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#include <stdio.h>
#include <iostream>
#include <vector>
#include <map>
#include "util.h"
#include "lllparser.h"
#include "bignum.h"
std::string valid[][3] = {
{ "if", "2", "3" },
{ "unless", "2", "2" },
{ "while", "2", "2" },
{ "until", "2", "2" },
{ "code", "1", "2" },
{ "init", "2", "2" },
{ "shared", "2", "3" },
{ "alloc", "1", "1" },
{ "array", "1", "1" },
{ "call", "2", "4" },
{ "create", "1", "4" },
{ "msg", "4", "6" },
{ "getch", "2", "2" },
{ "setch", "3", "3" },
{ "sha3", "1", "2" },
{ "return", "1", "2" },
{ "inset", "1", "1" },
{ "array_lit", "0", tt256 },
{ "seq", "0", tt256 },
{ "---END---", "", "" } //Keep this line at the end of the list
};
std::string macros[][2] = {
{
"(+= $a $b)",
"(set $a (+ $a $b))"
},
{
"(*= $a $b)",
"(set $a (* $a $b))"
},
{
"(-= $a $b)",
"(set $a (- $a $b))"
},
{
"(/= $a $b)",
"(set $a (/ $a $b))"
},
{
"(%= $a $b)",
"(set $a (% $a $b))"
},
{
"(^= $a $b)",
"(set $a (^ $a $b))"
},
{
"(@/= $a $b)",
"(set $a (@/ $a $b))"
},
{
"(@%= $a $b)",
"(set $a (@% $a $b))"
},
{
"(!= $a $b)",
"(not (eq $a $b))"
},
{
"(if $cond $do (else $else))",
"(if $cond $do $else)"
},
{
"(code $code)",
"$code"
},
{
"(access msg.data $ind)",
"(calldataload (mul 32 $ind))"
},
{
"(array $len)",
"(alloc (mul 32 $len))"
},
{
"(while $cond $do)",
"(until (not $cond) $do)",
},
{
"(while (not $cond) $do)",
"(until $cond $do)",
},
{
"(if $cond $do)",
"(unless (not $cond) $do)",
},
{
"(if (not $cond) $do)",
"(unless $cond $do)",
},
{
"(access contract.storage $ind)",
"(sload $ind)"
},
{
"(access $var $ind)",
"(mload (add $var (mul 32 $ind)))"
},
{
"(set (access contract.storage $ind) $val)",
"(sstore $ind $val)"
},
{
"(set (access $var $ind) $val)",
"(mstore (add $var (mul 32 $ind)) $val)"
},
{
"(getch $var $ind)",
"(mod (mload (add $var $ind)) 256)"
},
{
"(setch $var $ind $val)",
"(mstore8 (add $var $ind) $val)",
},
{
"(send $to $value)",
"(call (sub (gas) 25) $to $value 0 0 0 0)"
},
{
"(send $gas $to $value)",
"(call $gas $to $value 0 0 0 0)"
},
{
"(sha3 $x)",
"(seq (set $1 $x) (~sha3 (ref $1) 32))"
},
{
"(sha3 $mstart $msize)",
"(~sha3 $mstart (mul 32 $msize))"
},
{
"(id $0)",
"$0"
},
{
"(return $x)",
"(seq (set $1 $x) (~return (ref $1) 32))"
},
{
"(return $start $len)",
"(~return $start (mul 32 $len))"
},
{
"(&& $x $y)",
"(if $x $y 0)"
},
{
"(|| $x $y)",
"(seq (set $1 $x) (if (get $1) (get $1) $y))"
},
{
"(>= $x $y)",
"(not (slt $x $y))"
},
{
"(<= $x $y)",
"(not (sgt $x $y))"
},
{
"(@>= $x $y)",
"(not (lt $x $y))"
},
{
"(@<= $x $y)",
"(not (gt $x $y))"
},
{
"(create $code)",
"(create 0 $code)"
},
{
"(create $endowment $code)",
"(seq (set $1 (msize)) (create $endowment (get $1) (lll (outer $code) (msize))))"
},
{
"(call $f $dataval)",
"(msg (sub (gas) 45) $f 0 $dataval)"
},
{
"(call $f $inp $inpsz)",
"(msg (sub (gas) 25) $f 0 $inp $inpsz)"
},
{
"(call $f $inp $inpsz $outsz)",
"(seq (set $1 $outsz) (set $2 (alloc (mul 32 (get $1)))) (pop (call (sub (gas) (add 25 (get $1))) $f 0 $inp (mul 32 $inpsz) (get $2) (mul 32 (get $1)))) (get $2))"
