diff --git a/shell/browser/serial/serial_chooser_context.cc b/shell/browser/serial/serial_chooser_context.cc index ec5ac12c7368..5c539aee6842 100644 --- a/shell/browser/serial/serial_chooser_context.cc +++ b/shell/browser/serial/serial_chooser_context.cc @@ -24,14 +24,15 @@ namespace electron { constexpr char kPortNameKey[] = "name"; constexpr char kTokenKey[] = "token"; +constexpr char kBluetoothDevicePathKey[] = "bluetooth_device_path"; #if BUILDFLAG(IS_WIN) -const char kDeviceInstanceIdKey[] = "device_instance_id"; +constexpr char kDeviceInstanceIdKey[] = "device_instance_id"; #else -const char kVendorIdKey[] = "vendor_id"; -const char kProductIdKey[] = "product_id"; -const char kSerialNumberKey[] = "serial_number"; +constexpr char kVendorIdKey[] = "vendor_id"; +constexpr char kProductIdKey[] = "product_id"; +constexpr char kSerialNumberKey[] = "serial_number"; #if BUILDFLAG(IS_MAC) -const char kUsbDriverKey[] = "usb_driver"; +constexpr char kUsbDriverKey[] = "usb_driver"; #endif // BUILDFLAG(IS_MAC) #endif // BUILDFLAG(IS_WIN) @@ -44,33 +45,38 @@ std::string EncodeToken(const base::UnguessableToken& token) { base::Value PortInfoToValue(const device::mojom::SerialPortInfo& port) { base::Value::Dict value; - if (port.display_name && !port.display_name->empty()) + if (port.display_name && !port.display_name->empty()) { value.Set(kPortNameKey, *port.display_name); - else + } else { value.Set(kPortNameKey, port.path.LossyDisplayName()); + } if (!SerialChooserContext::CanStorePersistentEntry(port)) { value.Set(kTokenKey, EncodeToken(port.token)); return base::Value(std::move(value)); } + if (port.bluetooth_service_class_id && + port.bluetooth_service_class_id->IsValid()) { + value.Set(kBluetoothDevicePathKey, port.path.LossyDisplayName()); + } else { #if BUILDFLAG(IS_WIN) - // Windows provides a handy device identifier which we can rely on to be - // sufficiently stable for identifying devices across restarts. - value.Set(kDeviceInstanceIdKey, port.device_instance_id); + // Windows provides a handy device identifier which we can rely on to be + // sufficiently stable for identifying devices across restarts. + value.Set(kDeviceInstanceIdKey, port.device_instance_id); #else - DCHECK(port.has_vendor_id); - value.Set(kVendorIdKey, port.vendor_id); - DCHECK(port.has_product_id); - value.Set(kProductIdKey, port.product_id); - DCHECK(port.serial_number); - value.Set(kSerialNumberKey, *port.serial_number); - + CHECK(port.has_vendor_id); + value.Set(kVendorIdKey, port.vendor_id); + CHECK(port.has_product_id); + value.Set(kProductIdKey, port.product_id); + CHECK(port.serial_number); + value.Set(kSerialNumberKey, *port.serial_number); #if BUILDFLAG(IS_MAC) - DCHECK(port.usb_driver_name && !port.usb_driver_name->empty()); - value.Set(kUsbDriverKey, *port.usb_driver_name); + CHECK(port.usb_driver_name && !port.usb_driver_name->empty()); + value.Set(kUsbDriverKey, *port.usb_driver_name); #endif // BUILDFLAG(IS_MAC) #endif // BUILDFLAG(IS_WIN) + } return base::Value(std::move(value)); } @@ -173,11 +179,19 @@ bool SerialChooserContext::CanStorePersistentEntry( if (!port.display_name || port.display_name->empty()) return false; + const bool has_bluetooth = port.bluetooth_service_class_id && + port.bluetooth_service_class_id->IsValid() && + !port.path.empty(); + if (has_bluetooth) { + return true; + } + #if BUILDFLAG(IS_WIN) return !port.device_instance_id.empty(); #else - if (!port.has_vendor_id || !port.has_product_id || !port.serial_number || - port.serial_number->empty()) { + const bool has_usb = port.has_vendor_id && port.has_product_id && + port.serial_number && !port.serial_number->empty(); + if (!has_usb) { return false; }