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  • Servlets and JavaServer Pages is the first complete guide to building dynamic Java-based Web applica

    Servlets and JavaServer Pages is the first complete guide to building dynamic Java-based Web applications using the new JavaServer Pages 2.0 and Servlets 2.4. Servlets and JavaServer Pages (JSP) Provide a robust solution to developing large, complex Web applications, including multiserver projects. In addition to built-in security, portability, and a Web server, they offer developers the freedom to work with any operating system that supports Javabe it Linux, Windows, OSX, or Solaris. This authoritative book begins by explaining how to set up a Servlet and JSP development environment, including a discussion of containers, Java support, and installing and configuring Tomcat. The authors then thoroughly explore servlets and JSP, including significant coverage of custom tag libraries, newly available filters, and popular servlet and JSP design patterns. Readers can then test-drive the knowledge gained by constructing a book-support Web site.

    标签: JavaServer Java-based Servlets complete

    上传时间: 2014-01-02

    上传用户:zsjzc

  • We (the Klimas family) are relative Linux newbies (with Linux since Summer 1998). We run RedHat mos

    We (the Klimas family) are relative Linux newbies (with Linux since Summer 1998). We run RedHat mostly -> the solutions might not be directly applicable to other Linux distributions (although most of them probably will). Hope this helps, we try to be as practical as possible. Of course, we Provide no warranty whatsoever!

    标签: Linux relative newbies Klimas

    上传时间: 2017-09-06

    上传用户:gdgzhym

  • This is a Rural Dispensary Management System developed in Java Swing. Liquid Aqua look and feel had

    This is a Rural Dispensary Management System developed in Java Swing. Liquid Aqua look and feel had been used and can Provide a good example for developing basic applications in Swing. it can also be used as an Rural Dispensary Management System by itself.

    标签: Dispensary Management developed Liquid

    上传时间: 2013-12-26

    上传用户:阿四AIR

  • trivium_p3

    This document specifies trivium, a hardware oriented synchronous stream cipher which aims to Provide a flexible trade-off between speed and area.

