/** @file Parser: request class main part. @see compile.C and execute.C. Copyright (c) 2001-2026 Art. Lebedev Studio (https://www.artlebedev.com) Authors: Konstantin Morshnev , Alexandr Petrosian */ #include "pa_sapi.h" #include "pa_common.h" #include "pa_os.h" #include "pa_request.h" #include "pa_wwrapper.h" #include "pa_vclass.h" #include "pa_globals.h" #include "pa_vint.h" #include "pa_vmethod_frame.h" #include "pa_types.h" #include "pa_venv.h" #include "pa_vmath.h" #include "pa_vstatus.h" #include "pa_vrequest.h" #include "pa_vtable.h" #include "pa_vfile.h" #include "pa_dictionary.h" #include "pa_charset.h" #include "pa_charsets.h" #include "pa_cache_managers.h" #include "pa_http.h" #include "pa_vmail.h" #include "pa_vform.h" #include "pa_vcookie.h" #include "pa_vresponse.h" #include "pa_vmemory.h" #include "pa_vconsole.h" #include "pa_vdate.h" #include "pa_varray.h" volatile const char * IDENT_PA_REQUEST_C="$Id: pa_request.C,v 1.440 2026/05/24 14:16:27 moko Exp $" IDENT_PA_REQUEST_H IDENT_PA_REQUEST_CHARSETS_H IDENT_PA_REQUEST_INFO_H IDENT_PA_VCONSOLE_H; // consts #define UNHANDLED_EXCEPTION_METHOD_NAME "unhandled_exception" /// content type of response when no $MAIN:defaults.content-type defined const char* DEFAULT_CONTENT_TYPE="text/html"; const uint LOOP_LIMIT=100000; const uint ARRAY_LIMIT=1000000; const uint EXECUTE_RECURSION_LIMIT=1000; const uint HTTPD_TIMEOUT=4; const size_t FILE_SIZE_LIMIT=512*1024*1024; // defines for globals #define MAIN_METHOD_NAME "main" #define AUTO_METHOD_NAME "auto" #define USE_METHOD_NAME "use" #define AUTOUSE_METHOD_NAME "autouse" #define EXCEPTION_TYPE_PART_NAME "type" #define EXCEPTION_SOURCE_PART_NAME "source" #define EXCEPTION_COMMENT_PART_NAME "comment" #define ORIGIN_KEY "origin" // globals const String main_method_name(MAIN_METHOD_NAME); const String auto_method_name(AUTO_METHOD_NAME); static const String use_method_name(USE_METHOD_NAME); static const String autouse_method_name(AUTOUSE_METHOD_NAME); const String::Body exception_type_part_name(EXCEPTION_TYPE_PART_NAME); const String::Body exception_source_part_name(EXCEPTION_SOURCE_PART_NAME); const String::Body exception_comment_part_name(EXCEPTION_COMMENT_PART_NAME); const String::Body exception_handled_part_name(EXCEPTION_HANDLED_PART_NAME); static const String origin_key(ORIGIN_KEY); int pa_loop_limit=LOOP_LIMIT; int pa_array_limit=ARRAY_LIMIT; int pa_execute_recursion_limit=EXECUTE_RECURSION_LIMIT; int pa_httpd_timeout=HTTPD_TIMEOUT; size_t pa_file_size_limit=FILE_SIZE_LIMIT; // defines for statics #define MIME_TYPES_NAME "MIME-TYPES" #define CLASS_PATH_NAME "CLASS_PATH" #define DOWNLOAD_NAME_UPPER "DOWNLOAD" #define BODY_NAME_UPPER "BODY" // statics static const String main_class_name(MAIN_CLASS_NAME); static const String mime_types_name(MIME_TYPES_NAME); static const String class_path_name(CLASS_PATH_NAME); static const String charsets_name("CHARSETS"); static const String strict_vars_name("STRICT-VARS"); static const String prototype_name("OBJECT-PROTOTYPE"); static const String getter_protected_name("CLASS-GETTER-PROTECTED"); static const String locals_name("LOCALS"); static const String limits_name("LIMITS"); static const String loop_limit_name("max_loop"); static const String array_limit_name("max_array_size"); static const String recursion_limit_name("max_recursion"); static const String file_size_limit_name("max_file_size"); static const String lock_wait_timeout_name("lock_wait_timeout"); static const String httpd_name("HTTPD"); static const String httpd_timeout_name("timeout"); static const String httpd_mode_name("mode"); static const String conf_method_name("conf"); static const String post_process_method_name("postprocess"); static const String response_body_file_name("file"); static const String download_name_upper(DOWNLOAD_NAME_UPPER); static const String body_name_upper(BODY_NAME_UPPER); // more static static const String content_type_name_upper(HTTP_CONTENT_TYPE_UPPER); static const String content_disposition_name_upper(CONTENT_DISPOSITION_UPPER); static const String