/* * Copyright (c) 2009 Lukas Mejdrech * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * - Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * - Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * - The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ /** @addtogroup net * @{ */ /** @file * Networking common message definitions. */ #ifndef __NET_MESSAGES_H__ #define __NET_MESSAGES_H__ #include #include #include #include "include/device.h" #include "structures/measured_strings.h" #include "structures/packet/packet.h" /** Returns a value indicating whether the value is in the interval. * @param[in] item The value to be checked. * @param[in] first_inclusive The first value in the interval inclusive. * @param[in] last_exclusive The first value after the interval. */ #define IS_IN_INTERVAL(item, first_inclusive, last_exclusive) (((item) >= (first_inclusive)) && ((item) < (last_exclusive))) /** @name Networking message counts */ /*@{*/ /** The number of ARP messages. */ #define NET_ARP_COUNT 5 /** The number of Ethernet messages. */ #define NET_ETH_COUNT 0 /** The number of ICMP messages. */ #define NET_ICMP_COUNT 6 /** The number of inter-network messages. */ #define NET_IL_COUNT 6 /** The number of IP messages. */ #define NET_IP_COUNT 4 /** The number of general networking messages. */ #define NET_NET_COUNT 3 /** The number of network interface driver messages. */ #define NET_NETIF_COUNT 6 /** The number of network interface layer messages. */ #define NET_NIL_COUNT 7 /** The number of packet management system messages. */ #define NET_PACKET_COUNT 5 /** The number of socket messages. */ #define NET_SOCKET_COUNT 14 /** The number of TCP messages. */ #define NET_TCP_COUNT 0 /** The number of transport layer messages. */ #define NET_TL_COUNT 1 /** The number of UDP messages. */ #define NET_UDP_COUNT 0 /*@}*/ /** @name Networking message intervals */ /*@{*/ /** The first networking message. */ #define NET_FIRST 2000 /** The first network interface layer message. */ #define NET_NETIF_FIRST NET_FIRST /** The last network interface layer message. */ #define NET_NETIF_LAST (NET_NETIF_FIRST + NET_NETIF_COUNT) /** The first general networking message. */ #define NET_NET_FIRST (NET_NETIF_LAST + 0) /** The last general networking message. */ #define NET_NET_LAST (NET_NET_FIRST + NET_NET_COUNT) /** The first network interface layer message. */ #define NET_NIL_FIRST (NET_NET_LAST + 0) /** The last network interface layer message. */ #define NET_NIL_LAST (NET_NIL_FIRST + NET_NIL_COUNT) /** The first Ethernet message. */ #define NET_ETH_FIRST (NET_NIL_LAST + 0) /** The last Ethernet message. */ #define NET_ETH_LAST (NET_ETH_FIRST + NET_ETH_COUNT) /** The first inter-network message. */ #define NET_IL_FIRST (NET_ETH_LAST + 0) /** The last inter-network message. */ #define NET_IL_LAST (NET_IL_FIRST + NET_IL_COUNT) /** The first IP message. */ #define NET_IP_FIRST (NET_IL_LAST + 0) /** The last IP message. */ #define NET_IP_LAST (NET_IP_FIRST + NET_IP_COUNT) /** The first ARP message. */ #define NET_ARP_FIRST (NET_IP_LAST + 0) /** The last ARP message. */ #define NET_ARP_LAST (NET_ARP_FIRST + NET_ARP_COUNT) /** The first ICMP message. */ #define NET_ICMP_FIRST (NET_ARP_LAST + 0) /** The last ICMP message. */ #define NET_ICMP_LAST (NET_ICMP_FIRST + NET_ICMP_COUNT) /** The first ICMP message. */ #define NET_TL_FIRST (NET_ICMP_LAST + 0) /** The last ICMP message. */ #define NET_TL_LAST (NET_TL_FIRST + NET_TL_COUNT) /** The first UDP message. */ #define NET_UDP_FIRST (NET_TL_LAST + 0) /** The last UDP message. */ #define NET_UDP_LAST (NET_UDP_FIRST + NET_UDP_COUNT) /** The first TCP message. */ #define NET_TCP_FIRST (NET_UDP_LAST + 0) /** The last TCP message. */ #define NET_TCP_LAST (NET_TCP_FIRST + NET_TCP_COUNT) /** The first socket message. */ #define NET_SOCKET_FIRST (NET_TCP_LAST + 0) /** The last socket message. */ #define NET_SOCKET_LAST (NET_SOCKET_FIRST + NET_SOCKET_COUNT) /** The first packet management system message. */ #define NET_PACKET_FIRST (NET_SOCKET_LAST + 0) /** The last packet management system message. */ #define NET_PACKET_LAST (NET_PACKET_FIRST + NET_PACKET_COUNT) /** The last networking message. */ #define NET_LAST NET_PACKET_LAST /** The number of networking messages. */ #define