/* * Copyright 2018, University Corporation for Atmospheric Research * See netcdf/COPYRIGHT file for copying and redistribution conditions. */ #define NOOP #undef DEBUG #include "config.h" #include #include #include #include "netcdf.h" #include "nclog.h" #include "ncrc.h" #include "ncxml.h" #include "ncs3sdk.h" #include "nch5s3comms.h" #define NCTRACING #ifdef NCTRACING #define NCTRACE(level,fmt,...) nctrace((level),__func__,fmt,##__VA_ARGS__) #define NCTRACEMORE(level,fmt,...) nctracemore((level),fmt,##__VA_ARGS__) #define NCUNTRACE(e) ncuntrace(__func__,NCTHROW(e),NULL) #define NCUNTRACEX(e,fmt,...) ncuntrace(__func__,NCTHROW(e),fmt,##__VA_ARGS__) #define NCNILTRACE(e) ((void)NCUNTRACE(e)) #else #define NCTRACE(level,fmt,...) #define NCTRACEMORE(level,fmt,...) #define NCUNTRACE(e) (e) #define NCNILTRACE(e) #define NCUNTRACEX(e,fmt,...) (e) #endif #ifdef __CYGWIN__ extern char* strdup(const char*); #endif #ifndef SHA256_DIGEST_LENGTH #define SHA256_DIGEST_LENGTH 32 #endif /* Mnemonic */ #define RECLAIM 1 #define size64 unsigned long long typedef struct NCS3CLIENT { char* rooturl; /* The URL (minus any fragment) for the dataset root path (excludes bucket on down) */ s3r_t* h5s3client; /* From h5s3comms */ } NCS3CLIENT; struct Object { NClist* checksumalgorithms; /* NClist */ char* etag; char* key; char* lastmodified; struct Owner { char* displayname; char* id; } owner; char* size; char* storageclass; }; typedef char* CommonPrefix; /* Hold essential info from a ListObjectsV2 response */ struct LISTOBJECTSV2 { char* istruncated; NClist* contents; /* NClist */ char* name; char* prefix; char* delimiter; char* maxkeys; NClist* commonprefixes; /* NClist */ char* encodingtype; char* keycount; char* continuationtoken; char* nextcontinuationtoken; char* startafter; }; static int ncs3_initialized = 0; static int ncs3_finalized = 0; /* Forward */ static void s3client_destroy(NCS3CLIENT* s3client); static char* makes3rooturl(NCS3INFO* info); static int makes3fullpath(const char* pathkey, const char* bucket, const char* prefix, const char* key, NCbytes* url); static int parse_listbucketresult(char* xml, unsigned long long xmllen, struct LISTOBJECTSV2**); static int parse_object(ncxml_t root, NClist* objects); static int parse_owner(ncxml_t root, struct Owner* ownerp); static int parse_prefix(ncxml_t root, NClist* prefixes); static int parse_checksumalgorithm(ncxml_t root, NClist* algorithms); static struct LISTOBJECTSV2* alloclistobjectsv2(void); static struct Object* allocobject(void); static void reclaim_listobjectsv2(struct LISTOBJECTSV2* lo); static void reclaim_object(struct Object* o); static char* trim(char* s, int reclaim); static int makes3prefix(const char* prefix, char** prefixdirp); static int s3objectsinfo(NClist* contents, NClist* keys, NClist* lens); static int s3commonprefixes(NClist* list, NClist* keys); static int mergekeysets(NClist*,NClist*,NClist*); static int rawtokeys(s3r_buf_t* response, NClist* keys, NClist* lengths, struct LISTOBJECTSV2** listv2p); static int queryadd(NClist* query, const char* key, const char* value); static int queryend(NClist* query, char** querystring); static int