef DEBUG fprintf(stderr,"printProcessResponse 1 190\n"); #endif /** * Display the process output only when requested ! */ if(status==SERVICE_SUCCEEDED){ nc = xmlNewNode(ns, BAD_CAST "ProcessOutputs"); maps* mcursor=outputs; elements* scursor=serv->outputs; map* testResponse=getMap(request,"RawDataOutput"); if(testResponse==NULL) testResponse=getMap(request,"ResponseDocument"); while(mcursor!=NULL){ map* tmp0=getMap(mcursor->content,"inRequest"); scursor=getElements(serv->outputs,mcursor->name); if(scursor!=NULL){ if(testResponse==NULL || tmp0==NULL) printIOType(doc,nc,ns,ns_ows,ns_xlink,scursor,mcursor,"Output"); else if(tmp0!=NULL && strncmp(tmp0->value,"true",4)==0) printIOType(doc,nc,ns,ns_ows,ns_xlink,scursor,mcursor,"Output"); }else /** * In case there was no definition found in the ZCFG file but * present in the service code */ printIOType(doc,nc,ns,ns_ows,ns_xlink,scursor,mcursor,"Output"); mcursor=mcursor->next; } xmlAddChild(n,nc); } if(hasStoredExecuteResponse==true && status!=SERVICE_STARTED){ semid lid=getShmLockId(m,1); if(lid<0){ /* If the lock failed */ errorException(m,_("Lock failed."),"InternalError",NULL); xmlFreeDoc(doc); xmlCleanupParser(); zooXmlCleanupNs(); return; } else{ #ifdef DEBUG fprintf(stderr,"LOCK %s %d !\n",__FILE__,__LINE__); #endif lockShm(lid); /* We need to write the ExecuteResponse Document somewhere */ FILE* output=fopen(stored_path,"w"); if(output==NULL){ /* If the file cannot be created return an ExceptionReport */ char tmpMsg[1024]; sprintf(tmpMsg,_("Unable to create the file \"%s\" for storing the ExecuteResponse."),stored_path); errorException(m,tmpMsg,"InternalError",NULL); xmlFreeDoc(doc); xmlCleanupParser(); zooXmlCleanupNs(); unlockShm(lid); return; } xmlChar *xmlbuff; int buffersize; xmlDocDumpFormatMemoryEnc(doc, &xmlbuff, &buffersize, "UTF-8", 1); fwrite(xmlbuff,1,xmlStrlen(xmlbuff)*sizeof(char),output); xmlFree(xmlbuff); fclose(output); #ifdef DEBUG fprintf(stderr,"UNLOCK %s %d !\n",__FILE__,__LINE__); #endif unlockShm(lid); map* test1=getMap(request,"status"); if(test1==NULL || strcasecmp(test1->value,"true")!=0){ removeShmLock(m,1); } } } printDocument(m,doc,pid); xmlCleanupParser(); zooXmlCleanupNs(); } /** * Print a XML document. * * @param m the conf maps containing the main.cfg settings * @param doc the XML document * @param pid the process identifier linked to a service */ void printDocument(maps* m, xmlDocPtr doc,int pid){ char *encoding=getEncoding(m); if(pid==getpid()){ printHeaders(m); printf("Content-Type: text/xml; charset=%s\r\nStatus: 200 OK\r\n\r\n",encoding); } fflush(stdout); xmlChar *xmlbuff; int buffersize; /* * Dump the document to a buffer and print it on stdout * for demonstration purposes. */ xmlDocDumpFormatMemoryEnc(doc, &xmlbuff, &buffersize, encoding, 1); printf("%s",xmlbuff); fflush(stdout); /* * Free associated memory. */ xmlFree(xmlbuff); xmlFreeDoc(doc); xmlCleanupParser(); zooXmlCleanupNs(); } /** * Print a XML document. * * @param doc the XML document (unused) * @param nc the XML node to add the output definition * @param ns_wps the wps XML namespace * @param ns_ows the ows XML namespace * @param e the output elements * @param m the conf maps containing the main.cfg settings * @param type the type (unused) */ void printOutputDefinitions(xmlDocPtr doc,xmlNodePtr nc,xmlNsPtr ns_wps,xmlNsPtr ns_ows,elements* e,maps* m,const char* type){ xmlNodePtr nc1; nc1=xmlNewNode(ns_wps, BAD_CAST type); map *tmp=NULL; if(e!=NULL && e->defaults!=NULL) tmp=e->defaults->content; else{ /* dumpElements(e); */ return; } while(tmp!=NULL){ if(strncasecmp(tmp->name,"MIMETYPE",strlen(tmp->name))==0 || strncasecmp(tmp->name,"ENCODING",strlen(tmp->name))==0 || strncasecmp(tmp->name,"SCHEMA",strlen(tmp->name))==0 || strncasecmp(tmp->name,"UOM",strlen(tmp->name))==0) xmlNewProp(nc1,BAD_CAST tmp->name,BAD_CAST tmp->value); tmp=tmp->next; } tmp=getMap(e->defaults->content,"asReference"); if(tmp==NULL) xmlNewProp(nc1,BAD_CAST "asReference",BAD_CAST "false"); tmp=e->content; printDescription(nc1,ns_ows,m->name,e->content); xmlAddChild(nc,nc1); } /** * Generate XML nodes describing inputs or outputs metadata. * * @param doc the XML document * @param nc the XML node to add the definition * @param ns_wps the wps namespace * @param ns_ows the ows namespace * @param ns_xlink the xlink namespace * @param e the output elements * @param m the conf maps containing the main.cfg settings * @param type the type */ void printIOType(xmlDocPtr doc,xmlNodePtr nc,xmlNsPtr ns_wps,xmlNsPtr ns_ows,xmlNsPtr ns_xlink,elements* e,maps* m,const char* type){ xmlNodePtr nc1,nc2,nc3; nc1=xmlNewNode(ns_wps, BAD_CAST type); map *tmp=NULL; if(e!=NULL) tmp=e->content; else tmp=m->content; nc2=xmlNewNode(ns_ows, BAD_CAST "Identifier"); if(e!=NULL) nc3=xmlNewText(BAD_CAST e->name); else nc3=xmlNewText(BAD_CAST m->name); xmlAddChild(nc2,nc3); xmlAddChild(nc1,nc2); xmlAddChild(nc,nc1); if(e!=NULL) tmp=getMap(e->content,"Title"); else tmp=getMap(m->content,"Title"); if(tmp!=NULL){ nc2=xmlNewNode(ns_ows, BAD_CAST tmp->name); nc3=xmlNewText(BAD_CAST _ss(tmp->value)); xmlAddChild(nc2,nc3); xmlAddChild(nc1,nc2); } if(e!=NULL) tmp=getMap(e->content,"Abstract"); else tmp=getMap(m->content,"Abstract"); if(tmp!=NULL){ nc2=xmlNewNode(ns_ows, BAD_CAST tmp->name); nc3=xmlNewText(BAD_CAST _ss(tmp->value)); xmlAddChild(nc2,nc3); xmlAddChild(nc1,nc2); xmlAddChild(nc,nc1); } /** * IO type Reference or full Data ? */ map *tmpMap=getMap(m->content,"Reference"); if(tmpMap==NULL){ nc2=xmlNewNode(ns_wps, BAD_CAST "Data"); if(e!=NULL){ if(strncasecmp(e->format,"LiteralOutput",strlen(e->format))==0) nc3=xmlNewNode(ns_wps, BAD_CAST "LiteralData"); else if(strncasecmp(e->format,"ComplexOutput",strlen(e->format))==0) nc3=xmlNewNode(ns_wps, BAD_CAST "ComplexData"); else if(strncasecmp(e->format,"BoundingBoxOutput",strlen(e->format))==0) nc3=xmlNewNode(ns_wps, BAD_CAST "BoundingBoxData"); else nc3=xmlNewNode(ns_wps, BAD_CAST e->format); } else { map* tmpV=getMapFromMaps(m,"format","value"); if(tmpV!=NULL) nc3=xmlNewNode(ns_wps, BAD_CAST tmpV->value); else nc3=xmlNewNode(ns_wps, BAD_CAST "LiteralData"); } tmp=m->content; while(tmp!=NULL){ if(strcasecmp(tmp->name,"mimeType")==0 || strcasecmp(tmp->name,"encoding")==0 || strcasecmp(tmp->name,"schema")==0 || strcasecmp(tmp->name,"datatype")==0 || strcasecmp(tmp->name,"uom")==0) { xmlNewProp(nc3,BAD_CAST tmp->name,BAD_CAST tmp->value); } tmp=tmp->next; xmlAddChild(nc2,nc3); } if(e!=NULL && e->format!=NULL && strcasecmp(e->format,"BoundingBoxData")==0) { map* bb=getMap(m->content,"value"); if(bb!=NULL) { map* tmpRes=parseBoundingBox(bb->value); printBoundingBox(ns_ows,nc3,tmpRes); freeMap(&tmpRes); free(tmpRes); } } else { if(e!