Files
steipete--codexbar/Sources/CodexBar/UsageStore+BackgroundRefresh.swift
T
2026-07-13 12:22:33 +08:00

102 lines
4.4 KiB
Swift

import CodexBarCore
import Foundation
@MainActor
extension UsageStore {
struct ProviderPublicationRevision: Equatable {
let cleanupRevision: UInt64
let enablementRevision: UInt64
}
/// Invalidates in-flight provider work and clears its transient runtime/UI state.
/// Settings, token-account configuration, historical datasets, credits/dashboard caches,
/// and disk-backed Codex account snapshots intentionally remain owned by their existing lifetimes.
func clearProviderState(_ provider: UsageProvider) {
self.providerRefreshCoordinator.invalidateRequests(for: provider)
self.clearProviderRuntimeState(provider)
}
/// The active refresh uses this when it discovers its own provider is disabled. Its replacing
/// request already invalidated predecessors, so canceling the current coordinator state here
/// would make it cancel itself before its waiters can drain.
func clearProviderRuntimeState(_ provider: UsageProvider) {
self.providerCleanupRevisions[provider, default: 0] &+= 1
self.refreshingProviders.remove(provider)
self.snapshots.removeValue(forKey: provider)
self.lastKnownResetSnapshots.removeValue(forKey: provider)
self.errors[provider] = nil
if provider == .gemini {
self.clearGeminiConsumerTierDeprecationObservation()
}
self.knownLimitsAvailabilityByProvider.removeValue(forKey: provider)
self.lastSourceLabels.removeValue(forKey: provider)
self.lastFetchAttempts.removeValue(forKey: provider)
self.accountSnapshots.removeValue(forKey: provider)
self.tokenAccountLiveStateProviders.remove(provider)
if provider == .codex {
self.codexAccountSnapshots = []
self.lastCodexUsagePublicationGuard = nil
}
if provider == .kilo {
self.kiloScopeSnapshots = []
}
if provider == .claude {
self.clearClaudeSwapAccountState()
}
self.tokenSnapshots.removeValue(forKey: provider)
self.tokenErrors[provider] = nil
self.providerStorageFootprints.removeValue(forKey: provider)
self.failureGates[provider]?.reset()
self.tokenFailureGates[provider]?.reset()
self.statuses.removeValue(forKey: provider)
self.statusComponents.removeValue(forKey: provider)
self.clearSessionQuotaTransitionState(provider: provider)
self.predictivePaceWarningNotifiedKeys = Set(
self.predictivePaceWarningNotifiedKeys.filter { $0.provider != provider })
self.quotaWarningState = self.quotaWarningState.filter { $0.key.provider != provider }
self.lastTokenFetchAt.removeValue(forKey: provider)
self.lastTokenFetchScope.removeValue(forKey: provider)
}
func providerCleanupRevision(for provider: UsageProvider) -> UInt64 {
self.providerCleanupRevisions[provider, default: 0]
}
func providerCleanupRevisionIsCurrent(_ revision: UInt64, for provider: UsageProvider) -> Bool {
self.providerCleanupRevision(for: provider) == revision
}
func providerPublicationRevision(for provider: UsageProvider) -> ProviderPublicationRevision {
ProviderPublicationRevision(
cleanupRevision: self.providerCleanupRevision(for: provider),
enablementRevision: self.settings.providerEnablementRevision(for: provider))
}
func providerPublicationRevisionIsCurrent(
_ revision: ProviderPublicationRevision,
for provider: UsageProvider) -> Bool
{
self.providerCleanupRevisionIsCurrent(revision.cleanupRevision, for: provider) &&
revision.enablementRevision == self.settings.providerEnablementRevision(for: provider)
}
func clearDisabledProviderState(enabledProviders: Set<UsageProvider>) {
for provider in UsageProvider.allCases where !enabledProviders.contains(provider) {
if self.currentProviderRefreshAllowsDisabledPublication(provider) {
self.clearProviderRuntimeState(provider)
} else {
self.clearProviderState(provider)
}
}
}
func clearUnavailableProviderState(
displayEnabledProviders: Set<UsageProvider>,
availableProviders: Set<UsageProvider>)
{
for provider in displayEnabledProviders where !availableProviders.contains(provider) {
self.clearProviderState(provider)
}
}
}