},
{
"(msg $gas $to $val $inp $inpsz)",
"(seq (call $gas $to $val $inp (mul 32 $inpsz) (ref $1) 32) (get $1))"
},
{
"(msg $gas $to $val $dataval)",
"(seq (set $1 $dataval) (call $gas $to $val (ref $1) 32 (ref $2) 32) (get $2))"
},
{
"(msg $gas $to $val $inp $inpsz $outsz)",
"(seq (set $1 (mul 32 $outsz)) (set $2 (alloc (get $1))) (pop (call $gas $to $val $inp (mul 32 $inpsz) (get $2) (get $1))) (get $2))"
},
{
"(outer (init $init $code))",
"(seq $init (~return 0 (lll $code 0)))"
},
{
"(outer (shared $shared (init $init (code $code))))",
"(seq $shared $init (~return 0 (lll (seq $shared $code) 0)))"
},
{
"(outer $code)",
"(~return 0 (lll $code 0))"
},
{
"(seq (seq) $x)",
"$x"
},
{
"(inset $x)",
"$x"
},
{
"(create $x)",
"(seq (set $1 (msize)) (create $val (get $1) (lll $code (get $1))))"
},
{ "msg.datasize", "(div (calldatasize) 32)" },
{ "msg.sender", "(caller)" },
{ "msg.value", "(callvalue)" },
{ "tx.gasprice", "(gasprice)" },
{ "tx.origin", "(origin)" },
{ "tx.gas", "(gas)" },
{ "contract.balance", "(balance)" },
{ "contract.address", "(address)" },
{ "block.prevhash", "(prevhash)" },
{ "block.coinbase", "(coinbase)" },
{ "block.timestamp", "(timestamp)" },
{ "block.number", "(number)" },
{ "block.difficulty", "(difficulty)" },
{ "block.gaslimit", "(gaslimit)" },
{ "stop", "(stop)" },
{ "---END---", "" } //Keep this line at the end of the list
};
std::vector<std::vector<Node> > nodeMacros;
std::string synonyms[][2] = {
{ "or", "||" },
{ "and", "&&" },
{ "elif", "if" },
{ "!", "not" },
{ "string", "alloc" },
{ "+", "add" },
{ "-", "sub" },
{ "*", "mul" },
{ "/", "sdiv" },
{ "^", "exp" },
{ "**", "exp" },
{ "%", "smod" },
{ "@/", "div" },
{ "@%", "mod" },
{ "@<", "lt" },
{ "@>", "gt" },
{ "<", "slt" },
{ ">", "sgt" },
{ "=", "set" },
{ "==", "eq" },
{ "---END---", "" } //Keep this line at the end of the list
};
struct matchResult {
bool success;
std::map<std::string, Node> map;
};
// Returns two values. First, a boolean to determine whether the node matches
// the pattern, second, if the node does match then a map mapping variables
// in the pattern to nodes
matchResult match(Node p, Node n) {
matchResult o;
o.success = false;
if (p.type == TOKEN) {
if (p.val == n.val && n.type == TOKEN) o.success = true;
else if (p.val[0] == '$') {
o.success = true;
o.map[p.val.substr(1)] = n;
}
}
else if (n.type==TOKEN || p.val!=n.val || p.args.size()!=n.args.size()) {
}
else {
for (unsigned i = 0; i < p.args.size(); i++) {
matchResult oPrime = match(p.args[i], n.args[i]);
if (!oPrime.success) {
o.success = false;
return o;
}
for (std::map<std::string, Node>::iterator it = oPrime.map.begin();
it != oPrime.map.end();
it++) {
o.map[(*it).first] = (*it).second;
}
}
o.success = true;
}
return o;
}
// Fills in the pattern with a dictionary mapping variable names to
// nodes (these dicts are generated by match). Match and subst together
// create a full pattern-matching engine.