=NULL) tmp=getMap(e->defaults->content,"mimeType"); else tmp=NULL; map* tmp1=getMap(m->content,"encoding"); map* tmp2=getMap(m->content,"mimeType"); map* tmp3=getMap(m->content,"value"); int hasValue=1; if(tmp3==NULL){ tmp3=createMap("value",""); hasValue=-1; } if( ( tmp1 != NULL && strncmp(tmp1->value,"base64",6) == 0 ) // if encoding is base64 || // or if ( tmp2 != NULL && ( strstr(tmp2->value,"text") == NULL // mime type is not text && // nor strstr(tmp2->value,"xml") == NULL // xml && // nor strstr(tmp2->value,"javascript") == NULL // javascript && strstr(tmp2->value,"json") == NULL && strstr(tmp2->value,"ecmascript") == NULL && // include for backwards compatibility, // although correct mime type is ...kml+xml: strstr(tmp2->value,"google-earth.kml") == NULL ) ) ) { // then map* rs=getMap(m->content,"size"); // obtain size bool isSized=true; if(rs==NULL){ char tmp1[1024]; sprintf(tmp1,"%ld",strlen(tmp3->value)); rs=createMap("size",tmp1); isSized=false; } xmlAddChild(nc3,xmlNewText(BAD_CAST base64(tmp3->value, atoi(rs->value)))); // base 64 encode in XML if(tmp1==NULL || (tmp1!=NULL && strncmp(tmp1->value,"base64",6)!=0)) { xmlAttrPtr ap = xmlHasProp(nc3, BAD_CAST "encoding"); if (ap != NULL) { xmlRemoveProp(ap); } xmlNewProp(nc3,BAD_CAST "encoding",BAD_CAST "base64"); } if(!isSized){ freeMap(&rs); free(rs); } } else if (tmp2!=NULL) { // else (text-based format) if(strstr(tmp2->value, "javascript") != NULL || // if javascript put code in CDATA block strstr(tmp2->value, "json") != NULL || // (will not be parsed by XML reader) strstr(tmp2->value, "ecmascript") != NULL ) { xmlAddChild(nc3,xmlNewCDataBlock(doc,BAD_CAST tmp3->value,strlen(tmp3->value))); } else { // else if (strstr(tmp2->value, "xml") != NULL || // if XML-based format // include for backwards compatibility, // although correct mime type is ...kml+xml: strstr(tmp2->value, "google-earth.kml") != NULL ) { int li=zooXmlAddDoc(tmp3->value); xmlDocPtr doc = iDocs[li]; xmlNodePtr ir = xmlDocGetRootElement(doc); xmlAddChild(nc3,ir); } else // else xmlAddChild(nc3,xmlNewText(BAD_CAST tmp3->value)); // add text node } xmlAddChild(nc2,nc3); } else { xmlAddChild(nc3,xmlNewText(BAD_CAST tmp3->value)); } if(hasValue<0) { freeMap(&tmp3); free(tmp3); } } } else { // Reference tmpMap=getMap(m->content,"Reference"); nc3=nc2=xmlNewNode(ns_wps, BAD_CAST "Reference"); if(strcasecmp(type,"Output")==0) xmlNewProp(nc3,BAD_CAST "href",BAD_CAST tmpMap->value); else xmlNewNsProp(nc3,ns_xlink,BAD_CAST "href",BAD_CAST tmpMap->value); tmp=m->content; while(tmp!=NULL) { if(strcasecmp(tmp->name,"mimeType")==0 || strcasecmp(tmp->name,"encoding")==0 || strcasecmp(tmp->name,"schema")==0 || strcasecmp(tmp->name,"datatype")==0 || strcasecmp(tmp->name,"uom")==0){ if(strcasecmp(tmp->name,"datatype")==0) xmlNewProp(nc3,BAD_CAST "mimeType",BAD_CAST "text/plain"); else xmlNewProp(nc3,BAD_CAST tmp->name,BAD_CAST tmp->value); } tmp=tmp->next; xmlAddChild(nc2,nc3); } } xmlAddChild(nc1,nc2); xmlAddChild(nc,nc1); } /** * Create XML node with basic ows metadata informations (Identifier,Title,Abstract) * * @param root the root XML node to add the description * @param ns_ows the ows XML namespace * @param identifier the identifier to use * @param amap the map containing the ows metadata informations */ void printDescription(xmlNodePtr root,xmlNsPtr ns_ows,const char* identifier,map* amap){ xmlNodePtr nc2 = xmlNewNode(ns_ows, BAD_CAST "Identifier"); xmlAddChild(nc2,xmlNewText(BAD_CAST identifier)); xmlAddChild(root,nc2); map* tmp=amap; const char *tmp2[2]; tmp2[0]="Title"; tmp2[1]="Abstract"; int j=0; for(j=0;j<2;j++){ map* tmp1=getMap(tmp,tmp2[j]); if(tmp1!=NULL){ nc2 = xmlNewNode(ns_ows, BAD_CAST tmp2[j]); xmlAddChild(nc2,xmlNewText(BAD_CAST _ss(tmp1->value))); xmlAddChild(root,nc2); } } } /** * Access the value of the encoding key in a maps * * @param m the maps to search for the encoding key * @return the value of the encoding key in a maps if encoding key exists, * "UTF-8" in other case. */ char* getEncoding(maps* m){ if(m!=NULL){ map* tmp=getMap(m->content,"encoding"); if(tmp!=NULL){ return tmp->value; } else return (char*)"UTF-8"; } else return (char*)"UTF-8"; } /** * Access the value of the version key in a maps * * @param m the maps to search for the version key * @return the value of the version key in a maps if encoding key exists, * "1.0.0" in other case. */ char* getVersion(maps* m){ if(m!=NULL){ map* tmp=getMap(m->content,"version"); if(tmp!=NULL){ return tmp->value; } else return (char*)"1.0.0"; } else return (char*)"1.0.0"; } /** * Print an OWS ExceptionReport Document and HTTP headers (when required) * depending on the code. * Set hasPrinted value to true in the [lenv] section. * * @param m the maps containing the settings of the main.cfg file * @param s the map containing the text,code,locator keys */ void printExceptionReportResponse(maps* m,map* s){ if(getMapFromMaps(m,"lenv","hasPrinted")!=NULL) return; int buffersize; xmlDocPtr doc; xmlChar *xmlbuff; xmlNodePtr n; zooXmlCleanupNs(); doc = xmlNewDoc(BAD_CAST "1.0"); maps* tmpMap=getMaps(m,"main"); char *encoding=getEncoding(tmpMap); const char *exceptionCode; map* tmp=getMap(s,"code"); if(tmp!=NULL){ if(strcmp(tmp->value,"OperationNotSupported")==0 || strcmp(tmp->value,"NoApplicableCode")==0) exceptionCode="501 Not Implemented"; else if(strcmp(tmp->value,"MissingParameterValue")==0 || strcmp(tmp->value,"InvalidUpdateSequence")==0 || strcmp(tmp->value,"OptionNotSupported")==0 || strcmp(tmp->value,"VersionNegotiationFailed")==0 || strcmp(tmp->value,"InvalidParameterValue")==0) exceptionCode="400 Bad request"; else exceptionCode="501 Internal Server Error"; } else exceptionCode="501 Internal Server Error"; if(m!=NULL){ map *tmpSid=getMapFromMaps(m,"lenv","sid"); if(tmpSid!=NULL){ if( getpid()==atoi(tmpSid->value) ){ printHeaders(m); printf("Content-Type: text/xml; charset=%s\r\nStatus: %s\r\n\r\n",encoding,exceptionCode); } } else{ printHeaders(m); printf("Content-Type: text/xml; charset=%s\r\nStatus: %s\r\n\r\n",encoding,exceptionCode); } }else{ printf("Content-Type: text/xml; charset=%s\r\nStatus: %s\r\n\r\n",encoding,exceptionCode); } n=createExceptionReportNode(m,s,1); xmlDocSetRootElement(doc, n); xmlDocDumpFormatMemoryEnc(doc, &xmlbuff, &buffersize, encoding, 1); printf("%s",xmlbuff); fflush(stdout); xmlFreeDoc(doc); xmlFree(xmlbuff); xmlCleanupParser(); zooXmlCleanupNs(); if(m!