    标签: trivium_p3

    上传时间: 2015-05-09

    上传用户:inazeze

  • net_tcp.h

    /* ********************************************************************************************************* *                                             uC/TCP-IP V2 *                                      The Embedded TCP/IP Suite * *                          (c) Copyright 2003-2010; Micrium, Inc.; Weston, FL * *               All rights reserved.  Protected by international copyright laws. * *               uC/TCP-IP is Provided in source form to registered licensees ONLY.  It is  *               illegal to distribute this source code to any third party unless you receive  *               written permission by an authorized Micrium representative.  Knowledge of  *               the source code may NOT be used to develop a similar product. * *               Please help us continue to Provide the Embedded community with the finest  *               software available.  Your honesty is greatly appreciated. * *               You can contact us at www.micrium.com. ********************************************************************************************************* */ /* ********************************************************************************************************* * *                                          NETWORK TCP LAYER *                                   (TRANSMISSION CONTROL PROTOCOL) * * Filename      : net_tcp.h * Version       : V2.10 * Programmer(s) : ITJ ********************************************************************************************************* * Note(s)       : (1) Supports Transmission Control Protocol as described in RFC #793 with the following *                     restrictions/constraints : * *                     (a) TCP Security & Precedence NOT supported               RFC # 793, Section 3.6 * *                     (b) TCP Urgent Data           NOT supported               RFC # 793, Section 3.7 *                                                                                'The Communication of *                                                                                  Urgent Information' * *                     (c) The following TCP options NOT supported :              * *                         (1) Window Scale                                      RFC #1072, Section 2 *                                                                               RFC #1323, Section 2 *                         (2) Selective Acknowledgement (SACK)                  RFC #1072, Section 3 *                                                                               RFC #2018 *                                                                               RFC #2883 *                         (3) TCP Echo                                          RFC #1072, Section 4 *                         (4) Timestamp                                         RFC #1323, Section 3.2 *                         (5) Protection Against Wrapped Sequences (PAWS)       RFC #1323, Section 4 * *                     (d) #### IP-Options-to-TCP-Connection                     RFC #1122, Section 4.2.3.8 *                                Handling NOT           supported * *                     (e) #### ICMP-Error-Message-to-TCP-Connection             RFC #1122, Section 4.2.3.9 *                                Handling NOT currently supported * *                 (2) TCP Layer assumes/requires Network Socket Layer (see 'net_sock.h  MODULE  Note #1a2'). ********************************************************************************************************* */ /*$PAGE*/ /* ********************************************************************************************************* *                                               MODULE * * Note(s) : (1) TCP Layer module is NOT required for UDP-to-Application API configuration. * *               See also 'net_cfg.h  TRANSPORT LAYER CONFIGURATION' *                      & 'net_cfg.h  USER DATAGRAM PROTOCOL LAYER CONFIGURATION'. * *               See also 'net_tcp.h  Note #2'. * *           (2) The following TCP-module-present configuration value MUST be pre-#define'd in  *               'net_cfg_net.h' PRIOR to all other network modules that require TCP Layer *               configuration (see 'net_cfg_net.h  TCP LAYER CONFIGURATION  Note #2b') : * *                   NET_TCP_MODULE_PRESENT ********************************************************************************************************* */ #ifdef   NET_TCP_MODULE_PRESENT                                 /* See Note #2.                                         */ /* ********************************************************************************************************* *                                               EXTERNS ********************************************************************************************************* */ #if ((defined(NET_TCP_MODULE)) && \      (defined(NET_GLOBALS_EXT))) #define  NET_TCP_EXT #else #define  NET_TCP_EXT  extern #endif /*$PAGE*/ /* ********************************************************************************************************* *                                               DEFINES ********************************************************************************************************* */ /* ********************************************************************************************************* *                                         TCP HEADER DEFINES * * Note(s) : (1) The following TCP value MUST be pre-#define'd in 'net_def.h' PRIOR to 'net_buf.h' so that *               the Network Buffer Module can configure maximum buffer header size (see 'net_def.h  TCP *               LAYER DEFINES' & 'net_buf.h  NETWORK BUFFER INDEX & SIZE DEFINES  Note #1') : * *               (a) NET_TCP_HDR_SIZE_MAX                  60        (NET_TCP_HDR_LEN_MAX *                                                                  * NET_TCP_HDR_LEN_WORD_SIZE) * *           (2) Urgent pointer & data NOT supported (see 'net_tcp.h  Note #1b'). ********************************************************************************************************* */ #define  NET_TCP_HDR_LEN_MASK                         0xF000u #define  NET_TCP_HDR_LEN_SHIFT                            12u #define  NET_TCP_HDR_LEN_NONE                              0u #define  NET_TCP_HDR_LEN_MIN                               5u #define  NET_TCP_HDR_LEN_MAX                              15u #define  NET_TCP_HDR_LEN_WORD_SIZE                       CPU_WORD_SIZE_32 #define  NET_TCP_HDR_SIZE_MIN                           (NET_TCP_HDR_LEN_MIN * NET_TCP_HDR_LEN_WORD_SIZE) #if 0                                                           /* See Note #1a.                                        */ #define  NET_TCP_HDR_SIZE_MAX                           (NET_TCP_HDR_LEN_MAX * NET_TCP_HDR_LEN_WORD_SIZE) #endif #define  NET_TCP_HDR_SIZE_TOT_MIN                       (NET_IP_HDR_SIZE_TOT_MIN + NET_TCP_HDR_SIZE_MIN) #define  NET_TCP_HDR_SIZE_TOT_MAX                       (NET_IP_HDR_SIZE_TOT_MAX + NET_TCP_HDR_SIZE_MAX) #define  NET_TCP_PSEUDO_HDR_SIZE                          12u   /*  = sizeof(NET_TCP_PSEUDO_HDR)                        */ #define  NET_TCP_PORT_NBR_RESERVED                       NET_PORT_NBR_RESERVED #define  NET_TCP_PORT_NBR_NONE                           NET_TCP_PORT_NBR_RESERVED #define  NET_TCP_HDR_URG_PTR_NONE                     0x0000u   /* See Note #2.                                         */ /*$PAGE*/ /* ********************************************************************************************************* *                                       TCP HEADER FLAG DEFINES * * Note(s) : (1) See 'TCP HEADER  Note #2' for flag fields. * *           (2) Urgent pointer & data NOT supported (see 'net_tcp.h  Note #1b'). ********************************************************************************************************* */ #define  NET_TCP_HDR_FLAG_MASK                        0x0FFFu #define  NET_TCP_HDR_FLAG_NONE                    DEF_BIT_NONE #define  NET_TCP_HDR_FLAG_RESERVED                    0x0FE0u   /* MUST be '0'.                                         */ #define  NET_TCP_HDR_FLAG_URGENT                  DEF_BIT_05    /* See Note #2.                                         */ #define  NET_TCP_HDR_FLAG_ACK                     DEF_BIT_04 #define  NET_TCP_HDR_FLAG_PUSH                    DEF_BIT_03 #define  NET_TCP_HDR_FLAG_RESET                   DEF_BIT_02 #define  NET_TCP_HDR_FLAG_SYNC                    DEF_BIT_01 #define  NET_TCP_HDR_FLAG_FIN                     DEF_BIT_00 #define  NET_TCP_HDR_FLAG_CLOSE                   NET_TCP_HDR_FLAG_FIN /* ********************************************************************************************************* *                                          TCP FLAG DEFINES ********************************************************************************************************* */                                                                 /* ------------------ NET TCP FLAGS ------------------- */ #define  NET_TCP_FLAG_NONE                        DEF_BIT_NONE #define  NET_TCP_FLAG_USED                        DEF_BIT_00    /* TCP conn cur used; i.e. NOT in free TCP conn pool.   */                                                                 /* ------------------ TCP TX  FLAGS ------------------- */                                                                 /* TCP tx flags copied from TCP hdr flags.              */ #define  NET_TCP_FLAG_TX_FIN                      NET_TCP_HDR_FLAG_FIN #define  NET_TCP_FLAG_TX_CLOSE                    NET_TCP_FLAG_TX_FIN #define  NET_TCP_FLAG_TX_SYNC                     NET_TCP_HDR_FLAG_SYNC #define  NET_TCP_FLAG_TX_RESET                    NET_TCP_HDR_FLAG_RESET #define  NET_TCP_FLAG_TX_PUSH                     NET_TCP_HDR_FLAG_PUSH #define  NET_TCP_FLAG_TX_ACK                      NET_TCP_HDR_FLAG_ACK #define  NET_TCP_FLAG_TX_URGENT                   NET_TCP_HDR_FLAG_URGENT #define  NET_TCP_FLAG_TX_BLOCK                    DEF_BIT_07                                                                 /* ------------------ TCP RX  FLAGS ------------------- */ #define  NET_TCP_FLAG_RX_DATA_PEEK                DEF_BIT_08 #define  NET_TCP_FLAG_RX_BLOCK                    DEF_BIT_15 /*$PAGE*/ /* ********************************************************************************************************* *                                          TCP TYPE DEFINES * * Note(s) : (1) NET_TCP_TYPE_&&& #define values specifically chosen as ASCII representations of the TCP *               types.  Memory displays of TCP types will display with their chosen ASCII names. ********************************************************************************************************* */                                                                 /* ------------------ NET TCP TYPES ------------------- */ #if     (CPU_CFG_ENDIAN_TYPE == CPU_ENDIAN_TYPE_BIG) #define  NET_TCP_TYPE_NONE                        0x4E4F4E45u   /* "NONE" in ASCII.                                     */ #define  NET_TCP_TYPE_CONN                        0x54435020u   /* "TCP " in ASCII.                                     */ #else #if     (CPU_CFG_DATA_SIZE   == CPU_WORD_SIZE_32) #define  NET_TCP_TYPE_NONE                        0x454E4F4Eu   /* "NONE" in ASCII.                                     */ #define  NET_TCP_TYPE_CONN                        0x20504354u   /* "TCP " in ASCII.                                     */ #elif   (CPU_CFG_DATA_SIZE   == CPU_WORD_SIZE_16) #define  NET_TCP_TYPE_NONE                        0x4F4E454Eu   /* "NONE" in ASCII.                                     */ #define  NET_TCP_TYPE_CONN                        0x43542050u   /* "TCP " in ASCII.                                     */ #else                                                           /* Dflt CPU_WORD_SIZE_08.                               */ #define  NET_TCP_TYPE_NONE                        0x4E4F4E45u   /* "NONE" in ASCII.                                     */ #define  NET_TCP_TYPE_CONN                        0x54435020u   /* "TCP " in ASCII.                                     */ #endif #endif /* ********************************************************************************************************* *                                     TCP SEQUENCE NUMBER DEFINES * * Note(s) : (1) TCP initial transmit sequence number is incremented by a fixed value, preferably a large *               prime value or a large value with multiple unique factors. * *               (a) One reasonable TCP initial transmit sequence number increment value example : * *                       65527  =  37 * 23 * 11 * 7 * * *               #### NET_TCP_TX_SEQ_NBR_CTR_INC could be developer-configured in 'net_cfg.h'. * *               See also 'NET_TCP_TX_GET_SEQ_NBR()  Notes #1b2 & #1c2'. ********************************************************************************************************* */ #define  NET_TCP_SEQ_NBR_NONE                              0u #define  NET_TCP_ACK_NBR_NONE                            NET_TCP_SEQ_NBR_NONE #define  NET_TCP_TX_SEQ_NBR_CTR_INC                    65527u   /* See Note #1.                                         */ #define  NET_TCP_ACK_NBR_DUP_WIN_SIZE_SCALE                4 /*$PAGE*/ /* ********************************************************************************************************* *                                    TCP DATA/TOTAL LENGTH DEFINES * * Note(s) : (1) (a) TCP total length #define's (NET_TCP_TOT_LEN)  relate to the total size of a complete *                   TCP packet, including the packet's TCP header.  Note that a complete TCP packet MAY *                   be fragmented in multiple Internet Protocol packets. * *               (b) TCP data  length #define's (NET_TCP_DATA_LEN) relate to the data  size of a complete *                   TCP packet, equal to the total TCP packet length minus its TCP header size.  Note  *                   that a complete TCP packet MAY be fragmented in multiple Internet Protocol packets. ********************************************************************************************************* */                                                                                 /* See Notes #1a & #1b.                 */ #define  NET_TCP_DATA_LEN_MIN                              0u #define  NET_TCP_TOT_LEN_MIN                            (NET_TCP_HDR_SIZE_MIN + NET_TCP_DATA_LEN_MIN) #define  NET_TCP_TOT_LEN_MAX                            (NET_IP_TOT_LEN_MAX   - NET_IP_HDR_SIZE_MIN ) #define  NET_TCP_DATA_LEN_MAX                           (NET_TCP_TOT_LEN_MAX  - NET_TCP_HDR_SIZE_MIN) /*$PAGE*/ /* ********************************************************************************************************* *                                      TCP SEGMENT SIZE DEFINES * * Note(s) : (1) (a) RFC # 879, Section 3 states that the TCP Maximum Segment Size "counts only *                   data octets in the segment, ... not the TCP header or the IP header". * *               (b) RFC #1122, Section 4.2.2.6 requires that : * *                   (1) "The MSS value to be sent in an MSS option must be less than or equal to * *                        (A) MMS_R - 20 * *                        where MMS_R is the maximum size for a transport-layer message that can *                        be received." * *                   (2) "If an MSS option is not received at connection setup, TCP MUST assume a *                        default send MSS of 536 (576 - 40)." * *                   See also 'net_ip.h  IP DATA/TOTAL LENGTH DEFINES  Note #1'. ********************************************************************************************************* */                                                                                         /* See Note #1.                 */ #define  NET_TCP_MAX_SEG_SIZE_DFLT                      (NET_IP_MAX_DATAGRAM_SIZE_DFLT - NET_IP_HDR_SIZE_MIN - NET_TCP_HDR_SIZE_MIN) #define  NET_TCP_MAX_SEG_SIZE_DFLT_RX                    NET_TCP_DATA_LEN_MAX           /* See Note #1b1.               */ #define  NET_TCP_MAX_SEG_SIZE_DFLT_TX                    NET_TCP_MAX_SEG_SIZE_DFLT      /* See Note #1b2.               */ #define  NET_TCP_MAX_SEG_SIZE_NONE                         0u #define  NET_TCP_MAX_SEG_SIZE_MIN                        NET_TCP_MAX_SEG_SIZE_DFLT #define  NET_TCP_MAX_SEG_SIZE_MAX                        NET_TCP_DATA_LEN_MAX #define  NET_TCP_SEG_LEN_MIN                             NET_TCP_DATA_LEN_MIN #define  NET_TCP_SEG_LEN_MAX                             NET_TCP_DATA_LEN_MAX #define  NET_TCP_SEG_LEN_SYNC                              1u #define  NET_TCP_SEG_LEN_FIN                               1u #define  NET_TCP_SEG_LEN_CLOSE                           NET_TCP_SEG_LEN_FIN #define  NET_TCP_SEG_LEN_ACK                               0u #define  NET_TCP_SEG_LEN_RESET                             0u #define  NET_TCP_SEG_LEN_PROBE                             0u #define  NET_TCP_DATA_LEN_TX_SYNC                          0u #define  NET_TCP_DATA_LEN_TX_FIN                           0u #define  NET_TCP_DATA_LEN_TX_CLOSE                       NET_TCP_DATA_LEN_TX_FIN #define  NET_TCP_DATA_LEN_TX_ACK                           0u #define  NET_TCP_DATA_LEN_TX_PROBE_NO_DATA                 0u #define  