queryinsert(NClist* list, char* ekey, char* evalue); #define NT(x) ((x)==NULL?"null":x) #if 0 static void dumps3info(NCS3INFO* s3info, const char* tag) { if(tag == NULL) tag = "dumps3info"; fprintf(stderr,">>> %s: s3info=%p\n",tag,s3info); if(s3info != NULL) { fprintf(stderr,">>> %s: s3info->host=%s\n",tag,NT(s3info->host)); fprintf(stderr,">>> %s: s3info->region=%s\n",tag,NT(s3info->region)); fprintf(stderr,">>> %s: s3info->bucket=%s\n",tag,NT(s3info->bucket)); fprintf(stderr,">>> %s: s3info->rootkey=%s\n",tag,NT(s3info->rootkey)); fprintf(stderr,">>> %s: s3info->profile=%s\n",tag,NT(s3info->profile)); } } static void dumps3client(void* s3client0, const char* tag) { NCS3CLIENT* s3client = (NCS3CLIENT*)s3client0; if(tag == NULL) tag = "dumps3client"; fprintf(stderr,">>> %s: s3client=%p\n",tag,s3client); if(s3client != NULL) { fprintf(stderr,">>> %s: s3client->rooturl=%s\n",tag,NT(s3client->rooturl)); fprintf(stderr,">>> %s: s3client->h5s3client=%p\n",tag,s3client->rooturl); } } #endif /**************************************************/ EXTERNL int NC_s3sdkinitialize(void) { NCTRACE(11,NULL); if(!ncs3_initialized) { ncs3_initialized = 1; ncs3_finalized = 0; } return NCUNTRACE(NC_NOERR); } EXTERNL int NC_s3sdkfinalize(void) { NCTRACE(11,NULL); if(!ncs3_finalized) { ncs3_initialized = 0; ncs3_finalized = 1; } return NCUNTRACE(NC_NOERR); } EXTERNL void* NC_s3sdkcreateclient(NCS3INFO* info) { int stat = NC_NOERR; const char* accessid = NULL; const char* accesskey = NULL; char* urlroot = NULL; NCS3CLIENT* s3client = NULL; NCTRACE(11,"info=%s",NC_s3dumps3info(info)); s3client = (NCS3CLIENT*)calloc(1,sizeof(NCS3CLIENT)); if(s3client == NULL) goto done; if(info->profile != NULL) { if((stat = NC_s3profilelookup(info->profile, "aws_access_key_id", &accessid))) goto done; if((stat = NC_s3profilelookup(info->profile, "aws_secret_access_key", &accesskey))) goto done; } if((s3client->rooturl = makes3rooturl(info))==NULL) {stat = NC_ENOMEM; goto done;} s3client->h5s3client = NCH5_s3comms_s3r_open(s3client->rooturl,info->svc,info->region,accessid,accesskey); if(s3client->h5s3client == NULL) {stat = NC_ES3; goto done;} done: nullfree(urlroot); if(stat && s3client) { NC_s3sdkclose(s3client,info,0,NULL); s3client = NULL; } NCNILTRACE(NC_NOERR); return (void*)s3client; } EXTERNL int NC_s3sdkbucketexists(void* s3client0, const char* bucket, int* existsp, char** errmsgp) { int stat = NC_NOERR; NCS3CLIENT* s3client = (NCS3CLIENT*)s3client0; NCbytes* url = ncbytesnew(); long httpcode = 0; NCTRACE(11,"bucket=%s",bucket); if(errmsgp) *errmsgp = NULL; if((stat = makes3fullpath(s3client->rooturl,bucket,NULL,NULL,url))) goto done; if((stat = NCH5_s3comms_s3r_head(s3client->h5s3client, ncbytescontents(url), NULL, NULL, &httpcode, NULL))) goto done; if(existsp) {*existsp = (stat == 0 && httpcode == 200);} done: ncbytesfree(url); return NCUNTRACEX(stat,"exists=%d",PTRVAL(int,existsp,-1)); } EXTERNL int NC_s3sdkbucketcreate(void* s3client0, const char* region, const char* bucket, char** errmsgp) { int stat = NC_NOERR; NCS3CLIENT* s3client = (NCS3CLIENT*)s3client0; NC_UNUSED(s3client); NCTRACE(11,"region=%s bucket=%s",region,bucket); if(errmsgp) *errmsgp = NULL; fprintf(stderr,"create