=NULL) setMapInMaps(m,"lenv","hasPrinted","true"); } /** * Create an OWS ExceptionReport Node. * * @param m the conf maps * @param s the map containing the text,code,locator keys * @param use_ns (0/1) choose if you want to generate an ExceptionReport or * ows:ExceptionReport node respectively * @return the ExceptionReport/ows:ExceptionReport node */ xmlNodePtr createExceptionReportNode(maps* m,map* s,int use_ns){ xmlNsPtr ns,ns_xsi; xmlNodePtr n,nc,nc1; int nsid=zooXmlAddNs(NULL,"http://www.opengis.net/ows","ows"); ns=usedNs[nsid]; if(use_ns==0){ ns=NULL; } n = xmlNewNode(ns, BAD_CAST "ExceptionReport"); if(use_ns==1){ xmlNewNs(n,BAD_CAST "http://www.opengis.net/ows/1.1",BAD_CAST"ows"); int xsiId=zooXmlAddNs(n,"http://www.w3.org/2001/XMLSchema-instance","xsi"); ns_xsi=usedNs[xsiId]; xmlNewNsProp(n,ns_xsi,BAD_CAST "schemaLocation",BAD_CAST "http://www.opengis.net/ows/1.1 http://schemas.opengis.net/ows/1.1.0/owsExceptionReport.xsd"); } addLangAttr(n,m); xmlNewProp(n,BAD_CAST "version",BAD_CAST "1.1.0"); int length=1; int cnt=0; map* len=getMap(s,"length"); if(len!=NULL) length=atoi(len->value); for(cnt=0;cntvalue); else xmlNewProp(nc,BAD_CAST "exceptionCode",BAD_CAST "NoApplicableCode"); tmp=getMapArray(s,"locator",cnt); if(tmp==NULL) tmp=getMap(s,"locator"); if(tmp!=NULL && strcasecmp(tmp->value,"NULL")!=0) xmlNewProp(nc,BAD_CAST "locator",BAD_CAST tmp->value); tmp=getMapArray(s,"text",cnt); nc1 = xmlNewNode(ns, BAD_CAST "ExceptionText"); if(tmp!=NULL){ xmlNodePtr txt=xmlNewText(BAD_CAST tmp->value); xmlAddChild(nc1,txt); } else{ xmlNodeSetContent(nc1, BAD_CAST _("No debug message available")); } xmlAddChild(nc,nc1); xmlAddChild(n,nc); } return n; } /** * Print an OWS ExceptionReport. * * @param m the conf maps * @param message the error message * @param errorcode the error code * @param locator the potential locator */ int errorException(maps *m, const char *message, const char *errorcode, const char *locator) { map* errormap = createMap("text", message); addToMap(errormap,"code", errorcode); if(locator!=NULL) addToMap(errormap,"locator", locator); else addToMap(errormap,"locator", "NULL"); printExceptionReportResponse(m,errormap); freeMap(&errormap); free(errormap); return -1; } /** * Read a file generated by a service. * * @param m the conf maps * @param content the output item * @param filename the file to read */ void readGeneratedFile(maps* m,map* content,char* filename){ FILE * file=fopen(filename,"rb"); if(file==NULL){ fprintf(stderr,"Failed to open file %s for reading purpose.\n",filename); setMapInMaps(m,"lenv","message","Unable to read produced file. Please try again later"); return ; } fseek(file, 0, SEEK_END); long count = ftell(file); rewind(file); struct stat file_status; stat(filename, &file_status); map* tmpMap1=getMap(content,"value"); if(tmpMap1==NULL){ addToMap(content,"value",""); tmpMap1=getMap(content,"value"); } free(tmpMap1->value); tmpMap1->value=(char*) malloc((count+1)*sizeof(char)); fread(tmpMap1->value,1,count*sizeof(char),file); fclose(file); char rsize[100]; sprintf(rsize,"%ld",count*sizeof(char)); addToMap(tmpMap1,"size",rsize); } /** * Generate the output response (RawDataOutput or ResponseDocument) * * @param s the service structure containing the metadata informations * @param request_inputs the inputs provided to the service for execution * @param request_outputs the outputs updated by the service execution * @param request_inputs1 the map containing the HTTP request * @param cpid the process identifier attached to a service execution * @param m the conf maps containing the main.cfg settings * @param res the value returned by the service execution */ void outputResponse(service* s,maps* request_inputs,maps* request_outputs, map* request_inputs1,int cpid,maps* m,int res){ #ifdef DEBUG dumpMaps(request_inputs); dumpMaps(request_outputs); fprintf(stderr,"printProcessResponse\n"); #endif map* toto=getMap(request_inputs1,"RawDataOutput"); int asRaw=0; if(toto!=NULL) asRaw=1; maps* tmpSess=getMaps(m,"senv"); if(tmpSess!=NULL){ map *_tmp=getMapFromMaps(m,"lenv","cookie"); char* sessId=NULL; if(_tmp!=NULL){ printf("Set-Cookie: %s; HttpOnly\r\n",_tmp->value); printf("P3P: CP=\"IDC DSP COR ADM DEVi TAIi PSA PSD IVAi IVDi CONi HIS OUR IND CNT\"\r\n"); char session_file_path[100]; char *tmp1=strtok(_tmp->value,";"); if(tmp1!=NULL) sprintf(session_file_path,"%s",strstr(tmp1,"=")+1); else sprintf(session_file_path,"%s",strstr(_tmp->value,"=")+1); sessId=strdup(session_file_path); }else{ maps* t=getMaps(m,"senv"); map*p=t->content; while(p!=NULL){ if(strstr(p->name,"ID")!=NULL){ sessId=strdup(p->value); break; } p=p->next; } } char session_file_path[1024]; map *tmpPath=getMapFromMaps(m,"main","sessPath"); if(tmpPath==NULL) tmpPath=getMapFromMaps(m,"main","tmpPath"); sprintf(session_file_path,"%s/sess_%s.cfg",tmpPath->value,sessId); FILE* teste=fopen(session_file_path,"w"); if(teste==NULL){ char tmpMsg[1024]; sprintf(tmpMsg,_("Unable to create the file \"%s\" for storing the session maps."),session_file_path); errorException(m,tmpMsg,"InternalError",NULL); return; } else{ fclose(teste); dumpMapsToFile(tmpSess,session_file_path); } } if(res==SERVICE_FAILED){ map *lenv; lenv=getMapFromMaps(m,"lenv","message"); char *tmp0; if(lenv!=NULL){ tmp0=(char*)malloc((strlen(lenv->value)+strlen(_("Unable to run the Service. The message returned back by the Service was the following: "))+1)*sizeof(char)); sprintf(tmp0,_("Unable to run the Service. The message returned back by the Service was the following: %s"),lenv->value); } else{ tmp0=(char*)malloc((strlen(_("Unable to run the Service. No more information was returned back by the Service."))+1)*sizeof(char)); sprintf(tmp0,"%s",_("Unable to run the Service. No more information was returned back by the Service.")); } errorException(m,tmp0,"InternalError",NULL); free(tmp0); return; } map *tmp1=getMapFromMaps(m,"main","tmpPath"); if(asRaw==0){ #ifdef DEBUG fprintf(stderr,"REQUEST_OUTPUTS FINAL\n"); dumpMaps(request_outputs); #endif maps* tmpI=request_outputs; while(tmpI!=NULL){ #ifdef USE_MS map* testMap=getMap(tmpI->content,"useMapserver"); #endif toto=getMap(tmpI->content,"asReference"); #ifdef USE_MS if(toto!=NULL && strcasecmp(toto->value,"true")==0 && testMap==NULL) #else if(toto!=NULL && strcasecmp(toto->value,"true")==0) #endif { elements* in=getElements(s->outputs,tmpI->name); char *format=NULL; if(in!=NULL){ format=strdup(in->format); }else format=strdup("LiteralData"); if(strcasecmp(format,"BoundingBoxData")==0){ addToMap(tmpI->content,"extension","xml"); addToMap(tmpI->content,"mimeType","text/xml"); addToMap(tmpI->content,"encoding","UTF-8"); addToMap(tmpI->content,"schema","http://schemas.opengis.net/ows/1.1.0/owsCommon.xsd"); } map *gfile=getMap(tmpI->content,"generated_file"); char *file_name; if(gfile!