NET_TCP_DATA_LEN_TX_PROBE_DATA                    1u #define  NET_TCP_DATA_LEN_TX_RESET                         0u #define  NET_TCP_TX_PROBE_DATA                          0x00u /* ********************************************************************************************************* *                                       TCP WINDOW SIZE DEFINES * * Note(s) : (1) Although NO RFC specifies the absolute minimum TCP connection window size value allowed, *               RFC #793, Section 3.7 'Data Communication : Managing the Window' states that for "the *               window ... there is an assumption that this is related to the currently available data *               buffer space available for this connection". ********************************************************************************************************* */ #define  NET_TCP_WIN_SIZE_NONE                             0u #define  NET_TCP_WIN_SIZE_MIN                            NET_TCP_MAX_SEG_SIZE_MIN #define  NET_TCP_WIN_SIZE_MAX                            DEF_INT_16U_MAX_VAL /*$PAGE*/ /* ********************************************************************************************************* *                                     TCP HEADER OPTIONS DEFINES * * Note(s) : (1) See the following RFC's for TCP options summary : * *               (a) RFC # 793, Section  3.1 'Header Format : Options' *               (b) RFC #1122; Sections 4.2.2.5, 4.2.2.6 * *           (2) TCP option types are encoded in the first octet for each TCP option as follows : * *                           -------- *                           | TYPE | *                           -------- * *               The TCP option type value determines the TCP option format : * *               (a) The following TCP option types are single-octet TCP options -- i.e. the option type *                   octet is the ONLY octet for the TCP option. * *                   (1) TYPE =  0   End of Options List *                   (2) TYPE =  1   No Operation * * *               (b) All other TCP options MUST be multi-octet TCP options (see RFC #1122, Section 4.2.2.5) : * *                           ------------------------------ *                           | TYPE | LEN  |   TCP OPT    | *                           ------------------------------ * *                       where  *                               TYPE        Indicates the specific TCP option type *                               LEN         Indicates the total    TCP option length, in octets, including  *                                                the option type & the option length octets *                               TCP OPT     Additional TCP option octets, if any, that contain the remaining *                                                TCP option information * *                   The following TCP option types are multi-octet TCP options where the option's second *                   octet specify the total TCP option length, in octets, including the option type & the *                   option length octets : * *                   (1) TYPE =  2   Maximum Segment Size        See RFC # 793, Section  3.1 'Header Format : *                                                                   Options : Maximum Segment Size'; *                                                                   RFC #1122, Section 4.2.2.6; *                                                                   RFC # 879, Section 3 * *                   (2) TYPE =  3   Window  Scale               See 'net_tcp.h  Note #1c1' *                   (3) TYPE =  4   SACK Allowed                See 'net_tcp.h  Note #1c2' *                   (4) TYPE =  5   SACK Option                 See 'net_tcp.h  Note #1c2' *                   (5) TYPE =  6   Echo Request                See 'net_tcp.h  Note #1c3' *                   (6) TYPE =  7   Echo Reply                  See 'net_tcp.h  Note #1c3' *                   (7) TYPE =  8   Timestamp                   See 'net_tcp.h  Note #1c4' * *           (3) TCP header allows for a maximum option list length of 40 octets : * *                   NET_TCP_HDR_OPT_SIZE_MAX = NET_TCP_HDR_SIZE_MAX - NET_TCP_HDR_SIZE_MIN * *                                            = 60 - 20 * *                                            = 40 * *           (4) 'NET_TCP_OPT_SIZE'  MUST be pre-defined PRIOR to all definitions that require TCP option  *                size data type. ********************************************************************************************************* */ /*$PAGE*/ #define  NET_TCP_HDR_OPT_END_LIST                          0u #define  NET_TCP_HDR_OPT_NOP                               1u #define  NET_TCP_HDR_OPT_MAX_SEG_SIZE                      2u #define  NET_TCP_HDR_OPT_WIN_SCALE                         3u #define  NET_TCP_HDR_OPT_SACK_PERMIT                       4u #define  NET_TCP_HDR_OPT_SACK                              5u #define  NET_TCP_HDR_OPT_ECHO_REQ                          6u #define  NET_TCP_HDR_OPT_ECHO_REPLY                        7u #define  NET_TCP_HDR_OPT_TS                                8u #define  NET_TCP_HDR_OPT_PAD                             NET_TCP_HDR_OPT_END_LIST #define  NET_TCP_HDR_OPT_LEN_END_LIST                      1u #define  NET_TCP_HDR_OPT_LEN_NOP                           1u #define  NET_TCP_HDR_OPT_LEN_MAX_SEG_SIZE                  4u #define  NET_TCP_HDR_OPT_LEN_WIN_SCALE                     3u #define  NET_TCP_HDR_OPT_LEN_SACK_PERMIT                   2u #define  NET_TCP_HDR_OPT_LEN_ECHO_REQ                      6u #define  NET_TCP_HDR_OPT_LEN_ECHO_REPLY                    6u #define  NET_TCP_HDR_OPT_LEN_TS                           10u #define  NET_TCP_HDR_OPT_LEN_SACK_MIN                      6u #define  NET_TCP_HDR_OPT_LEN_SACK_MAX                     38u #define  NET_TCP_HDR_OPT_LEN_MIN                           1u #define  NET_TCP_HDR_OPT_LEN_MIN_LEN                       2u #define  NET_TCP_HDR_OPT_LEN_MAX                          38u typedef  CPU_INT32U  NET_TCP_OPT_SIZE;                          /* TCP opt size data type (see Note #4).                */ #define  NET_TCP_HDR_OPT_SIZE_WORD               (sizeof(NET_TCP_OPT_SIZE)) #define  NET_TCP_HDR_OPT_SIZE_MAX                       (NET_TCP_HDR_SIZE_MAX - NET_TCP_HDR_SIZE_MIN) #define  NET_TCP_HDR_OPT_NBR_MIN                           0u #define  NET_TCP_HDR_OPT_NBR_MAX                        (NET_TCP_HDR_OPT_SIZE_MAX / NET_TCP_HDR_OPT_SIZE_WORD) #define  NET_TCP_HDR_OPT_IX                              NET_TCP_HDR_SIZE_MIN /*$PAGE*/ /* ********************************************************************************************************* *                                TCP OPTION CONFIGURATION TYPE DEFINES * * Note(s) : (1) NET_TCP_OPT_CFG_TYPE_&&& #define values specifically chosen as ASCII representations of  *               the TCP option configuration types.  Memory displays of TCP option configuration buffers  *               will display the TCP option configuration TYPEs with their chosen ASCII names. ********************************************************************************************************* */                                                                 /* ---------------- TCP OPT CFG TYPES ----------------- */ #if     (CPU_CFG_ENDIAN_TYPE == CPU_ENDIAN_TYPE_BIG) #define  NET_TCP_OPT_CFG_TYPE_NONE                0x4E4F4E45u   /* "NONE" in ASCII.                                     */ #define  NET_TCP_OPT_CFG_TYPE_MAX_SEG_SIZE        0x4D535320u   /* "MSS " in ASCII.                                     */ #define  NET_TCP_OPT_CFG_TYPE_WIN_SCALE           0x57494E20u   /* "WIN " in ASCII (see 'net_tcp.h  Note #1c1').        */ #define  NET_TCP_OPT_CFG_TYPE_SACK_PERMIT         0x53434B50u   /* "SCKP" in ASCII (see 'net_tcp.h  Note #1c2').        */ #define  NET_TCP_OPT_CFG_TYPE_SACK                0x5341434Bu   /* "SACK" in ASCII (see 'net_tcp.h  Note #1c2').        */ #define  NET_TCP_OPT_CFG_TYPE_ECHO_REQ            0x45524551u   /* "EREQ" in ASCII (see 'net_tcp.h  Note #1c3').        */ #define  NET_TCP_OPT_CFG_TYPE_ECHO_REPLY          0x4543484Fu   /* "ECHO" in ASCII (see 'net_tcp.h  Note #1c3').        */ #define  NET_TCP_OPT_CFG_TYPE_TS                  0x54532020u   /* "TS  " in ASCII (see 'net_tcp.h  Note #1c4').        */ #else #if     (CPU_CFG_DATA_SIZE   == CPU_WORD_SIZE_32) #define  NET_TCP_OPT_CFG_TYPE_NONE                0x454E4F4Eu   /* "NONE" in ASCII.                                     */ #define  NET_TCP_OPT_CFG_TYPE_MAX_SEG_SIZE        0x2053534Du   /* "MSS " in ASCII.                                     */ #define  NET_TCP_OPT_CFG_TYPE_WIN_SCALE           0x204E4957u   /* "WIN " in ASCII (see 'net_tcp.h  Note #1c1').        */ #define  NET_TCP_OPT_CFG_TYPE_SACK_PERMIT         0x504B4353u   /* "SCKP" in ASCII (see 'net_tcp.h  Note #1c2').        */ #define  NET_TCP_OPT_CFG_TYPE_SACK                0x4B434153u   /* "SACK" in ASCII (see 'net_tcp.h  Note #1c2').        */ #define  NET_TCP_OPT_CFG_TYPE_ECHO_REQ            0x51455245u   /* "EREQ" in ASCII (see 'net_tcp.h  Note #1c3').        */ #define  NET_TCP_OPT_CFG_TYPE_ECHO_REPLY          0x4F484345u   /* "ECHO" in ASCII (see 'net_tcp.h  Note #1c3').        */ #define  NET_TCP_OPT_CFG_TYPE_TS                  0x20205354u   /* "TS  " in ASCII (see 'net_tcp.h  Note #1c4').        */ #elif   (CPU_CFG_DATA_SIZE   == CPU_WORD_SIZE_16) #define  NET_TCP_OPT_CFG_TYPE_NONE                0x4F4E454Eu   /* "NONE" in ASCII.                                     */ #define  NET_TCP_OPT_CFG_TYPE_MAX_SEG_SIZE        0x534D2053u   /* "MSS " in ASCII.                                     */ #define  NET_TCP_OPT_CFG_TYPE_WIN_SCALE           0x4957204Eu   /* "WIN " in ASCII (see 'net_tcp.h  Note #1c1').        */ #define  NET_TCP_OPT_CFG_TYPE_SACK_PERMIT         0x4353504Bu   /* "SCKP" in ASCII (see 'net_tcp.h  Note #1c2').        */ #define  NET_TCP_OPT_CFG_TYPE_SACK                0x41534B43u   /* "SACK" in ASCII (see 'net_tcp.h  Note #1c2').        */ #define  NET_TCP_OPT_CFG_TYPE_ECHO_REQ            0x52455145u   /* "EREQ" in ASCII (see 'net_tcp.h  Note #1c3').        */ #define  NET_TCP_OPT_CFG_TYPE_ECHO_REPLY          0x43454F48u   /* "ECHO" in ASCII (see 'net_tcp.h  Note #1c3').        */ #define  NET_TCP_OPT_CFG_TYPE_TS                  0x53542020u   /* "TS  " in ASCII (see 'net_tcp.h  Note #1c4').        */ #else                                                           /* Dflt CPU_WORD_SIZE_08.                               */ #define  NET_TCP_OPT_CFG_TYPE_NONE                0x4E4F4E45u   /* "NONE" in ASCII.                                     */ #define  NET_TCP_OPT_CFG_TYPE_MAX_SEG_SIZE        0x4D535320u   /* "MSS " in ASCII.                                     */ #define  NET_TCP_OPT_CFG_TYPE_WIN_SCALE           0x57494E20u   /* "WIN " in ASCII (see 'net_tcp.h  Note #1c1').        */ #define  NET_TCP_OPT_CFG_TYPE_SACK_PERMIT         0x53434B50u   /* "SCKP" in ASCII (see 'net_tcp.h  Note #1c2').        */ #define  NET_TCP_OPT_CFG_TYPE_SACK                0x5341434Bu   /* "SACK" in ASCII (see 'net_tcp.h  Note #1c2').        */ #define  NET_TCP_OPT_CFG_TYPE_ECHO_REQ            0x45524551u   /* "EREQ" in ASCII (see 'net_tcp.h  Note #1c3').        */ #define  NET_TCP_OPT_CFG_TYPE_ECHO_REPLY          0x4543484Fu   /* "ECHO" in ASCII (see 'net_tcp.h  Note #1c3').        */ #define  NET_TCP_OPT_CFG_TYPE_TS                  0x54532020u   /* "TS  " in ASCII (see 'net_tcp.h  Note #1c4').        */ #endif #endif /*$PAGE*/ /* ********************************************************************************************************* *                                   TCP CONNECTION TIMEOUT DEFINES * * Note(s) : (1) (a) (1) RFC #1122, Section 4.2.2.13 'DISCUSSION' states that "the graceful close algorithm *                       of TCP requires that the connection state remain defined on (at least) one end of *                       the connection, for a timeout period of 2xMSL ... During this period, the (remote  *                       socket, local socket) pair that defines the connection is busy and cannot be reused". * *                   (2) The following sections reiterate that the TIME-WAIT state timeout scalar is two *                       maximum segment lifetimes (2 MSL) : * *                       (A) RFC #793, Section 3.9 'Event Processing : SEGMENT ARRIVES : *                               Check Sequence Number : TIME-WAIT STATE' *                       (B) RFC #793, Section 3.9 'Event Processing : SEGMENT ARRIVES : *                               Check FIN Bit         : TIME-WAIT STATE' * *               (b) (1) RFC #793, Section 3.3 'Sequence Numbers : Knowing When to Keep Quiet' states that *                       "the Maximum Segment Lifetime (MSL) is ... to be 2 minutes.  This is an engineering *                       choice, and may be changed if experience indicates it is desirable to do so". * *                   (2) Microsoft Corporation's Windows XP defaults MSL to 15 seconds. ********************************************************************************************************* */                                                                                     /* Max seg timeout (see Note #1b) : */ #define  NET_TCP_CONN_TIMEOUT_MAX_SEG_MIN_SEC   (  0u                           )   /* ... min  =  0 seconds            */ #define  NET_TCP_CONN_TIMEOUT_MAX_SEG_MAX_SEC   (  2u * DEF_TIME_NBR_SEC_PER_MIN)   /* ... max  =  2 minutes            */ #define  NET_TCP_CONN_TIMEOUT_MAX_SEG_DFLT_SEC  ( 15u                           )   /* ... dflt = 15 seconds            */ #define  NET_TCP_CONN_TIMEOUT_MAX_SEG_SCALAR       2u                               /* ... scalar (see Note #1a).       */ #define  NET_TCP_CONN_TIMEOUT_CONN_DFLT_SEC     (120u * DEF_TIME_NBR_SEC_PER_MIN)   /* Dflt conn timeout = 120 minutes  */ #define  NET_TCP_CONN_TIMEOUT_USER_DFLT_SEC     ( 30u * DEF_TIME_NBR_SEC_PER_MIN)   /* Dflt user timeout =  30 minutes  */ /*$PAGE*/ /* ********************************************************************************************************* *                                        TCP CONNECTION STATES * * Note(s) : (1) See the following RFC's for TCP state machine summary : * *               (a) RFC # 793; Sections 3.2, 3.4, 3.5, 3.9 *               (b) RFC #1122; Sections 4.2.2.8, 4.2.2.10, 4.2.2.11, 4.2.2.13, 4.2.2.18, 4.2.2.20 * *           (2) (a) #### Additional closing-data-available state used for closing connections to allow the *                   application layer to receive any remaining data. * *                   See also 'net_tcp.c  NetTCP_RxPktConnHandlerFinWait1()  Note #2f5A2', *                            'net_tcp.c  NetTCP_RxPktConnHandlerFinWait2()  Note #2f5B', *                            'net_tcp.c  NetTCP_RxPktConnHandlerClosing()   Note #2d2B2a1B', *                          & 'net_tcp.c  NetTCP_RxPktConnHandlerLastAck()   Note #2d2A1b'. ********************************************************************************************************* */ #define  NET_TCP_CONN_STATE_NONE                           0u #define  NET_TCP_CONN_STATE_FREE                           1u #define  NET_TCP_CONN_STATE_CLOSED                        10u #define  NET_TCP_CONN_STATE_LISTEN                        20u #define  NET_TCP_CONN_STATE_SYNC_RXD                      30u #define  NET_TCP_CONN_STATE_SYNC_RXD_PASSIVE              31u #define  NET_TCP_CONN_STATE_SYNC_RXD_ACTIVE               32u #define  NET_TCP_CONN_STATE_SYNC_TXD                      35u #define  NET_TCP_CONN_STATE_CONN                          40u #define  NET_TCP_CONN_STATE_FIN_WAIT_1                    50u #define  NET_TCP_CONN_STATE_FIN_WAIT_2                    51u #define  NET_TCP_CONN_STATE_CLOSING                       52u #define  NET_TCP_CONN_STATE_TIME_WAIT                     53u #define  NET_TCP_CONN_STATE_CLOSE_WAIT                    55u #define  NET_TCP_CONN_STATE_LAST_ACK                      56u #define  NET_TCP_CONN_STATE_CLOSING_DATA_AVAIL            59u   /* See Note #2a.                                        */ /* ********************************************************************************************************* *                                     TCP CONNECTION QUEUE STATES ********************************************************************************************************* */ #define  NET_TCP_RX_Q_STATE_NONE                           0u #define  NET_TCP_RX_Q_STATE_CLOSED                       100u #define  NET_TCP_RX_Q_STATE_CLOSING                      101u #define  NET_TCP_RX_Q_STATE_SYNC                         110u #define  NET_TCP_RX_Q_STATE_CONN                         111u #define  NET_TCP_TX_Q_STATE_NONE                           0u #define  NET_TCP_TX_Q_STATE_CLOSED                       200u #define  NET_TCP_TX_Q_STATE_CLOSING                      201u #define  NET_TCP_TX_Q_STATE_SYNC                         210u #define  NET_TCP_TX_Q_STATE_CONN                         211u #define  NET_TCP_TX_Q_STATE_SUSPEND                      215u #define  NET_TCP_TX_Q_STATE_CLOSED_SUSPEND               220u #define  NET_TCP_TX_Q_STATE_CLOSING_SUSPEND              221u /*$PAGE*/ /* ********************************************************************************************************* *                                     TCP CONNECTION CODE DEFINES **************

