package compiler import ( "fmt" "go/ast" "go/constant" "go/types" "golang.org/x/tools/go/loader" ) var ( // Go language builtin functions and custom builtin utility functions. builtinFuncs = []string{ "len", "append", "SHA256", "SHA1", "Hash256", "Hash160", "VerifySignature", "AppCall", "FromAddress", "Equals", "panic", } ) // typeAndValueForField returns a zero initialized typeAndValue for the given type.Var. func typeAndValueForField(fld *types.Var) (types.TypeAndValue, error) { switch t := fld.Type().(type) { case *types.Basic: switch t.Kind() { case types.Int: return types.TypeAndValue{ Type: t, Value: constant.MakeInt64(0), }, nil case types.String: return types.TypeAndValue{ Type: t, Value: constant.MakeString(""), }, nil case types.Bool, types.UntypedBool: return types.TypeAndValue{ Type: t, Value: constant.MakeBool(false), }, nil default: return types.TypeAndValue{}, fmt.Errorf("could not initialize struct field %s to zero, type: %s", fld.Name(), t) } } return types.TypeAndValue{}, nil } // countGlobals counts the global variables in the program to add // them with the stack size of the function. func countGlobals(f ast.Node) (i int64) { ast.Inspect(f, func(node ast.Node) bool { switch node.(type) { // Skip all function declarations. case *ast.FuncDecl: return false // After skipping all funcDecls we are sure that each value spec // is a global declared variable or constant. case *ast.ValueSpec: i++ } return true }) return } // isIdentBool looks if the given ident is a boolean. func isIdentBool(ident *ast.Ident) bool { return ident.Name == "true" || ident.Name == "false" } // isExprNil looks if the given expression is a `nil`. func isExprNil(e ast.Expr) bool { v, ok := e.(*ast.Ident) return ok && v.Name == "nil" } // makeBoolFromIdent creates a bool type from an *ast.Ident. func makeBoolFromIdent(ident *ast.Ident, tinfo *types.Info) (types.TypeAndValue, error) { var b bool switch ident.Name { case "true": b = true case "false": b = false default: return types.TypeAndValue{}, fmt.Errorf("givent identifier cannot be converted to a boolean => %s", ident.Name) } return types.TypeAndValue{ Type: tinfo.ObjectOf(ident).Type(), Value: constant.MakeBool(b), }, nil } // resolveEntryPoint returns the function declaration of the entrypoint and the corresponding file. func resolveEntryPoint(entry string, pkg *loader.PackageInfo) (*ast.FuncDecl, *ast.File) { var ( main *ast.FuncDecl file *ast.File ) for _, f := range pkg.Files { ast.Inspect(f, func(n ast.Node) bool { switch t := n.(type) { case *ast.FuncDecl: if t.Name.Name == entry { main = t file = f return false } } return true }) } return main, file } // indexOfStruct returns the index of the given field inside that struct. // If the struct does not contain that field it will return -1. func indexOfStruct(strct *types.Struct, fldName string) int { for i := 0; i < strct.NumFields(); i++ { if strct.Field(i).Name() == fldName { return i } } return -1 } type funcUsage map[string]bool func (f funcUsage) funcUsed(name string) bool { _, ok := f[name] return ok } // lastStmtIsReturn checks if last statement of the declaration was return statement.. func lastStmtIsReturn(decl *ast.FuncDecl) (b bool) { if l := len(decl.Body.List); l != 0 { _, ok := decl.Body.List[l-1].(*ast.ReturnStmt) return ok } return false } func analyzeFuncUsage(pkgs map[*types.Package]*loader.PackageInfo) funcUsage { usage := funcUsage{} for _, pkg := range pkgs { for _, f := range pkg.Files { ast.Inspect(f, func(node ast.Node) bool { switch n := node.(type) { case *ast.CallExpr: switch t := n.Fun.(type) { case *ast.Ident: usage[t.Name] = true case *ast.SelectorExpr: usage[t.Sel.Name] = true } } return true }) } } return usage } func isBuiltin(expr ast.Expr) bool { var name string switch t := expr.(type) { case *ast.Ident: name = t.Name case *ast.SelectorExpr: name = t.Sel.Name default: return false } for _, n := range builtinFuncs { if name == n { return true } } return false } func (c *codegen) isCompoundArrayType(t ast.Expr) bool { switch s := t.(type) { case *ast.ArrayType: return true case *ast.Ident: arr, ok := c.typeInfo.Types[s].Type.Underlying().(*types.Slice) return ok && !isByte(arr.Elem()) } return false } func isByte(t types.Type) bool { e, ok := t.(*types.Basic) return ok && e.Kind() == types.Byte } func (c *codegen) isStructType(t ast.Expr) (int, bool) { switch s := t.(type) { case *ast.StructType: return s.Fields.NumFields(), true case *ast.Ident: st, ok := c.typeInfo.Types[s].Type.Underlying().(*types.Struct) if ok { return st.NumFields(), true } } return 0, false } func isByteArray(lit *ast.CompositeLit, tInfo *types.Info) bool { if len(lit.Elts) == 0 { if typ, ok := lit.Type.(*ast.ArrayType); ok { if name, ok := typ.Elt.(*ast.Ident); ok { return name.Name == "byte" || name.Name == "uint8" } } return false } typ := tInfo.Types[lit.Elts[0]].Type.Underlying() return isByte(typ) } func isSyscall(fun *funcScope) bool { if fun.selector == nil { return false } _, ok := syscalls[fun.selector.Name][fun.name] return ok } func isByteArrayType(t types.Type) bool { return t.String() == "[]byte" } func isStringType(t types.Type) bool { return t.String() == "string" }