=NULL){ gfile=getMap(tmpI->content,"expected_generated_file"); if(gfile==NULL){ gfile=getMap(tmpI->content,"generated_file"); } readGeneratedFile(m,tmpI->content,gfile->value); file_name=(char*)malloc((strlen(gfile->value)+strlen(tmp1->value)+1)*sizeof(char)); for(int i=0;ivalue);i++) file_name[i]=gfile->value[i+strlen(tmp1->value)]; } else{ map *ext=getMap(tmpI->content,"extension"); char *file_path; char file_ext[32]; if( ext != NULL && ext->value != NULL) { strncpy(file_ext, ext->value, 32); } else { // Obtain default file extension (see mimetypes.h). // If the MIME type is not recognized, txt is used as the default extension map* mtype=getMap(tmpI->content,"mimeType"); getFileExtension(mtype != NULL ? mtype->value : NULL, file_ext, 32); } file_name=(char*)malloc((strlen(s->name)+strlen(file_ext)+strlen(tmpI->name)+1024)*sizeof(char)); int cpid0=cpid+time(NULL); sprintf(file_name,"%s_%s_%i.%s",s->name,tmpI->name,cpid0,file_ext); file_path=(char*)malloc((strlen(tmp1->value)+strlen(file_name)+2)*sizeof(char)); sprintf(file_path,"%s/%s",tmp1->value,file_name); FILE *ofile=fopen(file_path,"wb"); if(ofile==NULL){ char tmpMsg[1024]; sprintf(tmpMsg,_("Unable to create the file \"%s\" for storing the %s final result."),file_name,tmpI->name); errorException(m,tmpMsg,"InternalError",NULL); free(file_name); free(file_path); return; } free(file_path); toto=getMap(tmpI->content,"value"); if(strcasecmp(format,"BoundingBoxData")!=0){ map* size=getMap(tmpI->content,"size"); if(size!=NULL && toto!=NULL) fwrite(toto->value,1,atoi(size->value)*sizeof(char),ofile); else if(toto!=NULL && toto->value!=NULL) fwrite(toto->value,1,strlen(toto->value)*sizeof(char),ofile); }else{ printBoundingBoxDocument(m,tmpI,ofile); } fclose(ofile); } map *tmp2=getMapFromMaps(m,"main","tmpUrl"); map *tmp3=getMapFromMaps(m,"main","serverAddress"); char *file_url; if(strncasecmp(tmp2->value,"http://",7)==0 || strncasecmp(tmp2->value,"https://",8)==0){ file_url=(char*)malloc((strlen(tmp2->value)+strlen(file_name)+2)*sizeof(char)); sprintf(file_url,"%s/%s",tmp2->value,file_name); }else{ file_url=(char*)malloc((strlen(tmp3->value)+strlen(tmp2->value)+strlen(file_name)+3)*sizeof(char)); sprintf(file_url,"%s/%s/%s",tmp3->value,tmp2->value,file_name); } addToMap(tmpI->content,"Reference",file_url); free(format); free(file_name); free(file_url); } #ifdef USE_MS else{ if(testMap!=NULL){ setReferenceUrl(m,tmpI); } } #endif tmpI=tmpI->next; } map *r_inputs=getMap(s->content,"serviceProvider"); #ifdef DEBUG fprintf(stderr,"SERVICE : %s\n",r_inputs->value); dumpMaps(m); #endif printProcessResponse(m,request_inputs1,cpid, // s,r_inputs->value,res, s, s->name,res, // replace serviceProvider with serviceName in stored response file name request_inputs, request_outputs); } else{ /** * We get the requested output or fallback to the first one if the * requested one is not present in the resulting outputs maps. */ maps* tmpI=NULL; map* tmpIV=getMap(request_inputs1,"RawDataOutput"); if(tmpIV!=NULL){ tmpI=getMaps(request_outputs,tmpIV->value); } if(tmpI==NULL) tmpI=request_outputs; elements* e=getElements(s->outputs,tmpI->name); if(e!=NULL && strcasecmp(e->format,"BoundingBoxData")==0){ printBoundingBoxDocument(m,tmpI,NULL); }else{ map *gfile=getMap(tmpI->content,"generated_file"); if(gfile!=NULL){ gfile=getMap(tmpI->content,"expected_generated_file"); if(gfile==NULL){ gfile=getMap(tmpI->content,"generated_file"); } readGeneratedFile(m,tmpI->content,gfile->value); } toto=getMap(tmpI->content,"value"); if(toto==NULL){ char tmpMsg[1024]; sprintf(tmpMsg,_("Wrong RawDataOutput parameter: unable to fetch any result for the given parameter name: \"%s\"."),tmpI->name); errorException(m,tmpMsg,"InvalidParameterValue","RawDataOutput"); return; } map* fname=getMapFromMaps(tmpI,tmpI->name,"filename"); if(fname!=NULL) printf("Content-Disposition: attachment; filename=\"%s\"\r\n",fname->value); map* rs=getMapFromMaps(tmpI,tmpI->name,"size"); if(rs!=NULL) printf("Content-Length: %s\r\n",rs->value); printHeaders(m); char mime[1024]; map* mi=getMap(tmpI->content,"mimeType"); #ifdef DEBUG fprintf(stderr,"SERVICE OUTPUTS\n"); dumpMaps(request_outputs); fprintf(stderr,"SERVICE OUTPUTS\n"); #endif map* en=getMap(tmpI->content,"encoding"); if(mi!=NULL && en!=NULL) sprintf(mime, "Content-Type: %s; charset=%s\r\nStatus: 200 OK\r\n\r\n", mi->value,en->value); else if(mi!=NULL) sprintf(mime, "Content-Type: %s; charset=UTF-8\r\nStatus: 200 OK\r\n\r\n", mi->value); else sprintf(mime,"Content-Type: text/plain; charset=utf-8\r\nStatus: 200 OK\r\n\r\n"); printf("%s",mime); if(rs!=NULL) fwrite(toto->value,1,atoi(rs->value),stdout); else fwrite(toto->value,1,strlen(toto->value),stdout); #ifdef DEBUG dumpMap(toto); #endif } } } /** * Base64 encoding of a char* * * @param input the value to encode * @param length the value length * @return the buffer containing the base64 value * @warning make sure to free the returned value */ char *base64(const char *input, int length) { BIO *bmem, *b64; BUF_MEM *bptr; b64 = BIO_new(BIO_f_base64()); BIO_set_flags(b64, BIO_FLAGS_BASE64_NO_NL); bmem = BIO_new(BIO_s_mem()); b64 = BIO_push(b64, bmem); BIO_write(b64, input, length+1); BIO_flush(b64); BIO_get_mem_ptr(b64, &bptr); char *buff = (char *)malloc((bptr->length+1)*sizeof(char)); memcpy(buff, bptr->data, bptr->length); buff[bptr->length-1] = 0; BIO_free_all(b64); return buff; } /** * Base64 decoding of a char* * * @param input the value to decode * @param length the value length * @param red the value length * @return the buffer containing the base64 value * @warning make sure to free the returned value */ char *base64d(const char *input, int length,int* red) { BIO *b64, *bmem; char *buffer = (char *)malloc(length); if(buffer){ memset(buffer, 0, length); b64 = BIO_new(BIO_f_base64()); if(b64){ bmem = BIO_new_mem_buf((unsigned char*)input,length); bmem = BIO_push(b64, bmem); *red=BIO_read(bmem, buffer, length); buffer[length-1]=0; BIO_free_all(bmem); } } return buffer; } /** * Make sure that each value encoded in base64 in a maps is decoded. * * @param in the maps containing the values */ void ensureDecodedBase64(maps **in){ maps* cursor=*in; while(cursor!=NULL){ map *tmp=getMap(cursor->content,"encoding"); if(tmp!=NULL && strncasecmp(tmp->value,"base64",6)==0){ tmp=getMap(cursor->content,"value"); addToMap(cursor->content,"base64_value",tmp->value); int size=0; char *s=strdup(tmp->value); free(tmp->value); tmp->value=base64d(s,strlen(s),&size); free(s); char sizes[1024]; sprintf(sizes,"%d",size); addToMap(cursor->content,"size",sizes); } map* length=getMap(cursor->content,"length"); if(length!=NULL){ int len=atoi(length->value); for(int i=1;icontent,"encoding",i); if(tmp!