WIN32 APPLICATION : gamegold ======================================================================== AppWizard has created this gamegold application for you. This file contains a summary of what you will find in each of the files that make up your gamegold application. gamegold.cpp This is the main application source file. gamegold.dsp This file (the project file) contains information at the project level and is used to build a single project or subproject. Other users can share the project (.dsp) file, but they should export the makefiles locally.
標(biāo)簽: APPLICATION gamegold WIN 32
上傳時(shí)間: 2016-09-28
上傳用戶:sqq
Signal system and Matlab courses in the series of high-level programming and engineering applications
標(biāo)簽: application engineering programming high-level
上傳時(shí)間: 2013-12-23
上傳用戶:netwolf
Neural Networks at your Fingertips.rar =============== Network: Adaline Network =============== Application: Pattern Recognition Classification of Digits 0-9 Author: Karsten Kutza Date: 15.4.96 Reference: B. Widrow, M.E. Hoff Adaptive Switching Circuits 1960 IRE WESCON Convention Record, IRE, New York, NY, pp. 96-104, 1960
標(biāo)簽: Network Fingertips Networks Adaline
上傳時(shí)間: 2014-12-22
上傳用戶:lizhizheng88
ETSI TS 125 433 V7.9.0(2008-07) Universal Mobile Telecommunications system (UMTS) UTRAN Iub interface Node B Application Part (NBAP) signalling
標(biāo)簽: Telecommunications Universal Mobile system
上傳時(shí)間: 2013-12-21
上傳用戶:13188549192
This material is not only up-to-date, it defines up-to-date. It is truly cutting-edge. As the only book on the subject, Rootkits will be of interest to any Windows security researcher or security programmer. It s detailed, well researched and the technical information is excellent. The level of technical detail, research, and time invested in developing relevant examples is impressive.
標(biāo)簽: up-to-date only cutting-edge material
上傳時(shí)間: 2017-07-09
上傳用戶:comua
/* ********************************************************************************************************* * 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 **************
上傳時(shí)間: 2015-11-22
上傳用戶:the same kong
/****************temic*********t5557***********************************/ #include <at892051.h> #include <string.h> #include <intrins.h> #include <stdio.h> #define uchar unsigned char #define uint unsigned int #define ulong unsigned long //STC12C2051AD的SFR定義 sfr WDT_CONTR = 0xe1;//stc2051的看門狗?????? /**********全局常量************/ //寫卡的命令 #define write_command0 0//寫密碼 #define write_command1 1//寫配置字 #define write_command2 2//密碼寫數(shù)據(jù) #define write_command3 3//喚醒 #define write_command4 4//停止命令 #define TRUE 1 #define FALSE 0 #define OK 0 #define ERROR 255 //讀卡的時(shí)間參數(shù)us #define