Node subst(Node pattern,
std::map<std::string, Node> dict,
std::string varflag,
Metadata metadata) {
if (pattern.type == TOKEN && pattern.val[0] == '$') {
if (dict.count(pattern.val.substr(1))) {
return dict[pattern.val.substr(1)];
}
else {
return token(varflag + pattern.val.substr(1), metadata);
}
}
else if (pattern.type == TOKEN) {
return pattern;
}
else {
std::vector<Node> args;
for (unsigned i = 0; i < pattern.args.size(); i++) {
args.push_back(subst(pattern.args[i], dict, varflag, metadata));
}
return astnode(pattern.val, args, metadata);
}
}
// array_lit transform
Node array_lit_transform(Node node) {
std::vector<Node> o1;
o1.push_back(token(intToDecimal(node.args.size() * 32), node.metadata));
std::vector<Node> o2;
std::string symb = "_temp"+mkUniqueToken()+"_0";
o2.push_back(token(symb, node.metadata));
o2.push_back(astnode("alloc", o1, node.metadata));
std::vector<Node> o3;
o3.push_back(astnode("set", o2, node.metadata));
for (unsigned i = 0; i < node.args.size(); i++) {
// (mstore (add (get symb) i*32) v)
std::vector<Node> o5;
o5.push_back(token(symb, node.metadata));
std::vector<Node> o6;
o6.push_back(astnode("get", o5, node.metadata));
o6.push_back(token(intToDecimal(i * 32), node.metadata));
std::vector<Node> o7;
o7.push_back(astnode("add", o6));
o7.push_back(node.args[i]);
o3.push_back(astnode("mstore", o7, node.metadata));
}
std::vector<Node> o8;
o8.push_back(token(symb, node.metadata));
o3.push_back(astnode("get", o8));
return astnode("seq", o3, node.metadata);
}
// Recursively applies rewrite rules
Node apply_rules(Node node) {
// If the rewrite rules have not yet been parsed, parse them
if (!nodeMacros.size()) {
for (int i = 0; i < 9999; i++) {
std::vector<Node> o;
if (macros[i][0] == "---END---") break;
o.push_back(parseLLL(macros[i][0]));
o.push_back(parseLLL(macros[i][1]));
nodeMacros.push_back(o);
}
}
// Main code
unsigned pos = 0;
std::string prefix = "_temp"+mkUniqueToken()+"_";
while(1) {
if (synonyms[pos][0] == "---END---") {
break;
}
else if (node.type == ASTNODE && node.val == synonyms[pos][0]) {
node.val = synonyms[pos][1];
}
pos++;
}
for (pos = 0; pos < nodeMacros.size(); pos++) {
Node pattern = nodeMacros[pos][0];
matchResult mr = match(pattern, node);
if (mr.success) {
Node pattern2 = nodeMacros[pos][1];
node = subst(pattern2, mr.map, prefix, node.metadata);
pos = 0;
}
}
// Array_lit special instruction
if (node.val == "array_lit")
node = array_lit_transform(node);
if (node.type == ASTNODE && node.val != "ref" && node.val != "get") {
unsigned i = 0;
if (node.val == "set") {
node.args[0].val = "'" + node.args[0].val;
i = 1;
}
for (i = i; i < node.args.size(); i++) {
node.args[i] = apply_rules(node.args[i]);
}
}
else if (node.type == TOKEN && !isNumberLike(node)) {
node.val = "'" + node.val;
std::vector<Node> args;
args.push_back(node);
node = astnode("get", args, node.metadata);
}
// This allows people to use ~x as a way of having functions with the same
// name and arity as macros; the idea is that ~x is a "final" form, and
// should not be remacroed, but it is converted back at the end
if (node.type == ASTNODE && node.val[0] == '~')
node.val = node.val.substr(1);
return node;
}
Node optimize(Node inp) {
if (inp.type == TOKEN) return tryNumberize(inp);
for (unsigned i = 0; i < inp.args.size(); i++) {
inp.args[i] = optimize(inp.args[i]);
}
if (inp.args.size() == 2
&& inp.args[0].type == TOKEN
&& inp.args[1].type == TOKEN) {
std::string o;
if (inp.val == "add") {
o = decimalMod(decimalAdd(inp.args[0].val, inp.args[1].val), tt256);
}
else if (inp.val == "sub") {
if (decimalGt(inp.args[0].val, inp.args[1].val, true))
o = decimalSub(inp.args[0].val, inp.args[1].val);
}
else if (inp.val == "mul") {
o = decimalMod(decimalMul(inp.args[0].val, inp.args[1].val), tt256);
}
else if (inp.val == "div" && inp.args[1].val != "0") {
o = decimalDiv(inp.args[0].val, inp.args[1].val);
}
else if (inp.val == "sdiv" && inp.args[1].val != "0"
&& decimalGt(tt255, inp.args[0].val)
&& decimalGt(tt255, inp.args[1].val)) {
o = decimalDiv(inp.args[0].val, inp.args[1].val);
}
else if (inp.val == "mod" && inp.args[1].val != "0") {
o = decimalMod(inp.args[0].val, inp.args[1].val);
}
else if (inp.val == "smod" && inp.args[1].val != "0"
&& decimalGt(tt255, inp.args[0].val)
&& decimalGt(tt255, inp.args[1].val)) {
o = decimalMod(inp.args[0].val, inp.args[1].val);
}
if (o.length()) return token(o, inp.metadata);
}
return inp;
}
Node validate(Node inp) {
if (inp.type == ASTNODE) {
int i = 0;
while(valid[i][0] != "---END---") {
if (inp.val == valid[i][0]) {
if (decimalGt(valid[i][1], intToDecimal(inp.args.size()))) {
err("Too few arguments for "+inp.val, inp.metadata);
}
if (decimalGt(intToDecimal(inp.args.size()), valid[i][2])) {
err("Too many arguments for "+inp.val, inp.metadata);
}
}
i++;
}
}
for (unsigned i = 0; i < inp.args.size(); i++) validate(inp.args[i]);
return inp;
}
Node preprocess(Node inp) {
std::vector<Node> args;
args.push_back(inp);
return astnode("outer", args, inp.metadata);
}
Node rewrite(Node inp) {
return optimize(apply_rules(validate(preprocess(inp))));
}
using namespace std;