/** * @file ldn.h * @brief LDN (local network communications) IPC wrapper. See also: https://switchbrew.org/wiki/LDN_services * @author yellows8 * @copyright libnx Authors */ #pragma once #include "../types.h" #include "../sf/service.h" #include "../kernel/event.h" typedef enum { LdnServiceType_User = 0, ///< Initializes ldn:u. LdnServiceType_System = 1, ///< Initializes ldn:s. } LdnServiceType; /// State loaded by \ref ldnmGetStateForMonitor / \ref ldnGetState. typedef enum { LdnState_None = 0, ///< None LdnState_Initialized = 1, ///< Initialized LdnState_AccessPointOpened = 2, ///< AccessPointOpened (\ref ldnOpenAccessPoint) LdnState_AccessPointCreated = 3, ///< AccessPointCreated (\ref ldnCreateNetwork / \ref ldnCreateNetworkPrivate) LdnState_StationOpened = 4, ///< StationOpened (\ref ldnOpenStation) LdnState_StationConnected = 5, ///< StationConnected (\ref ldnConnect / \ref ldnConnectPrivate) LdnState_Error = 6, ///< Error } LdnState; /// DisconnectReason loaded by \ref ldnGetDisconnectReason. typedef enum { LdnDisconnectReason_None = 0, ///< None LdnDisconnectReason_User = 1, ///< User LdnDisconnectReason_SystemRequest = 2, ///< SystemRequest LdnDisconnectReason_DestroyedByAdmin = 3, ///< DestroyedByAdmin LdnDisconnectReason_DestroyedBySystemRequest = 4, ///< DestroyedBySystemRequest LdnDisconnectReason_Admin = 5, ///< Admin LdnDisconnectReason_SignalLost = 6, ///< SignalLost } LdnDisconnectReason; /// ScanFilterFlags typedef enum { LdnScanFilterFlags_LocalCommunicationId = BIT(0), ///< When set, enables using LdnScanFilter::local_communication_id. LdnScanFilterFlags_NetworkId = BIT(1), ///< When set, enables using LdnScanFilter::network_id. LdnScanFilterFlags_Unknown2 = BIT(2), ///< When set, enables using LdnScanFilter::unk_x20. LdnScanFilterFlags_MacAddr = BIT(3), ///< When set, enables using LdnScanFilter::mac_addr. Only available with \ref ldnScanPrivate. LdnScanFilterFlags_Ssid = BIT(4), ///< When set, enables using the LdnScanFilter::ssid. LdnScanFilterFlags_UserData = BIT(5), ///< When set, enables using LdnScanFilter::userdata_filter. } LdnScanFilterFlags; /// AcceptPolicy typedef enum { LdnAcceptPolicy_AllowAll = 0, ///< Allow all. LdnAcceptPolicy_DenyAll = 1, ///< Deny all. LdnAcceptPolicy_Blacklist = 2, ///< Blacklist, addresses in the list (\ref ldnAddAcceptFilterEntry) are not allowed. LdnAcceptPolicy_Whitelist = 3, ///< Whitelist, only addresses in the list (\ref ldnAddAcceptFilterEntry) are allowed. } LdnAcceptPolicy; /// OperationMode typedef enum { LdnOperationMode_Unknown0 = 0, ///< Unknown LdnOperationMode_Unknown1 = 1, ///< Unknown } LdnOperationMode; /// WirelessControllerRestriction typedef enum { LdnWirelessControllerRestriction_Unknown0 = 0, ///< Unknown LdnWirelessControllerRestriction_Unknown1 = 1, ///< Unknown } LdnWirelessControllerRestriction; /// Ipv4Address. This is essentially the same as struct in_addr - hence this can be used with standard sockets (byteswap required). typedef struct { u32 addr; ///< Address } LdnIpv4Address; /// SubnetMask. This is essentially the same as struct in_addr - hence this can be used with standard sockets (byteswap required). typedef struct { u32 mask; ///< Mask } LdnSubnetMask; /// MacAddress typedef struct { u8 addr[6]; ///< Address } LdnMacAddress; /// Ssid typedef struct { u8 len; ///< Length excluding NUL-terminator, must be 0x1-0x20. char str[0x21]; ///< SSID