ts_min 250//270*11.0592/12=249//取近似的整數(shù) #define ts_max 304//330*11.0592/12=304 #define t1_min 73//90*11.0592/12=83:-10調(diào)整 #define t1_max 156//180*11.0592/12=166 #define t2_min 184//210*11.0592/12=194 #define t2_max 267//300*11.0592/12=276 //***********不采用中斷處理:采用查詢的方法讀卡時(shí)關(guān)所有中斷****************/ sbit p_U2270B_Standby = P3^5;//p_U2270B_Standby PIN=13 sbit p_U2270B_CFE = P3^3;//p_U2270B_CFE PIN=6 sbit p_U2270B_OutPut = P3^7;//p_U2270B_OutPut PIN=2 sbit wtd_sck = P1^7;//SPI總線 sbit wtd_si = P1^3; sbit wtd_so = P1^2; sbit iic_data = P1^2;//lcd IIC sbit iic_clk = P1^7; sbit led_light = P1^6;//測試綠燈 sbit led_light1 = P1^5;//測試紅燈 sbit led_light_ok = P1^1;//讀卡成功標(biāo)志 sbit fengmingqi = P1^5; /***********全局變量************************************/ uchar data Nkey_a[4] = {0xA0, 0xA1, 0xA2, 0xA3};//初始密碼 //uchar idata card_snr[4]; //配置字 uchar data bankdata[28] = {1,2,3,4,5,6,7,1,2,3,4,5,6,7,1,2,3,4,5,6,7,1,2,3,4,5,6,7}; //存儲(chǔ)卡上用戶數(shù)據(jù)(1-7)7*4=28 uchar data cominceptbuff[6] = {1,2,3,4,5,6};//串口接收數(shù)組ram uchar command; //第一個(gè)命令 uchar command1;// //uint temp; uchar j,i; uchar myaddr = 8; //uchar ywqz_count,time_count; //ywqz jishu: uchar bdata DATA; sbit BIT0 = DATA^0; sbit BIT1 = DATA^1; sbit BIT2 = DATA^2; sbit BIT3 = DATA^3; sbit BIT4 = DATA^4; sbit BIT5 = DATA^5; sbit BIT6 = DATA^6; sbit BIT7 = DATA^7; uchar bdata DATA1; sbit BIT10 = DATA1^0; sbit BIT11 = DATA1^1; sbit BIT12 = DATA1^2; sbit BIT13 = DATA1^3; sbit BIT14 = DATA1^4; sbit BIT15 = DATA1^5; sbit BIT16 = DATA1^6; sbit BIT17 = DATA1^7; bit i_CurrentLevel;//i_CurrentLevel BIT 00H(Saves current level of OutPut pin of U2270B) bit timer1_end; bit read_ok = 0; //緩存定時(shí)值,因用同一個(gè)定時(shí)器 union HLint { uint W; struct { uchar H;uchar L; } B; };//union HLint idata a union HLint data a; //緩存定時(shí)值,因用同一個(gè)定時(shí)器 union HLint0 { uint W; struct { uchar H; uchar L; } B; };//union HLint idata a union HLint0 data b; /**********************函數(shù)原型*****************/ //讀寫操作 void f_readcard(void);//全部讀出1~7 AOR喚醒 void f_writecard(uchar x);//根據(jù)命令寫不同的內(nèi)容和操作 void f_clearpassword(void);//清除密碼 void f_changepassword(void);//修改密碼 //功能子函數(shù) void write_password(uchar data *data p);//寫初始密碼或數(shù)據(jù) void write_block(uchar x,uchar data *data p);//不能用通用指針 void write_bit(bit x);//寫位 /*子函數(shù)區(qū)*****************************************************/ void delay_2(uint x) //延時(shí),時(shí)間x*10us@12mhz,最小20us@12mhz { x--; x--; while(x) { _nop_(); _nop_(); x--; } _nop_();//WDT_CONTR=0X3C;不能頻繁的復(fù)位 _nop_(); } ///////////////////////////////////////////////////////////////////// void initial(void) { SCON = 0x50; //串口方式1,允許接收 //SCON =0x50; //01010000B:10位異步收發(fā),波特率可變,SM2=0不用接收到有效停止位才RI=1, //REN=1允許接收 TMOD = 0x21; //定時(shí)器1 