=NULL && strncasecmp(tmp->value,"base64",6)==0){ char key[17]; sprintf(key,"base64_value_%d",i); tmp=getMapArray(cursor->content,"value",i); addToMap(cursor->content,key,tmp->value); int size=0; char *s=strdup(tmp->value); free(tmp->value); tmp->value=base64d(s,strlen(s),&size); free(s); char sizes[1024]; sprintf(sizes,"%d",size); sprintf(key,"size_%d",i); addToMap(cursor->content,key,sizes); } } } cursor=cursor->next; } } /** * Add the default values defined in the zcfg to a maps. * * @param out the maps containing the inputs or outputs given in the initial * HTTP request * @param in the description of all inputs or outputs available for a service * @param m the maps containing the settings of the main.cfg file * @param type 0 for inputs and 1 for outputs * @param err the map to store potential missing mandatory input parameters or * wrong output names depending on the type. * @return "" if no error was detected, the name of last input or output causing * an error. */ char* addDefaultValues(maps** out,elements* in,maps* m,int type,map** err){ map *res=*err; elements* tmpInputs=in; maps* out1=*out; char *result=NULL; int nb=0; if(type==1){ while(out1!=NULL){ if(getElements(in,out1->name)==NULL){ if(res==NULL){ res=createMap("value",out1->name); }else{ setMapArray(res,"value",nb,out1->name); } nb++; result=out1->name; } out1=out1->next; } if(res!=NULL){ *err=res; return result; } out1=*out; } while(tmpInputs!=NULL){ maps *tmpMaps=getMaps(out1,tmpInputs->name); if(tmpMaps==NULL){ maps* tmpMaps2=(maps*)malloc(MAPS_SIZE); tmpMaps2->name=strdup(tmpInputs->name); tmpMaps2->content=NULL; tmpMaps2->next=NULL; if(type==0){ map* tmpMapMinO=getMap(tmpInputs->content,"minOccurs"); if(tmpMapMinO!=NULL){ if(atoi(tmpMapMinO->value)>=1){ freeMaps(&tmpMaps2); free(tmpMaps2); if(res==NULL){ res=createMap("value",tmpInputs->name); }else{ setMapArray(res,"value",nb,tmpInputs->name); } nb++; result=tmpInputs->name; } else{ if(tmpMaps2->content==NULL) tmpMaps2->content=createMap("minOccurs",tmpMapMinO->value); else addToMap(tmpMaps2->content,"minOccurs",tmpMapMinO->value); } } if(res==NULL){ map* tmpMaxO=getMap(tmpInputs->content,"maxOccurs"); if(tmpMaxO!=NULL){ if(tmpMaps2->content==NULL) tmpMaps2->content=createMap("maxOccurs",tmpMaxO->value); else addToMap(tmpMaps2->content,"maxOccurs",tmpMaxO->value); } map* tmpMaxMB=getMap(tmpInputs->content,"maximumMegabytes"); if(tmpMaxMB!=NULL){ if(tmpMaps2->content==NULL) tmpMaps2->content=createMap("maximumMegabytes",tmpMaxMB->value); else addToMap(tmpMaps2->content,"maximumMegabytes",tmpMaxMB->value); } } } if(res==NULL){ iotype* tmpIoType=tmpInputs->defaults; if(tmpIoType!=NULL){ map* tmpm=tmpIoType->content; while(tmpm!=NULL){ if(tmpMaps2->content==NULL) tmpMaps2->content=createMap(tmpm->name,tmpm->value); else addToMap(tmpMaps2->content,tmpm->name,tmpm->value); tmpm=tmpm->next; } } addToMap(tmpMaps2->content,"inRequest","false"); if(type==0){ map *tmpMap=getMap(tmpMaps2->content,"value"); if(tmpMap==NULL) addToMap(tmpMaps2->content,"value","NULL"); } if(out1==NULL){ *out=dupMaps(&tmpMaps2); out1=*out; } else addMapsToMaps(&out1,tmpMaps2); freeMap(&tmpMaps2->content); free(tmpMaps2->content); tmpMaps2->content=NULL; freeMaps(&tmpMaps2); free(tmpMaps2); tmpMaps2=NULL; } } else{ iotype* tmpIoType=getIoTypeFromElement(tmpInputs,tmpInputs->name, tmpMaps->content); if(type==0) { /** * In case of an Input maps, then add the minOccurs and maxOccurs to the * content map. */ map* tmpMap1=getMap(tmpInputs->content,"minOccurs"); if(tmpMap1!=NULL){ if(tmpMaps->content==NULL) tmpMaps->content=createMap("minOccurs",tmpMap1->value); else addToMap(tmpMaps->content,"minOccurs",tmpMap1->value); } map* tmpMaxO=getMap(tmpInputs->content,"maxOccurs"); if(tmpMaxO!=NULL){ if(tmpMaps->content==NULL) tmpMaps->content=createMap("maxOccurs",tmpMaxO->value); else addToMap(tmpMaps->content,"maxOccurs",tmpMaxO->value); } map* tmpMaxMB=getMap(tmpInputs->content,"maximumMegabytes"); if(tmpMaxMB!=NULL){ if(tmpMaps->content==NULL) tmpMaps->content=createMap("maximumMegabytes",tmpMaxMB->value); else addToMap(tmpMaps->content,"maximumMegabytes",tmpMaxMB->value); } /** * Parsing BoundingBoxData, fill the following map and then add it to * the content map of the Input maps: * lowerCorner, upperCorner, srs and dimensions * cf. parseBoundingBox */ if(strcasecmp(tmpInputs->format,"BoundingBoxData")==0){ maps* tmpI=getMaps(*out,tmpInputs->name); if(tmpI!=NULL){ map* tmpV=getMap(tmpI->content,"value"); if(tmpV!=NULL){ char *tmpVS=strdup(tmpV->value); map* tmp=parseBoundingBox(tmpVS); free(tmpVS); map* tmpC=tmp; while(tmpC!=NULL){ addToMap(tmpMaps->content,tmpC->name,tmpC->value); tmpC=tmpC->next; } freeMap(&tmp); free(tmp); } } } } if(tmpIoType!=NULL){ map* tmpContent=tmpIoType->content; map* cval=NULL; int hasPassed=-1; while(tmpContent!=NULL){ if((cval=getMap(tmpMaps->content,tmpContent->name))==NULL){ #ifdef DEBUG fprintf(stderr,"addDefaultValues %s => %s\n",tmpContent->name,tmpContent->value); #endif if(tmpMaps->content==NULL) tmpMaps->content=createMap(tmpContent->name,tmpContent->value); else addToMap(tmpMaps->content,tmpContent->name,tmpContent->value); if(hasPassed<0 && type==0 && getMap(tmpMaps->content,"isArray")!=NULL){ map* length=getMap(tmpMaps->content,"length"); int i; char *tcn=strdup(tmpContent->name); for(i=1;ivalue);i++){ #ifdef DEBUG dumpMap(tmpMaps->content); fprintf(stderr,"addDefaultValues %s_%d => %s\n",tcn,i,tmpContent->value); #endif int len=strlen((char*) tcn); char *tmp1=(char *)malloc((len+10)*sizeof(char)); sprintf(tmp1,"%s_%d",tcn,i); #ifdef DEBUG fprintf(stderr,"addDefaultValues %s => %s\n",tmp1,tmpContent->value); #endif addToMap(tmpMaps->content,tmp1,tmpContent->value); free(tmp1); hasPassed=1; } free(tcn); } } tmpContent=tmpContent->next; } #ifdef USE_MS /** * check for useMapServer presence */ map* tmpCheck=getMap(tmpIoType->content,"useMapServer"); if(tmpCheck!=NULL){ // Get the default value tmpIoType=getIoTypeFromElement(tmpInputs,tmpInputs->name,NULL); tmpCheck=getMap(tmpMaps->content,"mimeType"); addToMap(tmpMaps->content,"requestedMimeType",tmpCheck->value); map* cursor=tmpIoType->content; while(cursor!=NULL){ addToMap(tmpMaps->content,cursor->name,cursor->value); cursor=cursor->next; } cursor=tmpInputs->content; while(cursor!=NULL){ if(strcasecmp(cursor->name,"Title")==0 || strcasecmp(cursor->name,"Abstract")==0) addToMap(tmpMaps->content,cursor->name,cursor->value); cursor=cursor->next; } } #endif } if(tmpMaps->content==NULL) tmpMaps->content=createMap("inRequest","true"); else addToMap(tmpMaps->content,"inRequest","true"); } tmpInputs=tmpInputs->next; } if(res!