string including NUL-terminator, str[len_field] must be 0. The chars in this string must be be in the range of 0x20-0x7F, for when the Ssid is converted to a string (otherwise the byte written to the string will be 0). } LdnSsid; /// NodeLatestUpdate typedef struct { u8 val; ///< The field in state is reset to zero by \ref ldnGetNetworkInfoLatestUpdate after loading it. u8 reserved[0x7]; ///< Not initialized with \ref ldnGetNetworkInfoLatestUpdate. } LdnNodeLatestUpdate; /// AddressEntry typedef struct { LdnIpv4Address ip_addr; ///< \ref LdnIpv4Address LdnMacAddress mac_addr; ///< \ref LdnMacAddress u8 pad[0x2]; ///< Padding } LdnAddressEntry; /// NodeInfo typedef struct { LdnIpv4Address ip_addr; ///< \ref LdnIpv4Address LdnMacAddress mac_addr; ///< \ref LdnMacAddress s8 id; ///< ID / index u8 is_connected; ///< IsConnected flag char nickname[0x20]; ///< LdnUserConfig::nickname u8 reserved_x2C[0x2]; ///< Reserved s16 local_communication_version; ///< LocalCommunicationVersion u8 reserved_x30[0x10]; ///< Reserved } LdnNodeInfo; /// UserConfig. The input struct is copied to a tmp struct, which is then used with the cmd. typedef struct { char nickname[0x20]; ///< NUL-terminated string for the user nickname. u8 reserved[0x10]; ///< Cleared to zero for the tmp struct. } LdnUserConfig; /// NetworkInfo typedef struct { u64 local_communication_id; ///< LocalCommunicationId u8 reserved_x8[0x2]; ///< Reserved u16 userdata_filter; ///< Arbitrary user data which can be used for filtering with \ref LdnScanFilter. u8 reserved_xC[0x4]; ///< Reserved u8 network_id[0x10]; ///< LdnSecurityParameter::network_id. NetworkId which is used to generate/overwrite the ssid. With \ref ldnScan / \ref ldnScanPrivate, this is only done after filtering when unk_x4B is value 0x2. LdnMacAddress mac_addr; ///< \ref LdnMacAddress LdnSsid ssid; ///< \ref LdnSsid s16 network_channel; ///< NetworkChannel s8 link_level; ///< LinkLevel u8 unk_x4B; ///< Unknown. Set to hard-coded value 0x2 with output structs, except with \ref ldnScan / \ref ldnScanPrivate which can also set value 0x1 in certain cases. u8 pad_x4C[0x4]; ///< Padding u8 sec_param_data[0x10]; ///< LdnSecurityParameter::data u16 sec_type; ///< LdnSecurityConfig::type u8 accept_policy; ///< \ref LdnAcceptPolicy u8 unk_x63; ///< Only set with \ref ldnScan / \ref ldnScanPrivate, when unk_x4B is value 0x2. u8 pad_x64[0x2]; ///< Padding s8 participant_max; ///< Maximum participants, for nodes. u8 participant_num; ///< ParticipantNum, number of set entries in nodes. If unk_x4B is not 0x2, ParticipantNum should be handled as if it's 0. LdnNodeInfo nodes[8]; ///< Array of \ref LdnNodeInfo, starting with the AccessPoint node. u8 reserved_x268[0x2]; ///< Reserved u16 advertise_data_size; ///< AdvertiseData size (\ref ldnSetAdvertiseData) u8 advertise_data[0x180]; ///< AdvertiseData (\ref ldnSetAdvertiseData) u8 reserved_x3EC[0x8C]; ///< Reserved u64 auth_id; ///< Random AuthenticationId. } LdnNetworkInfo; /// ScanFilter. The input struct is copied to a tmp struct, which is then used with the cmd (\ref ldnScan and \ref ldnScanPrivate). typedef struct { s64 local_communication_id; ///< See ::LdnScanFilterFlags_LocalCommunicationId. When enabled, this will be overwritten if it's -1 (written data is from the user-process control.nacp, with value 0 used instead if loading fails). During filtering if enabled, LdnNetworkInfo::unk_x4B