bucket: %s\n",bucket); fflush(stderr); return NCUNTRACE(stat); } EXTERNL int NC_s3sdkbucketdelete(void* s3client0, NCS3INFO* info, char** errmsgp) { int stat = NC_NOERR; NCS3CLIENT* s3client = (NCS3CLIENT*)s3client0; NC_UNUSED(s3client); NCTRACE(11,"info=%s%s",NC_s3dumps3info(info)); if(errmsgp) *errmsgp = NULL; fprintf(stderr,"delete bucket: %s\n",info->bucket); fflush(stderr); return NCUNTRACE(stat); } /**************************************************/ /* Object API */ /* @return NC_NOERR if key points to a content-bearing object. @return NC_EEMPTY if object at key has no content. @return NC_EXXX return true error */ EXTERNL int NC_s3sdkinfo(void* s3client0, const char* bucket, const char* pathkey, size64_t* lenp, char** errmsgp) { int stat = NC_NOERR; NCS3CLIENT* s3client = (NCS3CLIENT*)s3client0; NCbytes* url = ncbytesnew(); long long len = -1; NCTRACE(11,"bucket=%s pathkey=%s",bucket,pathkey); if((stat = makes3fullpath(s3client->rooturl,bucket,pathkey,NULL,url))) goto done; if((stat = NCH5_s3comms_s3r_getsize(s3client->h5s3client, ncbytescontents(url), &len))) goto done; if(lenp) {*lenp = len;} done: ncbytesfree(url); return NCUNTRACEX(stat,"len=%d",PTRVAL(int,lenp,-1)); } /* @return NC_NOERR if success @return NC_EXXX if fail */ EXTERNL int NC_s3sdkread(void* s3client0, const char* bucket, const char* pathkey, size64_t start, size64_t count, void* content, char** errmsgp) { int stat = NC_NOERR; NCS3CLIENT* s3client = (NCS3CLIENT*)s3client0; NCbytes* url = ncbytesnew(); struct s3r_buf_t data = {0,NULL}; NCTRACE(11,"bucket=%s pathkey=%s start=%llu count=%llu content=%p",bucket,pathkey,start,count,content); if((stat = makes3fullpath(s3client->rooturl,bucket,pathkey,NULL,url))) goto done; /* Read the data */ data.count = count; data.content = content; if((stat = NCH5_s3comms_s3r_read(s3client->h5s3client,ncbytescontents(url),(size_t)start,(size_t)count,&data))) goto done; done: ncbytesfree(url); return NCUNTRACE(stat); } /* For S3, I can see no way to do a byterange write; so we are effectively writing the whole object */ EXTERNL int NC_s3sdkwriteobject(void* s3client0, const char* bucket, const char* pathkey, size64_t count, const void* content, char** errmsgp) { int stat = NC_NOERR; NCS3CLIENT* s3client = (NCS3CLIENT*)s3client0; NCbytes* url = ncbytesnew(); s3r_buf_t data; NCTRACE(11,"bucket=%s pathkey=%s count=%llu content=%p",bucket,pathkey,count,content); if((stat = makes3fullpath(s3client->rooturl,bucket,pathkey,NULL,url))) goto done; /* Write the data */ data.count = count; data.content = (void*)content; if((stat = NCH5_s3comms_s3r_write(s3client->h5s3client,ncbytescontents(url),&data))) goto done; done: ncbytesfree(url); return NCUNTRACE(stat); } EXTERNL int NC_s3sdkclose(void* s3client0, NCS3INFO* info, int deleteit, char** errmsgp) { int stat = NC_NOERR; NCS3CLIENT* s3client = (NCS3CLIENT*)s3client0; NCTRACE(11,"info=%s deleteit=%d",NC_s3dumps3info(info),deleteit); if(deleteit) { /* Delete the root key; ok it if does not exist */ switch (stat = NC_s3sdkdeletekey(s3client0,info->bucket,info->rootkey,errmsgp)) { case NC_NOERR: break; case NC_EEMPTY: case NC_ENOTFOUND: stat = NC_NOERR; break; default: break; } } s3client_destroy(s3client); return NCUNTRACE(stat); } /* Common code for getkeys and searchkeys. Return a list of names of legal objects immediately below a specified key. In theory, the returned list should be sorted in lexical order, but it possible that it is not. */ static int getkeys(void* s3client0, const char* bucket, const char* prefixkey0, const char* delim, size_t* nkeysp, char*** keysp, char** errmsgp) { int stat = NC_NOERR; NCS3CLIENT* s3client = (NCS3CLIENT*)s3client0; char* prefixdir = NULL; NClist* query = NULL; char* querystring = NULL; NCURI* purl = NULL; NCbytes* listurl = ncbytesnew(); NClist* allkeys = nclistnew(); struct LISTOBJECTSV2* listv2 = NULL; int istruncated = 0; char* continuetoken = NULL; s3r_buf_t response = {0,NULL}; NCTRACE(11,"bucket=%s prefixkey0=%s",bucket,prefixkey0); /* cleanup the prefix */ if((stat = makes3prefix(prefixkey0,&prefixdir))) return NCUNTRACE(stat); do { nclistfreeall(query); query = nclistnew(); nullfree(querystring); querystring = NULL; ncbytesclear(listurl); nullfree(response.content); response.content = NULL; response.count = 0; /* Make sure order is sorted (after encoding) */ if((stat = queryadd(query,"list-type","2"))) goto done; if((stat = queryadd(query,"prefix",prefixdir))) goto done; if(delim != NULL) { if((stat = queryadd(query,"delimiter",delim))) goto done; } if(istruncated && continuetoken != NULL) { if((stat = queryadd(query,"continuation-token",continuetoken))) goto done; } if((stat = queryend(query,&querystring))) goto done; /* Build the proper url; leave off prefix because it will appear in the query */ if((stat = makes3fullpath(s3client->rooturl, bucket, NULL, NULL, listurl))) goto done; /* Append the query string */ ncbytescat(listurl,"?"); ncbytescat(listurl,querystring); if((stat = NCH5_s3comms_s3r_getkeys(s3client->h5s3client, ncbytescontents(listurl), &response))) goto done; if((stat = rawtokeys(&response,allkeys,NULL,&listv2))) goto done; istruncated = (strcasecmp(listv2->istruncated,"true")==0?1:0); nullfree(continuetoken); continuetoken = nulldup(listv2->nextcontinuationtoken); reclaim_listobjectsv2(listv2); listv2 = NULL; } while(istruncated); if(nkeysp) {*nkeysp = nclistlength(allkeys);} if(keysp) {*keysp = nclistextract(allkeys);} done: nullfree(continuetoken); reclaim_listobjectsv2(listv2); nclistfreeall(allkeys); nclistfreeall(query); nullfree(querystring); ncurifree(purl); ncbytesfree(listurl); nullfree(response.content); if(prefixdir) free(prefixdir); return NCUNTRACEX(stat,"nkeys=%u",PTRVAL(unsigned,nkeysp,0)); } /* Return a list of names of legal objects immediately below a specified key. In theory, the returned list should be sorted in lexical order, but it possible that it is not. */ EXTERNL int NC_s3sdkgetkeys(void* s3client0, const char* bucket, const char* prefixkey0, size_t* nkeysp, char*** keysp, char** errmsgp) { NCTRACE(11,"bucket=%s prefixkey0=%s",bucket,prefixkey0); return NCUNTRACE(getkeys(s3client0, bucket, prefixkey0, "/", nkeysp, keysp, errmsgp)); } /* Return a list of full keys of legal objects immediately below a specified key. Not necessarily sorted. Essentially same as getkeys, but with no delimiter. */ EXTERNL