    标签: tcp uCOS-II

    上传时间: 2015-11-22

    上传用户:the same kong

  • DAKOTA

    Computational models are commonly used in engineering design and scientific discovery activities for simulating complex physical systems in disciplines such as fluid mechanics, structural dynamics, heat transfer, nonlinear structural mechanics, shock physics, and many others. These simulators can be an enormous aid to engineers who want to develop an understanding and/or predictive capability for complex behaviors typically observed in the corresponding physical systems. Simulators often serve as virtual prototypes, where a set of predefined system parameters, such as size or location dimensions and material properties, are adjusted to improve the performance of a system, as defined by one or more system performance objectives. Such optimization or tuning of the virtual prototype requires executing the simulator, evaluating performance objective(s), and adjusting the system parameters in an iterative, automated, and directed way. System performance objectives can be formulated, for example, to minimize weight, cost, or defects; to limit a critical temperature, stress, or vibration response; or to maximize performance, reliability, throughput, agility, or design robustness. In addition, one would often like to design computer experiments, run parameter studies, or perform uncertainty quantification (UQ). These approaches reveal how system performance changes as a design or uncertain input variable changes. Sampling methods are often used in uncertainty quantification to calculate a distribution on system performance measures, and to understand which uncertain inputs contribute most to the variance of the outputs. A primary goal for Dakota development is to Provide engineers and other disciplinary scientists with a systematic and rapid means to obtain improved or optimal designs or understand sensitivity or uncertainty using simulationbased models. These capabilities generally lead to improved designs and system performance in earlier design stages, alleviating dependence on physical prototypes and testing, shortening design cycles, and reducing product development costs. In addition to providing this practical environment for answering system performance questions, the Dakota toolkit Provides an extensible platform for the research and rapid prototyping of customized methods and meta-algorithms

    标签: Optimization and Uncertainty Quantification

    上传时间: 2016-04-08

    上传用户:huhu123456

  • color constancy

    color science; Provide a systematic introduction to the human vision system, color image formation, color reproduction, and color space.

    标签: color science

    上传时间: 2016-05-21

    上传用户:wisewater

  • Microphone Arrays : A Tutorial

    This report presents a tutorial of fundamental array processing and beamforming theory relevant to microphone array speech processing. A microphone array consists of multiple microphones placed at different spatial locations. Built upon a knowledge of sound propagation principles, the multiple inputs can be manipulated to enhance or attenuate signals emanating from particular directions. In this way, microphone arrays Provide a means of enhancing a desired signal in the presence of corrupting noise sources. Moreover, this enhancement is based purely on knowledge of the source location, and so microphone array techniques are applicable to a wide variety of noise types. Microphone arrays have great potential in practical applications of speech processing, due to their ability to Provide both noise robustness and hands-free signal acquisition.

    标签: Microphone array Tutorial Array Signal Processing

    上传时间: 2016-06-12

    上传用户:halias

  • 传感器网络中基于到达时间差有效的凸松弛方法的稳健定位

    We consider the problem of target localization by a network of passive sensors. When an unknown target emits an acoustic or a radio signal, its position can be localized with multiple sensors using the time difference of arrival (TDOA) information. In this paper, we consider the maximum likelihood formulation of this target localization problem and Provide efficient convex relaxations for this nonconvex optimization problem.We also propose a formulation for robust target localization in the presence of sensor location errors. Two Cramer-Rao bounds are derived corresponding to situations with and without sensor node location errors. Simulation results confirm the efficiency and superior performance of the convex relaxation approach as compared to the existing least squares based approach when large sensor node location errors are present.

    标签: 传感器网络

    上传时间: 2016-11-27

    上传用户:xxmluo

  • Bio Medical CMOS IC

    A major societal challenge for the decades to come will be the delivery of effective medical services while at the same time curbing the growing cost of healthcare. It is expected that new concepts-particularly electronically assisted healthcare will Provide an answer. This will include new devices, new medical services as well as networking. On the device side, impressive innovation has been made possible by micro- and nanoelectronics or CMOS Integrated Circuits. Even higher accuracy and smaller form factor combined with reduced cost and increased convenience of use are enabled by incorporation of CMOS IC design in the realization of biomedical systems. The compact hearing aid devices and current pacemakers are good examples of how CMOS ICs bring about these new functionalities and services in the medical field. Apart from these existing applications, many researchers are trying to develop new bio-medical solutions such as Artificial Retina, Deep Brain Stimulation, and Wearable Healthcare Systems. These are possible by combining the recent advances of bio-medical technology with low power CMOS IC technology.

    标签: Medical CMOS Bio IC

    上传时间: 2017-02-06

    上传用户:linyj