/** @file
Parser: @b ROOT parser class.
Copyright (c) 2001 ArtLebedev Group (http://www.artlebedev.com)
Author: Alexander Petrosyan <paf@design.ru> (http://design.ru/paf)
$Id: op.C,v 1.2 2001/04/06 10:32:16 paf Exp $
*/
#include "pa_config_includes.h"
#include <math.h>
#include "pa_common.h"
#include "pa_request.h"
#include "_op.h"
#include "pa_vint.h"
#include "pa_sql_connection.h"
static void _if(Request& r, const String& method_name, Array *params) {
Value& condition_code=*static_cast<Value *>(params->get(0));
// forcing ^if(this param type)
r.fail_if_junction_(false, condition_code,
method_name, "condition must be expression");
bool condition=r.process(condition_code,
0/*no name*/,
false/*don't intercept string*/).as_bool();
if(condition) {
Value& then_code=*static_cast<Value *>(params->get(1));
// forcing ^if{this param type}
r.fail_if_junction_(false, then_code,
method_name, "then-parameter must be code");
r.write_pass_lang(r.process(then_code));
} else if(params->size()==3) {
Value& else_code=*static_cast<Value *>(params->get(2));
// forcing ^if{this param type}
r.fail_if_junction_(false, else_code,
method_name, "else-parameter must be code");
r.write_pass_lang(r.process(else_code));
}
}
static void _untaint(Request& r, const String& method_name, Array *params) {
Pool& pool=r.pool();
const String& lang_name=r.process(*static_cast<Value *>(params->get(0))).as_string();
String::Untaint_lang lang=static_cast<String::Untaint_lang>(
untaint_lang_name2enum->get_int(lang_name));
if(!lang)
PTHROW(0, 0,
&lang_name,
"invalid untaint language");
{
Value *vbody=static_cast<Value *>(params->get(1));
// forcing ^untaint[]{this param type}
r.fail_if_junction_(false, *vbody,
method_name, "body must be code");
Temp_lang temp_lang(r, lang); // set temporarily specified ^untaint[language;
r.write_pass_lang(r.process(*vbody)); // process marking tainted with that lang
}
}
static void _taint(Request& r, const String& method_name, Array *params) {
Pool& pool=r.pool();
String::Untaint_lang lang;
if(params->size()==1)
lang=String::UL_TAINTED; // mark as simply 'tainted'. useful in table:set
else {
const String& lang_name=r.process(*static_cast<Value *>(params->get(0))).as_string();
lang=static_cast<String::Untaint_lang>(
untaint_lang_name2enum->get_int(lang_name));
if(!lang)
PTHROW(0, 0,
&lang_name,
"invalid taint language");
}
{
Value& vbody=*static_cast<Value *>(params->get(params->size()-1));
// forcing [this param type]
r.fail_if_junction_(true, vbody, method_name, "body must not be code");
String result(r.pool());
result.append(
vbody.as_string(), // process marking tainted with that lang
lang, true); // force result language to specified
r.write_pass_lang(result);
}
}
static void _process(Request& r, const String& method_name, Array *params) {
// calculate pseudo file name of processed chars
// would be something like "/some/file(4) process"
char place[MAX_STRING];
#ifndef NO_STRING_ORIGIN
const Origin& origin=method_name.origin();
snprintf(place, MAX_STRING, "%s(%d) %s",
origin.file, 1+origin.line,
method_name.cstr());
#else
strncpy(place, MAX_STRING, method_name.cstr());
#endif
VStateless_class& self_class=*r.self->get_class();
{
// temporary zero @main so to maybe-replace it in processed code
Temp_method temp_method_main(self_class, *main_method_name, 0);
// temporary zero @auto so it wouldn't be auto-called in Request::use_buf
Temp_method temp_method_auto(self_class, *auto_method_name, 0);
// evaluate source to process
const String& source=
r.process(*static_cast<Value *>(params->get(0))).as_string();
// process source code, append processed methods to 'self' class
// maybe-define new @main
r.use_buf(source.cstr(), place, &self_class);
// maybe-execute @main[]
if(const Method *method=self_class.get_method(*main_method_name)) {
// execute!