NET_COUNT (NET_LAST - NET_FIRST) /** Returns a value indicating whether the IPC call is a generic networking message. * @param[in] call The IPC call to be checked. */ #define IS_NET_MESSAGE(call) \ IS_IN_INTERVAL(IPC_GET_METHOD(*call), NET_FIRST, NET_LAST) /** Returns a value indicating whether the IPC call is an ARP message. * @param[in] call The IPC call to be checked. */ #define IS_NET_ARP_MESSAGE(call) \ IS_IN_INTERVAL(IPC_GET_METHOD(*call), NET_ARP_FIRST, NET_ARP_LAST) /** Returns a value indicating whether the IPC call is an Ethernet message. * @param[in] call The IPC call to be checked. */ #define IS_NET_ETH_MESSAGE(call) \ IS_IN_INTERVAL(IPC_GET_METHOD(*call), NET_ETH_FIRST, NET_ETH_LAST) /** Returns a value indicating whether the IPC call is an ICMP message. * @param[in] call The IPC call to be checked. */ #define IS_NET_ICMP_MESSAGE(call) \ IS_IN_INTERVAL(IPC_GET_METHOD(*call), NET_ICMP_FIRST, NET_ICMP_LAST) /** Returns a value indicating whether the IPC call is an inter-network layer message. * @param[in] call The IPC call to be checked. */ #define IS_NET_IL_MESSAGE(call) \ IS_IN_INTERVAL(IPC_GET_METHOD(*call), NET_IL_FIRST, NET_IL_LAST) /** Returns a value indicating whether the IPC call is an IP message. * @param[in] call The IPC call to be checked. */ #define IS_NET_IP_MESSAGE(call) \ IS_IN_INTERVAL(IPC_GET_METHOD(*call), NET_IP_FIRST, NET_IP_LAST) /** Returns a value indicating whether the IPC call is a generic networking message. * @param[in] call The IPC call to be checked. */ #define IS_NET_NET_MESSAGE(call) \ IS_IN_INTERVAL(IPC_GET_METHOD(*call), NET_NET_FIRST, NET_NET_LAST) /** Returns a value indicating whether the IPC call is a network interface layer message. * @param[in] call The IPC call to be checked. */ #define IS_NET_NIL_MESSAGE(call) \ IS_IN_INTERVAL(IPC_GET_METHOD(*call), NET_NIL_FIRST, NET_NIL_LAST) /** Returns a value indicating whether the IPC call is a packet manaagement system message. * @param[in] call The IPC call to be checked. */ #define IS_NET_PACKET_MESSAGE(call) \ IS_IN_INTERVAL(IPC_GET_METHOD(*call), NET_PACKET_FIRST, NET_PACKET_LAST) /** Returns a value indicating whether the IPC call is a socket message. * @param[in] call The IPC call to be checked. */ #define IS_NET_SOCKET_MESSAGE(call) \ IS_IN_INTERVAL(IPC_GET_METHOD(*call), NET_SOCKET_FIRST, NET_SOCKET_LAST) /** Returns a value indicating whether the IPC call is a TCP message. * @param[in] call The IPC call to be checked. */ #define IS_NET_TCP_MESSAGE(call) \ IS_IN_INTERVAL(IPC_GET_METHOD(*call), NET_TCP_FIRST, NET_TCP_LAST) /** Returns a value indicating whether the IPC call is a transport layer message. * @param[in] call The IPC call to be checked. */ #define IS_NET_TL_MESSAGE(call) \ IS_IN_INTERVAL(IPC_GET_METHOD(*call), NET_TL_FIRST, NET_TL_LAST) /** Returns a value indicating whether the IPC call is a UDP message. * @param[in] call The IPC call to be checked. */ #define IS_NET_UDP_MESSAGE(call) \ IS_IN_INTERVAL(IPC_GET_METHOD(*call), NET_UDP_FIRST, NET_UDP_LAST) /*@}*/ /** @name Networking specific message arguments definitions */ /*@{*/ /** @name First arguments */ /*@{*/ /** Returns the device identifier message argument. * @param[in] call The message call structure. */ #define IPC_GET_DEVICE(call) \ ({device_id_t device_id = (device_id_t) IPC_GET_ARG1(*call); device_id;}) /*@;})*/ /** @name Second arguments */ /*@({*/ /** Returns the packet identifier message argument. * @param[in] call The message call structure. */ #define IPC_GET_PACKET(call) \ ({packet_id_t packet_id = (packet_id_t) IPC_GET_ARG2(*call); packet_id;}) /** Returns the count message argument. * @param[in] call The message call structure. */ #define IPC_GET_COUNT(call) \ ({size_t size = (size_t) IPC_GET_ARG2(*call); size;}) /** Returns the device state message argument. * @param[in] call The message call structure. */ #define IPC_GET_STATE(call) \ ({device_state_t device_state = (device_state_t) IPC_GET_ARG2(*call); device_state;}) /** Returns the maximum transmission unit message argument. * @param[in] call The message call structure. */ #define IPC_GET_MTU(call) \ ({size_t size = (size_t) IPC_GET_ARG2(*call); size;}) /*@;})*/ /** @name Third arguments */ /*@({*/ /** Returns the device driver service message