must match 0x2, and this ScanFilter field must match LdnNetworkInfo::local_communication_id. u8 pad_x8[0x2]; ///< Padding u16 userdata_filter; ///< See ::LdnScanFilterFlags_UserData. During filtering if enabled, LdnNetworkInfo::unk_x4B must match 0x2, and this ScanFilter field must match LdnNetworkInfo::userdata_filter. u8 pad_xC[0x4]; ///< Padding u8 network_id[0x10]; ///< See ::LdnScanFilterFlags_NetworkId. During filtering if enabled, LdnNetworkInfo::unk_x4B must match 0x2, and this ScanFilter data must match LdnNetworkInfo::network_id. u32 unk_x20; ///< See ::LdnScanFilterFlags_Unknown2. When enabled, this must be <=0x3, and during filtering must match LdnNetworkInfo::unk_x4B. LdnMacAddress mac_addr; ///< \ref LdnMacAddress (::LdnScanFilterFlags_MacAddr, during filtering if enabled this must match LdnNetworkInfo::mac_addr) LdnSsid ssid; ///< \ref LdnSsid (::LdnScanFilterFlags_Ssid, during filtering if enabled this must match LdnNetworkInfo::ssid) u8 reserved[0x10]; ///< Cleared to zero for the tmp struct. u32 flags; ///< Bitmask for \ref LdnScanFilterFlags. Masked with value 0x37 for \ref ldnScan, with \ref ldnScanPrivate this is masked with 0x3F. } LdnScanFilter; /// SecurityConfig typedef struct { u16 type; ///< Type, a default of value 0x1 can be used here. Overwritten by \ref ldnCreateNetwork, \ref ldnCreateNetworkPrivate, \ref ldnConnect, \ref ldnConnectPrivate. u16 data_size; ///< Data size. Must be 0x10-0x40. u8 data[0x40]; ///< Data, used with key derivation. } LdnSecurityConfig; /// SecurityParameter. The struct used by \ref ldnCreateNetwork internally is randomly-generated. typedef struct { u8 data[0x10]; ///< Data, used with the same key derivation as \ref LdnSecurityConfig. u8 network_id[0x10]; ///< LdnNetworkInfo::network_id } LdnSecurityParameter; /// NetworkConfig. The input struct is copied to a tmp struct, which is then used with the cmd (\ref ldnCreateNetwork, \ref ldnCreateNetworkPrivate, \ref ldnConnectPrivate). typedef struct { s64 local_communication_id; ///< LdnNetworkInfo::local_communication_id. \ref ldnCreateNetwork, \ref ldnCreateNetworkPrivate, \ref ldnConnect, \ref ldnConnectPrivate: When -1, this is overwritten with the first LocalCommunicationId from the user-process control.nacp, if loading fails value 0 is written instead. Otherwise when not -1, if control.nacp loading is successful, this field must match one of the LocalCommunicationIds from there. u8 reserved_x8[2]; ///< Cleared to zero for the tmp struct. u16 userdata_filter; ///< LdnNetworkInfo::userdata_filter u8 reserved_xC[4]; ///< Cleared to zero for the tmp struct. s16 network_channel; ///< LdnNetworkInfo::network_channel. Channel, can be zero. Overwritten internally by \ref ldnCreateNetwork. s8 participant_max; ///< LdnNetworkInfo::participant_max. \ref ldnCreateNetwork / \ref ldnCreateNetworkPrivate: Must be 0x1-0x8. u8 reserved_x13; ///< Cleared to zero for the tmp struct. s16 local_communication_version; ///< LdnNodeInfo::local_communication_version, for the first entry in LdnNetworkInfo::nodes. Must not be negative. u8 reserved_x16[0xA]; ///< Cleared to zero for the tmp struct. } LdnNetworkConfig; ///@name ldn:m ///@{ /// Initialize ldn:m. Result ldnmInitialize(void); /// Exit ldn:m. void ldnmExit(void); /// Gets the Service object for IMonitorService. Service* ldnmGetServiceSession_MonitorService(void); /** * @brief