int NC_s3sdksearch(void* s3client0, const char* bucket, const char* prefixkey0, size_t* nkeysp, char*** keysp, char** errmsgp) { NCTRACE(11,"bucket=%s prefixkey0=%s",bucket,prefixkey0); return NCUNTRACE(getkeys(s3client0, bucket, prefixkey0, NULL, nkeysp, keysp, errmsgp)); } EXTERNL int NC_s3sdkdeletekey(void* s3client0, const char* bucket, const char* pathkey, char** errmsgp) { int stat = NC_NOERR; NCS3CLIENT* s3client = (NCS3CLIENT*)s3client0; NCbytes* url = ncbytesnew(); long httpcode = 0; NCTRACE(11,"s3client0=%p bucket=%s pathkey=%s",s3client0,bucket,pathkey); if((stat = makes3fullpath(s3client->rooturl,bucket,pathkey,NULL,url))) goto done; if((stat = NCH5_s3comms_s3r_deletekey(s3client->h5s3client, ncbytescontents(url), &httpcode))) goto done; done: ncbytesfree(url); return NCUNTRACE(stat); } /**************************************************/ /* Utilities */ /* Convert raw getkeys response to vector of keys */ static int rawtokeys(s3r_buf_t* response, NClist* allkeys, NClist* lengths, struct LISTOBJECTSV2** listv2p) { int stat = NC_NOERR; struct LISTOBJECTSV2* listv2 = NULL; NClist* realkeys = nclistnew(); NClist* commonkeys = nclistnew(); if((stat = parse_listbucketresult(response->content,response->count,&listv2))) goto done; if(nclistlength(listv2->contents) > 0) { if((stat = s3objectsinfo(listv2->contents,realkeys,lengths))) goto done; } /* Add common prefixes */ if(nclistlength(listv2->commonprefixes) > 0) { if((stat = s3commonprefixes(listv2->commonprefixes,commonkeys))) goto done; } if((stat=mergekeysets(realkeys, commonkeys, allkeys))) goto done; if(listv2p) {*listv2p = listv2; listv2 = NULL;} done: nclistfreeall(realkeys); nclistfreeall(commonkeys); reclaim_listobjectsv2(listv2); return stat; } /* Create a path-format root url */ static char* makes3rooturl(NCS3INFO* info) { NCbytes* buf = ncbytesnew(); char* result = NULL; ncbytescat(buf,"https://"); ncbytescat(buf,info->host); result = ncbytesextract(buf); ncbytesfree(buf); return result; } static int makes3fullpath(const char* rooturl, const char* bucket, const char* prefix, const char* key, NCbytes* url) { int stat = NC_NOERR; assert(url != NULL); assert(rooturl != NULL); ncbytescat(url,rooturl); if(bucket) { if(ncbyteslength(url) > 0 && ncbytesget(url,ncbyteslength(url)-1) != '/') ncbytescat(url,"/"); if(*bucket == '/') bucket++; ncbytescat(url,bucket); } if(prefix) { if(ncbyteslength(url) > 0 && ncbytesget(url,ncbyteslength(url)-1) != '/') ncbytescat(url,"/"); if(*prefix == '/') prefix++; ncbytescat(url,prefix); } if(key) { if(ncbyteslength(url) > 0 && ncbytesget(url,ncbyteslength(url)-1) != '/') ncbytescat(url,"/"); if(*key == '/') key++; ncbytescat(url,key); } /* Remove any trailing '/' */ if(ncbyteslength(url) > 0 && ncbytesget(url,ncbyteslength(url)-1) == '/') ncbytessetlength(url,ncbyteslength(url)-1); return stat; } /* (1) Ensure trailing '/' and (2) Strip off leading '/' */ /* Note that order of '/' handling is important; we want "/" to be converted to "", but "/a/b/c" to be converted to "a/b/c/" */ static int makes3prefix(const char* prefix, char** prefixdirp) { size_t plen; char* prefixdir; if(prefix == NULL) prefix = ""; if(*prefix == '/') prefix++; /* Remove any leading '/' */ plen = strlen(prefix); prefixdir = (char*)malloc(plen+1+1); /* possible '/' and nul */ if(prefixdir == NULL) return NC_ENOMEM; memcpy(prefixdir,prefix,plen+1); /* include trailing nul */ if(plen > 0) if(prefixdir[plen-1] != '/') strlcat(prefixdir,"/",plen+1+1); /* Ensure trailing '/' */ /* else leave prefix as "" */ *prefixdirp = prefixdir; prefixdir = NULL; return NC_NOERR; } /* Move keys1 concat keys2 into merge; note that merge list may not be empty. */ /* Will leave keys1 and keys2 empty */ static int mergekeysets(NClist* keys1, NClist* keys2, NClist* merge) { int stat = NC_NOERR; int i; size_t nkeys1 = nclistlength(keys1); size_t nkeys2 = nclistlength(keys2); for(i=0;irooturl); (void)NCH5_s3comms_s3r_close(s3client->h5s3client); free(s3client); } } /**************************************************/ /* XML Response Parser(s) */ /** Action: List objects (V2) Response XML: ========================= HTTP/1.1 200 string string integer integer string boolean string timestamp string integer string string string string #ifdef GOOGLES3 string string #endif ... ... string ... string string string string ========================= */ static int parse_listbucketresult(char* xml, unsigned long long xmllen, struct LISTOBJECTSV2** resultp) { int stat = NC_NOERR; ncxml_doc_t doc = NULL; ncxml_t x; struct LISTOBJECTSV2* result = NULL; #ifdef DEBUG printf("-------------------------%s\n-------------------------\n",xml); #endif doc = ncxml_parse(xml,xmllen); if(doc == NULL) {stat = NC_ES3; goto done;} ncxml_t dom = ncxml_root(doc); /* Verify top level element */ if(strcmp(ncxml_name(dom),"ListBucketResult")!=0) { nclog(NCLOGERR,"Expected: actual: <%s>",ncxml_name(dom)); stat = NC_ES3; goto done; } if((result = alloclistobjectsv2())==NULL) {stat = NC_ENOMEM; goto done;} /* Iterate next-level elements */ for(x=ncxml_child_first(dom);x != NULL;x=ncxml_child_next(x)) { const char* elem = ncxml_name(x); if(strcmp(elem,"IsTruncated")==0) { result->istruncated = trim(ncxml_text(x),RECLAIM); } else if(strcmp(elem,"Contents")==0) { if((stat = parse_object(x,result->contents))) goto done; } else if(strcmp(elem,"Name")==0) { result->name = trim(ncxml_text(x),RECLAIM); } else if(strcmp(elem,"Prefix")==0) { result->prefix = trim(ncxml_text(x),RECLAIM); } else if(strcmp(elem,"Delimiter")==0) { result->delimiter = trim(ncxml_text(x),RECLAIM); } else if(strcmp(elem,"MaxKeys")==0) { result->maxkeys = trim(ncxml_text(x),RECLAIM); } else if(strcmp(elem,"CommonPrefixes")==0) { if((stat = parse_prefix(x,result->commonprefixes))) goto done; } else if(strcmp(elem,"EncodingType")==0) { result->encodingtype = trim(ncxml_text(x),RECLAIM); } else if(strcmp(elem,"KeyCount")==0) { result->keycount = trim(ncxml_text(x),RECLAIM); } else if(strcmp(elem,"ContinuationToken")==0) { result->continuationtoken = trim(ncxml_text(x),RECLAIM); } else if(strcmp(elem,"NextContinuationToken")==0) { result->nextcontinuationtoken = trim(ncxml_text(x),RECLAIM); } else if(strcmp(elem,"StartAfter")==0) { result->startafter = trim(ncxml_text(x),RECLAIM); } else if(strcmp(elem,"StartAfter")==0) { result->startafter = trim(ncxml_text(x),RECLAIM); } else { nclog(NCLOGERR,"Unexpected Element: <%s>",elem); stat = NC_ES3; goto done; } } if(resultp) {*resultp = result; result = NULL;} done: if(result) reclaim_listobjectsv2(result); if(doc) ncxml_free(doc); return NCTHROW(stat); } static int parse_object(ncxml_t root, NClist* objects) { int stat = NC_NOERR; ncxml_t x; struct Object* object = NULL; /* Verify top level element */ if(strcmp(ncxml_name(root),"Contents")!