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#include <stdio.h>
#include <iostream>
#include <vector>
#include <map>
#include "util.h"
#include "bignum.h"
#include "opcodes.h"
struct programAux {
std::map<std::string, std::string> vars;
bool allocUsed;
bool calldataUsed;
int step;
int labelLength;
};
struct programData {
programAux aux;
Node code;
};
programAux Aux() {
programAux o;
o.allocUsed = false;
o.calldataUsed = false;
o.step = 0;
return o;
}
programData pd(programAux aux = Aux(), Node code=token("_")) {
programData o;
o.aux = aux;
o.code = code;
return o;
}
Node multiToken(Node nodes[], int len, Metadata met) {
std::vector<Node> out;
for (int i = 0; i < len; i++) {
out.push_back(nodes[i]);
}
return astnode("_", out, met);
}
Node finalize(programData c);
// Turns LLL tree into tree of code fragments
programData opcodeify(Node node, programAux aux=Aux()) {
std::string symb = "_"+mkUniqueToken();
Metadata m = node.metadata;
// Numbers
if (node.type == TOKEN) {
return pd(aux, nodeToNumeric(node));
}
else if (node.val == "ref" || node.val == "get" || node.val == "set") {
std::string varname = node.args[0].val;
if (!aux.vars.count(varname)) {
aux.vars[varname] = intToDecimal(aux.vars.size() * 32);
}
if (varname == "msg.data") aux.calldataUsed = true;
// Set variable
if (node.val == "set") {
programData sub = opcodeify(node.args[1], aux);
Node nodelist[] = {
sub.code,
token(aux.vars[varname], m),
token("MSTORE", m),
};
return pd(sub.aux, multiToken(nodelist, 3, m));
}
// Get variable
else if (node.val == "get") {
Node nodelist[] =
{ token(aux.vars[varname], m), token("MLOAD", m) };
return pd(aux, multiToken(nodelist, 2, m));
}
// Refer variable
else return pd(aux, token(aux.vars[varname], m));
}
// Code blocks
if (node.val == "lll" && node.args.size() == 2) {
if (node.args[1].val != "0") aux.allocUsed = true;
std::vector<Node> o;
o.push_back(finalize(opcodeify(node.args[0])));
programData sub = opcodeify(node.args[1], aux);
Node code = astnode("____CODE", o, m);
Node nodelist[] = {
token("$begincode"+symb+".endcode"+symb, m), token("DUP", m),
sub.code,
token("$begincode"+symb, m), token("CODECOPY", m),
token("$endcode"+symb, m), token("JUMP", m),
token("~begincode"+symb, m), code, token("~endcode"+symb, m)
};
return pd(sub.aux, multiToken(nodelist, 10, m));
}
std::vector<Node> subs;
for (unsigned i = 0; i < node.args.size(); i++) {
programData sub = opcodeify(node.args[i], aux);
aux = sub.aux;
subs.push_back(sub.code);
}
// Debug
if (node.val == "debug") {
Node nodelist[] = {
subs[0],
token("DUP", m), token("POP", m), token("POP", m)
};
return pd(aux, multiToken(nodelist, 4, m));
}
// Seq of multiple statements
if (node.val == "seq") {
return pd(aux, astnode("_", subs, m));
}
// 2-part conditional (if gets rewritten to unless in rewrites)
else if (node.val == "unless" && node.args.size() == 2) {
Node nodelist[] = {
subs[0],
token("$endif"+symb, m), token("JUMPI", m),
subs[1],
token("~endif"+symb, m)
};
return pd(aux, multiToken(nodelist, 5, m));
}
// 3-part conditional
else if (node.val == "if" && node.args.size() == 3) {
Node nodelist[] = {
subs[0],
token("NOT", m), token("$else"+symb, m), token("JUMPI", m),
subs[1],
token("$endif"+symb, m), token("JUMP", m), token("~else"+symb, m),
subs[2],
token("~endif"+symb, m)
};
return pd(aux, multiToken(nodelist, 10, m));
}
// While (rewritten to this in rewrites)
else if (node.val == "until") {
Node nodelist[] = {
token("~beg"+symb, m),
subs[0],
token("$end"+symb, m), token("JUMPI", m),
subs[1],
token("$beg"+symb, m), token("JUMP", m), token("~end"+symb, m)