=NULL){ *err=res; return result; } return ""; } /** * Parse a BoundingBox string * * [OGC 06-121r3](http://portal.opengeospatial.org/files/?artifact_id=20040): * 10.2 Bounding box * * * Value is provided as : lowerCorner,upperCorner,crs,dimension * Exemple : 189000,834000,285000,962000,urn:ogc:def:crs:OGC:1.3:CRS84 * * A map to store boundingbox informations should contain: * - lowerCorner : double,double (minimum within this bounding box) * - upperCorner : double,double (maximum within this bounding box) * - crs : URI (Reference to definition of the CRS) * - dimensions : int * * Note : support only 2D bounding box. * * @param value the char* containing the KVP bouding box * @return a map containing all the bounding box keys */ map* parseBoundingBox(const char* value){ map *res=NULL; if(value!=NULL){ char *cv,*cvp; cv=strtok_r((char*) value,",",&cvp); int cnt=0; int icnt=0; char *currentValue=NULL; while(cv){ if(cnt<2) if(currentValue!=NULL){ char *finalValue=(char*)malloc((strlen(currentValue)+strlen(cv)+1)*sizeof(char)); sprintf(finalValue,"%s%s",currentValue,cv); switch(cnt){ case 0: res=createMap("lowerCorner",finalValue); break; case 1: addToMap(res,"upperCorner",finalValue); icnt=-1; break; } cnt++; free(currentValue); currentValue=NULL; free(finalValue); } else{ currentValue=(char*)malloc((strlen(cv)+2)*sizeof(char)); sprintf(currentValue,"%s ",cv); } else if(cnt==2){ addToMap(res,"crs",cv); cnt++; } else addToMap(res,"dimensions",cv); icnt++; cv=strtok_r(NULL,",",&cvp); } } return res; } /** * Create required XML nodes for boundingbox and update the current XML node * * @param ns_ows the ows XML namespace * @param n the XML node to update * @param boundingbox the map containing the boundingbox definition */ void printBoundingBox(xmlNsPtr ns_ows,xmlNodePtr n,map* boundingbox){ xmlNodePtr lw=NULL,uc=NULL; map* tmp=getMap(boundingbox,"value"); tmp=getMap(boundingbox,"lowerCorner"); if(tmp!=NULL){ lw=xmlNewNode(ns_ows,BAD_CAST "LowerCorner"); xmlAddChild(lw,xmlNewText(BAD_CAST tmp->value)); } tmp=getMap(boundingbox,"upperCorner"); if(tmp!=NULL){ uc=xmlNewNode(ns_ows,BAD_CAST "UpperCorner"); xmlAddChild(uc,xmlNewText(BAD_CAST tmp->value)); } tmp=getMap(boundingbox,"crs"); if(tmp!=NULL) xmlNewProp(n,BAD_CAST "crs",BAD_CAST tmp->value); tmp=getMap(boundingbox,"dimensions"); if(tmp!=NULL) xmlNewProp(n,BAD_CAST "dimensions",BAD_CAST tmp->value); xmlAddChild(n,lw); xmlAddChild(n,uc); } /** * Print an ows:BoundingBox XML document * * @param m the maps containing the settings of the main.cfg file * @param boundingbox the maps containing the boundingbox definition * @param file the file to print the BoundingBox (if NULL then print on stdout) * @see parseBoundingBox, printBoundingBox */ void printBoundingBoxDocument(maps* m,maps* boundingbox,FILE* file){ if(file==NULL) rewind(stdout); xmlNodePtr n; xmlDocPtr doc; xmlNsPtr ns_ows,ns_xsi; xmlChar *xmlbuff; int buffersize; char *encoding=getEncoding(m); map *tmp; if(file==NULL){ int pid=0; tmp=getMapFromMaps(m,"lenv","sid"); if(tmp!=NULL) pid=atoi(tmp->value); if(pid==getpid()){ printf("Content-Type: text/xml; charset=%s\r\nStatus: 200 OK\r\n\r\n",encoding); } fflush(stdout); } doc = xmlNewDoc(BAD_CAST "1.0"); int owsId=zooXmlAddNs(NULL,"http://www.opengis.net/ows/1.1","ows"); ns_ows=usedNs[owsId]; n = xmlNewNode(ns_ows, BAD_CAST "BoundingBox"); xmlNewNs(n,BAD_CAST "http://www.opengis.net/ows/1.1",BAD_CAST "ows"); int xsiId=zooXmlAddNs(n,"http://www.w3.org/2001/XMLSchema-instance","xsi"); ns_xsi=usedNs[xsiId]; xmlNewNsProp(n,ns_xsi,BAD_CAST "schemaLocation",BAD_CAST "http://www.opengis.net/ows/1.1 http://schemas.opengis.net/ows/1.1.0/owsCommon.xsd"); map *tmp1=getMap(boundingbox->content,"value"); tmp=parseBoundingBox(tmp1->value); printBoundingBox(ns_ows,n,tmp); xmlDocSetRootElement(doc, n); xmlDocDumpFormatMemoryEnc(doc, &xmlbuff, &buffersize, encoding, 1); if(file==NULL) printf("%s",xmlbuff); else{ fprintf(file,"%s",xmlbuff); } if(tmp!=NULL){ freeMap(&tmp); free(tmp); } xmlFree(xmlbuff); xmlFreeDoc(doc); xmlCleanupParser(); zooXmlCleanupNs(); } /** * Compute md5 * * @param url the char* * @return a char* representing the md5 of the url * @warning make sure to free ressources returned by this function */ char* getMd5(char* url){ EVP_MD_CTX md5ctx; char* fresult=(char*)malloc((EVP_MAX_MD_SIZE+1)*sizeof(char)); unsigned char result[EVP_MAX_MD_SIZE]; unsigned int len; EVP_DigestInit(&md5ctx, EVP_md5()); EVP_DigestUpdate(&md5ctx, url, strlen(url)); EVP_DigestFinal_ex(&md5ctx,result,&len); EVP_MD_CTX_cleanup(&md5ctx); int i; for(i = 0; i < len; i++){ if(i>0){ char *tmp=strdup(fresult); sprintf(fresult,"%s%02x", tmp,result[i]); free(tmp); } else sprintf(fresult,"%02x",result[i]); } return fresult; } /** * Cache a file for a given request. * For each cached file, the are two files stored, a .zca and a .zcm containing * the downloaded content and the mimeType respectively. * * @param conf the maps containing the settings of the main.cfg file * @param request the url used too fetch the content * @param content the downloaded content * @param mimeType the content mimeType * @param length the content size * @param filepath a buffer for storing the path of the cached file; may be NULL * @param max_path the size of the allocated filepath buffer */ void addToCache(maps* conf,char* request,char* content,char* mimeType,int length, char* filepath, size_t max_path){ map* tmp=getMapFromMaps(conf,"main","cacheDir"); if(tmp!=NULL){ char* md5str=getMd5(request); char* fname=(char*)malloc(sizeof(char)*(strlen(tmp->value)+strlen(md5str)+6)); sprintf(fname,"%s/%s.zca",tmp->value,md5str); #ifdef DEBUG fprintf(stderr,"Cache list : %s\n",fname); fflush(stderr); #endif FILE* fo=fopen(fname,"w+"); if(fo==NULL){ #ifdef DEBUG fprintf (stderr, "Failed to open %s for writing: %s\n",fname, strerror(errno)); #endif filepath = NULL; return; } fwrite(content,sizeof(char),length,fo); fclose(fo); if (filepath != NULL) { strncpy(filepath, fname, max_path); } sprintf(fname,"%s/%s.zcm",tmp->value,md5str); fo=fopen(fname,"w+"); #ifdef DEBUG fprintf(stderr,"MIMETYPE: %s\n",mimeType); #endif fwrite(mimeType,sizeof(char),strlen(mimeType),fo); fclose(fo); free(md5str); free(fname); } else { filepath = NULL; } } /** * Verify if a url is available in the cache * * @param conf the maps containing the settings of the main.cfg file * @param request the url * @return the full name of the cached file if any, NULL in other case * @warning make sure to free ressources returned by this function (if not NULL) */ char* isInCache(maps* conf,char* request){ map* tmpM=getMapFromMaps(conf,"main","cacheDir"); if(tmpM!