GetStateForMonitor * @param[out] out \ref LdnState */ Result ldnmGetStateForMonitor(LdnState *out); /** * @brief GetNetworkInfoForMonitor * @param[out] out \ref LdnNetworkInfo */ Result ldnmGetNetworkInfoForMonitor(LdnNetworkInfo *out); /** * @brief GetIpv4AddressForMonitor * @param[out] addr \ref LdnIpv4Address * @param[out] mask \ref LdnSubnetMask */ Result ldnmGetIpv4AddressForMonitor(LdnIpv4Address *addr, LdnSubnetMask *mask); /** * @brief GetSecurityParameterForMonitor * @note Not exposed by official sw. * @param[out] out \ref LdnSecurityParameter */ Result ldnmGetSecurityParameterForMonitor(LdnSecurityParameter *out); /** * @brief GetNetworkConfigForMonitor * @note Not exposed by official sw. * @param[out] out \ref LdnNetworkConfig */ Result ldnmGetNetworkConfigForMonitor(LdnNetworkConfig *out); ///@} ///@name ldn ///@{ /// Initialize ldn. Result ldnInitialize(LdnServiceType service_type); /// Exit ldn. void ldnExit(void); /// Gets the Service object for IUserLocalCommunicationService/ISystemLocalCommunicationService. Service* ldnGetServiceSession_LocalCommunicationService(void); /** * @brief GetState * @param[out] out \ref LdnState */ Result ldnGetState(LdnState *out); /** * @brief GetNetworkInfo * @param[out] out \ref LdnNetworkInfo */ Result ldnGetNetworkInfo(LdnNetworkInfo *out); /** * @brief GetIpv4Address * @param[out] addr \ref LdnIpv4Address * @param[out] mask \ref LdnSubnetMask */ Result ldnGetIpv4Address(LdnIpv4Address *addr, LdnSubnetMask *mask); /** * @brief GetDisconnectReason * @param[out] out \ref LdnDisconnectReason */ Result ldnGetDisconnectReason(LdnDisconnectReason *out); /** * @brief GetSecurityParameter * @param[out] out \ref LdnSecurityParameter */ Result ldnGetSecurityParameter(LdnSecurityParameter *out); /** * @brief GetNetworkConfig * @param[out] out \ref LdnNetworkConfig */ Result ldnGetNetworkConfig(LdnNetworkConfig *out); /** * @brief AttachStateChangeEvent * @note The Event must be closed by the user once finished with it. * @note This is signaled when the data returned by \ref ldnGetNetworkInfo / \ref ldnGetNetworkInfoLatestUpdate is updated. * @param[out] out_event Output Event with autoclear=true. */ Result ldnAttachStateChangeEvent(Event* out_event); /** * @brief GetNetworkInfoLatestUpdate * @param[out] network_info \ref LdnNetworkInfo * @param[out] nodes Output array of \ref LdnNodeLatestUpdate. * @param[in] count Size of the nodes array in entries, must be 8. */ Result ldnGetNetworkInfoLatestUpdate(LdnNetworkInfo *network_info, LdnNodeLatestUpdate *nodes, s32 count); /** * @brief Scan * @note \ref LdnState must be ::LdnState_AccessPointCreated, ::LdnState_StationOpened, or ::LdnState_StationConnected. * @note This is the same as \ref ldnScanPrivate (minus the masking for LdnScanFilter::flags), except this has the same channel-override functionality as \ref ldnCreateNetwork. * @param[in] channel Channel, value 0 can be used for this. * @param[in] filter \ref LdnScanFilter * @param[out] network_info Output array of \ref LdnNetworkInfo. * @param[in] count Size of the network_info array in entries. Must be at least 1, this is clamped to a maximum of 0x18 internally. * @param[out] total_out Total output entries. */ Result ldnScan(s32 channel, const LdnScanFilter *filter, LdnNetworkInfo *network_info, s32 count, s32 *total_out); /** * @brief ScanPrivate * @note \ref LdnState must be ::LdnState_AccessPointCreated, ::LdnState_StationOpened, or ::LdnState_StationConnected. * @note See \ref ldnScan. * @param[in] channel Channel, value 0 can be used for this. * @param[in] filter \ref LdnScanFilter * @param[out] network_info Output array of \ref LdnNetworkInfo. * @param[in] count Size of the network_info array in entries. Must be at least 1, this is clamped to a maximum of 0x18 internally. * @param[out] total_out Total output entries. */ Result ldnScanPrivate(s32 channel, const LdnScanFilter *filter, LdnNetworkInfo *network_info, s32 count, s32 *total_out); /** * @brief SetWirelessControllerRestriction * @note Only available on [5.0.0+]. * @note \ref LdnState must be ::LdnState_Initialized. * @param[in] restriction \ref LdnWirelessControllerRestriction */ Result ldnSetWirelessControllerRestriction(LdnWirelessControllerRestriction restriction); /** * @brief OpenAccessPoint * @note \ref LdnState must be ::LdnState_Initialized, this eventually sets the State to ::LdnState_AccessPointOpened. */ Result ldnOpenAccessPoint(void); /** * @brief CloseAccessPoint * @note \ref LdnState must be ::LdnState_AccessPointOpened or ::LdnState_AccessPointCreated, this eventually sets the State to ::LdnState_Initialized. * @note Used automatically internally by \ref ldnExit if needed. */ Result ldnCloseAccessPoint(void); /** * @brief CreateNetwork * @note \ref LdnState must be ::LdnState_AccessPointOpened, this eventually sets the State to ::LdnState_AccessPointCreated. * @param[in] sec_config \ref LdnSecurityConfig * @param[in] user_config \ref LdnUserConfig * @param[in] network_config \ref LdnNetworkConfig */ Result ldnCreateNetwork(const LdnSecurityConfig *sec_config, const LdnUserConfig *user_config, const LdnNetworkConfig *network_config); /** * @brief CreateNetworkPrivate * @note \ref LdnState must be ::LdnState_AccessPointOpened, this eventually sets the State to ::LdnState_AccessPointCreated. * @note This is the same as \ref ldnCreateNetwork besides the additional user-specified params, and with this cmd LdnNetworkConfig::channel is not overwritten (unlike \ref ldnCreateNetwork). * @param[in] sec_config \ref LdnSecurityConfig * @param[in] sec_param \ref LdnSecurityParameter * @param[in] user_config \ref LdnUserConfig * @param[in] network_config \ref LdnNetworkConfig * @param[in] addrs Input array of \ref LdnAddressEntry. This can be NULL. * @param[in] count Size of the addrs array in entries. This must be <=8. This can be 0, in which case the network will be non-Private like \ref ldnCreateNetwork. */ Result ldnCreateNetworkPrivate(const LdnSecurityConfig *sec_config, const LdnSecurityParameter *sec_param, const LdnUserConfig *user_config, const LdnNetworkConfig *network_config, const LdnAddressEntry *addrs, s32 count); /** * @brief DestroyNetwork * @note \ref LdnState must be ::LdnState_AccessPointCreated, this eventually sets the State to ::LdnState_AccessPointOpened. */ Result ldnDestroyNetwork(void); /** * @brief Reject * @note \ref LdnState must be ::LdnState_AccessPointCreated. * @param[in] addr \ref LdnIpv4Address */ Result ldnReject(LdnIpv4Address addr); /** * @brief SetAdvertiseData * @note An empty buffer (buffer=NULL/size=0) can be used to reset the AdvertiseData size in state to zero. * @note \ref LdnState must be ::LdnState_AccessPointOpened or ::LdnState_AccessPointCreated. * @param[in] buffer Input buffer containing arbitrary user