定時(shí)方式2(8位),定時(shí)器0 定時(shí)方式1(16位) TCON = 0x40; //設(shè)定時(shí)器1 允許開始計(jì)時(shí)(IT1=1) TH1 = 0xfD; //FB 18.432MHz 9600 波特率 TL1 = 0xfD; //fd 11.0592 9600 IE = 0X90; //EA=ES=1 TR1 = 1; //啟動(dòng)定時(shí)器 WDT_CONTR = 0x3c;//使能看門狗 p_U2270B_Standby = 0;//單電源 PCON = 0x00; IP = 0x10;//uart you xian XXXPS PT1 PX1 PT0 PX0 led_light1 = 1; led_light = 0; p_U2270B_OutPut = 1; } /************************************************/ void f_readcard()//讀卡 { EA = 0;//全關(guān),防止影響跳變的定時(shí)器計(jì)時(shí) WDT_CONTR = 0X3C;//喂狗 p_U2270B_CFE = 1;// delay_2(232); //>2.5ms /* // aor 用喚醒功能來防碰撞 p_U2270B_CFE = 0; delay_2(18);//start gap>150us write_bit(1);//10=操作碼讀0頁 write_bit(0); write_password(&bankdata[24]);//密碼block7 p_U2270B_CFE =1 ;// delay_2(516);//編程及確認(rèn)時(shí)間5.6ms */ WDT_CONTR = 0X3C;//喂狗 led_light = 0; b.W = 0; while(!(read_ok == 1)) { //while(p_U2270B_OutPut);//等一個(gè)穩(wěn)定的低電平?超時(shí)判斷? while(!p_U2270B_OutPut);//等待上升沿的到來同步信號(hào)檢測1 TR0 = 1; //deng xia jiang while(p_U2270B_OutPut);//等待下降沿 TR0 = 0; a.B.H = TH0; a.B.L = TL0; TH0 = TL0 = 0; TR0 = 1;//定時(shí)器晚啟動(dòng)10個(gè)周期 //同步頭 if((324 < a.W) && (a.W < 353)) ;//檢測同步信號(hào)1 else { TR0 = 0; TH0 = TL0 = 0; goto read_error; } //等待上升沿 while(!p_U2270B_OutPut); TR0 = 0; a.B.H = TH0; a.B.L = TL0; TH0 = TL0 = 0; TR0 = 1;//b.N1<<=8; if(a.B.L < 195);//0.5p else { TR0 = 0; TH0 = TL0 = 0; goto read_error; } //讀0~7塊的數(shù)據(jù) for(j = 0;j < 28;j++) { //uchar i; for(i = 0;i < 16;i++)//8個(gè)位 { //等待下降沿的到來 while(p_U2270B_OutPut); TR0 = 0; a.B.H = TH0; a.B.L = TL0; TH0 = TL0 = 0; TR0 = 1; if(t2_max < a.W/*)&&(a.W < t2_max)*/)//1P { b.W >>= 2;//先左移再賦值 b.B.L += 0xc0; i++; } else if(t1_min < a.B.L/*)&&(a.B.L < t1_max)*/)//0.5p { b.W >>= 1; b.B.L += 0x80; } else { TR0 = 0; TH0 = TL0 = 0; goto read_error; } i++; while(!p_U2270B_OutPut);//上升 TR0 = 0; a.B.H = TH0; a.B.L = TL0; TH0 = TL0 = 0; TR0 = 1; if(t2_min < a.W/*)&&(a.W < t2_max)*/)//1P { b.W >>= 2; i++; } else if(t1_min < a.B.L/*a.W)&&(a.B.L < t1_max)*/)//0.5P //else if(!(a.W==0)) { b.W >>= 1; //temp+=0x00; //led_light1=0;led_light=1;delay_2(40000); } else { TR0 = 0; TH0 = TL0 = 0; goto read_error; } i++; } //取出奇位 DATA = b.B.L; BIT13 = BIT7; BIT12 = BIT5; BIT11 = BIT3; BIT10 = BIT1; DATA = b.B.H; BIT17 = BIT7; BIT16 = BIT5; BIT15 = BIT3; BIT14 = BIT1; bankdata[j] = DATA1; } read_ok = 1;//讀卡完成了 read_error: _nop_(); } } /***************************************************/ void f_writecard(uchar x)//寫卡 { p_U2270B_CFE = 1; delay_2(232); //>2.5ms //psw=0 standard write if (x == write_command0)//寫密碼:初始化密碼 { uchar i; uchar data *data p; p = cominceptbuff; p_U2270B_CFE = 0; delay_2(31);//start gap>330us write_bit(1);//寫操作碼1:10 write_bit(0);//寫操作碼0 write_bit(0);//寫鎖定位0 for(i = 0;i < 35;i++) { write_bit(1);//寫數(shù)據(jù)位1 } p_U2270B_CFE = 1; led_light1 = 0; led_light = 1; delay_2(40000);//測試使用 //write_block(cominceptbuff[4],p); p_U2270B_CFE = 1; bankdata[20] = cominceptbuff[0];//密碼存入 bankdata[21] = cominceptbuff[1]; bankdata[22] = cominceptbuff[2]; bankdata[23] = cominceptbuff[3]; } else if (x == write_command1)//配置卡參數(shù):初始化 { uchar data *data p; p = cominceptbuff; write_bit(1);//寫操作碼1:10 write_bit(0);//寫操作碼0 write_bit(0);//寫鎖定位0 write_block(cominceptbuff[4],p); p_U2270B_CFE= 1; } //psw=1 pssword mode else if(x == write_command2) //密碼寫數(shù)據(jù) { uchar data*data p; p = &bankdata[24]; write_bit(1);//寫操作碼1:10 write_bit(0);//寫操作碼0 write_password(p);//發(fā)口令 write_bit(0);//寫鎖定位0 p = cominceptbuff; write_block(cominceptbuff[4],p);//寫數(shù)據(jù) } else if(x == write_command3)//aor //喚醒 { //cominceptbuff[1]操作碼10 X xxxxxB uchar data *data p; p = cominceptbuff; write_bit(1);//10 write_bit(0); write_password(p);//密碼 p_U2270B_CFE = 1;//此時(shí)數(shù)據(jù)不停的循環(huán)傳出 } else //停止操作碼 { write_bit(1);//11 write_bit(1); p_U2270B_CFE = 1; } p_U2270B_CFE = 1; delay_2(560);//5.6ms } /************************************/ void f_clearpassword()//清除密碼 { uchar data *data p; uchar i,x; p = &bankdata[24];//原密碼 p_U2270B_CFE = 0; delay_2(18);//start gap>150us //操作碼10:10xxxxxxB write_bit(1); write_bit(0); for(x = 0;x < 4;x++)//發(fā)原密碼 { DATA = *(p++); for(i = 0;i < 8;i++) { write_bit(BIT0); DATA >>= 1; } } write_bit(0);//鎖定位0:0 p = &cominceptbuff[0]; write_block(0x00,p);//寫新配置參數(shù):pwd=0 //密碼無效:即清除密碼 DATA = 0x00;//停止操作碼00000000B for(i = 0;i < 2;i++) { write_bit(BIT7); DATA <<= 1; } p_U2270B_CFE = 1; delay_2(560);//5.6ms } /*********************************/ void f_changepassword()//修改密碼 { uchar data *data p; uchar i,x,addr; addr = 0x07;//block7 p = &Nkey_a[0];//原密碼 DATA = 0x80;//操作碼10:10xxxxxxB for(i = 0;i < 2;i++) { write_bit(BIT7); DATA <<= 1; } for(x = 0;x < 4;x++)//發(fā)原密碼 { DATA = *(p++); for(i = 0;i < 8;i++) { write_bit(BIT7); DATA >>= 1; } } write_bit(0);//鎖定位0:0 p = &cominceptbuff[0]; write_block(0x07,p);//寫新密碼 p_U2270B_CFE = 1; bankdata[24] = cominceptbuff[0];//密碼存入 bankdata[25] = cominceptbuff[1]; bankdata[26] = cominceptbuff[2]; bankdata[27] = cominceptbuff[3]; DATA = 0x00;//停止操作碼00000000B for(i = 0;i < 2;i++) { write_bit(BIT7); DATA <<= 1; } p_U2270B_CFE = 1; delay_2(560);//5.6ms } /***************************子函數(shù)***********************************/ void write_bit(bit x)//寫一位 { if(x) { p_U2270B_CFE = 1; delay_2(32);//448*11.0592/120=42延時(shí)448us p_U2270B_CFE = 0; delay_2(28);//280*11.0592/120=26寫1 } else { p_U2270B_CFE = 1; delay_2(92);//192*11.0592/120=18 p_U2270B_CFE = 0; delay_2(28);//280*11.0592/120=26寫0 } } /*******************寫一個(gè)block*******************/ void write_block(uchar addr,uchar data *data p) { uchar