This is Webservice SDK for mbed. LPCXpresso1769/LPC1768/FRDM-K64F/LPC4088

Dependents:   MbedFileServer_1768MiniDK2 RedWireBridge IssueDebug_gcc MiMicRemoteMCU-for-Mbed ... more

libMiMic(MiMic library for mbed)は、WebService機能を提供するSDKです。 mbedでWebAPIに対応したネットワークデバイスを簡単に作ることが出来ます。

libMiMicはMiMic projectで開発しています。MiMic projectについてはこちらをご覧ください。 http://nyatla.jp/mimic/wp/

構成

libMiMicはmbedRTOS上で動作し、ユーザアプリケーションにAPIを提供します。コアAPIはC言語で記述されていますが、使用頻度の高いものについてはmbed向けのC++APIが準備されています。

/media/uploads/nyatla/libmimic-sdk.png

※libMiMicはmbedの標準イーサネットドライバをしようしていません。

標準イーサネットドライバと同時に使用することはできません。

  • MiMicIP - IPv4スタックです。レテンシとメモリ消費量を抑えたuipベースのライブラリです。
  • ARP/ICMP/UDP/TCP - 基礎的なソケットAPIを提供します。APIは独自です。
  • HTTP/1.1 Server - HTTP/1.1に対応したサーバです。マルチセッション・Chunked・持続性接続に対応しています。
  • HTTP Modules - HTTP/1.1の機能モジュールです。以下のモジュールがあります。
    • ROM file provider - ROMに格納したファイルイメージを公開します。
    • File system provider - mbedファイルシステムを公開します。
    • Onchip configuration - プログラムフラッシュを利用して設定を保存します。
    • MiMicVM processor - RPCリクエスト(MiMicVM)を処理します。
    • FileUpload - ファイルアップロードを受け取ります。
    • URL decoder - HTTPリクエストを解析します。
    • UPnP handler -UPnPメッセージを処理します。
    • WebSocket - Websocketサーバです。
  • mDNS - マルチキャストDNSサービスです。
  • UPnP - UPnP/1.0の機能を提供します。UPnP handlerと協調して動作します。(現在はデバイス探索(SSDP)・デスクリプション(Description)のみ実装してあります。)
  • DHCP/APIPA - ゼロコンフィギュレーション用のモジュールです。
  • HTTP/1.1 Client
  • mbed C++ class library - mbed向けのC++CPIです。C言語のものより簡単です。

対応機種

  • mbed(mbed LPC1768)
  • LPCXpresso1769

プログラム

Import programMiMicRemoteMCU-for-Mbed

MiMic RemoteMCU for mbed. This program provides MCU control API over REST API. It can control MCU from Javascript,PHP or any HTTP rest client directly. And, The application has self development environment.

Import programMbedFileServer

The program publishes files at local directory and SD filesystem. It is a full-fledged webServer somewhat.

サンプル

Import programMiMicSimpleHttpd

This is a simplest HTTP server made ​​of libMiMic. It will echo back a request path.

Import programUPnPBasicDevice

Simplest UPnP basic device example. This program to run UPnP basic device on the mbed.

Import programWebSocketSample

MiMicSDK Websocket module sample program.

Import programHttpClientSamlpe

A http client sample program.

Import programTcpSocketClientSamlpe

MiMicSDK Tcp client socket sample program.

Import programUdpSocketSamlpe

Udp socket sample program. This program will send back the received packet.

チュートリアル

English

libMiMic(MiMic library for mbed) is SDK which provides Webservice functions. It can be created networking device easily using mbed.

See more MiMic information, See MiMic project website. http://nyatla.jp/mimic/wp/

Structure

libMiMic run on mbed RTOS and provides networking API to user application. This library has C++ class API for the mbed, and low-level C language API.

/media/uploads/nyatla/libmimic-sdk.png

For WebService general, it can be written in a simple C + + API.

libMiMic does not have the standard Ethernet driver of mbed. It is not possible that will be used with the standard Ethernet driver.