r.execute(*method->parser_code);
}
}
}
static void _rem(Request& r, const String& method_name, Array *params) {
// forcing ^rem{this param type}
r.fail_if_junction_(false, *static_cast<Value *>(params->get(0)),
method_name, "body must be code");
}
static void _while(Request& r, const String& method_name, Array *params) {
Pool& pool=r.pool();
Value& vcondition=*static_cast<Value *>(params->get(0));
// forcing ^while(this param type){}
r.fail_if_junction_(false, vcondition,
method_name, "condition must be expression");
Value& body=*static_cast<Value *>(params->get(1));
// forcing ^while(){this param type}
r.fail_if_junction_(false, body,
method_name, "body must be code");
// while...
int endless_loop_count=0;
while(true) {
if(++endless_loop_count>=1973) // endless loop?
PTHROW(0, 0,
&method_name,
"endless loop detected");
bool condition=
r.process(
vcondition,
0/*no name*/,
false/*don't intercept string*/).as_bool();
if(!condition) // ...condition is true
break;
// write processed body
r.write_pass_lang(r.process(body));
}
}
static void _use(Request& r, const String& method_name, Array *params) {
Value& vfile=*static_cast<Value *>(params->get(0));
// forcing ^rem{this param type}
r.fail_if_junction_(true, vfile,
method_name, "file name must not be code");
r.use_file(r.absolute(vfile.as_string()));
}
static void _for(Request& r, const String& method_name, Array *params) {
// ^for[i;from-number;to-number-inclusive]{code}[delim]
Pool& pool=r.pool();
const String& var_name=r.process(*static_cast<Value *>(params->get(0))).as_string();
int from=(int)r.process(*static_cast<Value *>(params->get(1))).as_double();
int to=(int)r.process(*static_cast<Value *>(params->get(2))).as_double();
Value& body_code=*static_cast<Value *>(params->get(3));
// forcing ^menu{this param type}
r.fail_if_junction_(false, body_code,
method_name, "body must be code");
Value *delim_code=params->size()==3+1+1?static_cast<Value *>(params->get(3+1)):0;
bool need_delim=false;
VInt *vint=new(pool) VInt(pool, 0);
int endless_loop_count=0;
for(int i=from; i<=to; i++) {
if(++endless_loop_count>=2001) // endless loop?
PTHROW(0, 0,
&method_name,
"endless loop detected");
vint->set_int(i);
r.wcontext->put_element(var_name, vint);
Value& processed_body=r.process(body_code);
if(delim_code) { // delimiter set?
const String *string=processed_body.get_string();
if(need_delim && string && string->size()) // need delim & iteration produced string?
r.write_pass_lang(r.process(*delim_code));
need_delim=true;
}
r.write_pass_lang(processed_body);
}
}
static void _eval(Request& r, const String& method_name, Array *params) {
Value& expr=*static_cast<Value *>(params->get(0));
r.fail_if_junction_(false, expr,
method_name, "need expression");
// evaluate expresion
Value *result=r.process(expr,
0/*no name*/,
true/*don't intercept string*/).as_expr_result();
if(params->size()==2) {
Value& fmt=*static_cast<Value *>(params->get(1));
// forcing ^format[this param type]
r.fail_if_junction_(true, fmt,
method_name, "fmt must not be code");
Pool& pool=r.pool();
String& string=*new(pool) String(pool);
string.APPEND_CONST(format(pool, result->as_double(), fmt.as_string().cstr()));
result=new(pool) VString(string);
}
r.write_no_lang(*result);
}
typedef double (*math_one_double_op_func_ptr)(double);
static double round(double op) { return floor(op+0.5); }
static double sign(double op) { return op > 0 ? 1 : ( op < 0 ? -1 : 0 ); }
static void double_one_op(
Request& r,
const String& method_name, Array *params,
math_one_double_op_func_ptr func) {
Pool& pool=r.pool();
Value& param=*static_cast<Value *>(params->get(0));
// forcing ^round(this param type)
r.fail_if_junction_(false, param,
method_name, "parameter must be expression");
Value& result=*new(pool) VDouble(pool, (*func)(r.process(param).as_double()));