argument. * @param[in] call The message call structure. */ #define IPC_GET_SERVICE(call) \ ({services_t service = (services_t) IPC_GET_ARG3(*call); service;}) /** Returns the target service message argument. * @param[in] call The message call structure. */ #define IPC_GET_TARGET(call) \ ({services_t service = (services_t) IPC_GET_ARG3(*call); service;}) /** Returns the sender service message argument. * @param[in] call The message call structure. */ #define IPC_GET_SENDER(call) \ ({services_t service = (services_t) IPC_GET_ARG3(*call); service;}) /*@;})*/ /** @name Fourth arguments */ /*@({*/ /** Returns the error service message argument. * @param[in] call The message call structure. */ #define IPC_GET_ERROR(call) \ ({services_t service = (services_t) IPC_GET_ARG4(*call); service;}) /*@;})*/ /** @name Fifth arguments */ /*@({*/ /** Returns the phone message argument. * @param[in] call The message call structure. */ #define IPC_GET_PHONE(call) \ ({int phone = (int) IPC_GET_ARG5(*call); phone;}) /*@}*/ /** @name First answers */ /*@{*/ /** Sets the device identifier in the message answer. * @param[out] answer The message answer structure. */ #define IPC_SET_DEVICE(answer, value) \ {ipcarg_t argument = (value); IPC_SET_ARG1(*answer, argument);} /** Sets the minimum address length in the message answer. * @param[out] answer The message answer structure. */ #define IPC_SET_ADDR(answer, value) \ {ipcarg_t argument = (value); IPC_SET_ARG1(*answer, argument);} /*@}*/ /** @name Second answers */ /*@{*/ /** Sets the minimum prefix size in the message answer. * @param[out] answer The message answer structure. */ #define IPC_SET_PREFIX(answer, value) \ {ipcarg_t argument = (value); IPC_SET_ARG2(*answer, argument);} /*@}*/ /** @name Third answers */ /*@{*/ /** Sets the maximum content size in the message answer. * @param[out] answer The message answer structure. */ #define IPC_SET_CONTENT(answer, value) \ {ipcarg_t argument = (value); IPC_SET_ARG3(*answer, argument);} /*@}*/ /** @name Fourth answers */ /*@{*/ /** Sets the minimum suffix size in the message answer. * @param[out] answer The message answer structure. */ #define IPC_SET_SUFFIX(answer, value) \ {ipcarg_t argument = (value); IPC_SET_ARG4(*answer, argument);} /*@}*/ /*@}*/ /** Notifies the module about the device state change. * @param[in] phone The service module phone. * @param[in] message The service specific message. * @param[in] device_id The device identifier. * @param[in] state The new device state. * @param[in] target The target module service. * @returns EOK on success. */ static inline int generic_device_state_msg(int phone, int message, device_id_t device_id, int state, services_t target){ async_msg_3(phone, (ipcarg_t) message, (ipcarg_t) device_id, (ipcarg_t) state, target); return EOK; } /** Notifies a module about the device. * @param[in] phone The service module phone. * @param[in] message The service specific message. * @param[in] device_id The device identifier. * @param[in] arg2 The second argument of the message. * @param[in] service The device module service. * @returns EOK on success. * @returns Other error codes as defined for the specific service message. */ static inline int generic_device_req(int phone, int message, device_id_t device_id, int arg2, services_t service){ return (int) async_req_3_0(phone, (ipcarg_t) message, (ipcarg_t) device_id, (ipcarg_t) arg2, (ipcarg_t) service); } /** Returns the address. * @param[in] phone The service module phone. * @param[in] message The service specific message. * @param[in] device_id The device identifier. * @param[out] address The desired address. * @param[out] data The address data container. * @returns EOK on success. * @returns EBADMEM if the address parameter and/or the data parameter is NULL. * @returns Other error codes as defined for the specific service message. */ static inline int generic_get_addr_req(int phone, int message, device_id_t device_id, measured_string_ref * address, char ** data){ aid_t message_id; ipcarg_t result; int string; if(!