  • MiMicIP - IPv4 protocol stack. This is based uip which is reduced memory and latency.
  • ARP / ICMP / UDP / TCP - Those are provide basic IP protocols.
  • HTTP/1.1 Server - The Http server compatible HTTP/1.1. It supports multi-session, chunked transport, persistent connection.
  • HTTP Modules - There are addon-module for HTTP server. The following modules.
    • ROM file module - Publish the file images in ROM.
    • File system module - Publish thefiles in mbed file system.
    • Onchip configuration module - To save the network settings to the program flash via REST.
    • MiMicVM module - To handle the (MiMicVM) RPC request.
    • FileUpload module - Accept a file via HTTP POST.
    • URL dedoce module - A versatility URL decoder.
    • UPnP handle module - To handle UPnP messages.
    • UPnP - This provides UPnP/1.0 device functions. It works together with UPnP handler.
    • Websocket - websocket (version13) server
  • mDNS Service - DNS-SD protocol server.
  • UPnP - This provides UPnP/1.0 device functions which works with UPnP handler. (You have been implemented (SSDP) ? description only (Description) device search now.) It is a module zero configuration for - DHCP / APIPA. mbed C + + class library - C of mbed for + + is the CPI. It is simple than that of the C language.
  • DHCP/APIPA - It support zero-cpnfigulation.
  • mbed C++ class library. Almost APIs for Web applications are available.
  • HTTP/1.1 Client

Supported target

  • mbed(mbed LPC1768)
  • LPCXpresso1769

Application

Import programMiMicRemoteMCU-for-Mbed

MiMic RemoteMCU for mbed. This program provides MCU control API over REST API. It can control MCU from Javascript,PHP or any HTTP rest client directly. And, The application has self development environment.

Import programMbedFileServer

The program publishes files at local directory and SD filesystem. It is a full-fledged webServer somewhat.

Sample

Import programMiMicSimpleHttpd

This is a simplest HTTP server made ​​of libMiMic. It will echo back a request path.

Import programUPnPBasicDevice

Simplest UPnP basic device example. This program to run UPnP basic device on the mbed.

Import programWebSocketSample

MiMicSDK Websocket module sample program.

Import programHttpClientSamlpe

A http client sample program.

Import programTcpSocketClientSamlpe

MiMicSDK Tcp client socket sample program.

Import programUdpSocketSamlpe

Udp socket sample program. This program will send back the received packet.

Tutorial

Committer:
nyatla
Date:
Wed Mar 27 12:07:47 2013 +0000
Revision:
2:b96c1e90d120
???????????

Who changed what in which revision?

