embark/lib/modules/coverage/contract_source.js

350 lines
11 KiB
JavaScript

const SourceMap = require('./source_map');
class ContractSource {
constructor(file, path, body) {
let self = this;
this.file = file;
this.path = path;
this.body = body;
this.lineLengths = body.split("\n").map((line) => { return line.length; });
this.lineCount = this.lineLengths.length;
this.lineOffsets = this.lineLengths.reduce((sum, _elt, i) => {
sum[i] = (i === 0) ? 0 : self.lineLengths[i-1] + sum[i-1] + 1;
return sum;
}, []);
this.contracts = {};
}
sourceMapToLocations(sourceMap) {
var [offset, length, ..._] = sourceMap.split(":").map((val) => {
return parseInt(val, 10);
});
var locations = {};
for(let i = 0; i < this.lineCount; i++) {
if(this.lineOffsets[i+1] <= offset) continue;
locations.start = {line: i, column: offset - this.lineOffsets[i]};
break;
}
for(var i = locations.start.line; i < this.lineCount; i++) {
if(this.lineOffsets[i+1] <= offset + length) continue;
locations.end = {line: i, column: ((offset + length) - this.lineOffsets[i])};
break;
}
// Ensure we return an "end" as a safeguard if the marker ends up to be
// or surpass the offset for last character.
if(!locations.end) {
var lastLine = this.lineCount - 1;
locations.end = {line: lastLine, column: this.lineLengths[lastLine]};
}
// Istanbul likes lines to be 1-indexed, so we'll increment here before returning.
locations.start.line++;
locations.end.line++;
return locations;
}
parseSolcOutput(source, contracts) {
this.id = source.id;
this.ast = source.ast;
this.contractBytecode = {};
for(var contractName in contracts) {
this.contractBytecode[contractName] = {};
var contract = contracts[contractName];
var bytecodeMapping = this.contractBytecode[contractName];
var opcodes = contract.evm.deployedBytecode.opcodes.trim().split(' ');
var sourceMaps = contract.evm.deployedBytecode.sourceMap.split(';');
var bytecodeIdx = 0;
var pc = 0;
var instructions = 0;
var previousSourceMap = null;
do {
let sourceMap;
if(previousSourceMap === null) {
sourceMap = new SourceMap(sourceMaps[instructions]);
} else {
sourceMap = previousSourceMap.createRelativeTo(sourceMaps[instructions]);
}
var instruction = opcodes[bytecodeIdx];
var length = this._instructionLength(instruction);
bytecodeMapping[pc] = {
instruction: instruction,
sourceMap: sourceMap,
jump: sourceMap.jump,
seen: false
};
pc += length;
instructions++;
bytecodeIdx += (length > 1) ? 2 : 1;
previousSourceMap = sourceMap;
} while(bytecodeIdx < opcodes.length);
}
}
isInterface() {
return this.contractBytecode !== undefined &&
Object.values(this.contractBytecode).every((contractBytecode) => { return (Object.values(contractBytecode).length <= 1); });
}
/*eslint complexity: ["error", 40]*/
generateCodeCoverage(trace) {
if(!this.ast || !this.contractBytecode) throw new Error('Error generating coverage: solc output was not assigned');
let coverage = {
code: this.body.trim().split("\n"),
l: {},
path: this.path,
s: {},
b: {},
f: {},
fnMap: {},
statementMap: {},
branchMap: {}
};
var nodesRequiringVisiting = [this.ast];
var sourceMapToNodeType = {};
do {
let node = nodesRequiringVisiting.pop();
if(!node) continue;
let children = [];
let markLocations = [];
let location;
switch(node.nodeType) {
case 'Assignment':
case 'EventDefinition':
case 'ImportDirective':
case 'Literal':
case 'PlaceholderStatement':
case 'PragmaDirective':
case 'StructDefinition':
case 'VariableDeclaration':
// We don't need to do anything with these. Just carry on.
break;
case 'IfStatement': {
location = this.sourceMapToLocations(node.src);
let trueBranchLocation = this.sourceMapToLocations(node.trueBody.src);
let declarationSourceMap = new SourceMap(node.src).subtract(new SourceMap(node.trueBody.src));
let declarationLocation = this.sourceMapToLocations(declarationSourceMap.toString());
var falseBranchLocation;
if(node.falseBody) {
falseBranchLocation = this.sourceMapToLocations(node.falseBody.src);
} else {
falseBranchLocation = trueBranchLocation;
}
coverage.b[node.id] = [0,0];
coverage.branchMap[node.id] = {
type: 'if',
locations: [trueBranchLocation, falseBranchLocation],
line: location.start.line
};
markLocations = [declarationLocation];
children = [node.condition];
let trueExpression = (node.trueBody && node.trueBody.statements && node.trueBody.statements[0]) || node.trueBody;
if(trueExpression) {
children = children.concat(trueExpression);
trueExpression._parent = {type: 'b', id: node.id, idx: 0};
}
let falseExpression = (node.falseBody && node.falseBody.statements && node.falseBody.statements[0]) || node.falseBody;
if(falseExpression) {
children = children.concat(falseExpression);
falseExpression._parent = {type: 'b', id: node.id, idx: 1};
}
sourceMapToNodeType[node.src] = [{type: 'b', id: node.id, body: {loc: location}}];
break;
}
case 'EmitStatement': {
children = [node.eventCall];
break;
}
case 'BinaryOperation':
case 'ExpressionStatement':
case 'FunctionCall':
case 'Identifier':
case 'Return':
case 'UnaryOperation':
coverage.s[node.id] = 0;
location = this.sourceMapToLocations(node.src);
coverage.statementMap[node.id] = location;
if(!sourceMapToNodeType[node.src]) sourceMapToNodeType[node.src] = [];
sourceMapToNodeType[node.src].push({
type: 's',
id: node.id,
body: {loc: coverage.statementMap[node.id]},
parent: node._parent
});
markLocations = [location];
break;
case 'ContractDefinition':
case 'SourceUnit':
children = node.nodes;
break;
case 'ModifierDefinition':
case 'FunctionDefinition':
// Istanbul only wants the function definition, not the body, so we're
// going to do some fun math here.