};
return pd(aux, multiToken(nodelist, 8, m));
}
// Memory allocations
else if (node.val == "alloc") {
aux.allocUsed = true;
Node nodelist[] = {
subs[0],
token("MSIZE", m), token("SWAP", m), token("MSIZE", m),
token("ADD", m),
token("0", m), token("SWAP", m), token("MSTORE", m)
};
return pd(aux, multiToken(nodelist, 8, m));
}
// Array literals
else if (node.val == "array_lit") {
aux.allocUsed = true;
std::vector<Node> nodes;
if (!subs.size()) {
nodes.push_back(token("MSIZE", m));
return pd(aux, astnode("_", nodes, m));
}
nodes.push_back(token("MSIZE", m));
nodes.push_back(token("0", m));
nodes.push_back(token("MSIZE", m));
nodes.push_back(token(intToDecimal(subs.size() * 32 - 1), m));
nodes.push_back(token("ADD", m));
nodes.push_back(token("MSTORE8", m));
for (unsigned i = 0; i < subs.size(); i++) {
nodes.push_back(token("DUP", m));
nodes.push_back(subs[i]);
nodes.push_back(token("SWAP", m));
if (i > 0) {
nodes.push_back(token(intToDecimal(i * 32), m));
nodes.push_back(token("ADD", m));
}
nodes.push_back(token("MSTORE", m));
}
return pd(aux, astnode("_", nodes, m));
}
// All other functions/operators
else {
std::vector<Node> subs2;
while (subs.size()) {
subs2.push_back(subs.back());
subs.pop_back();
}
subs2.push_back(token(upperCase(node.val), m));
return pd(aux, astnode("_", subs2, m));
}
}
// Adds necessary wrappers to a program
Node finalize(programData c) {
std::vector<Node> bottom;
Metadata m = c.code.metadata;
// If we are using both alloc and variables, we need to pre-zfill
// some memory
if (c.aux.allocUsed && c.aux.vars.size() > 0) {
Node nodelist[] = {
token("0", m),
token(intToDecimal(c.aux.vars.size() * 32 - 1)),
token("MSTORE8", m)
};
bottom.push_back(multiToken(nodelist, 3, m));
}
// If msg.data is being used as an array, then we need to copy it
if (c.aux.calldataUsed) {
Node nodelist[] = {
token("MSIZE", m), token("CALLDATASIZE", m), token("MSIZE", m),
token("0", m), token("CALLDATACOPY", m),
token(c.aux.vars["msg.data"], m), token("MSTORE", m)
};
bottom.push_back(multiToken(nodelist, 7, m));
}
// The actual code
bottom.push_back(c.code);
return astnode("_", bottom, m);
}
//LLL -> code fragment tree
Node buildFragmentTree(Node node) {
return finalize(opcodeify(node));
}
// Builds a dictionary mapping labels to variable names
programAux buildDict(Node program, programAux aux, int labelLength) {
Metadata m = program.metadata;
// Token
if (program.type == TOKEN) {
if (isNumberLike(program)) {
aux.step += 1 + toByteArr(program.val, m).size();
}
else if (program.val[0] == '~') {
aux.vars[program.val.substr(1)] = intToDecimal(aux.step);
}
else if (program.val[0] == '$') {
aux.step += labelLength + 1;
}
else aux.step += 1;
}
// A sub-program (ie. LLL)
else if (program.val == "____CODE") {
programAux auks = Aux();
for (unsigned i = 0; i < program.args.size(); i++) {
auks = buildDict(program.args[i], auks, labelLength);
}
for (std::map<std::string,std::string>::iterator it=auks.vars.begin();
it != auks.vars.end();
it++) {
aux.vars[(*it).first] = (*it).second;
}
aux.step += auks.step;
}
// Normal sub-block
else {
for (unsigned i = 0; i < program.args.size(); i++) {
aux = buildDict(program.args[i], aux, labelLength);
}
}
return aux;
}
// Applies that dictionary
Node substDict(Node program, programAux aux, int labelLength) {
Metadata m = program.metadata;
std::vector<Node> out;
std::vector<Node> inner;
if (program.type == TOKEN) {
if (program.val[0] == '$') {
std::string tokStr = "PUSH"+intToDecimal(labelLength);
out.push_back(token(tokStr, m));