i,j; for(i = 0;i < 4;i++)//block0數(shù)據(jù) { DATA = *(p++); for(j = 0;j < 8;j++) { write_bit(BIT0); DATA >>= 1; } } DATA = addr <<= 5;//0地址 for(i = 0;i < 3;i++) { write_bit(BIT7); DATA <<= 1; } } /*************************************************/ void write_password(uchar data *data p) { uchar i,j; for(i = 0;i < 4;i++)// { DATA = *(p++); for(j = 0;j < 8;j++) { write_bit(BIT0); DATA >>= 1; } } } /*************************************************/ void main() { initial(); TI = RI = 0; ES = 1; EA = 1; delay_2(28); //f_readcard(); while(1) { f_readcard(); //讀卡 f_writecard(command1); //寫卡 f_clearpassword(); //清除密碼 f_changepassword(); //修改密碼 } }
標(biāo)簽: 12345
上傳時(shí)間: 2017-10-20
上傳用戶:my_lcs
是否要先打開ALLEGRO? 不需要(當(dāng)然你的機(jī)器須有CADENCE系統(tǒng))。生成完封裝后在你的輸出目錄下就會(huì)有幾千個(gè)器件(全部生成的話),默認(rèn)輸出目錄為c:\MySym\. Level里面的Minimum, Nominal, Maximum 是什么意思? 對應(yīng)ipc7351A的ABC封裝嗎? 是的 能否將MOST, NOMINAL, LEAST三種有差別的封裝在命名上也體現(xiàn)出差別? NOMINAL 的名稱最后沒有后綴,MOST的后綴自動(dòng)添加“M”,LEAST的后綴自動(dòng)添加“L”,你看看生成的庫名稱就知道了。(直插件以及特別的器件,如BGA等是沒有MOST和LEAST級(jí)別的,對這類器件只有NOMINAL) IC焊盤用長方形好像比用橢圓形的好,能不能生成長方形的? 嗯。。。。基本上應(yīng)該是非直角的焊盤比矩形的焊盤好,我記不得是AMD還是NS還是AD公司專門有篇文檔討論了這個(gè)問題,如果沒有記錯(cuò)的話至少有以下好處:信號(hào)質(zhì)量好、更省空間(特別是緊密設(shè)計(jì)中)、更省錫量。我過去有一篇帖子有一個(gè)倒角焊盤的SKILL,用于晶振電路和高速器件(如DDR的濾波電容),原因是對寬度比較大的矩形用橢圓焊盤也不合適,這種情況下用自定義的矩形倒角焊盤就比較好了---你可以從網(wǎng)上另外一個(gè)DDR設(shè)計(jì)的例子中看到。 當(dāng)然,我已經(jīng)在程序中添加了一選擇項(xiàng),對一些矩形焊盤可以選擇倒角方式. 剛才試了一下,感覺器件的命名的規(guī)范性不是太好,另好像不能生成器件的DEVICE文件,我沒RUN完。。。 這個(gè)程序的命名方法基本參照IPC-7351,每個(gè)人都有自己的命名嗜好,仍是不好統(tǒng)一的;我是比較懶的啦,所以就盡量靠近IPC-7351了。 至于DEVICE,的選項(xiàng)已經(jīng)添加 (這就是批量程序的好處,代碼中加一行,重新生產(chǎn)的上千上萬個(gè)封裝就都有新東西了)。 你的庫都是"-"的,請問用過ALLEGRO的兄弟,你們的FOOTPRINT認(rèn)"-"嗎?反正我的ALLEGRO只認(rèn)"_"(下劃線) 用“-”應(yīng)該沒有問題的,焊盤的命名我用的是"_"(這個(gè)一直沒改動(dòng)過)。 部分絲印畫在焊盤上了。 絲印的問題我早已知道,只是盡量避免開(我有個(gè)可配置的SilkGap變量),不過工作量比較大,有些已經(jīng)改過,有些還沒有;另外我沒有特別費(fèi)功夫在絲印上的另一個(gè)原因是,我通常最后用AUTO-SILK的來合并相關(guān)的層,這樣既方便快捷也統(tǒng)一各個(gè)器件的絲印間距,用AUTO-SILK的話絲印線會(huì)自動(dòng)避開SOLDER-MASK的。 點(diǎn)擊allegro后命令行出現(xiàn)E- Can't change to directory: Files\FPM,什么原因? 我想你一定是將FPM安裝在一個(gè)含空格的目錄里面了,比如C:\Program Files\等等之類,在自定義安裝目錄的時(shí)候該目錄名不能含有空格,且存放生成的封裝的目錄名也不能含有空格。你如果用默認(rèn)安裝的話應(yīng)該是不會(huì)有問題的, 默認(rèn)FPM安裝在C:\FPM,默認(rèn)存放封裝的目錄為C:\MYSYM 0.04版用spb15.51生成時(shí).allegro會(huì)死機(jī).以前版本的Allegro封裝生成器用spb15.51生成時(shí)沒有死機(jī)現(xiàn)象 我在生成MELF類封裝的時(shí)候有過一次死機(jī)現(xiàn)象,估計(jì)是文件操作錯(cuò)誤導(dǎo)致ALLEGRO死機(jī),原因是我沒有找到在skill里面直接生成SHAPE焊盤的方法(FLASH和常規(guī)焊盤沒問題), 查了下資料也沒有找到解決方法,所以只得在外部調(diào)用SCRIPT來將就一下了。(下次我再查查看),用SCRIPT的話文件訪問比較頻繁(幸好目前MELF類的器件不多). 解決辦法: 1、對MELF類器件單獨(dú)選擇生成,其它的應(yīng)該可以一次生成。 2、試試最新的版本(當(dāng)前0.05) 請說明運(yùn)行在哪類器件的時(shí)候ALLEGRO出錯(cuò),如果不是在MELF附近的話,請告知,謝謝。 用FPM0.04生成的封裝好像文件都比較大,比如CAPC、RES等器件,都是300多K,而自己建的或采用PCB Libraries Eval生成的封裝一般才幾十K到100K左右,不知封裝是不是包含了更多的信息? 