/*************************************************************************** * _ _ ____ _ * Project ___| | | | _ \| | * / __| | | | |_) | | * | (__| |_| | _ <| |___ * \___|\___/|_| \_\_____| * * Copyright (C) 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.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. * * SPDX-License-Identifier: curl * ***************************************************************************/ #include "tool_setup.h" #define ENABLE_CURLX_PRINTF /* use our own printf() functions */ #include "curlx.h" #include "tool_cfgable.h" #include "tool_getparam.h" #include "tool_helpers.h" #include "tool_findfile.h" #include "tool_msgs.h" #include "tool_parsecfg.h" #include "dynbuf.h" #include "curl_base64.h" #include "tool_paramhlp.h" #include "tool_writeout_json.h" #include "var.h" #include "memdebug.h" /* keep this as LAST include */ #define MAX_EXPAND_CONTENT 10000000 #define MAX_VAR_LEN 128 /* max length of a name */ static char *Memdup(const char *data, size_t len) { char *p = malloc(len + 1); if(!p) return NULL; if(len) memcpy(p, data, len); p[len] = 0; return p; } /* free everything */ void varcleanup(struct GlobalConfig *global) { struct var *list = global->variables; while(list) { struct var *t = list; list = list->next; free((char *)t->content); free(t); } } static const struct var *varcontent(struct GlobalConfig *global, const char *name, size_t nlen) { struct var *list = global->variables; while(list) { if((strlen(list->name) == nlen) && !strncmp(name, list->name, nlen)) { return list; } list = list->next; } return NULL; } #define ENDOFFUNC(x) (((x) == '}') || ((x) == ':')) #define FUNCMATCH(ptr,name,len) \ (!strncmp(ptr, name, len) && ENDOFFUNC(ptr[len])) #define FUNC_TRIM "trim" #define FUNC_TRIM_LEN (sizeof(FUNC_TRIM) - 1) #define FUNC_JSON "json" #define FUNC_JSON_LEN (sizeof(FUNC_JSON) - 1) #define FUNC_URL "url" #define FUNC_URL_LEN (sizeof(FUNC_URL) - 1) #define FUNC_B64 "b64" #define FUNC_B64_LEN (sizeof(FUNC_B64) - 1) static ParameterError varfunc(struct GlobalConfig *global, char *c, /* content */ size_t clen, /* content length */ char *f, /* functions */ size_t flen, /* function string length */ struct curlx_dynbuf *out) { bool alloc = FALSE; ParameterError err = PARAM_OK; const char *finput = f; /* The functions are independent and runs left to right */ while(*f && !err) { if(*f == '}') /* end of functions */ break; /* On entry, this is known to be a colon already. In subsequent laps, it is also known to be a colon since that is part of the FUNCMATCH() checks */ f++; if(FUNCMATCH(f, FUNC_TRIM, FUNC_TRIM_LEN)) { size_t len = clen; f += FUNC_TRIM_LEN; if(clen) { /* skip leading white space, including CRLF */ while(*c && ISSPACE(*c)) { c++; len--; } while(len && ISSPACE(c[len-1])) len--; } /* put it in the output */ curlx_dyn_reset(out); if(curlx_dyn_addn(out, c, len)) { err = PARAM_NO_MEM; break; } } else if(FUNCMATCH(f, FUNC_JSON, FUNC_JSON_LEN)) { f += FUNC_JSON_LEN; curlx_dyn_reset(out); if(clen) { if(jsonquoted(c, clen, out, FALSE)) { err = PARAM_NO_MEM; break; } } } else if(FUNCMATCH(f, FUNC_URL, FUNC_URL_LEN)) { f += FUNC_URL_LEN; curlx_dyn_reset(out); if(clen) { char *enc = curl_easy_escape(NULL, c, (int)clen); if(!enc) { err = PARAM_NO_MEM; break; } /* put it in the output */ if(curlx_dyn_add(out, enc)) err = PARAM_NO_MEM; curl_free(enc); if(err) break; } } else if(FUNCMATCH(f, FUNC_B64, FUNC_B64_LEN)) { f += FUNC_B64_LEN; curlx_dyn_reset(out); if(clen) { char *enc; size_t elen; CURLcode result = curlx_base64_encode(c, clen, &enc, &elen); if(result) { err = PARAM_NO_MEM; break; } /* put it in the output */ if(curlx_dyn_addn(out, enc, elen)) err = PARAM_NO_MEM; curl_free(enc); if(err) break; } } else { /* unsupported function */ errorf(global, "unknown variable function in '%.*s'", (int)flen, finput); err = PARAM_EXPAND_ERROR; break; } if(alloc) free(c); clen = curlx_dyn_len(out); c = Memdup(curlx_dyn_ptr(out), clen); if(!c) { err = PARAM_NO_MEM; break; } alloc = TRUE; } if(alloc) free(c); if(err) curlx_dyn_free(out); return err; } ParameterError varexpand(struct GlobalConfig *global, const char *line, struct curlx_dynbuf *out, bool *replaced) { CURLcode result; char *envp; bool added = FALSE; const char *input = line; *replaced = FALSE; curlx_dyn_init(out, MAX_EXPAND_CONTENT); do { envp = strstr(line, "{{"); if((envp > line) && envp[-1] == '\\') { /* preceding backslash, we want this verbatim */ /* insert the text up to this point, minus the backslash */ result = curlx_dyn_addn(out, line, envp - line - 1); if(result) return PARAM_NO_MEM; /* output '{{' then continue from here */ result = curlx_dyn_addn(out, "{{", 2); if(result) return PARAM_NO_MEM; line = &envp[2]; } else if(envp) { char name[MAX_VAR_LEN]; size_t nlen; size_t i; char *funcp; char *clp = strstr(envp, "}}"); size_t prefix; if(!clp) { /* uneven braces */ warnf(global, "missing close '}}' in '%s'", input); break; } prefix = 2; envp += 2; /* move over the {{ */ /* if there is a function, it ends the name with a colon */ funcp = memchr(envp, ':', clp - envp); if(funcp) nlen = funcp - envp; else nlen = clp - envp; if(!nlen || (nlen >= sizeof(name))) { warnf(global, "bad variable name length '%s'", input); /* insert the text as-is since this is not an env variable */ result = curlx_dyn_addn(out, line, clp - line + prefix); if(result) return PARAM_NO_MEM; } else { /* insert the text up to this point */ result = curlx_dyn_addn(out, line, envp - prefix - line); if(result) return PARAM_NO_MEM; /* copy the name to separate buffer */ memcpy(name, envp, nlen); name[nlen] = 0; /* verify that the name looks sensible */ for(i = 0; (i < nlen) && (ISALNUM(name[i]) || (name[i] == '_')); i++); if(i != nlen) { warnf(global, "bad variable name: %s", name); /* insert the text as-is since this is not an env variable */ result = curlx_dyn_addn(out, envp - prefix, clp - envp + prefix + 2); if(result) return PARAM_NO_MEM; } else { char *value; size_t vlen = 0; struct curlx_dynbuf buf; const struct var *v = varcontent(global, name, nlen); if(v) { value = (char *)v->content; vlen = v->clen; } else value = NULL; curlx_dyn_init(&buf, MAX_EXPAND_CONTENT); if(funcp) { /* apply the list of functions on the value */ size_t flen = clp - funcp; ParameterError err = varfunc(global, value, vlen, funcp, flen, &buf); if(err) return err; value = curlx_dyn_ptr(&buf); vlen = curlx_dyn_len(&buf); } if(value && vlen > 0) { /* A variable might contain null bytes. Such bytes cannot be shown using normal means, this is an error. */ char *nb = memchr(value, '\0', vlen); if(nb) { errorf(global, "variable contains null byte"); return PARAM_EXPAND_ERROR; } } /* insert the value */ result = curlx_dyn_addn(out, value, vlen); curlx_dyn_free(&buf); if(result) return PARAM_NO_MEM; added = true; } } line = &clp[2]; } } while(envp); if(added && *line) { /* add the "suffix" as well */ result = curlx_dyn_add(out, line); if(result) return PARAM_NO_MEM; } *replaced = added; if(!added) curlx_dyn_free(out); return PARAM_OK; } /* * Created in a way that is not revealing how variables are actually stored so * that we can improve this if we want better performance when managing many * at a later point. */ static ParameterError addvariable(struct GlobalConfig *global, const char *name, size_t nlen, const char *content, size_t clen, bool contalloc) { struct var *p; const struct var *check = varcontent(global, name, nlen); DEBUGASSERT(nlen); if(check) notef(global, "Overwriting variable '%s'", check->name); p = calloc(1, sizeof(struct var) + nlen); if(p) { memcpy(p->name, name, nlen); p->content = contalloc ? content: Memdup(content, clen); if(p->content) { p->clen = clen; p->next = global->variables; global->variables = p; return PARAM_OK; } free(p); } return PARAM_NO_MEM; } ParameterError setvariable(struct GlobalConfig *global, const char *input) { const char *name; size_t nlen; char *content = NULL; size_t clen = 0; bool contalloc = FALSE; const char *line = input; ParameterError err = PARAM_OK; bool import = FALSE; char *ge = NULL; char buf[MAX_VAR_LEN]; if(*input == '%') { import = TRUE; line++; } name = line; while(*line && (ISALNUM(*line) || (*line == '_'))) line++; nlen = line - name; if(!nlen || (nlen >= MAX_VAR_LEN)) { warnf(global, "Bad variable name length (%zd), skipping", nlen); return PARAM_OK; } if(import) { /* this does not use curl_getenv() because we want "" support for blank content */ if(*line) { /* if there is a default action, we need to copy the name */ memcpy(buf, name, nlen); buf[nlen] = 0; name = buf; } ge = getenv(name); if(!*line && !ge) { /* no assign, no variable, fail */ errorf(global, "Variable '%s' import fail, not set", name); return PARAM_EXPAND_ERROR; } else if(ge) { /* there is a value to use */ content = ge; clen = strlen(ge); } } if(content) ; else if(*line == '@') { /* read from file or stdin */ FILE *file; bool use_stdin; line++; use_stdin = !strcmp(line, "-"); if(use_stdin) file = stdin; else { file = fopen(line, "rb"); if(!file) { errorf(global, "Failed to open %s", line); return PARAM_READ_ERROR; } } err = file2memory(&content, &clen, file); /* in case of out of memory, this should fail the entire operation */ contalloc = TRUE; if(!use_stdin) fclose(file); if(err) return err; } else if(*line == '=') { line++; /* this is the exact content */ content = (char *)line; clen = strlen(line); } else { warnf(global, "Bad --variable syntax, skipping: %s", input); return PARAM_OK; } err = addvariable(global, name, nlen, content, clen, contalloc); if(err) { if(contalloc) free(content); } return err; }