=0) { nclog(NCLOGERR,"Expected: actual: <%s>",ncxml_name(root)); stat = NC_ES3; goto done; } if((object = allocobject())==NULL) {stat = NC_ENOMEM; goto done;} for(x=ncxml_child_first(root);x != NULL;x=ncxml_child_next(x)) { const char* elem = ncxml_name(x); if(strcmp(elem,"ChecksumAlgorithm")==0) { if((stat = parse_checksumalgorithm(x,object->checksumalgorithms))) goto done; } else if(strcmp(elem,"ETag")==0) { object->etag = trim(ncxml_text(x),RECLAIM); } else if(strcmp(elem,"Key")==0) { object->key = trim(ncxml_text(x),RECLAIM); } else if(strcmp(elem,"LastModified")==0) { object->lastmodified = trim(ncxml_text(x),RECLAIM); } else if(strcmp(elem,"Owner")==0) { if((stat = parse_owner(x,&object->owner))) goto done; } else if(strcmp(elem,"Size")==0) { object->size = trim(ncxml_text(x),RECLAIM); } else if(strcmp(elem,"StorageClass")==0) { object->storageclass = trim(ncxml_text(x),RECLAIM); } else if(strcmp(elem,"Generation")==0) { /* Ignore */ } else if(strcmp(elem,"MetaGeneration")==0) { /* Ignore */ } else { nclog(NCLOGERR,"Unexpected Element: <%s>",elem); stat = NC_ES3; goto done; } } nclistpush(objects,object); object = NULL; done: if(object) reclaim_object(object); return NCTHROW(stat); } static int parse_owner(ncxml_t root, struct Owner* owner) { int stat = NC_NOERR; ncxml_t x; /* Verify top level element */ if(strcmp(ncxml_name(root),"Owner")!=0) { nclog(NCLOGERR,"Expected: actual: <%s>",ncxml_name(root)); stat = NC_ES3; goto done; } for(x=ncxml_child_first(root);x != NULL;x=ncxml_child_next(x)) { const char* elem = ncxml_name(x); if(strcmp(elem,"DisplayName")==0) { owner->displayname = trim(ncxml_text(x),RECLAIM); } else if(strcmp(elem,"ID")==0) { owner->id = trim(ncxml_text(x),RECLAIM); } else { nclog(NCLOGERR,"Unexpected Element: <%s>",elem); stat = NC_ES3; goto done; } } done: return NCTHROW(stat); } static int parse_prefix(ncxml_t root, NClist* prefixes) { int stat = NC_NOERR; ncxml_t x; char* prefix = NULL; /* Verify top level element */ if(strcmp(ncxml_name(root),"CommonPrefixes")!=0) { nclog(NCLOGERR,"Expected: actual: <%s>",ncxml_name(root)); stat = NC_ES3; goto done; } for(x=ncxml_child_first(root);x != NULL;x=ncxml_child_next(x)) { const char* elem = ncxml_name(x); if(strcmp(elem,"Prefix")==0) { prefix = trim(ncxml_text(x),RECLAIM); nclistpush(prefixes,prefix); prefix = NULL; } else { nclog(NCLOGERR,"Unexpected Element: <%s>",elem); stat = NC_ES3; goto done; } } done: nullfree(prefix); return NCTHROW(stat); } static int parse_checksumalgorithm(ncxml_t root, NClist* algorithms) { int stat = NC_NOERR; char* alg = NULL; /* Verify top level element */ if(strcmp(ncxml_name(root),"ChecksumAlgorithm")!