content_disposition_inline(CONTENT_DISPOSITION_INLINE); static const String content_disposition_attachment(CONTENT_DISPOSITION_ATTACHMENT); const String content_disposition_filename_name(CONTENT_DISPOSITION_FILENAME_NAME); const String content_disposition_filename_name_asterisk("filename*"); // defines #define CHARSET_NAME_UPPER "CHARSET" #define LAST_MODIFIED_NAME_UPPER "LAST-MODIFIED" // op.C VStateless_class& VClassMAIN_create(); // Request::Request(SAPI_Info& asapi_info, Request_info& arequest_info, String::Language adefault_lang): // private anti_endless_execute_recursion(0), // public allow_class_replace(false), method_frame(0), rcontext(0), wcontext(0), flang(adefault_lang), fconnection(0), fin_cycle(0), fskip(SKIP_NOTHING), // public request_info(arequest_info), sapi_info(asapi_info), charsets(pa_UTF8_charset, pa_UTF8_charset, pa_UTF8_charset), // default charsets main_class(VClassMAIN_create()), form(*new VForm(charsets, arequest_info)), mail(*new VMail), response(*new VResponse(arequest_info, charsets)), cookie(*new VCookie(charsets, arequest_info)), console(*new VConsole), // private configure_admin_done(false), // private defaults fdefault_lang(adefault_lang), // private mime types mime_types(0) { pa_register_thread_request(*this); // file_no=0 => unknown file_list+=String::Body("UNKNOWN"); file_list+=String::Body("-body of process-"); // pseudo_file_no__process // maybe expire old caches cache_managers->maybe_expire(); /// directly used // MAIN class, operators put_class(&main_class); // classes: // table, file, random, mail, image, ... methoded_array().register_directly_used(*this); /// methodless // env class put_class(new VEnv(asapi_info)); // status class put_class(new VStatus()); // request class put_class(new VRequest(arequest_info, charsets, form, asapi_info)); // cookie class put_class(&cookie); // console class put_class(&console); /// methoded // response class put_class(&response); // form class put_class(&form); // mail class put_class(&mail); // math class put_class(new VMath); // memory class put_class(new VMemory); } Request::~Request() { #ifdef XML // if for some strange reason xml generic errors failed to be reported, free them up if(const char* xml_generic_errors=xmlGenericErrors()) { SAPI::log(sapi_info, "warning: unreported xmlGenericErrors: %s", xml_generic_errors); pa_free((void *)xml_generic_errors); } #endif } Value& Request::get_self() { return method_frame/*always have!*/->self(); } VStateless_class* Request::get_class(const String& name){ VStateless_class* result=classes().get(name); if(!result) if(const Method *method=main_class.get_element_method(autouse_method_name)){ Value *vname=new VString(name); CONSTRUCTOR_FRAME_ACTION(*method, 0 /*no parent*/, main_class, { frame.store_params(&vname, 1); // we don't need the result call(frame); }); result=classes().get(name); } return result; } VStateless_class& Request::get_class_ref(const String& name){ VStateless_class* result=get_class(name); if(!result) throw Exception(PARSER_RUNTIME, &name, "class is undefined"); return *result; } bool Request::add_class(const char* atype, VStateless_class *aclass){ if(!classes().put_dont_replace(String::Body(atype), aclass)) return true; if(!allow_class_replace && strcmp(atype, VARRAY_TYPE)) return false; classes().remove(String::Body(atype)); classes().put(atype, aclass); return true; } static void load_charset(HashStringValue::key_type akey, HashStringValue::value_type avalue, Request_charsets* charsets) { pa_charsets.load_charset(*charsets, akey, avalue->as_string()); } #define CONF_OPTION(config, name, code, exception_name) \ if(config) \ if(Value* option=config->get_element(name)) { \ if(option->is_evaluated_expr()) { \ code; \ } else \ throw Exception(PARSER_RUNTIME, 0, "$MAIN:" exception_name, name.cstr()); \ } void Request::configure_admin(VStateless_class& conf_class) { if(configure_admin_done) throw Exception(PARSER_RUNTIME, 0, "parser already configured"); configure_admin_done=true; // charsets must only be specified in method_frame config // so that users would not interfere /* $MAIN:CHARSETS[ $.charsetname1[/full/path/to/charset/file.cfg] ... ] */ if(Value* vcharsets=conf_class.get_element(charsets_name)) { if(!vcharsets->is_string()) { if(HashStringValue* charsets=vcharsets->get_hash()) charsets->for_each(load_charset, &this->charsets); else throw Exception(PARSER_RUNTIME, 0, "$MAIN:%s must be hash", charsets_name.cstr()); } } #ifdef STRICT_VARS VVoid::strict_vars=false; if(Value* strict_vars=conf_class.get_element(strict_vars_name)) { if(strict_vars->is_bool()) VVoid::strict_vars=strict_vars->as_bool(); else throw Exception(PARSER_RUNTIME, 0, "$MAIN:%s must be bool", strict_vars_name.cstr()); } #endif #ifdef OBJECT_PROTOTYPE VClass::prototype=true; if(Value* prototype=conf_class.get_element(prototype_name)) { if(prototype->is_bool()) VClass::prototype=prototype->as_bool(); else throw Exception(PARSER_RUNTIME, 0, "$MAIN:%s must be bool", prototype_name.cstr()); } #endif #ifdef CLASS_GETTER_UNPROTECTED VClass::getter_protected=true; if(Value* getter_protected=conf_class.get_element(getter_protected_name)) { if(getter_protected->is_bool()) VClass::getter_protected=getter_protected->as_bool(); else throw Exception(PARSER_RUNTIME, 0, "$MAIN:%s must be bool", getter_protected_name.cstr()); } #endif VStateless_class::gall_vars_local=false; if(Value* locals=conf_class.get_element(locals_name)) { if(locals->is_bool()){ VStateless_class::gall_vars_local=locals->as_bool(); main_class.set_all_vars_local(); } else throw Exception(PARSER_RUNTIME, 0, "$MAIN:%s must be bool", locals_name.cstr()); } Value* limits=conf_class.get_element(limits_name); pa_loop_limit=LOOP_LIMIT; CONF_OPTION(limits, loop_limit_name, { pa_loop_limit=option->as_int(); if(pa_loop_limit==0) pa_loop_limit=INT_MAX; }, "LIMITS.%s must be int"); pa_array_limit=ARRAY_LIMIT; CONF_OPTION(limits, array_limit_name, { pa_array_limit=option->as_int(); if(pa_array_limit==0) pa_array_limit=INT_MAX; }, "LIMITS.%s must be int"); pa_execute_recursion_limit=EXECUTE_RECURSION_LIMIT; CONF_OPTION(limits, recursion_limit_name, { pa_execute_recursion_limit=option->as_int(); if(pa_execute_recursion_limit==0) pa_execute_recursion_limit=INT_MAX; }, "LIMITS.%s must be int"); pa_file_size_limit=FILE_SIZE_LIMIT; CONF_OPTION(limits, file_size_limit_name, { double limit=option->as_double(); if(limit >= (double)SSIZE_MAX) throw Exception(PARSER_RUNTIME, 0, "$MAIN:LIMITS.%s must be less than %.15g", file_size_limit_name.cstr(), (double)SSIZE_MAX); pa_file_size_limit=(size_t)limit; if(pa_file_size_limit==0) pa_file_size_limit=SSIZE_MAX; }, "LIMITS.%s must be number"); pa_lock_attempts=PA_LOCK_ATTEMPTS; CONF_OPTION(limits, lock_wait_timeout_name, { double limit=option->as_double(); if(limit >= 3600*24) throw Exception(PARSER_RUNTIME, 0, "$MAIN:LIMITS.%s must be less than %d", lock_wait_timeout_name.cstr(), 3600*24); pa_lock_attempts=(unsigned int)(limit*2)+1; }, "LIMITS.%s must be number"); Value* httpd=conf_class.get_element(httpd_name); pa_httpd_timeout=HTTPD_TIMEOUT; CONF_OPTION(httpd, httpd_timeout_name, { pa_httpd_timeout=option->as_int(); if(pa_httpd_timeout==0) pa_httpd_timeout=INT_MAX; }, "HTTPD.%s must be int"); if(httpd) if(Value* option=httpd->get_element( httpd_mode_name)) { if(option->get_junction()) throw Exception(PARSER_RUNTIME, 0, "$MAIN:HTTPD:mode must be string"); HTTPD_Server::set_mode(option->as_string()); } // configure method_frame options // until someone with less privileges have overriden them methoded_array().configure_admin(*this); } const char* Request::get_exception_cstr(const Exception& e, Request::Exception_details& details) { #define PA_URI_FORMAT "%s: " #define PA_COMMENT_TYPE_FORMAT "%s [%s]" #define PA_ORIGIN_FILE_POS_FORMAT "%s(%d:%d): " #define PA_SOURCE_FORMAT "'%s' " #define PA_ORIGIN_FILE_POS_VALUE file_list[details.origin.file_no].cstr(), 1+details.origin.line, 1+details.origin.col, #define PA_SOURCE_VALUE details.problem_source->cstr(), #define EXCEPTION_CSTR(f1,v1,f2,v2) \ snprintf(result, MAX_STRING, \ PA_URI_FORMAT \ f1 f2 \ PA_COMMENT_TYPE_FORMAT, \ request_info.uri, \ v1 v2 \ e.comment(), e.type() \ ); char* result=new(PointerFreeGC) char[MAX_STRING]; if(details.problem_source) { // do we know the guy? if(details.origin.file_no) // do whe know where he came from? EXCEPTION_CSTR(PA_ORIGIN_FILE_POS_FORMAT, PA_ORIGIN_FILE_POS_VALUE, PA_SOURCE_FORMAT, PA_SOURCE_VALUE) else EXCEPTION_CSTR(PA_SOURCE_FORMAT, PA_SOURCE_VALUE,,) } else { if(details.origin.file_no) // do whe know where he came from? EXCEPTION_CSTR(PA_ORIGIN_FILE_POS_FORMAT, PA_ORIGIN_FILE_POS_VALUE,,) else EXCEPTION_CSTR(,,,) } return result; } Table &Request::Exception_trace::table(Request &r){ // $stack[^table::create{name file lineno colno}] Table::columns_type stack_trace_columns(new ArrayString); *stack_trace_columns+=new String("name"); *stack_trace_columns+=new String("file"); *stack_trace_columns+=new String("lineno"); *stack_trace_columns+=new String("colno"); Table& stack_trace=*new Table(stack_trace_columns); if(!is_empty()/*signed!*/) for(size_t i=bottom_index(); iget_table()) mime_types=table; } /** load MAIN class, execute @main. MAIN class consists of all the auto.p files we'd manage to find plus the file user requested us to process all located classes become children of one another, composing class we name 'MAIN' @test log stack trace */ void Request::core(const char* config_filespec, bool header_only, const String &amain_method_name, const String* amain_class_name) { try { // loading config if(config_filespec) use_file_directly(*new String(config_filespec)); // filling mail received mail.fill_received(*this); try { // compile requested file if(request_info.path_translated) use_file_directly(*new String(request_info.path_translated, String::L_TAINTED), true, true /* load auto.p files */); configure(); } catch(...) { configure(); // configure anyway, useful in @unhandled_exception [say, if they would want to mail by SMTP something] rethrow; } VStateless_class& main = amain_class_name ? get_class_ref(*amain_class_name) : main_class; // execute @main[] const String* body_string=amain_method_name.is_empty() ? &String::Empty : execute_method(main, amain_method_name); if(!body_string) throw Exception(PARSER_RUNTIME, &amain_method_name, "method not found in class %s", main.type()); // extract response body Value* body_value=response.fields().get(download_name_upper); // $response:download? bool as_attachment=body_value!=0; if(!body_value) body_value=response.fields().get(body_name_upper); // $response:body if(!body_value) body_value=new VString(*body_string); // just result of ^main[] // @postprocess if(const Method *method=main_class.get_method(post_process_method_name)) { METHOD_FRAME_ACTION(*method, 0 /*no parent*/, main_class, { frame.store_params(&body_value, 1); call(frame); body_value=&frame.result(); }); } // can throw exceptions while handling $response:download[] output_result(body_value->as_vfile(flang, &charsets), header_only, as_attachment); } catch(const Exception& e) { // request handling problem // we're returning not result, but error explanation Request::Exception_details details=get_details(e); const char* exception_cstr=get_exception_cstr(e, details); // reset language to default flang=fdefault_lang; // reset response response.fields().clear(); SAPI::clear_headers(sapi_info); // this is what we'd return in $response:body const String* body_string=0; try { // maybe we'd be lucky enough as to report an error in a gracefull way... if(const Method *method=main_class.get_method(*new String(UNHANDLED_EXCEPTION_METHOD_NAME))) { // preparing parameters to @unhandled_exception[exception;stack] Table& stack_trace=exception_trace.table(*this); exception_trace.clear(); // forget all about previous life, in case there would be error inside of this method, error handled would not be mislead by old stack contents (see extract_origin) Value *params[]={&details.vhash, new VTable(&stack_trace)}; METHOD_FRAME_ACTION(*method, 0 /*no caller*/, main_class, { frame.store_params(params, 2); call(frame); body_string=&frame.result().as_string(); }); } // conditionally log it Value* vhandled=details.vhash.hash().get(exception_handled_part_name); if(!vhandled || !vhandled->as_bool()) { SAPI::log(sapi_info, "%s", exception_cstr); } } catch(const Exception& e) { // exception in @unhandled_exception Request::Exception_details details=get_details(e); // logging both initial and new exceptions SAPI::log(sapi_info, "%s", exception_cstr); SAPI::log(sapi_info, "Exception in @unhandled_exception at %s", get_exception_cstr(e, details)); SAPI::send_error(sapi_info, "Exception in @unhandled_exception, details are available in Parser error log."); return; } if(body_string) { // could report an error beautifully? VString body_vstring(*body_string); output_result(body_vstring.as_vfile(flang, &charsets), header_only, false); } else { // doing that ugly SAPI::send_error(sapi_info, exception_cstr, strcmp(e.type(), "file.missing") ? "500" : "404"); } } } uint Request::register_file(String::Body file_spec) { file_list+=file_spec; return file_list.count()-1; } void Request::use_file_directly(const String& file_spec, bool fail_on_file_absence, bool with_auto_p) { // cyclic dependence check if(used_files.get(file_spec)) return; used_files.put(file_spec, true); if(!fail_on_file_absence && !entry_exists(file_spec)) // ignore file absence if asked for return; if(with_auto_p) { // loading auto.p files from document_root/.. // to the one beside requested file. // all assigned bases from upper dir const char* target=file_spec.cstr(); // all relative paths are calculated from main document request_info.path_translated=target; const char* after=target; size_t drlen=strlen(request_info.document_root); if(memcmp(after, request_info.document_root, drlen)==0) { after+=drlen; if(after[-1]=='/') --after; } while(const char* before=strchr(after, '/')) { String& sfile_spec=*new String; if(after!=target) { sfile_spec.append_strdup(target, before-target, String::L_CLEAN); sfile_spec << "/" AUTO_FILE_NAME; use_file_directly(sfile_spec, false /*ignore absence, sole user*/); } for(after=before+1;*after=='/';after++); } } if(const char* source=file_read_text(charsets, file_spec, true)) use_buf(main_class, source, 0, register_file(file_spec)); } void Request::use_file(const String& file_name, const String* use_filespec/*absolute*/, bool with_auto_p) { if(file_name.is_empty()) throw Exception(PARSER_RUNTIME, 0, "usage failed - no filename was specified"); const String* filespec=0; if(file_name.first_char()=='/') //absolute path? [no need to scan MAIN:CLASS_PATH] filespec=&full_disk_path(file_name); else if(use_filespec){ // search in current dir first size_t last_slash_pos=use_filespec->strrpbrk("/"); if(last_slash_pos!=STRING_NOT_FOUND) filespec=file_exist(use_filespec->mid(0, last_slash_pos), file_name); // found in current dir? } if(!filespec){ // prevent multiple scan CLASS_PATH for searching one file if(searched_along_class_path.get(file_name)) return; searched_along_class_path.put(file_name, true); if(Value* element=main_class.get_element(class_path_name)) { if(element->is_string()) { filespec=file_exist(full_disk_path(element->as_string()), file_name); // found at class_path? } else if(Table *table=element->get_table()) { for(size_t i=table->count(); i--; ) { const String& path=*(*table->get(i))[0]; if(filespec=file_exist(full_disk_path(path), file_name)) break; // found along class_path } } else throw Exception(PARSER_RUNTIME, 0, "$" CLASS_PATH_NAME " must be string or table"); if(!filespec) throw Exception(PARSER_RUNTIME, &file_name, "not found along $MAIN:" CLASS_PATH_NAME); } else throw Exception(PARSER_RUNTIME, &file_name, "usage failed - no $MAIN:" CLASS_PATH_NAME " were specified"); } use_file_directly(*filespec, true, with_auto_p); } void Request::use_file(const String& file_name, const String* use_filespec/*absolute*/, Operation::Origin origin) { static String use("USE"); try { static VHash* voptions=new VHash(); if(const Method *method=main_class.get_method(use_method_name)){ Value *params[]={new VString(file_name), voptions}; voptions->hash().put(origin_key, new VString(*use_filespec)); CONSTRUCTOR_FRAME_ACTION(*method, 0 /*no parent*/, main_class, { frame.store_params(params, 2); // we don't need the