UserRevisionLine numberNew contents of line
nyatla 2:b96c1e90d120 1 /*********************************************************************************
nyatla 2:b96c1e90d120 2 * PROJECT: MiMic
nyatla 2:b96c1e90d120 3 * --------------------------------------------------------------------------------
nyatla 2:b96c1e90d120 4 *
nyatla 2:b96c1e90d120 5 * This file is part of MiMic
nyatla 2:b96c1e90d120 6 * Copyright (C)2011 Ryo Iizuka
nyatla 2:b96c1e90d120 7 *
nyatla 2:b96c1e90d120 8 * MiMic is free software: you can redistribute it and/or modify
nyatla 2:b96c1e90d120 9 * it under the terms of the GNU Lesser General Public License as published
nyatla 2:b96c1e90d120 10 * by the Free Software Foundation, either version 3 of the License, or
nyatla 2:b96c1e90d120 11 * (at your option) any later version.
nyatla 2:b96c1e90d120 12 *
nyatla 2:b96c1e90d120 13 * This program is distributed in the hope that it will be useful,
nyatla 2:b96c1e90d120 14 * but WITHOUT ANY WARRANTY; without even the implied warranty of
nyatla 2:b96c1e90d120 15 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
nyatla 2:b96c1e90d120 16 * GNU General Public License for more details.
nyatla 2:b96c1e90d120 17 *
nyatla 2:b96c1e90d120 18 * You should have received a copy of the GNU Lesser General Public License
nyatla 2:b96c1e90d120 19 * along with this program. If not, see <http://www.gnu.org/licenses/>.
nyatla 2:b96c1e90d120 20 *
nyatla 2:b96c1e90d120 21 * For further information please contact.
nyatla 2:b96c1e90d120 22 * http://nyatla.jp/
nyatla 2:b96c1e90d120 23 * <airmail(at)ebony.plala.or.jp> or <nyatla(at)nyatla.jp>
nyatla 2:b96c1e90d120 24 *
nyatla 2:b96c1e90d120 25 *********************************************************************************/
nyatla 2:b96c1e90d120 26 #ifndef NYLPC_CMIMICVM_H_
nyatla 2:b96c1e90d120 27 #define NYLPC_CMIMICVM_H_
nyatla 2:b96c1e90d120 28
nyatla 2:b96c1e90d120 29 #include "NyLPC_stdlib.h"
nyatla 2:b96c1e90d120 30
nyatla 2:b96c1e90d120 31 #ifdef __cplusplus
nyatla 2:b96c1e90d120 32 extern "C" {
nyatla 2:b96c1e90d120 33 #endif /* __cplusplus */
nyatla 2:b96c1e90d120 34
nyatla 2:b96c1e90d120 35 typedef struct NyLPC_TcMiMicVM NyLPC_TcMiMicVM_t;
nyatla 2:b96c1e90d120 36 struct NyLPC_TcMiMicVM_TEvent;
nyatla 2:b96c1e90d120 37
nyatla 2:b96c1e90d120 38 #define NyLPC_cMiMicVM_RESULT_OK 0x00000000
nyatla 2:b96c1e90d120 39 #define NyLPC_cMiMicVM_RESULT_NG 0x80000000
nyatla 2:b96c1e90d120 40 #define NyLPC_cMiMicVM_RESULT_RUNTIME_NG (NyLPC_cMiMicVM_RESULT_NG|0x00010000)
nyatla 2:b96c1e90d120 41 #define NyLPC_cMiMicVM_RESULT_RUNTIME_NG_UNKNOWN_CALL (NyLPC_cMiMicVM_RESULT_RUNTIME_NG|0x00000021)
nyatla 2:b96c1e90d120 42 #define NyLPC_cMiMicVM_RESULT_RUNTIME_NG_CALL (NyLPC_cMiMicVM_RESULT_RUNTIME_NG|0x00000022)
nyatla 2:b96c1e90d120 43 #define NyLPC_cMiMicVM_RESULT_isOK(v) ((v&0x80000000)==0x00000000)
nyatla 2:b96c1e90d120 44