(address && data)){ return EBADMEM; } // request the address message_id = async_send_1(phone, (ipcarg_t) message, (ipcarg_t) device_id, NULL); string = measured_strings_return(phone, address, data, 1); async_wait_for(message_id, &result); // if not successful if((string == EOK) && (result != EOK)){ // clear the data free(*address); free(*data); } return (int) result; } /** Returns the device packet dimension for sending. * @param[in] phone The service module phone. * @param[in] message The service specific message. * @param[in] device_id The device identifier. * @param[out] packet_dimension The packet dimension. * @returns EOK on success. * @returns EBADMEM if the packet_dimension parameter is NULL. * @returns Other error codes as defined for the specific service message. */ static inline int generic_packet_size_req(int phone, int message, device_id_t device_id, packet_dimension_ref packet_dimension){ ipcarg_t result; ipcarg_t prefix; ipcarg_t content; ipcarg_t suffix; ipcarg_t addr_len; if(! packet_dimension){ return EBADMEM; } result = async_req_1_4(phone, (ipcarg_t) message, (ipcarg_t) device_id, &addr_len, &prefix, &content, &suffix); packet_dimension->prefix = (size_t) prefix; packet_dimension->content = (size_t) content; packet_dimension->suffix = (size_t) suffix; packet_dimension->addr_len = (size_t) addr_len; return (int) result; } /** Passes the packet queue to the module. * @param[in] phone The service module phone. * @param[in] message The service specific message. * @param[in] device_id The device identifier. * @param[in] packet_id The received packet or the received packet queue identifier. * @param[in] target The target module service. * @param[in] error The error module service. * @returns EOK on success. */ static inline int generic_received_msg(int phone, int message, device_id_t device_id, packet_id_t packet_id, services_t target, services_t error){ if(error){ async_msg_4(phone, (ipcarg_t) message, (ipcarg_t) device_id, (ipcarg_t) packet_id, (ipcarg_t) target, (ipcarg_t) error); }else{ async_msg_3(phone, (ipcarg_t) message, (ipcarg_t) device_id, (ipcarg_t) packet_id, (ipcarg_t) target); } return EOK; } /** Sends the packet queue. * @param[in] phone The service module phone. * @param[in] message The service specific message. * @param[in] device_id The device identifier. * @param[in] packet_id The packet or the packet queue identifier. * @param[in] sender The sending module service. * @param[in] error The error module service. * @returns EOK on success. */ static inline int generic_send_msg(int phone, int message, device_id_t device_id, packet_id_t packet_id, services_t sender, services_t error){ if(error){ async_msg_4(phone, (ipcarg_t) message, (ipcarg_t) device_id, (ipcarg_t) packet_id, (ipcarg_t) sender, (ipcarg_t) error); }else{ async_msg_3(phone, (ipcarg_t) message, (ipcarg_t) device_id, (ipcarg_t) packet_id, (ipcarg_t) sender); } return EOK; } /** Translates the given strings. * Allocates and returns the needed memory block as the data parameter. * @param[in] phone The service module phone. * @param[in] message The service specific message. * @param[in] device_id The device identifier. * @param[in] service The module service. * @param[in] configuration The key strings. * @param[in] count The number of configuration keys. * @param[out] translation The translated values. * @param[out] data The translation data container. * @returns EOK on success. * @returns EINVAL if the configuration parameter is NULL. * @returns EINVAL if the count parameter is zero (0). * @returns EBADMEM if the translation or the data parameters are NULL. * @returns Other error codes as defined for the specific service message. */ static inline int generic_translate_req(int phone, int message, device_id_t device_id, services_t service, measured_string_ref configuration, size_t count, measured_string_ref * translation, char ** data){ aid_t message_id; ipcarg_t result; int string; if(!(configuration && (count > 0))){ return EINVAL; } if(!(translation && data)){ return EBADMEM; } // request the translation message_id = async_send_3(phone, (ipcarg_t) message, (ipcarg_t) device_id, (ipcarg_t) count, (ipcarg_t) service, NULL); measured_strings_send(phone, configuration, count); string = measured_strings_return(phone, translation, data, count); async_wait_for(message_id, &result); // if not successful if((string == EOK) && (result != EOK)){ // clear the data free(*translation); free(*data); } return (int) result; } #endif /** @} */