我的每個(gè)封裝文件包含了幾個(gè)文字層(REF,VAL,TOL,DEV,PARTNUMBER等),SILK和ASSEM也是分開的,BOND層和高度信息,還有些定位線(在DISP層),可能這些越來越豐富的信息加大了生成文件的尺寸.你如果想看有什么內(nèi)容的話,打開所有層就看見了(或REPORT) 非常感謝 LiWenHui 發(fā)現(xiàn)的BUG, 已經(jīng)找到原因,是下面這行: axlDBChangeDesignExtents( '((-1000 -1000) (1000 1000))) 有尺寸空間開得太大,后又沒有壓縮的原因,現(xiàn)在生成的封裝也只有幾十K了,0.05版已經(jīng)修復(fù)這個(gè)BUG了。 Allegro封裝生成器0.04生成do-27封裝不正確,生成封裝的焊盤的位號(hào)為a,c.應(yīng)該是A,B或者1,2才對. 呵呵,DIODE通常管腳名為AC(A = anode, C = cathode) 也有用AK 或 12的, 極少見AB。 除了DIODE和極個(gè)別插件以及BGA外,焊盤名字以數(shù)字為主, 下次我給DIODE一個(gè)選擇項(xiàng),可以選擇AC 或 12 或 AK, 至于TRANSISTER我就不去區(qū)分BCE/CBE/ECB/EBC/GDS/GSD/DSG/DGS/SGD/SDG等了,這樣會(huì)沒完沒了的,我將對TRANSISTER強(qiáng)制統(tǒng)一以數(shù)字編號(hào)了,如果用家非要改變,只得在生成庫后手工修改。
標(biāo)簽: Footprint Maker 0.08 FPM skill
上傳時(shí)間: 2018-01-10
上傳用戶:digitzing
Windows7下IE 8使用技巧5則 IE幾乎是各位菜鳥、大蝦上網(wǎng)時(shí)的首選瀏覽器,有關(guān)它的常規(guī)使用技巧,相信各位早已是耳熟能詳了。只要你足夠用心、細(xì)心,就一定會(huì)不斷“挖掘”出IE新的使用技巧來。不信,就來看看下面的幾則新鮮用法吧,相信會(huì)讓各位有耳目一新之感! 1.尋找失落的IE啟動(dòng)按鈕 正常情況下,IE瀏覽器的快速啟動(dòng)按鈕會(huì)在系統(tǒng)任務(wù)欄中“安家落戶”,可是一旦操作不小心,往往會(huì)導(dǎo)致IE瀏覽器的快速啟動(dòng)按鈕在任務(wù)欄中“消失”。那么 你面對IE啟動(dòng)按鈕從系統(tǒng)任務(wù)欄中消失時(shí),你該如何去將它尋找回來呢?其實(shí)方法很簡單,只要你按照下面的步驟來進(jìn)行操作就可以了。 首先用鼠標(biāo)右鍵單擊桌面中的IE瀏覽器圖標(biāo),從彈出的快捷菜單中執(zhí)行“創(chuàng)建快捷方式”命令,這樣就能為IE瀏覽器創(chuàng)建好一個(gè)對應(yīng)的快捷方式。 接著打開系統(tǒng)資源管理窗口,依次雙擊C盤中的“Windows”文件夾、“ApplicationData”文件夾、“Microsoft”文件夾、 “InternetExplorer”文件夾、“QuickLaunch”文件夾;然后將桌面中創(chuàng)建好的IE快捷方式,直接拖動(dòng)到 “QuickLaunch”文件夾窗口中。 當(dāng)然還有更簡潔的方法,那就是直接將系統(tǒng)桌面中的IE瀏覽器圖標(biāo),用鼠標(biāo)左鍵拖動(dòng)到系統(tǒng)任務(wù)欄中,不過在拖放時(shí)一定要在出現(xiàn)虛線圖標(biāo)之后才可以。 2.讓IE也能斷點(diǎn)續(xù)傳 大家知道,單擊IE頁面中的某個(gè)下載鏈接地址時(shí),IE就會(huì)自動(dòng)調(diào)用其內(nèi)置的下載功能來下載文件;不過這種功能一旦遇到網(wǎng)絡(luò)堵塞而掉線的情況時(shí),就會(huì)將已經(jīng)下載好的內(nèi)容全部丟失,以后再次下載時(shí)還需要從頭再來,顯然IE內(nèi)置的下載功能容易耽誤下載時(shí)間。 那么我們有沒有辦法讓IE的下載功能也支持?jǐn)帱c(diǎn)續(xù)傳呢?答案是肯定的。只要你使用IE來下載文件出現(xiàn)意外掉線時(shí),或者發(fā)現(xiàn)IE下載進(jìn)度條長時(shí)間沒有任何反 應(yīng)時(shí),請不要單擊該下載對話框中的“取消”按鈕,而應(yīng)該直接單擊該窗口中的“x”按鈕,來暫時(shí)退出下載狀態(tài);接著重新單擊網(wǎng)頁中的這個(gè)下載鏈接地址,然后 再單擊“保存”按鈕,在彈出的保存對話框中,將文件名和保存路徑都設(shè)置為與上次沒下載完時(shí)的文件相同,這樣IE就能接著上次沒下載完的位置,繼續(xù)下載余下 的內(nèi)容;當(dāng)然這種IE斷點(diǎn)續(xù)傳功能只適合HTTP下載方式,而不適合FTP下載方式。 3.將IE選項(xiàng)設(shè)置“架空” 倘若允許其他人隨意對IE的上網(wǎng)參數(shù)進(jìn)行設(shè)置的話,那么IE的安全、甚至系統(tǒng)的安全都會(huì)受到威脅,例如一旦非法用戶打開IE瀏覽器的“Internet選 項(xiàng)”設(shè)置框,將上網(wǎng)安全級(jí)別降低的話,那么網(wǎng)絡(luò)中的各種病毒、木馬,都有可能就會(huì)隨之而來。為了確保安全,你有時(shí)必須“架空”IE瀏覽器中的 Internet選項(xiàng),讓非法用戶無法自行設(shè)置IE上網(wǎng)參數(shù): 首先打開Windows系統(tǒng)的資源管理器窗口,找到并進(jìn)入到“system32”文件夾窗口,選中其中的“inetcpl.cpl”文件,并用鼠標(biāo)右鍵單 擊之,從彈出的右鍵菜單中,單擊“重命名”選項(xiàng),將“inetcpl.cpl”的文件名稱更名為“inetcplnew.cpl”,當(dāng)然你也能將其換成其 他名稱,不過你一定要將更名后的文件名稱記得,以后需要恢復(fù)時(shí)以便能快速找到。