80 lines
3.2 KiB
Go
80 lines
3.2 KiB
Go
/*
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Package stm provides Software Transactional Memory operations for Go. This is
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an alternative to the standard way of writing concurrent code (channels and
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mutexes). STM makes it easy to perform arbitrarily complex operations in an
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atomic fashion. One of its primary advantages over traditional locking is that
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STM transactions are composable, whereas locking functions are not -- the
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composition will either deadlock or release the lock between functions (making
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it non-atomic).
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To begin, create an STM object that wraps the data you want to access
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concurrently.
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x := stm.NewVar(3)
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You can then use the Atomically method to atomically read and/or write the the
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data. This code atomically decrements x:
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stm.Atomically(func(tx *stm.Tx) {
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cur := tx.Get(x).(int)
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tx.Set(x, cur-1)
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})
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An important part of STM transactions is retrying. At any point during the
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transaction, you can call tx.Retry(), which will abort the transaction, but
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not cancel it entirely. The call to Atomically will block until another call
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to Atomically finishes, at which point the transaction will be rerun.
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Specifically, one of the values read by the transaction (via tx.Get) must be
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updated before the transaction will be rerun. As an example, this code will
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try to decrement x, but will block as long as x is zero:
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stm.Atomically(func(tx *stm.Tx) {
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cur := tx.Get(x).(int)
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if cur == 0 {
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tx.Retry()
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}
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tx.Set(x, cur-1)
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})
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Internally, tx.Retry simply calls panic(stm.Retry). Panicking with any other
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value will cancel the transaction; no values will be changed. However, it is
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the responsibility of the caller to catch such panics.
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Multiple transactions can be composed using Select. If the first transaction
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calls Retry, the next transaction will be run, and so on. If all of the
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transactions call Retry, the call will block and the entire selection will be
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retried. For example, this code implements the "decrement-if-nonzero"
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transaction above, but for two values. It will first try to decrement x, then
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y, and block if both values are zero.
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func dec(v *stm.Var) {
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return func(tx *stm.Tx) {
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cur := tx.Get(v).(int)
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if cur == 0 {
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tx.Retry()
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}
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tx.Set(v, cur-1)
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}
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}
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// Note that Select does not perform any work itself, but merely
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// returns a transaction function.
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stm.Atomically(stm.Select(dec(x), dec(y)))
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An important caveat: transactions must be idempotent (they should have the
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same effect every time they are invoked). This is because a transaction may be
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retried several times before successfully completing, meaning its side effects
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may execute more than once. This will almost certainly cause incorrect
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behavior. One common way to get around this is to build up a list of impure
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operations inside the transaction, and then perform them after the transaction
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completes.
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The stm API tries to mimic that of Haskell's Control.Concurrent.STM, but this
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is not entirely possible due to Go's type system; we are forced to use
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interface{} and type assertions. Furthermore, Haskell can enforce at compile
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time that STM variables are not modified outside the STM monad. This is not
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possible in Go, so be especially careful when using pointers in your STM code.
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Remember: modifying a pointer is a side effect!
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*/
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package stm
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