=0) { nclog(NCLOGERR,"Expected: actual: <%s>",ncxml_name(root)); stat = NC_ES3; goto done; } alg = trim(ncxml_text(root),RECLAIM); nclistpush(algorithms,alg); alg = NULL; done: nullfree(alg); return NCTHROW(stat); } static struct LISTOBJECTSV2* alloclistobjectsv2(void) { struct LISTOBJECTSV2* lov2 = NULL; if((lov2 = calloc(1,sizeof(struct LISTOBJECTSV2))) == NULL) return lov2; lov2->contents = nclistnew(); lov2->commonprefixes = nclistnew(); return lov2; } static struct Object* allocobject(void) { struct Object* obj = NULL; if((obj = calloc(1,sizeof(struct Object))) == NULL) return obj; obj->checksumalgorithms = nclistnew(); return obj; } static void reclaim_listobjectsv2(struct LISTOBJECTSV2* lo) { int i; if(lo == NULL) return; nullfree(lo->istruncated); for(i=0;icontents);i++) reclaim_object((struct Object*)nclistget(lo->contents,i)); nclistfree(lo->contents); nullfree(lo->name); nullfree(lo->prefix); nullfree(lo->delimiter); nullfree(lo->maxkeys); nclistfreeall(lo->commonprefixes); nullfree(lo->encodingtype); nullfree(lo->keycount); nullfree(lo->continuationtoken); nullfree(lo->nextcontinuationtoken); nullfree(lo->startafter); free(lo); } static void reclaim_object(struct Object* o) { if(o == NULL) return; nclistfreeall(o->checksumalgorithms); nullfree(o->etag); nullfree(o->key); nullfree(o->lastmodified); nullfree(o->owner.displayname); nullfree(o->owner.id); nullfree(o->size); nullfree(o->storageclass); free(o); } static char* trim(char* s, int reclaim) { ptrdiff_t first=0,last=0; const char* p; char* t = NULL; size_t len; for(p=s;*p;p++) { if(*p > ' ') {first = (p - s); break;} } for(p=s+(strlen(s)-1);p >= s;p--) { if(*p > ' ') {last = (p - s); break;} } len = (last - first) + 1; if((t = (char*)malloc(len+1))==NULL) return t; memcpy(t,s+first,len); t[len] = '\0'; if(reclaim) nullfree(s); return t; } /* Get Info about a single object from a vector */ static int s3objectinfo1(const struct Object* s3_object, char** fullkeyp, uintptr_t* lenp) { int stat = NC_NOERR; const char* key = NULL; char* tmp = NULL; unsigned long long len; assert(fullkeyp); key = s3_object->key; len = strlen(key); if((tmp = (char*)malloc(len+1+1))==NULL) {stat = NC_ENOMEM; goto done;} tmp[0] = '\0'; if(key[0] != '/') strlcat(tmp,"/",len+1+1); strlcat(tmp,key,len+1+1); sscanf(s3_object->size,"%llu",&len); if(fullkeyp) {*fullkeyp = tmp; tmp = NULL;} if(lenp) *lenp = (size64_t)len; done: if(tmp) free(tmp); return NCTHROW(stat); } /* Get Info about a vector of objects; Keys are fixed up to start with a '/' */ static int s3objectsinfo(NClist* contents, NClist* keys, NClist* lengths) { int stat = NC_NOERR; size_t i; char* key = NULL; uintptr_t length = 0; for(i=0;i 0) ncbytescat(buf,"&"); ncbytescat(buf,key); ncbytescat(buf,"="); if(value != NULL) ncbytescat(buf,value); } if(querystring) {*querystring = ncbytesextract(buf);} ncbytesfree(buf); return NCTHROW(stat); } /* Insert encoded key+value keeping sorted order */ static int queryinsert(NClist* list, char* ekey, char* evalue) { int pos,i,stat = NC_NOERR; for(pos=-1,i=0;i 0) {pos = i; break;} /* key > ekey => insert ekey before key */ } if(pos < 0) pos = nclistlength(list); /* insert at end; also works if |list|==0 */ nclistinsert(list,pos,evalue); nclistinsert(list,pos,ekey); done: return NCTHROW(stat); }