完成重命名操作后,再單擊IE瀏覽器中的“Internet選項(xiàng)”命令時(shí), 就不能進(jìn)入到選項(xiàng)設(shè)置窗口了。 4.不用工具也能修復(fù)IE 在網(wǎng)上盡情沖浪時(shí),IE難免會(huì)遭遇惡意攻擊;那么面對被惡意修改的IE,你該如何去恢復(fù)它呢?大多數(shù)人都會(huì)去選用各種專業(yè)的IE修復(fù)工具,來對付IE的惡意攻擊;也有水平高一些的“大蝦”,通過手工修改注冊表的方法,來恢復(fù)IE的本來“面貌”。可是當(dāng)你手頭沒有專業(yè)的IE修復(fù)工具可以利用時(shí),或者自己對注冊表了解不深時(shí),你該如何去修復(fù)IE呢?為此,本文為你提供一則非常便利的解決方法,不過該方法只能適合Windows2000或WindowsXP操作系統(tǒng),下面就是該方法的具體實(shí)現(xiàn)步驟: 依次單擊“開始”/“設(shè)置”/“控制面板”命令,然后依次雙擊“管理工具”/“計(jì)算機(jī)管理”圖標(biāo),在隨后彈出的窗口中,依次展開“系統(tǒng)工具”/“本地用戶 和組”文件夾,再單擊“用戶”選項(xiàng),在對應(yīng)的右邊子窗口中,右擊空白區(qū)域,執(zhí)行快捷菜單中的“新用戶”命令,將新用戶命名為“newusr”,同時(shí)設(shè)置好 該賬號(hào)的訪問密碼; 完成新用戶的創(chuàng)建任務(wù)后,依次單擊“開始”/“關(guān)機(jī)”命令,然后執(zhí)行“注銷Administrator”操作,再改用“newusr”賬號(hào)重新進(jìn)入到 Windows2000系統(tǒng);接著打開系統(tǒng)注冊表編輯界面,依次展開注冊表分支HKEY_CURRENT_USER\Software \Microsoft\InternetExplorer,并將“InternetExplorer”主鍵選中,再依次單擊注冊表菜單欄中的“注冊表”/ “導(dǎo)出注冊表文件”命令,將有關(guān)IE部分的注冊表分支內(nèi)容導(dǎo)出,例如保存為“ienew.reg”文件,如此一來你就能將“newusr”賬號(hào)下關(guān)于IE 的正確設(shè)置全部導(dǎo)出來了;由于“newusr”賬號(hào)是剛剛新建的,因此該賬號(hào)下的IE設(shè)置都是系統(tǒng)默認(rèn)的正確設(shè)置,也就是說它是沒有被攻擊過的; 下面注銷“newusr”賬號(hào),再以“Administrator”賬號(hào)登錄系統(tǒng);然后打開注冊表編輯窗口,依次執(zhí)行菜單欄中的 “注冊表”/“導(dǎo)入注冊表文件”命令,在彈出的文件選擇對話框中,將前面導(dǎo)出的“ienew.reg”文件導(dǎo)入到注冊表中,就能使IE恢復(fù)本來“面貌” 了。 當(dāng)然,這樣的方法比較麻煩,因此我們推薦IE一鍵修復(fù) 0.3(點(diǎn)擊官方下載)167K ,中文綠色免費(fèi)軟件,可以一鍵修復(fù)被惡意篡改的IE瀏覽器。此外,在魔方(點(diǎn)此下載)中,也將加入IE的修復(fù)功和監(jiān)控惡意軟件等安全功能。 5. 找回Windows 7中的IE 8桌面圖標(biāo) 在Windows 7中,由于超級(jí)任務(wù)欄的存在,微軟取消了IE 8的桌面圖標(biāo)設(shè)置,也就是說,在Windows 7中,無法在桌面顯示IE 8圖標(biāo),當(dāng)然,快捷方式是不能算的。不過近來有會(huì)員在論壇為我們提供了一個(gè)很好的辦法,可以以"曲線"的方式實(shí)現(xiàn)IE 8圖標(biāo)桌面顯示。盡管還不完美,但基本的功能都具備了,大家可以通過Windows7優(yōu)化大師 - 美化大師 - 系統(tǒng)外觀來自行設(shè)置。 善用快捷鍵,玩轉(zhuǎn)Windows 7 便簽程序 便箋是一種可以粘貼在任意位置的正方形或長條形紙條,方便我們隨時(shí)記錄一些信息,或是安排日常工作,隨寫隨記,非常方便。在 Windows 中為我們提供了和實(shí)物便箋一樣功能的小程序,本人非常喜歡。在 Vista 中,這個(gè)小程序作為邊欄小工具出現(xiàn),但在 Windows 7 中已經(jīng)成為了一個(gè)標(biāo)準(zhǔn)的Windows附件程序。 依次點(diǎn)擊Windows7的開始菜單按鈕 -》所有程序 -》附件 -》,點(diǎn)擊打開便簽,如下圖所示: 不用軟件,非會(huì)員徹底去除QQ2009/2010廣告 昨天談到了《不是VIP用戶也不怕 不需任何補(bǔ)丁屏蔽迅雷廣告》,用戶反饋非常的多,如果沒能設(shè)置成功的,請仔細(xì)閱讀步驟,100%的可以搞定的,當(dāng)然,如果迅雷再發(fā)新版升級(jí)后,就不保證了,有任何新的變化,請隨時(shí)關(guān)注Windows7之家和Vista之家首頁。 說完了迅雷,我們再來說下QQ吧,QQ的免費(fèi)用戶數(shù)量除了Windows外,就屬它大了。 屏蔽廣告除了更干凈潔爽之外,更大的好處是不用隨時(shí)下載體積大的flash動(dòng)畫和gif動(dòng)畫圖片了,QQ登陸速度顯著提升,同時(shí),也少了帶寬消耗。 非QQ會(huì)員徹底屏蔽QQ2009正式版廣告: 在QQ2009 Beta版的時(shí)候,可以通過刪除一些文件讓非會(huì)員也能實(shí)現(xiàn)去廣告的目的,可惜從QQ2009正式版起增加了文件完整性檢查,刪除文件會(huì)導(dǎo)致QQ無法啟動(dòng),并要求重新安裝。 那么對于非會(huì)員來說,QQ2009正式版(包括之后的SP6、SP5、SP4、SP3、SP2、SP1等)就不能手動(dòng)去廣告了嗎? 其實(shí)還是有辦法的,而且做起來也不難,你說是用第三方工具? 不需要!只要你對Windows操作系統(tǒng)稍有了解就可以輕松搞定,除了QQ2009,您也可以把這些招數(shù)用在QQ2010的測試版中,幾乎完全一樣。 下面,就把找到的方法共享給大家吧! 在開始之前,請先退出您正在運(yùn)行中的QQ。 