result call(frame); }); } } catch (...) { exception_trace.push(Trace(&use, origin)); rethrow; } } void Request::use_buf(VStateless_class& aclass, const char* source, const String* main_alias, uint file_no, int line_no_offset) { // temporary zero @conf to avoid it second execution Temp_method temp_method_conf(aclass, conf_method_name, 0); // temporary zero @auto to avoid it second execution Temp_method temp_method_auto(aclass, auto_method_name, 0); // compile loaded classes ArrayClass& cclasses=compile(&aclass, source, main_alias, file_no, line_no_offset); VString* vfilespec= new VString(file_list[file_no]); for(size_t i=0; iname*/); // locate and execute possible @auto[] static execute_auto_method_if_exists(cclass, auto_method_name, vfilespec); cclass.enable_default_setter(); } } const String& Request::relative(const char* apath, const String& relative_name) { char *hpath=pa_strdup(apath); String& result=*new String; if(rsplit(hpath, '/')) // if something/splitted result << hpath << "/"; result << relative_name; return result; } const String& Request::full_disk_path(const String& relative_name) { if(relative_name.first_char()=='/') { String& result=*new String(pa_strdup(request_info.document_root)); result << relative_name; return result; } if(relative_name.starts_with("http://") || relative_name.starts_with("parser://") #ifdef WIN32 || relative_name.pos(":")==1 // DRIVE: || relative_name.starts_with("\\\\") // UNC1 || relative_name.starts_with("//") // UNC2 #endif ) return relative_name; return relative(request_info.path_translated ? request_info.path_translated : request_info.document_root, relative_name); } #ifndef DOXYGEN class Add_header_attribute_info { public: Add_header_attribute_info(Request& ar) : r(ar), add_last_modified(true) {} Request& r; bool add_last_modified; }; #endif static void add_header_attribute(HashStringValue::key_type name, HashStringValue::value_type value, Add_header_attribute_info* info) { if(name==BODY_NAME_UPPER || name==DOWNLOAD_NAME_UPPER || name==CHARSET_NAME_UPPER) return; if(name==LAST_MODIFIED_NAME_UPPER) info->add_last_modified=false; const char* aname=String(name, String::L_URI).untaint_and_transcode_cstr(String::L_URI, &info->r.charsets); SAPI::add_header_attribute(info->r.sapi_info, aname, attributed_meaning_to_string(*value, String::L_URI, false).untaint_and_transcode_cstr(String::L_URI, &info->r.charsets) ); } static void output_sole_piece(Request& r, bool header_only, VFile& body_file, Value* body_file_content_type) { // transcode text body when "text/*" or simple result String::C output(body_file.value_ptr(), body_file.value_size()); if(!body_file_content_type/*vstring.as_vfile*/ || body_file_content_type->as_string().pos("text/")==0) output=Charset::transcode(output, r.charsets.source(), r.charsets.client()); // prepare header: Content-Length SAPI::add_header_attribute(r.sapi_info, HTTP_CONTENT_LENGTH, pa_uitoa(output.length)); // send header SAPI::send_headers(r.sapi_info); // send body if(!header_only) SAPI::send_body(r.sapi_info, output.str, output.length); } #ifndef DOXYGEN struct Range { uint64_t start; uint64_t end; }; #endif #define UNSET ((uint64_t)-1) static void parse_range(const String* s, Array &ar) { const char *p = s->cstr(); if(s->starts_with("bytes=")) p += 6; Range r; while(*p){ r.start = UNSET; r.end = UNSET; while(*p==' ' || *p=='\t') p++; if(*p >= '0' && *p <= '9'){ const char *n=p; while(*p>='0' && *p<='9') p++; r.start = pa_atoul(pa_strdup(n, p-n)); // ((uint64_t)-1) is treated as UNSET } while(*p==' ' || *p=='\t') p++; if(*p++ != '-') break; while(*p==' ' || *p=='\t') p++; if(*p >= '0' && *p <= '9'){ const char *n=p; while(*p>='0' && *p<='9') p++; r.end = pa_atoul(pa_strdup(n, p-n)); // ((uint64_t)-1) is treated as UNSET } while(*p==' ' || *p=='\t') p++; if(*p) if(*p++ != ',') break; ar += r; } } struct Send_range_action_info { Request *r; uint64_t offset; uint64_t part_length; }; static void send_range(struct stat& /*finfo*/, int f, const String& /*file_spec*/, void *context){ Send_range_action_info &info = *(Send_range_action_info*)context; SAPI::send_headers(info.r->sapi_info); pa_lseek(f, info.offset, SEEK_SET); char buf[FILE_BUFFER_SIZE]; do{ size_t to_read = info.part_length < FILE_BUFFER_SIZE ? (size_t)info.part_length : FILE_BUFFER_SIZE; size_t to_write = file_block_read(f, buf, to_read); if(to_write == 0) break; size_t size = SAPI::send_body(info.r->sapi_info, buf, to_write); if(size != to_write) break; info.part_length -= to_write; } while (info.part_length); } static void output_pieces(Request& r, bool header_only, const String& filename, uint64_t content_length, Value& date, bool add_last_modified) { SAPI::add_header_attribute(r.sapi_info, "accept-ranges", "bytes"); const char *range = SAPI::Env::get(r.sapi_info, "HTTP_RANGE"); uint64_t offset=0; uint64_t part_length=content_length; if(range && content_length){ Array ar; parse_range(new String(range), ar); int count = ar.count(); if(count == 1){ Range &rg = ar.get_ref(0); if(rg.start == UNSET && rg.end == UNSET) return SAPI::send_error(r.sapi_info, "", "416"); if(rg.start == UNSET && rg.end != UNSET){ if(rg.end == 0) return SAPI::send_error(r.sapi_info, "", "416"); if(rg.end > content_length) rg.end = content_length; rg.start = content_length - rg.end; rg.end = content_length-1; } else if(rg.start != UNSET && rg.end == UNSET){ if(rg.start >= content_length) return SAPI::send_error(r.sapi_info, "", "416"); rg.end = content_length-1; } else { if(rg.start >= content_length || rg.start > rg.end) return SAPI::send_error(r.sapi_info, "", "416"); if(rg.end >= content_length) rg.end = content_length-1; } offset = rg.start; part_length = rg.end-rg.start+1; char buf[MAX_STRING]; snprintf(buf, MAX_STRING, "bytes %.15g-%.15g/%.15g", (double)rg.start, (double)rg.end, (double)content_length); SAPI::add_header_attribute(r.sapi_info, HTTP_STATUS, "206"); SAPI::add_header_attribute(r.sapi_info, "content-range", buf); } else { return SAPI::send_error(r.sapi_info, count ? "Multiple ranges are not supported" : "Invalid range", count ? "501" : "400"); } } SAPI::add_header_attribute(r.sapi_info, HTTP_CONTENT_LENGTH, pa_uitoa(part_length)); if(add_last_modified) SAPI::add_header_attribute(r.sapi_info, "last-modified", attributed_meaning_to_string(date, String::L_AS_IS, true).cstr()); if(header_only){ SAPI::send_headers(r.sapi_info); } else { Send_range_action_info info = { &r, offset, part_length}; file_read_action_under_lock(r.full_disk_path(filename), "send", send_range, &info); } } void Request::output_result(VFile* body_file, bool header_only, bool as_attachment) { // header: cookies cookie.output_result(sapi_info); // $.file and $.name (when body is real vfile) Value* vfile = body_file->fields().get(response_body_file_name); Value* vname = body_file->fields().get(name_name); const String* sfile = vfile ? &vfile->as_string() : NULL; const String* sname = vname ? &vname->as_string() : NULL; if(sname && *sname == NONAME_DAT) sname = NULL; // Content-Disposition, use $.name[] to avoid const String* disposition_name = sname ? sname->is_empty() ? NULL : sname : sfile; if(disposition_name) { String& filename = *new String(pa_filename(disposition_name->cstr()), String::L_URI); String& filename_asterisk = *new String(charsets.client().NAME(), String::L_CLEAN) << (*new String("''")) << filename; VHash& hash=*new VHash(); hash.hash().put(value_name, new VString(as_attachment ? content_disposition_attachment : content_disposition_inline)); hash.hash().put(content_disposition_filename_name, new VString(filename)); hash.hash().put(content_disposition_filename_name_asterisk, new VString(filename_asterisk)); response.fields().put(content_disposition_name_upper, &hash); } // _file_ content-type might be specified Value* body_file_content_type = body_file->fields().get(content_type_name); if(!body_file_content_type){ const String* scontent_name = sname && !sname->is_empty() ? sname : sfile; if(scontent_name) body_file_content_type = new VString(mime_type_of(scontent_name->cstr())); } // set Content-Type if(body_file_content_type) { // body file content type response.fields().put(content_type_name_upper, body_file_content_type); } else { // default content type response.fields().put_dont_replace(content_type_name_upper, new VString(*new String(DEFAULT_CONTENT_TYPE))); } // prepare header: $response:fields without :body, :download and :charset Add_header_attribute_info info(*this); response.fields().for_each(add_header_attribute, &info); if(sfile) { // $response:[download|body][$.file[filespec]] -- optput specified file uint64_t content_length=0; time_t atime=0, mtime=0, ctime=0; file_stat(full_disk_path(*sfile), content_length, atime, mtime, ctime); VDate* vdate=0; if(Value* v=body_file->fields().get("mdate")) { vdate=dynamic_cast(v); if(!vdate) throw Exception(PARSER_RUNTIME, 0, "mdate must be a date"); } if(!vdate) vdate=new VDate((pa_time_t)mtime); output_pieces(*this, header_only, *sfile, content_length, *vdate, info.add_last_modified); } else { if(body_file_content_type) if(HashStringValue *hash=body_file_content_type->get_hash()) body_file_content_type=hash->get(value_name); output_sole_piece(*this, header_only, *body_file, body_file_content_type); } } const String& Request::mime_type_of(const String* file_name) { return mime_type_of(file_name?file_name->taint_cstr(String::L_FILE_SPEC):0); } const String& Request::mime_type_of(const char* user_file_name_cstr) { if(mime_types) if(const char* cext=strrchr(user_file_name_cstr, '.')) { String sext(++cext); Table::Action_options options; if(mime_types->locate(0, sext.change_case(charsets.source(), String::CC_LOWER), options)) { if(const String* result=mime_types->item(1)) return *result; else throw Exception(PARSER_RUNTIME, 0, MIME_TYPES_NAME " table column elements must not be empty"); } } return *new String("application/octet-stream"); } const String* Request::get_used_filespec(uint file_no){ if(file_no < file_list.count()) return new String(file_list[file_no], String::L_TAINTED); return 0; } #ifdef XML xmlChar* Request::transcode(const String& s) { return charsets.source().transcode(s); } xmlChar* Request::transcode(const String::Body s) { return charsets.source().transcode(s); } const String& Request::transcode(const xmlChar* s) { return charsets.source().transcode(s); } #endif Request::Exception_details Request::get_details(const Exception& e) { const String* problem_source=e.problem_source(); VHash& vhash=*new VHash; HashStringValue& hash=vhash.hash(); Operation::Origin origin={0, 0, 0}; if(!exception_trace.is_empty()) { Trace bottom=exception_trace.bottom_value(); origin=bottom.origin(); if(!problem_source) { // we don't know who trigged the bug problem_source=bottom.name(); // we usually know source of next-from-throw-point exception did that exception_trace.set_bottom_index(exception_trace.bottom_index()+1); } else if (bottom.name()==problem_source) { // it is that same guy? exception_trace.set_bottom_index(exception_trace.bottom_index()+1); // throw away that trace } else { // stack top contains not us, leaving intact to help ^throw } } // $.type if(const char* type=e.type(true)) hash.put(exception_type_part_name, new VString(*new String(type))); // $.source if(problem_source) hash.put(exception_source_part_name, new VString(*problem_source)); // $.file $.lineno $.colno if(origin.file_no){ HASH_PUT_CSTR(hash, "file", new VString(file_list[origin.file_no])); HASH_PUT_CSTR(hash, "lineno", new VInt(1+origin.line)); HASH_PUT_CSTR(hash, "colno", new VInt(1+origin.col)); } // $.comment if(const char* comment=e.comment(true)) hash.put(exception_comment_part_name, new VString(comment)); // $.handled(0) hash.put(exception_handled_part_name, &VBool::get(false)); return Request::Exception_details(origin, problem_source, vhash); } Temp_value_element::Temp_value_element(Request& arequest, Value& awhere, const String& aname, Value* awhat) : frequest(arequest), fwhere(awhere), fname(aname), saved(awhere.get_element(aname)) { Junction* junction; if(saved && (junction=saved->get_junction()) && junction->is_getter) saved=0; frequest.put_element(fwhere, aname, awhat); } Temp_value_element::~Temp_value_element() { frequest.put_element(fwhere, fname, saved ? saved : VVoid::get()); }