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cache.go
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cache.go
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package starlight
import (
"fmt"
"sync"
"sync/atomic"
"unsafe"
"go.starlark.net/starlark"
)
// The following code is copied from the starlark-go repo,
// https://go.starlark.net/starlark and is Copyright 2017 the Bazel authors,
// with a BSD 3-clause license (see the LICENSE file in that repo).
// cache is a concurrency-safe, duplicate-suppressing,
// non-blocking cache of the doLoad function.
// See Section 9.7 of gopl.io for an explanation of this structure.
// It also features online deadlock (load cycle) detection.
type cache struct {
cacheMu sync.Mutex
cache map[string]*entry
globals starlark.StringDict
readFile func(s string) ([]byte, error)
}
type entry struct {
owner unsafe.Pointer // a *cycleChecker; see cycleCheck
globals starlark.StringDict
err error
ready chan struct{}
}
func (c *cache) Load(module string) (starlark.StringDict, error) {
return c.get(new(cycleChecker), module)
}
func (c *cache) remove(module string) {
c.cacheMu.Lock()
delete(c.cache, module)
c.cacheMu.Unlock()
}
func (c *cache) reset() {
c.cacheMu.Lock()
c.cache = make(map[string]*entry)
c.cacheMu.Unlock()
}
// get loads and returns an entry (if not already loaded).
func (c *cache) get(cc *cycleChecker, module string) (starlark.StringDict, error) {
c.cacheMu.Lock()
e := c.cache[module]
if e != nil {
c.cacheMu.Unlock()
// Some other goroutine is getting this module.
// Wait for it to become ready.
// Detect load cycles to avoid deadlocks.
if err := cycleCheck(e, cc); err != nil {
return nil, err
}
cc.setWaitsFor(e)
<-e.ready
cc.setWaitsFor(nil)
} else {
// First request for this module.
e = &entry{ready: make(chan struct{})}
c.cache[module] = e
c.cacheMu.Unlock()
e.setOwner(cc)
e.globals, e.err = c.doLoad(cc, module)
e.setOwner(nil)
// Broadcast that the entry is now ready.
close(e.ready)
}
return e.globals, e.err
}
func (c *cache) doLoad(cc *cycleChecker, module string) (starlark.StringDict, error) {
thread := &starlark.Thread{
Print: func(_ *starlark.Thread, msg string) { fmt.Println(msg) },
Load: func(_ *starlark.Thread, module string) (starlark.StringDict, error) {
// Tunnel the cycle-checker state for this "thread of loading".
return c.get(cc, module)
},
}
b, err := c.readFile(module)
if err != nil {
return nil, err
}
return starlark.ExecFile(thread, module, b, c.globals)
}
// -- concurrent cycle checking --
// A cycleChecker is used for concurrent deadlock detection.
// Each top-level call to Load creates its own cycleChecker,
// which is passed to all recursive calls it makes.
// It corresponds to a logical thread in the deadlock detection literature.
type cycleChecker struct {
waitsFor unsafe.Pointer // an *entry; see cycleCheck
}
func (cc *cycleChecker) setWaitsFor(e *entry) {
atomic.StorePointer(&cc.waitsFor, unsafe.Pointer(e))
}
func (e *entry) setOwner(cc *cycleChecker) {
atomic.StorePointer(&e.owner, unsafe.Pointer(cc))
}
// cycleCheck reports whether there is a path in the waits-for graph
// from resource 'e' to thread 'me'.
//
// The waits-for graph (WFG) is a bipartite graph whose nodes are
// alternately of type entry and cycleChecker. Each node has at most
// one outgoing edge. An entry has an "owner" edge to a cycleChecker
// while it is being readied by that cycleChecker, and a cycleChecker
// has a "waits-for" edge to an entry while it is waiting for that entry
// to become ready.
//
// Before adding a waits-for edge, the cache checks whether the new edge
// would form a cycle. If so, this indicates that the load graph is
// cyclic and that the following wait operation would deadlock.
func cycleCheck(e *entry, me *cycleChecker) error {
for e != nil {
cc := (*cycleChecker)(atomic.LoadPointer(&e.owner))
if cc == nil {
break
}
if cc == me {
return fmt.Errorf("cycle in load graph")
}
e = (*entry)(atomic.LoadPointer(&cc.waitsFor))
}
return nil
}