data. * @param[in] size Input buffer size, must be <=0x180. If this isn't enough space, you can for example also periodically use this cmd with different regions of your data with some sequence_number field (or use sockets while connected to the network). */ Result ldnSetAdvertiseData(const void* buffer, size_t size); /** * @brief SetStationAcceptPolicy * @note \ref LdnState must be ::LdnState_AccessPointOpened or ::LdnState_AccessPointCreated. * @param[in] policy \ref LdnAcceptPolicy */ Result ldnSetStationAcceptPolicy(LdnAcceptPolicy policy); /** * @brief AddAcceptFilterEntry * @note \ref LdnState must be ::LdnState_AccessPointOpened or ::LdnState_AccessPointCreated. * @note See \ref LdnAcceptPolicy. * @param[in] addr \ref LdnMacAddress. If you want, you can also pass LdnNodeInfo::mac_addr for this. */ Result ldnAddAcceptFilterEntry(LdnMacAddress addr); /** * @brief ClearAcceptFilter * @note \ref LdnState must be ::LdnState_AccessPointOpened or ::LdnState_AccessPointCreated. */ Result ldnClearAcceptFilter(void); /** * @brief OpenStation * @note \ref LdnState must be ::LdnState_Initialized, this eventually sets the State to ::LdnState_StationOpened. */ Result ldnOpenStation(void); /** * @brief CloseStation * @note \ref LdnState must be ::LdnState_StationOpened or ::LdnState_StationConnected, this eventually sets the State to ::LdnState_Initialized. * @note Used automatically internally by \ref ldnExit if needed. */ Result ldnCloseStation(void); /** * @brief Connect * @note \ref LdnState must be ::LdnState_StationOpened, this eventually sets the State to ::LdnState_StationConnected. * @note This is identical to \ref ldnConnectPrivate besides the used params, the code overwriting LdnSecurityConfig::type also differs. * @param[in] sec_config \ref LdnSecurityConfig * @param[in] user_config \ref LdnUserConfig * @param[in] version LocalCommunicationVersion, this must be 0x0-0x7FFF. * @param[in] option ConnectOption bitmask, must be <=0x1. You can use value 0 for example here. * @param[in] network_info \ref LdnNetworkInfo */ Result ldnConnect(const LdnSecurityConfig *sec_config, const LdnUserConfig *user_config, s32 version, u32 option, const LdnNetworkInfo *network_info); /** * @brief ConnectPrivate * @note \ref LdnState must be ::LdnState_StationOpened, this eventually sets the State to ::LdnState_StationConnected. * @note See \ref ldnConnect. * @param[in] sec_config \ref LdnSecurityConfig * @param[in] sec_param \ref LdnSecurityParameter * @param[in] user_config \ref LdnUserConfig * @param[in] version LocalCommunicationVersion, this must be 0x0-0x7FFF. * @param[in] option ConnectOption bitmask, must be <=0x1. You can use value 0 for example here. * @param[in] network_config \ref LdnNetworkConfig */ Result ldnConnectPrivate(const LdnSecurityConfig *sec_config, const LdnSecurityParameter *sec_param, const LdnUserConfig *user_config, s32 version, u32 option, const LdnNetworkConfig *network_config); /** * @brief Disconnect * @note \ref LdnState must be ::LdnState_StationConnected, this eventually sets the State to ::LdnState_StationOpened. */ Result ldnDisconnect(void); /** * @brief SetOperationMode * @note Only available on [4.0.0+]. * @note Only available with ::LdnServiceType_System. * @note \ref LdnState must be ::LdnState_Initialized. * @param[in] mode \ref LdnOperationMode */ Result ldnSetOperationMode(LdnOperationMode mode); ///@}