// Copyright 2020 The gVisor Authors. // // 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. package checklocks import ( "fmt" "go/token" "strconv" "strings" ) const ( checkLocksAnnotation = "// +checklocks:" checkLocksAcquires = "// +checklocksacquire:" checkLocksReleases = "// +checklocksrelease:" checkLocksIgnore = "// +checklocksignore" checkLocksForce = "// +checklocksforce" checkLocksFail = "// +checklocksfail" checkAtomicAnnotation = "// +checkatomic" ) // failData indicates an expected failure. type failData struct { pos token.Pos count int seen int } // positionKey is a simple position string. type positionKey string // positionKey converts from a token.Pos to a key we can use to track failures // as the position of the failure annotation is not the same as the position of // the actual failure (different column/offsets). Hence we ignore these fields // and only use the file/line numbers to track failures. func (pc *passContext) positionKey(pos token.Pos) positionKey { position := pc.pass.Fset.Position(pos) return positionKey(fmt.Sprintf("%s:%d", position.Filename, position.Line)) } // addFailures adds an expected failure. func (pc *passContext) addFailures(pos token.Pos, s string) { count := 1 if len(s) > 0 && s[0] == ':' { parsedCount, err := strconv.Atoi(s[1:]) if err != nil { pc.pass.Reportf(pos, "unable to parse failure annotation %q: %v", s[1:], err) return } count = parsedCount } pc.failures[pc.positionKey(pos)] = &failData{ pos: pos, count: count, } } // addExemption adds an exemption. func (pc *passContext) addExemption(pos token.Pos) { pc.exemptions[pc.positionKey(pos)] = struct{}{} } // addForce adds a force annotation. func (pc *passContext) addForce(pos token.Pos) { pc.forced[pc.positionKey(pos)] = struct{}{} } // maybeFail checks a potential failure against a specific failure map. func (pc *passContext) maybeFail(pos token.Pos, fmtStr string, args ...interface{}) { if fd, ok := pc.failures[pc.positionKey(pos)]; ok { fd.seen++ return } if _, ok := pc.exemptions[pc.positionKey(pos)]; ok { return // Ignored, not counted. } pc.pass.Reportf(pos, fmtStr, args...) } // checkFailure checks for the expected failure counts. func (pc *passContext) checkFailures() { for _, fd := range pc.failures { if fd.count != fd.seen { // We are missing expect failures, report as much as possible. pc.pass.Reportf(fd.pos, "got %d failures, want %d failures", fd.seen, fd.count) } } } // extractAnnotations extracts annotations from text. func (pc *passContext) extractAnnotations(s string, fns map[string]func(p string)) { for prefix, fn := range fns { if strings.HasPrefix(s, prefix) { fn(s[len(prefix):]) } } } // extractLineFailures extracts all line-based exceptions. // // Note that this applies only to individual line exemptions, and does not // consider function-wide exemptions, or specific field exemptions, which are // extracted separately as part of the saved facts for those objects. func (pc *passContext) extractLineFailures() { for _, f := range pc.pass.Files { for _, cg := range f.Comments { for _, c := range cg.List { pc.extractAnnotations(c.Text, map[string]func(string){ checkLocksFail: func(p string) { pc.addFailures(c.Pos(), p) }, checkLocksIgnore: func(string) { pc.addExemption(c.Pos()) }, checkLocksForce: func(string) { pc.addForce(c.Pos()) }, }) } } } }