# CheckLocks Analyzer Checklocks is an analyzer for lock and atomic constraints. The analyzer relies on explicit annotations to identify fields that should be checked for access. ## Atomic annotations Individual struct members may be noted as requiring atomic access. These annotations are of the form: ```go type foo struct { // +checkatomic bar int32 } ``` This will ensure that all accesses to bar are atomic, with the exception of operations on newly allocated objects. ## Lock annotations Individual struct members may be protected by annotations that indicate locking requirements for accessing members. These annotations are of the form: ```go type foo struct { mu sync.Mutex // +checklocks:mu bar int foo int // No annotation on foo means it's not guarded by mu. secondMu sync.Mutex // Multiple annotations indicate that both must be held but the // checker does not assert any lock ordering. // +checklocks:secondMu // +checklocks:mu foobar int } ``` The checklocks annotation may also apply to functions. For example: ```go // +checklocks:f.mu func (f *foo) doThingLocked() { } ``` This will check that the "f.mu" is locked for any calls, where possible. In case of functions which initialize structs that may have annotations one can use the following annotation on the function to disable reporting by the lock checker. The lock checker will still track any mutexes acquired or released but won't report any failures for this function for unguarded field access. ```go // +checklocks:ignore func newXXX() *X { ... } ``` ***The checker treats both 'sync.Mutex' and 'sync.RWMutex' identically, i.e, as a sync.Mutex. The checker does not distinguish between read locks vs. exclusive locks and treats all locks as exclusive locks***. For cases the checker is able to correctly handle today please see test/test.go. The checklocks check also flags any invalid annotations where the mutex annotation refers either to something that is not a 'sync.Mutex' or 'sync.RWMutex' or where the field does not exist at all. This will prevent the annotations from becoming stale over time as fields are renamed, etc. # Currently not supported 1. Anonymous functions are not correctly evaluated. The analyzer does not currently support specifying annotations on anonymous functions as a result evaluation of a function that accesses protected fields will fail. ```go type A struct { mu sync.Mutex // +checklocks:mu x int } func abc() { var a A f := func() { a.x = 1 } <=== This line will be flagged by analyzer a.mu.Lock() f() a.mu.Unlock() } ``` ### Explicitly Not Supported 1. Checking for embedded mutexes as sync.Locker rather than directly as 'sync.Mutex'. In other words, the checker will not track mutex Lock and Unlock() methods where the mutex is behind an interface dispatch. An example that we won't handle is shown below (this in fact will fail to build): ```go type A struct { mu sync.Locker // +checklocks:mu x int } func abc() { mu sync.Mutex a := A{mu: &mu} a.x = 1 // This won't be flagged by copylocks checker. } ``` 1. The checker will not support guards on anything other than the cases described above. For example, global mutexes cannot be referred to by checklocks. Only struct members can be used. 2. The checker will not support checking for lock ordering violations. ## Mixed mode Some members may allow read-only atomic access, but be protected against writes by a mutex. Generally, this imposes the following requirements: For a read, one of the following must be true: 1. A lock held be held. 1. The access is atomic. For a write, both of the following must be true: 1. The lock must be held. 1. The write must be atomic. In order to annotate a relevant field, simply apply *both* annotations from above. For example: ```go type foo struct { mu sync.Mutex // +checklocks:mu // +checkatomic bar int32 } ```