int dotLoc = program.val.find('.');
if (dotLoc == -1) {
std::string val = aux.vars[program.val.substr(1)];
inner = toByteArr(val, m, labelLength);
}
else {
std::string start = aux.vars[program.val.substr(1, dotLoc-1)],
end = aux.vars[program.val.substr(dotLoc + 1)],
dist = decimalSub(end, start);
inner = toByteArr(dist, m, labelLength);
}
out.push_back(astnode("_", inner, m));
}
else if (program.val[0] == '~') { }
else if (isNumberLike(program)) {
inner = toByteArr(program.val, m);
out.push_back(token("PUSH"+intToDecimal(inner.size())));
out.push_back(astnode("_", inner, m));
}
else return program;
}
else {
for (unsigned i = 0; i < program.args.size(); i++) {
Node n = substDict(program.args[i], aux, labelLength);
if (n.type == TOKEN || n.args.size()) out.push_back(n);
}
}
return astnode("_", out, m);
}
// Compiled fragtree -> compiled fragtree without labels
Node dereference(Node program) {
int sz = treeSize(program) * 4;
int labelLength = 1;
while (sz >= 256) { labelLength += 1; sz /= 256; }
programAux aux = buildDict(program, Aux(), labelLength);
return substDict(program, aux, labelLength);
}
// Dereferenced fragtree -> opcodes
std::vector<Node> flatten(Node derefed) {
std::vector<Node> o;
if (derefed.type == TOKEN) {
o.push_back(derefed);
}
else {
for (unsigned i = 0; i < derefed.args.size(); i++) {
std::vector<Node> oprime = flatten(derefed.args[i]);
for (unsigned j = 0; j < oprime.size(); j++) o.push_back(oprime[j]);
}
}
return o;
}
// Opcodes -> bin
std::string serialize(std::vector<Node> codons) {
std::string o;
for (unsigned i = 0; i < codons.size(); i++) {
int v;
if (isNumberLike(codons[i])) {
v = decimalToInt(codons[i].val);
}
else if (codons[i].val.substr(0,4) == "PUSH") {
v = 95 + decimalToInt(codons[i].val.substr(4));
}
else {
v = opcode(codons[i].val);
}
o += (char)v;
}
return o;
}
// Bin -> opcodes
std::vector<Node> deserialize(std::string ser) {
std::vector<Node> o;
int backCount = 0;
for (unsigned i = 0; i < ser.length(); i++) {
unsigned char v = (unsigned char)ser[i];
std::string oper = op((int)v);
if (oper != "" && backCount <= 0) o.push_back(token(oper));
else if (v >= 96 && v < 128 && backCount <= 0) {
o.push_back(token("PUSH"+intToDecimal(v - 95)));
}
else o.push_back(token(intToDecimal(v)));
if (v >= 96 && v < 128 && backCount <= 0) {
backCount = v - 95;
}
else backCount--;
}
return o;
}
// Fragtree -> bin
std::string assemble(Node fragTree) {
return serialize(flatten(dereference(fragTree)));
}
// Fragtree -> tokens
std::vector<Node> prettyAssemble(Node fragTree) {
return flatten(dereference(fragTree));
}
// LLL -> bin
std::string compileLLL(Node program) {
return assemble(buildFragmentTree(program));
}
// LLL -> tokens
std::vector<Node> prettyCompileLLL(Node program) {
return prettyAssemble(buildFragmentTree(program));
}
// Converts a list of integer values to binary transaction data
std::string encodeDatalist(std::vector<std::string> vals) {
std::string o;
for (unsigned i = 0; i < vals.size(); i++) {
std::vector<Node> n = toByteArr(strToNumeric(vals[i]), Metadata(), 32);
for (unsigned j = 0; j < n.size(); j++) {
int v = decimalToInt(n[j].val);
o += (char)v;
}
}
return o;
}
// Converts binary transaction data into a list of integer values
std::vector<std::string> decodeDatalist(std::string ser) {
std::vector<std::string> out;
for (unsigned i = 0; i < ser.length(); i+= 32) {
std::string o = "0";
for (unsigned j = i; j < i + 32; j++) {
int vj = (int)(unsigned char)ser[j];
o = decimalAdd(decimalMul(o, "256"), intToDecimal(vj));
}
out.push_back(o);
}
return out;
}