package keeper import ( "fmt" sdk "github.com/cosmos/cosmos-sdk/types" ) // cachedContext is a pair of cache context and its corresponding commit method. // They are obtained from the return value of `context.CacheContext()`. type cachedContext struct { ctx sdk.Context commit func() } // ContextStack manages the initial context and a stack of cached contexts, // to support the `StateDB.Snapshot` and `StateDB.RevertToSnapshot` methods. type ContextStack struct { // Context of the initial state before transaction execution. // It's the context used by `StateDB.CommitedState`. initialCtx sdk.Context cachedContexts []cachedContext } // CurrentContext returns the top context of cached stack, // if the stack is empty, returns the initial context. func (cs *ContextStack) CurrentContext() sdk.Context { l := len(cs.cachedContexts) if l == 0 { return cs.initialCtx } return cs.cachedContexts[l-1].ctx } // Reset sets the initial context and clear the cache context stack. func (cs *ContextStack) Reset(ctx sdk.Context) { cs.initialCtx = ctx if len(cs.cachedContexts) > 0 { cs.cachedContexts = []cachedContext{} } } // IsEmpty returns true if the cache context stack is empty. func (cs *ContextStack) IsEmpty() bool { return len(cs.cachedContexts) == 0 } // Commit commits all the cached contexts from top to bottom in order and clears the stack by setting an empty slice of cache contexts. func (cs *ContextStack) Commit() { // commit in order from top to bottom for i := len(cs.cachedContexts) - 1; i >= 0; i-- { // keep all the cosmos events cs.initialCtx.EventManager().EmitEvents(cs.cachedContexts[i].ctx.EventManager().Events()) if cs.cachedContexts[i].commit == nil { panic(fmt.Sprintf("commit function at index %d should not be nil", i)) } else { cs.cachedContexts[i].commit() } } cs.cachedContexts = []cachedContext{} } // CommitToRevision commit the cache after the target revision, // to improve efficiency of db operations. func (cs *ContextStack) CommitToRevision(target int) { if target < 0 || target >= len(cs.cachedContexts) { panic(fmt.Errorf("snapshot index %d out of bound [%d..%d)", target, 0, len(cs.cachedContexts))) } targetCtx := cs.cachedContexts[target].ctx // commit in order from top to bottom for i := len(cs.cachedContexts) - 1; i > target; i-- { // keep all the cosmos events targetCtx.EventManager().EmitEvents(cs.cachedContexts[i].ctx.EventManager().Events()) if cs.cachedContexts[i].commit == nil { panic(fmt.Sprintf("commit function at index %d should not be nil", i)) } else { cs.cachedContexts[i].commit() } } cs.cachedContexts = cs.cachedContexts[0 : target+1] } // Snapshot pushes a new cached context to the stack, // and returns the index of it. func (cs *ContextStack) Snapshot() int { i := len(cs.cachedContexts) ctx, commit := cs.CurrentContext().CacheContext() cs.cachedContexts = append(cs.cachedContexts, cachedContext{ctx: ctx, commit: commit}) return i } // RevertToSnapshot pops all the cached contexts after the target index (inclusive). // the target should be snapshot index returned by `Snapshot`. // This function panics if the index is out of bounds. func (cs *ContextStack) RevertToSnapshot(target int) { if target < 0 || target >= len(cs.cachedContexts) { panic(fmt.Errorf("snapshot index %d out of bound [%d..%d)", target, 0, len(cs.cachedContexts))) } cs.cachedContexts = cs.cachedContexts[:target] } // RevertAll discards all the cache contexts. func (cs *ContextStack) RevertAll() { if len(cs.cachedContexts) > 0 { cs.RevertToSnapshot(0) } }