=NULL){ char* md5str=getMd5(request); #ifdef DEBUG fprintf(stderr,"MD5STR : (%s)\n\n",md5str); #endif char* fname=(char*)malloc(sizeof(char)*(strlen(tmpM->value)+strlen(md5str)+6)); sprintf(fname,"%s/%s.zca",tmpM->value,md5str); struct stat f_status; int s=stat(fname, &f_status); if(s==0 && f_status.st_size>0){ free(md5str); return fname; } free(md5str); free(fname); } return NULL; } /** * Effectively run all the HTTP requests in the queue * * @param m the maps containing the settings of the main.cfg file * @param inputs the maps containing the inputs (defined in the requests+added * per default based on the zcfg file) * @param hInternet the HINTERNET pointer * @return 0 on success */ int runHttpRequests(maps** m,maps** inputs,HINTERNET* hInternet){ if(hInternet->nb>0){ processDownloads(hInternet); maps* content=*inputs; map* tmp1; int index=0; while(content!=NULL){ map* length=getMap(content->content,"length"); int shouldClean=-1; if(length==NULL){ length=createMap("length","1"); shouldClean=1; } for(int i=0;ivalue);i++){ char* fcontent; char *mimeType=NULL; int fsize=0; char cname[15]; char vname[11]; char vname1[11]; char sname[9]; char icname[14]; char xname[16]; if(index>0) sprintf(vname1,"value_%d",index); else sprintf(vname1,"value"); if(i>0){ tmp1=getMap(content->content,cname); sprintf(cname,"cache_file_%d",i); sprintf(vname,"value_%d",i); sprintf(sname,"size_%d",i); sprintf(icname,"isCached_%d",i); sprintf(xname,"Reference_%d",i); }else{ sprintf(cname,"cache_file"); sprintf(vname,"value"); sprintf(icname,"isCached"); sprintf(sname,"size"); sprintf(xname,"Reference"); } map* tmap=getMapFromMaps(*m,"orequests",vname1); if((tmp1=getMap(content->content,xname))!=NULL && strcasecmp(tmap->value,tmp1->value)==0 ){ if(getMap(content->content,icname)==NULL){ fcontent=(char*)malloc((hInternet->ihandle[index].nDataLen+1)*sizeof(char)); if(fcontent == NULL){ return errorException(*m, _("Unable to allocate memory."), "InternalError",NULL); } size_t dwRead; InternetReadFile(hInternet->ihandle[index], (LPVOID)fcontent, hInternet->ihandle[index].nDataLen, &dwRead); fcontent[hInternet->ihandle[index].nDataLen]=0; fsize=hInternet->ihandle[index].nDataLen; if(hInternet->ihandle[index].mimeType==NULL) mimeType=strdup("none"); else mimeType=strdup(hInternet->ihandle[index].mimeType); map* tmpMap=getMapOrFill(&content->content,vname,""); free(tmpMap->value); tmpMap->value=(char*)malloc((fsize+1)*sizeof(char)); if(tmpMap->value==NULL){ return errorException(*m, _("Unable to allocate memory."), "InternalError",NULL); } memcpy(tmpMap->value,fcontent,(fsize+1)*sizeof(char)); char ltmp1[256]; sprintf(ltmp1,"%d",fsize); map* tmp=getMapFromMaps(*m,"main","cacheDir"); if(tmp!=NULL){ char* md5str=getMd5(tmp1->value); char* fname=(char*)malloc(sizeof(char)*(strlen(tmp->value)+strlen(md5str)+6)); sprintf(fname,"%s/%s.zca",tmp->value,md5str); addToMap(content->content,cname,fname); free(fname); } addToMap(content->content,sname,ltmp1); addToCache(*m,tmp1->value,fcontent,mimeType,fsize, NULL, 0); free(fcontent); free(mimeType); dumpMaps(content); index++; } } } if(shouldClean>0){ freeMap(&length); free(length); } content=content->next; } } return 0; } /** * Try to load file from cache or download a remote file if not in cache * * @param m the maps containing the settings of the main.cfg file * @param content the map to update * @param hInternet the HINTERNET pointer * @param url the url to fetch * @return 0 */ int loadRemoteFile(maps** m,map** content,HINTERNET* hInternet,char *url){ char* fcontent; char* cached=isInCache(*m,url); char *mimeType=NULL; int fsize=0; map* t=getMap(*content,"xlink:href"); if(t==NULL){ t=getMap((*content),"href"); addToMap(*content,"xlink:href",url); } if(cached!=NULL){ struct stat f_status; int s=stat(cached, &f_status); if(s==0){ fcontent=(char*)malloc(sizeof(char)*(f_status.st_size+1)); FILE* f=fopen(cached,"rb"); fread(fcontent,f_status.st_size,1,f); fsize=f_status.st_size; fcontent[fsize]=0; fclose(f); addToMap(*content,"cache_file",cached); } cached[strlen(cached)-1]='m'; s=stat(cached, &f_status); if(s==0){ mimeType=(char*)malloc(sizeof(char)*(f_status.st_size+1)); FILE* f=fopen(cached,"rb"); fread(mimeType,f_status.st_size,1,f); mimeType[f_status.st_size]=0; fclose(f); } }else{ hInternet->waitingRequests[hInternet->nb]=strdup(url); InternetOpenUrl(hInternet,hInternet->waitingRequests[hInternet->nb],NULL,0,INTERNET_FLAG_NO_CACHE_WRITE,0); maps *oreq=getMaps(*m,"orequests"); if(oreq==NULL){ oreq=(maps*)malloc(MAPS_SIZE); oreq->name=zStrdup("orequests"); oreq->content=createMap("value",url); oreq->next=NULL; addMapsToMaps(m,oreq); freeMaps(&oreq); free(oreq); }else{ setMapArray(oreq->content,"value",hInternet->nb-1,url); } return 0; } if(fsize==0){ return errorException(*m, _("Unable to download the file."), "InternalError",NULL); } if(mimeType!=NULL){ addToMap(*content,"fmimeType",mimeType); } map* tmpMap=getMapOrFill(content,"value",""); free(tmpMap->value); tmpMap->value=(char*)malloc((fsize+1)*sizeof(char)); if(tmpMap->value==NULL) return errorException(*m, _("Unable to allocate memory."), "InternalError",NULL); memcpy(tmpMap->value,fcontent,(fsize+1)*sizeof(char)); char ltmp1[256]; sprintf(ltmp1,"%d",fsize); addToMap(*content,"size",ltmp1); if(cached==NULL){ addToCache(*m,url,fcontent,mimeType,fsize, NULL, 0); } else{ addToMap(*content,"isCached","true"); map* tmp=getMapFromMaps(*m,"main","cacheDir"); if(tmp!=NULL){ map *c=getMap((*content),"xlink:href"); char* md5str=getMd5(c->value); char* fname=(char*)malloc(sizeof(char)*(strlen(tmp->value)+strlen(md5str)+6)); sprintf(fname,"%s/%s.zca",tmp->value,md5str); addToMap(*content,"cache_file",fname); free(fname); } } free(fcontent); free(mimeType); free(cached); return 0; } /** * Read a file using the GDAL VSI API * * @param conf the maps containing the settings of the main.cfg file * @param dataSource the datasource name to read * @warning make sure to free ressources returned by this function */ char *readVSIFile(maps* conf,const char* dataSource){ VSILFILE * fichier=VSIFOpenL(dataSource,"rb"); VSIStatBufL file_status; VSIStatL(dataSource, &file_status); if(fichier==NULL){ char tmp[1024]; sprintf(tmp,"Failed to open file %s for reading purpose. File seems empty %lld.", dataSource,file_status.st_size); setMapInMaps(conf,"lenv","message",tmp); return NULL; } char *res1=(char *)malloc(file_status.st_size*sizeof(char)); VSIFReadL(res1,1,file_status.st_size*sizeof(char),fichier); res1[file_status.st_size-1]=0; VSIFCloseL(fichier); VSIUnlink(dataSource); return res1; } /** * Extract the service identifier from the full service identifier * ie: * - Full service name: OTB.BandMath * - Service name: BandMath * * @param conf the maps containing the settings of the main.cfg file * @param conf_dir the full path to the ZOO-Kernel directory * @param identifier the full service name (potentialy including a prefix, ie: * Prefix.MyService) * @param buffer the resulting service identifier (without any prefix) */ void parseIdentifier(maps* conf,char* conf_dir,char *identifier,char* buffer){ setMapInMaps(conf,"lenv","oIdentifier",identifier); char *lid=zStrdup(identifier); char *saveptr1; char *tmps1=strtok_r(lid,".",&saveptr1); int level=0; char key[25]; char levels[18]; while(tmps1!