// Copyright 2015 Google Inc. All rights reserved // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // +build ignore #include "eval.h" #include #include #include #include "expr.h" #include "file.h" #include "file_cache.h" #include "fileutil.h" #include "parser.h" #include "rule.h" #include "stmt.h" #include "strutil.h" #include "symtab.h" #include "var.h" Evaluator::Evaluator() : last_rule_(NULL), current_scope_(NULL), avoid_io_(false), eval_depth_(0), posix_sym_(Intern(".POSIX")), is_posix_(false), export_error_(false), kati_readonly_(Intern(".KATI_READONLY")) { #if defined(__APPLE__) stack_size_ = pthread_get_stacksize_np(pthread_self()); stack_addr_ = (char*)pthread_get_stackaddr_np(pthread_self()) - stack_size_; #else pthread_attr_t attr; CHECK(pthread_getattr_np(pthread_self(), &attr) == 0); CHECK(pthread_attr_getstack(&attr, &stack_addr_, &stack_size_) == 0); CHECK(pthread_attr_destroy(&attr) == 0); #endif lowest_stack_ = (char*)stack_addr_ + stack_size_; LOG_STAT("Stack size: %zd bytes", stack_size_); } Evaluator::~Evaluator() { // delete vars_; // for (auto p : rule_vars) { // delete p.second; // } } Var* Evaluator::EvalRHS(Symbol lhs, Value* rhs_v, StringPiece orig_rhs, AssignOp op, bool is_override) { VarOrigin origin = ((is_bootstrap_ ? VarOrigin::DEFAULT : is_commandline_ ? VarOrigin::COMMAND_LINE : is_override ? VarOrigin::OVERRIDE : VarOrigin::FILE)); Var* rhs = NULL; Var* prev = NULL; bool needs_assign = true; switch (op) { case AssignOp::COLON_EQ: { prev = PeekVarInCurrentScope(lhs); SimpleVar* sv = new SimpleVar(origin); rhs_v->Eval(this, sv->mutable_value()); rhs = sv; break; } case AssignOp::EQ: prev = PeekVarInCurrentScope(lhs); rhs = new RecursiveVar(rhs_v, origin, orig_rhs); break; case AssignOp::PLUS_EQ: { prev = LookupVarInCurrentScope(lhs); if (!prev->IsDefined()) { rhs = new RecursiveVar(rhs_v, origin, orig_rhs); } else if (prev->ReadOnly()) { Error(StringPrintf("*** cannot assign to readonly variable: %s", lhs.c_str())); } else { prev->AppendVar(this, rhs_v); rhs = prev; needs_assign = false; } break; } case AssignOp::QUESTION_EQ: { prev = LookupVarInCurrentScope(lhs); if (!prev->IsDefined()) { rhs = new RecursiveVar(rhs_v, origin, orig_rhs); } else { rhs = prev; needs_assign = false; } break; } } if (prev != NULL) { prev->Used(this, lhs); if (prev->Deprecated()) { if (needs_assign) { rhs->SetDeprecated(prev->DeprecatedMessage()); } } } LOG("Assign: %s=%s", lhs.c_str(), rhs->DebugString().c_str()); if (needs_assign) { return rhs; } return NULL; } void Evaluator::EvalAssign(const AssignStmt* stmt) { loc_ = stmt->loc(); last_rule_ = NULL; Symbol lhs = stmt->GetLhsSymbol(this); if (lhs.empty()) Error("*** empty variable name."); if (lhs == kati_readonly_) { string rhs; stmt->rhs->Eval(this, &rhs); for (auto const& name : WordScanner(rhs)) { Var* var = Intern(name).GetGlobalVar(); if (!var->IsDefined()) { Error( StringPrintf("*** unknown variable: %s", name.as_string().c_str())); } var->SetReadOnly(); } return; } Var* rhs = EvalRHS(lhs, stmt->rhs, stmt->orig_rhs, stmt->op, stmt->directive == AssignDirective::OVERRIDE); if (rhs) { bool readonly; lhs.SetGlobalVar(rhs, stmt->directive == AssignDirective::OVERRIDE, &readonly); if (readonly) { Error(StringPrintf("*** cannot assign to readonly variable: %s", lhs.c_str())); } } } void