1、去除騰訊迷你首頁: 對于每次啟動(dòng)QQ后,都彈出的“騰訊迷你首頁”,很多人一定感到不爽,就讓我們先拿它開刀吧。 首先進(jìn)入QQ的安裝文件夾,接著進(jìn)入 Plugin\Com.Tencent.Advertisement\bin 文件夾,這里你會(huì)看到一個(gè)Advertisement.dll文件,它就是迷你首頁的關(guān)鍵所在,只需將這個(gè)文件改成只讀屬性,以后啟動(dòng)QQ就不會(huì)再看到迷你首頁了。在這個(gè)文件上面點(diǎn)擊鼠標(biāo)右鍵,點(diǎn)擊屬性,勾選只讀,確定退出。 2、去除聊天窗口右上角廣告: 這個(gè)操作針對XP、Win2003系統(tǒng)用戶和Vista、Windows7、Win2008略有不同,主要是文件夾路徑上的。 1)XP、Win2003系統(tǒng)用戶操作方法: 進(jìn)入 X:\Documents and Settings\用戶名\Application Data\Tencent\QQ\Misc\com.tencent.advertisement (注意,X指的系統(tǒng)所在盤盤符,一般是C),首先刪除這個(gè)文件夾里面的所有文件,注意文件夾本身不能刪除,然后把當(dāng)前用戶的寫入權(quán)限給拒絕掉(需要當(dāng)前分區(qū)為NTFS格式)。 方法:文件夾上右鍵,屬性 - 安全標(biāo)簽,選中當(dāng)前登錄用戶,接著在下方“寫入”權(quán)限里,拒絕上打勾。 2)Vista、Windows7、Win2008用戶的操作: 進(jìn)入 X:\users\用戶名\appdata\Roaming\Tencent\QQ\Misc\com.tencent.advertisement,在這個(gè)文件上面點(diǎn)擊鼠標(biāo)右鍵,點(diǎn)擊屬性,然后點(diǎn)擊安全標(biāo)簽, 選中你的當(dāng)前用戶,如下圖示例中的Ruamei.com,然后點(diǎn)擊“編輯”按鈕,OK,寫入那兒設(shè)置下拒絕吧。 這樣,無論是會(huì)員還是非會(huì)員,你都不會(huì)有任何的廣告圖片下載了。 3、去除QQ2009/QQ2010聊天窗口的左下角廣告 如今的聊天窗口,除了右上角的圖片廣告外,左下角還多了一條文字廣告,既然要去廣告,那么這塊自然也不能遺忘。同樣操作針對XP、Win2003系統(tǒng)用戶和Vista、Windows7、Win2008而有所不同。 1)XP、Win2003系統(tǒng)用戶操作方法: 再次提醒您修改前首先要關(guān)閉QQ,然后進(jìn)入X:\Documents and Settings\用戶名\Application Data\Tencent\Users\你的QQ號(hào)\QQ\(注意,X指的系統(tǒng)所在盤盤符,一般是C),刪除其中的Misc.db,接著新建一個(gè)文件夾并命名為Misc.db(是不是和防止U盤自動(dòng)運(yùn)行病毒的方法很像)。 2)Vista、Windows7、Win2008用戶的操作: 關(guān)閉QQ后,進(jìn)入X:\users\用戶名\appdata\Roaming\Tencent\Users\你的QQ號(hào)碼\QQ\,然后操作同上。 搞定,如此一來,這幾個(gè)地方都沒廣告了吧! 好吧,打開一個(gè)標(biāo)簽窗口如下圖所示,當(dāng)然,你可以多點(diǎn)多開。 如果你正在使用這個(gè)程序,是否覺得它的功能太簡單了,點(diǎn)點(diǎn)右鍵,彈出的菜單中只能切換便箋的顏色,沒有其他基本的格式編輯功能。 其實(shí),除了標(biāo)準(zhǔn)的 Ctrl 加 XCVA 的剪切/復(fù)制/粘貼/全選快捷鍵之外,其實(shí)便箋程序還有一些快捷鍵可以使用: 快捷鍵 功能 Ctrl+N 新建一張便箋 Ctrl+D 刪除當(dāng)前便箋 Ctrl+E 居中對齊 Ctrl+R 右對齊 Ctrl+J 左對齊 Ctrl+I 斜體 Ctrl+B 粗體 Ctrl+U 下劃線 Ctrl+T 刪除線 Ctrl+Shift+> 加大選中文字的字號(hào) Ctrl+Shift+< 縮小選中文字的字號(hào) Ctrl+Shift+L 在文字前添加項(xiàng)目符號(hào)和編號(hào)(反復(fù)按可循環(huán)切換)。其中編號(hào)包括數(shù)字、大小寫字母、大小寫羅馬數(shù)字幾種形式。連按兩次回車可取消。 知道了這些快捷鍵,我們就可以做出一些滿足日常需要的格式了: 像 Windows 這種應(yīng)用廣泛的軟件或硬件,由于全球數(shù)十億人都會(huì)使用到,因此一個(gè)小小的功能特性都可以對世界造成很大的影響。 想想看,如果所有人都利用好這個(gè)小程序而不去買便箋,往小了說是省錢,往大了說可是環(huán)保了,能節(jié)約很多制作便箋的自然資源消耗。
上傳時(shí)間: 2019-06-22
上傳用戶:yerbol
This book is an entry-level text on the technology of telecommunications. It has been crafted with the newcomer in mind. The eighteen chapters of text have been prepared for high-school graduates who understand algebra, logarithms, and basic electrical prin- ciples such as Ohm’s law. However, many users require support in these areas so Appen- dices A and B review the essentials of electricity and mathematics through logarithms.
標(biāo)簽: Telecommunications Fundamentals 1st of ed
上傳時(shí)間: 2020-05-27
上傳用戶:shancjb
蟲蟲下載站版權(quán)所有 京ICP備2021023401號(hào)-1