var functionSourceMap = new SourceMap(node.src);
var functionParametersSourceMap = new SourceMap(node.parameters.src);
var functionDefinitionSourceMap = new SourceMap(
functionSourceMap.offset,
(functionParametersSourceMap.offset + functionParametersSourceMap.length) - functionSourceMap.offset
).toString();
var fnName = node.isConstructor ? "(constructor)" : node.name;
location = this.sourceMapToLocations(functionDefinitionSourceMap);
coverage.f[node.id] = 0;
coverage.fnMap[node.id] = {
name: fnName,
line: location.start.line,
loc: location
};
// Record function positions.
sourceMapToNodeType[node.src] = [{type: 'f', id: node.id, body: coverage.fnMap[node.id]}];
if(node.body) children = node.body.statements;
markLocations = [location];
break;
case 'ForStatement': {
// For statements will be a bit of a special case. We want to count the body
// iterations but we only want to count the for loop being hit once. Because
// of this, we cover the initialization on the node.
let sourceMap = new SourceMap(node.src);
let bodySourceMap = new SourceMap(node.body.src);
let forLoopDeclaration = sourceMap.subtract(bodySourceMap).toString();
location = this.sourceMapToLocations(forLoopDeclaration);
let markExpression = node.initializationExpression || node.loopExpression;
let expressionLocation = this.sourceMapToLocations(markExpression.src);
if(!sourceMapToNodeType[markExpression.src]) sourceMapToNodeType[markExpression.src] = [];
sourceMapToNodeType[markExpression.src].push({type: 's', id: node.id, body: {loc: location}});
markLocations = [expressionLocation];
coverage.s[node.id] = 0;
coverage.statementMap[node.id] = location;
children = node.body.statements;
break;
}
case 'VariableDeclarationStatement': {
location = this.sourceMapToLocations(node.src);
coverage.s[node.id] = 0;
coverage.statementMap[node.id] = location;
markLocations = [location];
if(!sourceMapToNodeType[node.src]) sourceMapToNodeType[node.src] = [];
sourceMapToNodeType[node.src].push({type: 's', id: node.id, body: {loc: location}, foo: 'bar'});
break;
}
default:
//console.log(`Don't know how to handle node type ${node.nodeType}`);
break;
}
nodesRequiringVisiting = nodesRequiringVisiting.concat(children);
markLocations.forEach((location) => {
for(var i = location.start.line; i <= location.end.line; i++) {
coverage.l[i] = 0;
}
});
} while(nodesRequiringVisiting.length > 0);
var contractMatches = true;
for(var contractName in this.contractBytecode) {
var bytecode = this.contractBytecode[contractName];
// Try to match the contract to the bytecode. If it doesn't,
// then we bail.
contractMatches = trace.structLogs.every((step) => { return bytecode[step.pc]; });
if(!contractMatches) continue;
trace.structLogs.forEach((step) => {
step = bytecode[step.pc];
if(!step.sourceMap || step.sourceMap === '' || step.sourceMap === SourceMap.empty()) return;
let sourceMapString = step.sourceMap.toString(this.id);
var nodes = sourceMapToNodeType[sourceMapString];
if(!nodes) return;
nodes.forEach((node) => {
// Skip duplicate function reports by only reporting when there is a jump.
if(node.type == 'f' && step.jump) return;
if(node.type != 'b' && node.body && node.body.loc) {
for(var line = node.body.loc.start.line; line <= node.body.loc.end.line; line++) {
coverage.l[line]++;
}
}
if(node.type != 'b') coverage[node.type][node.id]++;
if(!node.parent) return;
switch(node.parent.type) {
case 'b':
coverage.b[node.parent.id][node.parent.idx]++;
break;
default:
// do nothing
}
});
});
}
return coverage;
}
_instructionLength(instruction) {
if(instruction.indexOf('PUSH') == -1) return 1;
return parseInt(instruction.match(/PUSH(\d+)/m)[1], 10) + 1;
}
}
module.exports = ContractSource;