Evaluator::EvalRule(const RuleStmt* stmt) { loc_ = stmt->loc(); last_rule_ = NULL; const string&& expr = stmt->expr->Eval(this); // See semicolon.mk. if (expr.find_first_not_of(" \t;") == string::npos) { if (stmt->term == ';') Error("*** missing rule before commands."); return; } Rule* rule; RuleVarAssignment rule_var; function after_term_fn = [this, stmt]() { return stmt->after_term ? stmt->after_term->Eval(this) : ""; }; ParseRule(loc_, expr, stmt->term, after_term_fn, &rule, &rule_var); if (rule) { if (stmt->term == ';') { rule->cmds.push_back(stmt->after_term); } for (Symbol o : rule->outputs) { if (o == posix_sym_) is_posix_ = true; } LOG("Rule: %s", rule->DebugString().c_str()); rules_.push_back(rule); last_rule_ = rule; return; } Symbol lhs = Intern(rule_var.lhs); for (Symbol output : rule_var.outputs) { auto p = rule_vars_.emplace(output, nullptr); if (p.second) { p.first->second = new Vars; } Value* rhs = stmt->after_term; if (!rule_var.rhs.empty()) { Value* lit = NewLiteral(rule_var.rhs); if (rhs) { // TODO: We always insert two whitespaces around the // terminator. Preserve whitespaces properly. if (stmt->term == ';') { rhs = NewExpr3(lit, NewLiteral(StringPiece(" ; ")), rhs); } else { rhs = NewExpr3(lit, NewLiteral(StringPiece(" = ")), rhs); } } else { rhs = lit; } } current_scope_ = p.first->second; if (lhs == kati_readonly_) { string rhs_value; rhs->Eval(this, &rhs_value); for (auto const& name : WordScanner(rhs_value)) { Var* var = current_scope_->Lookup(Intern(name)); if (!var->IsDefined()) { Error(StringPrintf("*** unknown variable: %s", name.as_string().c_str())); } var->SetReadOnly(); } current_scope_ = NULL; continue; } Var* rhs_var = EvalRHS(lhs, rhs, StringPiece("*TODO*"), rule_var.op); if (rhs_var) { bool readonly; current_scope_->Assign(lhs, new RuleVar(rhs_var, rule_var.op), &readonly); if (readonly) { Error(StringPrintf("*** cannot assign to readonly variable: %s", lhs.c_str())); } } current_scope_ = NULL; } } void Evaluator::EvalCommand(const CommandStmt* stmt) { loc_ = stmt->loc(); if (!last_rule_) { vector stmts; ParseNotAfterRule(stmt->orig, stmt->loc(), &stmts); for (Stmt* a : stmts) a->Eval(this); return; } last_rule_->cmds.push_back(stmt->expr); if (last_rule_->cmd_lineno == 0) last_rule_->cmd_lineno = stmt->loc().lineno; LOG("Command: %s", stmt->expr->DebugString().c_str()); } void Evaluator::EvalIf(const IfStmt* stmt) { loc_ = stmt->loc(); bool is_true; switch (stmt->op) { case CondOp::IFDEF: case CondOp::IFNDEF: { string var_name; stmt->lhs->Eval(this, &var_name); Symbol lhs = Intern(TrimRightSpace(var_name)); if (lhs.str().find_first_of(" \t") != string::npos) Error("*** invalid syntax in conditional."); Var* v = LookupVarInCurrentScope(lhs); is_true = (v->String().empty() == (stmt->op == CondOp::IFNDEF)); break; } case CondOp::IFEQ: case CondOp::IFNEQ: { const string&& lhs = stmt->lhs->Eval(this); const string&& rhs = stmt->rhs->Eval(this); is_true = ((lhs == rhs) == (stmt->op == CondOp::IFEQ)); break; } default: CHECK(false); abort(); } const vector* stmts; if (is_true) { stmts = &stmt->true_stmts; } else { stmts = &stmt->false_stmts; } for (Stmt* a : *stmts) { LOG("%s", a->DebugString().c_str()); a->Eval(this); } } void Evaluator::DoInclude(const string& fname) { CheckStack(); Makefile* mk = MakefileCacheManager::Get()->ReadMakefile(fname); if (!mk->Exists()) { Error(StringPrintf("%s does not exist", fname.c_str())); } Var* var_list = LookupVar(Intern("MAKEFILE_LIST")); var_list->AppendVar(this, NewLiteral(Intern(TrimLeadingCurdir(fname)).str())); for (Stmt* stmt : mk->stmts()) { LOG("%s", stmt->DebugString().c_str()); stmt->Eval(this); } } void Evaluator::EvalInclude(const IncludeStmt* stmt) { loc_ = stmt->loc(); last_rule_ = NULL; const string&& pats = stmt->expr->Eval(this); for (StringPiece pat : WordScanner(pats)) { ScopedTerminator st(pat); vector* files; Glob(pat.data(), &files); if (stmt->should_exist) { if (files->empty()) { // TODO: Kati does not support building a missing include file. Error(StringPrintf("%s: %s", pat.data(), strerror(errno))); } } for (const string& fname : *files) { if (!stmt->should_exist && g_flags.ignore_optional_include_pattern && Pattern(g_flags.ignore_optional_include_pattern).Match(fname)) { continue; } DoInclude(fname); } } } void Evaluator::EvalExport(const ExportStmt* stmt) { loc_ = stmt->loc(); last_rule_ = NULL; const string&& exports = stmt->expr->Eval(this); for (StringPiece tok : WordScanner(exports)) { size_t equal_index = tok.find('='); StringPiece lhs; if (equal_index == string::npos) { lhs = tok; } else if (equal_index == 0 || (equal_index == 1 && (tok[0] == ':' || tok[0] == '?' || tok[0] == '+'))) { // Do not export tokens after an assignment. break; } else { StringPiece rhs; AssignOp op; ParseAssignStatement(tok, equal_index, &lhs, &rhs, &op); } Symbol sym = Intern(lhs); exports_[sym] = stmt->is_export; if (export_message_) { const char* prefix = ""; if (!stmt->is_export) { prefix = "un"; } if (export_error_) { Error(StringPrintf("*** %s: %sexport is obsolete%s.", sym.c_str(), prefix, export_message_->c_str())); } else { WARN_LOC(loc(), "%s: %sexport has been deprecated%s.", sym.c_str(), prefix, export_message_->c_str()); } } } } Var* Evaluator::LookupVarGlobal(Symbol name) { Var* v = name.GetGlobalVar(); if (v->IsDefined()) return v; used_undefined_vars_.insert(name); return v; } Var* Evaluator::LookupVar(Symbol name) { if (current_scope_) { Var* v = current_scope_->Lookup(name); if (v->IsDefined()) return v; } return LookupVarGlobal(name); } Var* Evaluator::PeekVar(Symbol name) { if (current_scope_) { Var* v = current_scope_->Peek(name); if (v->IsDefined()) return v; } return name.PeekGlobalVar(); } Var* Evaluator::LookupVarInCurrentScope(Symbol name) { if (current_scope_) { return current_scope_->Lookup(name); } return LookupVarGlobal(name); } Var* Evaluator::PeekVarInCurrentScope(Symbol name) { if (current_scope_) { return current_scope_->Peek(name); } return name.PeekGlobalVar(); } string Evaluator::EvalVar(Symbol name) { return LookupVar(name)->Eval(this); } string Evaluator::GetShell() { return EvalVar(kShellSym); } string Evaluator::GetShellFlag() { // TODO: Handle $(.SHELLFLAGS) return is_posix_ ? "-ec" : "-c"; } string Evaluator::GetShellAndFlag() { string shell = GetShell(); shell += ' '; shell += GetShellFlag(); return shell; } void Evaluator::Error(const string& msg) { ERROR_LOC(loc_, "%s", msg.c_str()); } void Evaluator::DumpStackStats() const { LOG_STAT("Max stack use: %zd bytes at %s:%d", ((char*)stack_addr_ - (char*)lowest_stack_) + stack_size_, LOCF(lowest_loc_)); } unordered_set Evaluator::used_undefined_vars_;