r.write_no_lang(result);
}
static void _round(Request& r, const String& method_name, Array *params) {
double_one_op(r, method_name, params, &round);
}
static void _floor(Request& r, const String& method_name, Array *params) {
double_one_op(r, method_name, params, &floor);
}
static void _ceiling(Request& r, const String& method_name, Array *params) {
double_one_op(r, method_name, params, &ceil);
}
static void _abs(Request& r, const String& method_name, Array *params) {
double_one_op(r, method_name, params, &fabs);
}
static void _sign(Request& r, const String& method_name, Array *params) {
double_one_op(r, method_name, params, &sign);
}
/// ^connect[protocol://user:pass@host[:port]/database]{code with ^sql-s}
/**
@test make params not Array but something with useful method for extracting,
with typecast and junction/not test
*/
static void _connect(Request& r, const String& method_name, Array *params) {
Pool& pool=r.pool();
Value& url=*static_cast<Value *>(params->get(0));
r.fail_if_junction_(true, url,
method_name, "url must not be code");
Value& body_code=*static_cast<Value *>(params->get(1));
r.fail_if_junction_(false, body_code,
method_name, "body must be code");
// connect
SQL_Connection& connection=SQL_driver_manager->get_connection(
url.as_string(), r.protocol2library);
Exception rethrow_me;
// remember/set current connection
SQL_Connection *saved_connection=r.connection;
r.connection=&connection;
// execute body
bool body_failed=false;
PTRY
r.write_assign_lang(r.process(body_code));
PCATCH(e) { // connect/process problem
rethrow_me=e; body_failed=true;
}
PEND_CATCH
bool finalizer_failed=false;
PTRY
// FINALLY
if(body_failed)
connection.rollback();
else
connection.commit();
PCATCH(e) { // commit/rollback problem
rethrow_me=e; finalizer_failed=true;
}
PEND_CATCH
// close connection [cache it]
connection.close();
// recall current connection from remembered
r.connection=saved_connection;
if(body_failed || finalizer_failed) // were there an exception for us to rethrow?
PTHROW(rethrow_me.type(), rethrow_me.code(),
rethrow_me.problem_source(),
rethrow_me.comment());
}
// initialize
void initialize_op_class(Pool& pool, VStateless_class& vclass) {
// ^if(condition){code-when-true}
// ^if(condition){code-when-true}{code-when-false}
vclass.add_native_method("if", Method::CT_ANY, _if, 2, 3);
// ^untaint[as-is|uri|sql|js|html|html-typo]{code}
vclass.add_native_method("untaint", Method::CT_ANY, _untaint, 2, 2);
// ^taint[as-is|uri|sql|js|html|html-typo]{code}
vclass.add_native_method("taint", Method::CT_ANY, _taint, 1, 2);
// ^process[code]
vclass.add_native_method("process", Method::CT_ANY, _process, 1, 1);
// ^rem{code}
vclass.add_native_method("rem", Method::CT_ANY, _rem, 1, 1);
// ^while(condition){code}
vclass.add_native_method("while", Method::CT_ANY, _while, 2, 2);
// ^use[file]
vclass.add_native_method("use", Method::CT_ANY, _use, 1, 1);
// ^for[i;from-number;to-number-inclusive]{code}[delim]
vclass.add_native_method("for", Method::CT_ANY, _for, 3+1, 3+1+1);
// ^eval(expr)
// ^eval(expr)[format]
vclass.add_native_method("eval", Method::CT_ANY, _eval, 1, 2);
// math functions
// ^round(expr)
vclass.add_native_method("round", Method::CT_ANY, _round, 1, 1);
// ^floor(expr)
vclass.add_native_method("floor", Method::CT_ANY, _floor, 1, 1);
// ^ceiling(expr)
vclass.add_native_method("ceiling", Method::CT_ANY, _ceiling, 1, 1);
// ^abs(expr)
vclass.add_native_method("abs", Method::CT_ANY, _abs, 1, 1);
// ^sign(expr)
vclass.add_native_method("sign", Method::CT_ANY, _sign, 1, 1);
// connect
// ^connect[protocol://user:pass@host[:port]/database]{code with ^sql-s}
vclass.add_native_method("connect", Method::CT_ANY, _connect, 2, 2);
}
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