/*************************************************************************** * _ _ ____ _ * Project ___| | | | _ \| | * / __| | | | |_) | | * | (__| |_| | _ <| |___ * \___|\___/|_| \_\_____| * * Copyright (C) 1998 - 2019, Daniel Stenberg, , et al. * * This software is licensed as described in the file COPYING, which * you should have received as part of this distribution. The terms * are also available at https://curl.haxx.se/docs/copyright.html. * * You may opt to use, copy, modify, merge, publish, distribute and/or sell * copies of the Software, and permit persons to whom the Software is * furnished to do so, under the terms of the COPYING file. * * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY * KIND, either express or implied. * * ***************************************************************************/ /* CCSID API wrappers for OS/400. */ #include #include #include #include #include #pragma enum(int) #include "curl.h" #include "mprintf.h" #include "slist.h" #include "urldata.h" #include "url.h" #include "setopt.h" #include "getinfo.h" #include "ccsidcurl.h" #include "os400sys.h" #ifndef SIZE_MAX #define SIZE_MAX ((size_t) ~0) /* Is unsigned on OS/400. */ #endif #define ASCII_CCSID 819 /* Use ISO-8859-1 as ASCII. */ #define NOCONV_CCSID 65535 /* No conversion. */ #define ICONV_ID_SIZE 32 /* Size of iconv_open() code identifier. */ #define ICONV_OPEN_ERROR(t) ((t).return_value == -1) #define ALLOC_GRANULE 8 /* Alloc. granule for curl_formadd_ccsid(). */ static void makeOS400IconvCode(char buf[ICONV_ID_SIZE], unsigned int ccsid) { /** *** Convert a CCSID to the corresponding IBM iconv_open() character *** code identifier. *** This code is specific to the OS400 implementation of the iconv library. *** CCSID 65535 (no conversion) is replaced by the ASCII CCSID. *** CCSID 0 is interpreted by the OS400 as the job's CCSID. **/ ccsid &= 0xFFFF; if(ccsid == NOCONV_CCSID) ccsid = ASCII_CCSID; memset(buf, 0, ICONV_ID_SIZE); curl_msprintf(buf, "IBMCCSID%05u0000000", ccsid); } static iconv_t iconv_open_CCSID(unsigned int ccsidout, unsigned int ccsidin, unsigned int cstr) { char fromcode[ICONV_ID_SIZE]; char tocode[ICONV_ID_SIZE]; /** *** Like iconv_open(), but character codes are given as CCSIDs. *** If `cstr' is non-zero, conversion is set up to stop whenever a *** null character is encountered. *** See iconv_open() IBM description in "National Language Support API". **/ makeOS400IconvCode(fromcode, ccsidin); makeOS400IconvCode(tocode, ccsidout); memset(tocode + 13, 0, sizeof(tocode) - 13); /* Dest. code id format. */ if(cstr) fromcode[18] = '1'; /* Set null-terminator flag. */ return iconv_open(tocode, fromcode); } static int convert(char *d, size_t dlen, int dccsid, const char *s, int slen, int sccsid) { int i; iconv_t cd; size_t lslen; /** *** Convert `sccsid'-coded `slen'-data bytes at `s' into `dccsid'-coded *** data stored in the `dlen'-byte buffer at `d'. *** If `slen' < 0, source string is null-terminated. *** CCSID 65535 (no conversion) is replaced by the ASCII CCSID. *** Return the converted destination byte count, or -1 if error. **/ if(sccsid == 65535) sccsid = ASCII_CCSID; if(dccsid == 65535) dccsid = ASCII_CCSID; if(sccsid == dccsid) { lslen = slen >= 0? slen: strlen(s) + 1; i = lslen < dlen? lslen: dlen; if(s != d && i > 0) memcpy(d, s, i); return i; } if(slen < 0) { lslen = 0; cd = iconv_open_CCSID(dccsid, sccsid, 1); } else { lslen = (size_t) slen; cd = iconv_open_CCSID(dccsid, sccsid, 0); } if(ICONV_OPEN_ERROR(cd)) return -1; i = dlen; if((int) iconv(cd, (char * *) &s, &lslen, &d, &dlen) < 0) i = -1; else i -= dlen; iconv_close(cd); return i; } static char * dynconvert(int dccsid, const char *s, int slen, int sccsid) { char *d; char *cp; size_t dlen; int l; static const char nullbyte = 0; /* Like convert, but the destination is allocated and returned. */ dlen = (size_t) (slen < 0? strlen(s): slen) + 1; dlen *= MAX_CONV_EXPANSION; /* Allow some expansion. */ d = malloc(dlen); if(!d) return (char *) NULL; l = convert(d, dlen, dccsid, s, slen, sccsid); if(l < 0) { free(d); return (char *) NULL; } if(slen < 0) { /* Need to null-terminate even when source length is given. Since destination code size is unknown, use a conversion to generate terminator. */ int l2 = convert(d + l, dlen - l, dccsid, &nullbyte, -1, ASCII_CCSID); if(l2 < 0) { free(d); return (char *) NULL; } l += l2; } if((size_t) l < dlen) { cp = realloc(d, l); /* Shorten to minimum needed. */ if(cp) d = cp; } return d; } static struct curl_slist * slist_convert(int dccsid, struct curl_slist *from, int sccsid) { struct curl_slist *to = (struct curl_slist *) NULL; for(; from; from = from->next) { struct curl_slist *nl; char *cp = dynconvert(dccsid, from->data, -1, sccsid); if(!cp) { curl_slist_free_all(to); return (struct curl_slist *) NULL; } nl = Curl_slist_append_nodup(to, cp); if(!nl) { curl_slist_free_all(to); free(cp); return NULL; } to = nl; } return to; } char * curl_version_ccsid(unsigned int ccsid) { int i; char *aversion; char *eversion; aversion = curl_version(); if(!aversion) return aversion; i = strlen(aversion) + 1; i *= MAX_CONV_EXPANSION; eversion = Curl_thread_buffer(LK_CURL_VERSION, i); if(!eversion) return (char *) NULL; if(convert(eversion, i, ccsid, aversion, -1, ASCII_CCSID) < 0) return (char *) NULL; return eversion; } char * curl_easy_escape_ccsid(CURL *handle, const char *string, int length, unsigned int sccsid, unsigned int dccsid) { char *s; char *d; if(!string) { errno = EINVAL; return (char *) NULL; } s = dynconvert(ASCII_CCSID, string, length? length: -1, sccsid); if(!s) return (char *) NULL; d = curl_easy_escape(handle, s, 0); free(s); if(!d) return (char *) NULL; s = dynconvert(dccsid, d, -1, ASCII_CCSID); free(d); return s; } char * curl_easy_unescape_ccsid(CURL *handle, const char *string, int length, int *outlength, unsigned int sccsid, unsigned int dccsid) { char *s; char *d; if(!string) { errno = EINVAL; return (char *) NULL; } s = dynconvert(ASCII_CCSID, string, length? length: -1, sccsid); if(!s) return (char *) NULL; d = curl_easy_unescape(handle, s, 0, outlength); free(s); if(!d) return (char *) NULL; s = dynconvert(dccsid, d, -1, ASCII_CCSID); free(d); if(s && outlength) *outlength = strlen(s); return s; } struct curl_slist * curl_slist_append_ccsid(struct curl_slist *list, const char *data, unsigned int ccsid) { char *s; s = (char *) NULL; if(!data) return curl_slist_append(list, data); s = dynconvert(ASCII_CCSID, data, -1, ccsid); if(!s) return (struct curl_slist *) NULL; list = curl_slist_append(list, s); free(s); return list; } time_t curl_getdate_ccsid(const char *p, const time_t * unused, unsigned int ccsid) { char *s; time_t t; if(!p) return curl_getdate(p, unused); s = dynconvert(ASCII_CCSID, p, -1, ccsid); if(!s) return (time_t) -1; t = curl_getdate(s, unused); free(s); return t; } static int convert_version_info_string(const char * * stringp, char * * bufp, int *left, unsigned int ccsid) { /* Helper for curl_version_info_ccsid(): convert a string if defined. Result is