nyatla 2:b96c1e90d120 45 /**
nyatla 2:b96c1e90d120 46 * MiMicVMのワークメモリの個数
nyatla 2:b96c1e90d120 47 */
nyatla 2:b96c1e90d120 48 #define NyLPC_TcMiMicVM_NUMBER_OF_WM 8
nyatla 2:b96c1e90d120 49
nyatla 2:b96c1e90d120 50 typedef NyLPC_TUInt8 NyLPC_TcMiMicVM_OP_TYPE;
nyatla 2:b96c1e90d120 51 typedef NyLPC_TUInt8 NyLPC_TcMiMicVM_OPR_TYPE;
nyatla 2:b96c1e90d120 52
nyatla 2:b96c1e90d120 53 typedef NyLPC_TBool (*NyLPC_TcMiMicVM_putStream)(struct NyLPC_TcMiMicVM_TEvent* i_evh,NyLPC_TUInt32 i_val);
nyatla 2:b96c1e90d120 54 typedef NyLPC_TBool (*NyLPC_TcMiMicVM_getStream)(struct NyLPC_TcMiMicVM_TEvent* i_evh,NyLPC_TUInt32* o_val);
nyatla 2:b96c1e90d120 55 /**
nyatla 2:b96c1e90d120 56 * MiMicVMのCALL命令ハンドラ。
nyatla 2:b96c1e90d120 57 * i_idに関数IDを指定する。
nyatla 2:b96c1e90d120 58 * @param i_id
nyatla 2:b96c1e90d120 59 * CALL命令のパラメタ
nyatla 2:b96c1e90d120 60 * @param i_vm
nyatla 2:b96c1e90d120 61 * VMのインスタンス。
nyatla 2:b96c1e90d120 62 * @return
nyatla 2:b96c1e90d120 63 * MiMicVMのエラーコード。
nyatla 2:b96c1e90d120 64 * 関数コールが成功したら、NyLPC_cMiMicVM_RESULT_OKを返すこと。エラーの場合はNyLPC_cMiMicVM_RESULT_NG又はカスタムエラーコードを返すこと。
nyatla 2:b96c1e90d120 65 */
nyatla 2:b96c1e90d120 66 typedef NyLPC_TUInt32 (*NyLPC_TcMiMicVM_nativeCall)(struct NyLPC_TcMiMicVM_TEvent* i_evh,NyLPC_TUInt32 i_id,NyLPC_TcMiMicVM_t* i_vm);
nyatla 2:b96c1e90d120 67 typedef void (*NyLPC_TcMiMicVM_sleep)(struct NyLPC_TcMiMicVM_TEvent* i_evh,NyLPC_TUInt32 i_sleep_in_msec);
nyatla 2:b96c1e90d120 68 struct NyLPC_TcMiMicVM_TEvent
nyatla 2:b96c1e90d120 69 {
nyatla 2:b96c1e90d120 70 NyLPC_TcMiMicVM_putStream put_stream;
nyatla 2:b96c1e90d120 71 NyLPC_TcMiMicVM_getStream get_stream;
nyatla 2:b96c1e90d120 72 NyLPC_TcMiMicVM_sleep sleep;
nyatla 2:b96c1e90d120 73 NyLPC_TcMiMicVM_nativeCall native_call;
nyatla 2:b96c1e90d120 74 };
nyatla 2:b96c1e90d120 75
nyatla 2:b96c1e90d120 76
nyatla 2:b96c1e90d120 77 struct NyLPC_TcMiMicVM
nyatla 2:b96c1e90d120 78 {
nyatla 2:b96c1e90d120 79 struct NyLPC_TcMiMicVM_TEvent* _event_handler;
nyatla 2:b96c1e90d120 80 NyLPC_TUInt32 wm[NyLPC_TcMiMicVM_NUMBER_OF_WM];
nyatla 2:b96c1e90d120 81 };
nyatla 2:b96c1e90d120 82 void NyLPC_cMiMicVM_initialize(NyLPC_TcMiMicVM_t* i_inst,struct NyLPC_TcMiMicVM_TEvent* i_handler);
nyatla 2:b96c1e90d120 83 #define NyLPC_cMiMicVM_finalize(i);
nyatla 2:b96c1e90d120 84 NyLPC_TUInt32 NyLPC_cMiMicVM_run(NyLPC_TcMiMicVM_t* i_inst,const NyLPC_TUInt32* i_instruction,const NyLPC_TUInt16 i_size_of_instruction);
nyatla 2:b96c1e90d120 85 NyLPC_TBool NyLPC_cMiMicVM_sput(NyLPC_TcMiMicVM_t* i_inst,NyLPC_TUInt32 i_val);
nyatla 2:b96c1e90d120 86 NyLPC_TBool NyLPC_cMiMicVM_sget(NyLPC_TcMiMicVM_t* i_inst,NyLPC_TUInt32* o_val);
nyatla 2:b96c1e90d120 87
nyatla 2:b96c1e90d120 88 #ifdef __cplusplus
nyatla 2:b96c1e90d120 89 }
nyatla 2:b96c1e90d120 90 #endif /* __cplusplus */
nyatla 2:b96c1e90d120 91
nyatla 2:b96c1e90d120 92 #endif /* NYLPC_CMIMICVM_H_ */