=NULL){ char *test=zStrdup(tmps1); char* tmps2=(char*)malloc((strlen(test)+2)*sizeof(char)); sprintf(key,"sprefix_%d",level); sprintf(tmps2,"%s.",test); sprintf(levels,"%d",level); setMapInMaps(conf,"lenv","level",levels); setMapInMaps(conf,"lenv",key,tmps2); free(tmps2); free(test); level++; tmps1=strtok_r(NULL,".",&saveptr1); } int i=0; sprintf(buffer,"%s",conf_dir); for(i=0;ivalue); free(tmp0); buffer[strlen(buffer)-1]=0; if(i+1value)==0){ char *tmp01=zStrdup(tmp00->value); tmp01[strlen(tmp01)-1]=0; setMapInMaps(conf,"lenv","metapath",tmp01); free(tmp01); tmp01=NULL; } else{ if(tmp00!=NULL && tmpMap!=NULL){ char *tmp00s=zStrdup(tmp00->value); tmp00s[strlen(tmp00s)-1]=0; char *value=(char*)malloc((strlen(tmp00s)+strlen(tmpMap->value)+2)*sizeof(char)); sprintf(value,"%s/%s",tmpMap->value,tmp00s); setMapInMaps(conf,"lenv","metapath",value); free(value); free(tmp00s); value=NULL; } } }else{ char *tmp01=zStrdup(tmp00->value); tmp01[strlen(tmp01)-1]=0; setMapInMaps(conf,"lenv","Identifier",tmp01); free(tmp01); } } char *tmp0=zStrdup(buffer); sprintf(buffer,"%s.zcfg",tmp0); free(tmp0); free(lid); } /** * Update the status of an ongoing service * * @param conf the maps containing the settings of the main.cfg file * @param percentCompleted percentage of completude of execution of the service * @param message information about the current step executed * @return the value of _updateStatus * @see _updateStatus */ int updateStatus( maps* conf, const int percentCompleted, const char* message ){ char tmp[4]; snprintf(tmp,4,"%d",percentCompleted); setMapInMaps( conf, "lenv", "status", tmp ); setMapInMaps( conf, "lenv", "message", message); return _updateStatus( conf ); } /** * Access an input value * * @param inputs the maps to search for the input value * @param parameterName the input name to fetch the value * @param numberOfBytes the resulting size of the value to add (for binary * values), -1 for basic char* data * @return a pointer to the input value if found, NULL in other case. */ char* getInputValue( maps* inputs, const char* parameterName, size_t* numberOfBytes){ map* res=getMapFromMaps(inputs,parameterName,"value"); if(res!=NULL){ map* size=getMapFromMaps(inputs,parameterName,"size"); if(size!=NULL){ *numberOfBytes=(size_t)atoi(size->value); return res->value; }else{ *numberOfBytes=strlen(res->value); return res->value; } } return NULL; } /** * Set an output value * * @param outputs the maps to define the output value * @param parameterName the output name to set the value * @param data the value to set * @param numberOfBytes size of the value to add (for binary values), -1 for * basic char* data * @return 0 */ int setOutputValue( maps* outputs, const char* parameterName, char* data, size_t numberOfBytes ){ if(numberOfBytes==-1){ setMapInMaps(outputs,parameterName,"value",data); }else{ char size[1024]; map* tmp=getMapFromMaps(outputs,parameterName,"value"); if(tmp==NULL){ setMapInMaps(outputs,parameterName,"value",""); tmp=getMapFromMaps(outputs,parameterName,"value"); } free(tmp->value); tmp->value=(char*) malloc((numberOfBytes+1)*sizeof(char)); memcpy(tmp->value,data,numberOfBytes); sprintf(size,"%lu",numberOfBytes); setMapInMaps(outputs,parameterName,"size",size); } return 0; } /** * Verify if a parameter value is valid. * * @param request the request map * @param res the error map potentially generated * @param toCheck the parameter to use * @param avalues the acceptable values (or null if testing only for presence) * @param mandatory verify the presence of the parameter if mandatory > 0 */ void checkValidValue(map* request,map** res,const char* toCheck,const char** avalues,int mandatory){ map* lres=*res; map* r_inputs = getMap (request,toCheck); if (r_inputs == NULL){ if(mandatory>0){ char *replace=_("Mandatory parameter <%s> was not specified"); char *message=(char*)malloc((strlen(replace)+strlen(toCheck)+1)*sizeof(char)); sprintf(message,replace,toCheck); if(lres==NULL){ lres=createMap("code","MissingParameterValue"); addToMap(lres,"text",message); addToMap(lres,"locator",toCheck); }else{ int length=1; map* len=getMap(lres,"length"); if(len!=NULL){ length=atoi(len->value); } setMapArray(lres,"text",length,message); setMapArray(lres,"locator",length,toCheck); setMapArray(lres,"code",length,"MissingParameter"); } free(message); } }else{ if(avalues==NULL) return; int nb=0; int hasValidValue=-1; while(avalues[nb]!=NULL){ if(strcasecmp(avalues[nb],r_inputs->value)==0){ hasValidValue=1; break; } nb++; } if(hasValidValue<0){ char *replace=_("The value <%s> was not recognized, %s %s the only acceptable value."); nb=0; char *vvalues=NULL; char* num=_("is"); while(avalues[nb]!=NULL){ char *tvalues; if(vvalues==NULL){ vvalues=(char*)malloc((strlen(avalues[nb])+3)*sizeof(char)); sprintf(vvalues,"%s",avalues[nb]); } else{ tvalues=zStrdup(vvalues); vvalues=(char*)realloc(vvalues,(strlen(tvalues)+strlen(avalues[nb])+3)*sizeof(char)); sprintf(vvalues,"%s, %s",tvalues,avalues[nb]); free(tvalues); num=_("are"); } nb++; } char *message=(char*)malloc((strlen(replace)+strlen(num)+strlen(vvalues)+strlen(toCheck)+1)*sizeof(char)); sprintf(message,replace,toCheck,vvalues,num); if(lres==NULL){ lres=createMap("code","InvalidParameterValue"); addToMap(lres,"text",message); addToMap(lres,"locator",toCheck); }else{ int length=1; map* len=getMap(lres,"length"); if(len!=NULL){ length=atoi(len->value); } setMapArray(lres,"text",length,message); setMapArray(lres,"locator",length,toCheck); setMapArray(lres,"code",length,"InvalidParameterValue"); } } } if(lres!=NULL){ *res=lres; } } /** * Access the last error message returned by the OS when trying to dynamically * load a shared library. * * @return the last error message * @warning The character string returned from getLastErrorMessage resides * in a static buffer. The application should not write to this * buffer or attempt to free() it. */ char* getLastErrorMessage() { #ifdef WIN32 LPVOID lpMsgBuf; DWORD errCode = GetLastError(); static char msg[ERROR_MSG_MAX_LENGTH]; size_t i; DWORD length = FormatMessage( FORMAT_MESSAGE_ALLOCATE_BUFFER | FORMAT_MESSAGE_FROM_SYSTEM | FORMAT_MESSAGE_IGNORE_INSERTS, NULL, errCode, MAKELANGID(LANG_NEUTRAL, SUBLANG_DEFAULT), (LPTSTR) &lpMsgBuf, 0, NULL ); #ifdef UNICODE wcstombs_s( &i, msg, ERROR_MSG_MAX_LENGTH, (wchar_t*) lpMsgBuf, _TRUNCATE ); #else strcpy_s( msg, ERROR_MSG_MAX_LENGTH, (char *) lpMsgBuf ); #endif LocalFree(lpMsgBuf); return msg; #else return dlerror(); #endif }