stored in the `*left'-byte buffer at `*bufp'. `*bufp' and `*left' are updated accordingly. Return 0 if ok, else -1. */ if(*stringp) { int l = convert(*bufp, *left, ccsid, *stringp, -1, ASCII_CCSID); if(l <= 0) return -1; *stringp = *bufp; *bufp += l; *left -= l; } return 0; } curl_version_info_data * curl_version_info_ccsid(CURLversion stamp, unsigned int ccsid) { curl_version_info_data * p; char *cp; int n; int nproto; curl_version_info_data * id; /* The assertion below is possible, because although the second operand is an enum member, the first is a #define. In that case, the OS/400 C compiler seems to compare string values after substitution. */ #if CURLVERSION_NOW != CURLVERSION_FOURTH #error curl_version_info_data structure has changed: upgrade this procedure. #endif /* If caller has been compiled with a new version, error. */ if(stamp > CURLVERSION_NOW) return (curl_version_info_data *) NULL; p = curl_version_info(stamp); if(!p) return p; /* Measure thread space needed. */ n = 0; nproto = 0; if(p->protocols) { while(p->protocols[nproto]) n += strlen(p->protocols[nproto++]); n += nproto++; } if(p->version) n += strlen(p->version) + 1; if(p->host) n += strlen(p->host) + 1; if(p->ssl_version) n += strlen(p->ssl_version) + 1; if(p->libz_version) n += strlen(p->libz_version) + 1; if(p->ares) n += strlen(p->ares) + 1; if(p->libidn) n += strlen(p->libidn) + 1; if(p->libssh_version) n += strlen(p->libssh_version) + 1; /* Allocate thread space. */ n *= MAX_CONV_EXPANSION; if(nproto) n += nproto * sizeof(const char *); cp = Curl_thread_buffer(LK_VERSION_INFO_DATA, n); id = (curl_version_info_data *) Curl_thread_buffer(LK_VERSION_INFO, sizeof(*id)); if(!id || !cp) return (curl_version_info_data *) NULL; /* Copy data and convert strings. */ memcpy((char *) id, (char *) p, sizeof(*p)); if(id->protocols) { int i = nproto * sizeof(id->protocols[0]); id->protocols = (const char * const *) cp; memcpy(cp, (char *) p->protocols, i); cp += i; n -= i; for(i = 0; id->protocols[i]; i++) if(convert_version_info_string(((const char * *) id->protocols) + i, &cp, &n, ccsid)) return (curl_version_info_data *) NULL; } if(convert_version_info_string(&id->version, &cp, &n, ccsid)) return (curl_version_info_data *) NULL; if(convert_version_info_string(&id->host, &cp, &n, ccsid)) return (curl_version_info_data *) NULL; if(convert_version_info_string(&id->ssl_version, &cp, &n, ccsid)) return (curl_version_info_data *) NULL; if(convert_version_info_string(&id->libz_version, &cp, &n, ccsid)) return (curl_version_info_data *) NULL; if(convert_version_info_string(&id->ares, &cp, &n, ccsid)) return (curl_version_info_data *) NULL; if(convert_version_info_string(&id->libidn, &cp, &n, ccsid)) return (curl_version_info_data *) NULL; if(convert_version_info_string(&id->libssh_version, &cp, &n, ccsid)) return (curl_version_info_data *) NULL; return id; } const char * curl_easy_strerror_ccsid(CURLcode error, unsigned int ccsid) { int i; const char *s; char *buf; s = curl_easy_strerror(error); if(!s) return s; i = MAX_CONV_EXPANSION * (strlen(s) + 1); buf = Curl_thread_buffer(LK_EASY_STRERROR, i); if(!buf) return (const char *) NULL; if(convert(buf, i, ccsid, s, -1, ASCII_CCSID) < 0) return (const char *) NULL; return (const char *) buf; } const char * curl_share_strerror_ccsid(CURLSHcode error, unsigned int ccsid) { int i; const char *s; char *buf; s = curl_share_strerror(error); if(!s) return s; i = MAX_CONV_EXPANSION * (strlen(s) + 1); buf = Curl_thread_buffer(LK_SHARE_STRERROR, i); if(!buf) return (const char *) NULL; if(convert(buf, i, ccsid, s, -1, ASCII_CCSID) < 0) return (const char *) NULL; return (const char *) buf; } const char * curl_multi_strerror_ccsid(CURLMcode error, unsigned int ccsid) { int i; const char *s; char *buf; s = curl_multi_strerror(error); if(!s) return s; i = MAX_CONV_EXPANSION * (strlen(s) + 1); buf = Curl_thread_buffer(LK_MULTI_STRERROR, i); if(!buf) return (const char *) NULL; if(convert(buf, i, ccsid, s, -1, ASCII_CCSID) < 0) return (const char *) NULL; return (const char *) buf; } void curl_certinfo_free_all(struct curl_certinfo *info) { /* Free all memory used by certificate info. */ if(info) { if(info->certinfo) { int i; for(i = 0; i < info->num_of_certs; i++) curl_slist_free_all(info->certinfo[i]); free((char *) info->certinfo); } free((char *) info); } } CURLcode curl_easy_getinfo_ccsid(CURL *curl, CURLINFO info, ...) { va_list arg; void *paramp; CURLcode ret; unsigned int ccsid; char * * cpp; struct Curl_easy * data; struct curl_slist * * slp; struct curl_certinfo * cipf; struct curl_certinfo * cipt; /* WARNING: unlike curl_easy_getinfo(), the strings returned by this procedure have to be free'ed. */ data = (struct Curl_easy *) curl; va_start(arg, info); paramp = va_arg(arg, void *); ret = Curl_getinfo(data, info, paramp); if(ret == CURLE_OK) switch((int) info & CURLINFO_TYPEMASK) { case CURLINFO_STRING: ccsid = va_arg(arg, unsigned int); cpp = (char * *) paramp; if(*cpp) { *cpp = dynconvert(ccsid, *cpp, -1, ASCII_CCSID); if(!*cpp) ret = CURLE_OUT_OF_MEMORY; } break; case CURLINFO_SLIST: ccsid = va_arg(arg, unsigned int); switch(info) { case CURLINFO_CERTINFO: cipf = *(struct curl_certinfo * *) paramp; if(cipf) { cipt = (struct curl_certinfo *) malloc(sizeof(*cipt)); if(!cipt) ret = CURLE_OUT_OF_MEMORY; else { cipt->certinfo = (struct curl_slist **) calloc(cipf->num_of_certs + 1, sizeof(struct curl_slist *)); if(!cipt->certinfo) ret = CURLE_OUT_OF_MEMORY; else { int i; cipt->num_of_certs = cipf->num_of_certs; for(i = 0; i < cipf->num_of_certs; i++) if(cipf->certinfo[i]) if(!(cipt->certinfo[i] = slist_convert(ccsid, cipf->certinfo[i], ASCII_CCSID))) { ret = CURLE_OUT_OF_MEMORY; break; } } } if(ret != CURLE_OK) { curl_certinfo_free_all(cipt); cipt = (struct curl_certinfo *) NULL; } *(struct curl_certinfo * *) paramp = cipt; } break; case CURLINFO_TLS_SESSION: case CURLINFO_TLS_SSL_PTR: case CURLINFO_SOCKET: break; default: slp = (struct curl_slist **) paramp; if(*slp) { *slp = slist_convert(ccsid, *slp, ASCII_CCSID); if(!*slp) ret = CURLE_OUT_OF_MEMORY; } break; } } va_end(arg); return ret; } static int Curl_is_formadd_string(CURLformoption option) { switch(option) { case CURLFORM_FILENAME: case CURLFORM_CONTENTTYPE: case CURLFORM_BUFFER: case CURLFORM_FILE: case CURLFORM_FILECONTENT: case CURLFORM_COPYCONTENTS: case CURLFORM_COPYNAME: return 1; } return 0; } static void Curl_formadd_release_local(struct curl_forms * forms, int nargs, int skip) { while(nargs--) if(nargs != skip) if(Curl_is_formadd_string(forms[nargs].option)) if(forms[nargs].value) free((char *) forms[nargs].value); free((char *) forms); } static int Curl_formadd_convert(struct curl_forms * forms, int formx, int lengthx, unsigned int ccsid) { int l; char *cp; char *cp2; if(formx < 0 || !forms[formx].value) return 0; if(lengthx >= 0) l = (int) forms[lengthx].value; else l = strlen(forms[formx].value) + 1; cp = malloc(MAX_CONV_EXPANSION * l); if(!cp) return -1; l = convert(cp, MAX_CONV_EXPANSION * l, ASCII_CCSID, forms[formx].value, l, ccsid); if(l < 0) { free(cp); return -1; } cp2 = realloc(cp, l); /* Shorten buffer to the string size. */ if(cp2) cp = cp2; forms[formx].value = cp; if(lengthx >= 0) forms[lengthx].value = (char *) l; /* Update length after conversion. */ return l; } CURLFORMcode curl_formadd_ccsid(struct curl_httppost * * httppost, struct curl_httppost * * last_post, ...) { va_list arg; CURLformoption option; CURLFORMcode result; struct curl_forms * forms; struct curl_forms * lforms; struct curl_forms * tforms; unsigned int lformlen; const char *value; unsigned int ccsid; int nargs; int namex; int namelengthx; int contentx; int lengthx; unsigned int contentccsid; unsigned int nameccsid; /* A single curl_formadd() call cannot be split in several calls to deal with all parameters: the original parameters are thus copied to a local curl_forms array and converted to ASCII when needed. CURLFORM_PTRNAME is processed as if it were CURLFORM_COPYNAME. CURLFORM_COPYNAME and CURLFORM_NAMELENGTH occurrence order in parameters is not defined; for this reason, the actual conversion is delayed to the end of parameter processing. The same applies to CURLFORM_COPYCONTENTS/CURLFORM_CONTENTSLENGTH, but these may appear several times in the parameter list; the problem resides here in knowing which CURLFORM_CONTENTSLENGTH applies to which CURLFORM_COPYCONTENTS and when we can be sure to have both info for conversion: end of parameter list is such a point, but CURLFORM_CONTENTTYPE is also used here as a natural separator between content data definitions; this seems to be in accordance with FormAdd() behavior. */ /* Allocate the local curl_forms array. */ lformlen = ALLOC_GRANULE; lforms = malloc(lformlen * sizeof(*lforms)); if(!lforms) return CURL_FORMADD_MEMORY; /* Process the arguments, copying them into local array, latching conversion indexes and converting when needed. */ result = CURL_FORMADD_OK; nargs = 0; contentx = -1; lengthx = -1; namex = -1; namelengthx = -1; forms = (struct curl_forms *) NULL; va_start(arg, last_post); for(;;) { /* Make sure there is still room for an item in local array. */ if(nargs >= lformlen) { lformlen += ALLOC_GRANULE; tforms = realloc(lforms, lformlen * sizeof(*lforms)); if(!tforms) { result = CURL_FORMADD_MEMORY; break; } lforms = tforms; } /* Get next option. */ if(forms) { /* Get option from array. */ option = forms->option; value = forms->value; forms++; } else { /* Get option from arguments. */ option = va_arg(arg, CURLformoption); if(option == CURLFORM_END) break; } /* Dispatch by option. */ switch(option) { case CURLFORM_END: forms = (struct curl_forms *) NULL; /* Leave array mode. */ continue; case CURLFORM_ARRAY: if(!forms) { forms = va_arg(arg, struct curl_forms *); continue; } result = CURL_FORMADD_ILLEGAL_ARRAY; break; case CURLFORM_COPYNAME: option = CURLFORM_PTRNAME; /* Static for now. */ case CURLFORM_PTRNAME: if(namex >= 0) result = CURL_FORMADD_OPTION_TWICE; namex = nargs; if(!forms) { value = va_arg(arg, char *); nameccsid = (unsigned int) va_arg(arg, long); } else { nameccsid = (unsigned int) forms->value; forms++; } break; case CURLFORM_COPYCONTENTS: if(contentx >= 0) result = CURL_FORMADD_OPTION_TWICE; contentx = nargs; if(!forms) { value = va_arg(arg, char *); contentccsid = (unsigned int) va_arg(arg, long); } else { contentccsid = (unsigned int) forms->value; forms++; } break; case CURLFORM_PTRCONTENTS: case CURLFORM_BUFFERPTR: if(!forms) value = va_arg(arg, char *); /* No conversion. */ break; case CURLFORM_CONTENTSLENGTH: lengthx = nargs; if(!forms) value = (char *) va_arg(arg, long); break; case CURLFORM_CONTENTLEN: lengthx = nargs; if(!forms) value = (char *) va_arg(arg, curl_off_t); break; case CURLFORM_NAMELENGTH: namelengthx = nargs; if(!forms) value = (char *) va_arg(arg, long); break; case CURLFORM_BUFFERLENGTH: if(!forms) value = (char *) va_arg(arg, long); break; case CURLFORM_CONTENTHEADER: if(!forms) value = (char *) va_arg(arg, struct curl_slist *); break; case CURLFORM_STREAM: if(!forms) value = (char *) va_arg(arg, void *); break; case CURLFORM_CONTENTTYPE: /* If a previous content has been encountered, convert it now. */ if(Curl_formadd_convert(lforms, contentx, lengthx, contentccsid) < 0) { result = CURL_FORMADD_MEMORY; break; } contentx = -1; lengthx = -1; /* Fall into default. */ default: /* Must be a convertible string. */ if(!Curl_is_formadd_string(option)) { result = CURL_FORMADD_UNKNOWN_OPTION; break; } if(!forms) { value = va_arg(arg, char *); ccsid = (unsigned int) va_arg(arg, long); } else { ccsid = (unsigned int) forms->value; forms++; } /* Do the conversion. */ lforms[nargs].value = value; if(Curl_formadd_convert(lforms, nargs, -1, ccsid) < 0) { result = CURL_FORMADD_MEMORY; break; } value = lforms[nargs].value; } if(result != CURL_FORMADD_OK) break; lforms[nargs].value = value; lforms[nargs++].option = option; } va_end(arg); /* Convert the name and the last content, now that we know their lengths. */ if(result == CURL_FORMADD_OK && namex >= 0) { if(Curl_formadd_convert(lforms, namex, namelengthx, nameccsid) < 0) result = CURL_FORMADD_MEMORY; else lforms[namex].option = CURLFORM_COPYNAME; /* Force copy. */ } if(result == CURL_FORMADD_OK) { if(Curl_formadd_convert(lforms, contentx, lengthx, contentccsid) < 0) result = CURL_FORMADD_MEMORY; else contentx = -1; } /* Do the formadd with our converted parameters. */ if(result == CURL_FORMADD_OK) { lforms[nargs].option = CURLFORM_END; result = curl_formadd(httppost, last_post, CURLFORM_ARRAY, lforms, CURLFORM_END); } /* Terminate. */ Curl_formadd_release_local(lforms, nargs, contentx); return result; } typedef struct { curl_formget_callback append; void * arg; unsigned int ccsid; } cfcdata; static size_t Curl_formget_callback_ccsid(void *arg, const char *buf, size_t len) { cfcdata * p; char *b; int l; size_t ret; p = (cfcdata *) arg; if((long) len <= 0) return (*p->append)(p->arg, buf, len); b = malloc(MAX_CONV_EXPANSION * len); if(!b) return (size_t) -1; l = convert(b, MAX_CONV_EXPANSION * len, p->ccsid, buf, len, ASCII_CCSID); if(l < 0) { free(b); return (size_t) -1; } ret = (*p->append)(p->arg, b, l); free(b); return ret == l? len: -1; } int curl_formget_ccsid(struct curl_httppost *form, void *arg, curl_formget_callback append, unsigned int ccsid) { cfcdata lcfc; lcfc.append = append; lcfc.arg = arg; lcfc.ccsid = ccsid; return curl_formget(form, (void *) &lcfc, Curl_formget_callback_ccsid); } CURLcode curl_easy_setopt_ccsid(CURL *curl, CURLoption tag, ...) { CURLcode result; va_list arg; struct Curl_easy *data; char *s; char *cp; unsigned int ccsid; curl_off_t pfsize; static char testwarn = 1; /* Warns if this procedure has not been updated when the dupstring enum changes. We (try to) do it only once: there is no need to issue several times the same message; but since threadsafeness is not handled here, this may occur (and we don't care!). */ if(testwarn) { testwarn = 0; if( #ifdef USE_ALTSVC (int) STRING_LASTZEROTERMINATED != (int) STRING_ALTSVC + 1 || #else (int) STRING_LASTZEROTERMINATED != (int) STRING_DOH + 1 || #endif (int) STRING_LAST != (int) STRING_COPYPOSTFIELDS + 1) curl_mfprintf(stderr, "*** WARNING: curl_easy_setopt_ccsid() should be reworked ***\n"); } data = (struct Curl_easy *) curl; va_start(arg, tag); switch(tag) { case CURLOPT_ABSTRACT_UNIX_SOCKET: case CURLOPT_ALTSVC: case CURLOPT_CAINFO: case CURLOPT_CAPATH: case CURLOPT_COOKIE: case CURLOPT_COOKIEFILE: case CURLOPT_COOKIEJAR: case CURLOPT_COOKIELIST: case CURLOPT_CRLFILE: case CURLOPT_CUSTOMREQUEST: case CURLOPT_DEFAULT_PROTOCOL: case CURLOPT_DNS_SERVERS: case CURLOPT_DOH_URL: case CURLOPT_EGDSOCKET: case CURLOPT_ENCODING: case CURLOPT_FTPPORT: case CURLOPT_FTP_ACCOUNT: case CURLOPT_FTP_ALTERNATIVE_TO_USER: case CURLOPT_INTERFACE: case CURLOPT_ISSUERCERT: case CURLOPT_KEYPASSWD: case CURLOPT_KRBLEVEL: case CURLOPT_LOGIN_OPTIONS: case CURLOPT_MAIL_AUTH: case CURLOPT_MAIL_FROM: case CURLOPT_NETRC_FILE: case CURLOPT_NOPROXY: case CURLOPT_PASSWORD: case CURLOPT_PINNEDPUBLICKEY: case CURLOPT_PRE_PROXY: case CURLOPT_PROXY: case CURLOPT_PROXYPASSWORD: case CURLOPT_PROXYUSERNAME: case CURLOPT_PROXYUSERPWD: case CURLOPT_PROXY_CAINFO: case CURLOPT_PROXY_CAPATH: case CURLOPT_PROXY_CRLFILE: case CURLOPT_PROXY_KEYPASSWD: case CURLOPT_PROXY_PINNEDPUBLICKEY: case CURLOPT_PROXY_SERVICE_NAME: case CURLOPT_PROXY_SSLCERT: case CURLOPT_PROXY_SSLCERTTYPE: case CURLOPT_PROXY_SSLKEY: case CURLOPT_PROXY_SSLKEYTYPE: case CURLOPT_PROXY_SSL_CIPHER_LIST: case CURLOPT_PROXY_TLS13_CIPHERS: case CURLOPT_PROXY_TLSAUTH_PASSWORD: case CURLOPT_PROXY_TLSAUTH_TYPE: case CURLOPT_PROXY_TLSAUTH_USERNAME: case CURLOPT_RANDOM_FILE: case CURLOPT_RANGE: case CURLOPT_REFERER: case CURLOPT_REQUEST_TARGET: case CURLOPT_RTSP_SESSION_ID: case CURLOPT_RTSP_STREAM_URI: case CURLOPT_RTSP_TRANSPORT: case CURLOPT_SERVICE_NAME: case CURLOPT_SOCKS5_GSSAPI_SERVICE: case CURLOPT_SSH_HOST_PUBLIC_KEY_MD5: case CURLOPT_SSH_KNOWNHOSTS: case CURLOPT_SSH_PRIVATE_KEYFILE: case CURLOPT_SSH_PUBLIC_KEYFILE: case CURLOPT_SSLCERT: case CURLOPT_SSLCERTTYPE: case CURLOPT_SSLENGINE: case CURLOPT_SSLKEY: case CURLOPT_SSLKEYTYPE: case CURLOPT_SSL_CIPHER_LIST: case CURLOPT_TLS13_CIPHERS: case CURLOPT_TLSAUTH_PASSWORD: case CURLOPT_TLSAUTH_TYPE: case CURLOPT_TLSAUTH_USERNAME: case CURLOPT_UNIX_SOCKET_PATH: case CURLOPT_URL: case CURLOPT_USERAGENT: case CURLOPT_USERNAME: case CURLOPT_USERPWD: case CURLOPT_XOAUTH2_BEARER: s = va_arg(arg, char *); ccsid = va_arg(arg, unsigned int); if(s) { s = dynconvert(ASCII_CCSID, s, -1, ccsid); if(!s) { result = CURLE_OUT_OF_MEMORY; break; } } result = curl_easy_setopt(curl, tag, s); free(s); break; case CURLOPT_COPYPOSTFIELDS: /* Special case: byte count may have been given by CURLOPT_POSTFIELDSIZE prior to this call. In this case, convert the given byte count and replace the length according to the conversion result. */ s = va_arg(arg, char *); ccsid = va_arg(arg, unsigned int); pfsize = data->set.postfieldsize; if(!s || !pfsize || ccsid == NOCONV_CCSID || ccsid == ASCII_CCSID) { result = curl_easy_setopt(curl, CURLOPT_COPYPOSTFIELDS, s); break; } if(pfsize == -1) { /* Data is null-terminated. */ s = dynconvert(ASCII_CCSID, s, -1, ccsid); if(!s) { result = CURLE_OUT_OF_MEMORY; break; } } else { /* Data length specified. */ size_t len; if(pfsize < 0 || pfsize > SIZE_MAX) { result = CURLE_OUT_OF_MEMORY; break; } len = pfsize; pfsize = len * MAX_CONV_EXPANSION; if(pfsize > SIZE_MAX) pfsize = SIZE_MAX; cp = malloc(pfsize); if(!cp) { result = CURLE_OUT_OF_MEMORY; break; } pfsize = convert(cp, pfsize, ASCII_CCSID, s, len, ccsid); if(pfsize < 0) { free(cp); result = CURLE_OUT_OF_MEMORY; break; } data->set.postfieldsize = pfsize; /* Replace data size. */ s = cp; } result = curl_easy_setopt(curl, CURLOPT_POSTFIELDS, s); data->set.str[STRING_COPYPOSTFIELDS] = s; /* Give to library. */ break; case CURLOPT_ERRORBUFFER: /* This is an output buffer. */ default: { long val = va_arg(arg, long); result = curl_easy_setopt(curl, tag, val); break; } } va_end(arg); return result; } char * curl_form_long_value(long value) { /* ILE/RPG cannot cast an integer to a pointer. This procedure does it. */ return (char *) value; } char * curl_pushheader_bynum_cssid(struct curl_pushheaders *h, size_t num, unsigned int ccsid) { char *d = (char *) NULL; char *s = curl_pushheader_bynum(h, num); if(s) d = dynconvert(ccsid, s, -1, ASCII_CCSID); return d; } char * curl_pushheader_byname_ccsid(struct curl_pushheaders *h, const char *header, unsigned int ccsidin, unsigned int ccsidout) { char *d = (char *) NULL; char *s; if(header) { header = dynconvert(ASCII_CCSID, header, -1, ccsidin); if(header) { s = curl_pushheader_byname(h, header); free((char *) header); if(s) d = dynconvert(ccsidout, s, -1, ASCII_CCSID); } } return d; } static CURLcode mime_string_call(curl_mimepart *part, const char *string, unsigned int ccsid, CURLcode (*mimefunc)(curl_mimepart *part, const char *string)) { char *s = (char *) NULL; CURLcode result; if(!string) return mimefunc(part, string); s = dynconvert(ASCII_CCSID, string, -1, ccsid); if(!s) return CURLE_OUT_OF_MEMORY; result = mimefunc(part, s); free(s); return result; } CURLcode curl_mime_name_ccsid(curl_mimepart *part, const char *name, unsigned int ccsid) { return mime_string_call(part, name, ccsid, curl_mime_name); } CURLcode curl_mime_filename_ccsid(curl_mimepart *part, const char *filename, unsigned int ccsid) { return mime_string_call(part, filename, ccsid, curl_mime_filename); } CURLcode curl_mime_type_ccsid(curl_mimepart *part, const char *mimetype, unsigned int ccsid) { return mime_string_call(part, mimetype, ccsid, curl_mime_type); } CURLcode curl_mime_encoder_ccsid(curl_mimepart *part, const char *encoding, unsigned int ccsid) { return mime_string_call(part, encoding, ccsid, curl_mime_encoder); } CURLcode curl_mime_filedata_ccsid(curl_mimepart *part, const char *filename, unsigned int ccsid) { return mime_string_call(part, filename, ccsid, curl_mime_filedata); } CURLcode curl_mime_data_ccsid(curl_mimepart *part, const char *data, size_t datasize, unsigned int ccsid) { char *s = (char *) NULL; CURLcode result; if(!data) return curl_mime_data(part, data, datasize); s = dynconvert(ASCII_CCSID, data, datasize, ccsid); if(!s) return CURLE_OUT_OF_MEMORY; result = curl_mime_data(part, s, datasize); free(s); return result; } CURLUcode curl_url_get_ccsid(CURLU *handle, CURLUPart what, char **part, unsigned int flags, unsigned int ccsid) { char *s = (char *)NULL; CURLUcode result; if(!part) return CURLUE_BAD_PARTPOINTER; *part = (char *)NULL; result = curl_url_get(handle, what, &s, flags); if(result == CURLUE_OK) { if(s) { *part = dynconvert(ccsid, s, -1, ASCII_CCSID); if(!*part) result = CURLUE_OUT_OF_MEMORY; } } if(s) free(s); return result; } CURLUcode curl_url_set_ccsid(CURLU *handle, CURLUPart what, const char *part, unsigned int flags, unsigned int ccsid) { char *s = (char *)NULL; CURLUcode result; if(part) { s = dynconvert(ASCII_CCSID, part, -1, ccsid); if(!s) return CURLUE_OUT_OF_MEMORY; } result = curl_url_set(handle, what, s, flags); if(s) free(s); return result; }