From 3b902068177d223d45573a692c551b4961194fa5 Mon Sep 17 00:00:00 2001 From: richardbarry Date: Sun, 16 Nov 2008 15:13:40 +0000 Subject: [PATCH] Add faster version code. git-svn-id: https://svn.code.sf.net/p/freertos/code/trunk@544 1d2547de-c912-0410-9cb9-b8ca96c0e9e2 --- Demo/Common/ethernet/FreeRTOS-uIP/psock.c | 8 +- Demo/Common/ethernet/FreeRTOS-uIP/timer.c | 31 +- Demo/Common/ethernet/FreeRTOS-uIP/uip-split.c | 164 +- Demo/Common/ethernet/FreeRTOS-uIP/uip.c | 3184 +++++++++-------- Demo/Common/ethernet/FreeRTOS-uIP/uip.h | 4 + Demo/Common/ethernet/FreeRTOS-uIP/uip_arp.c | 475 +-- Demo/Common/ethernet/FreeRTOS-uIP/uiplib.c | 67 +- 7 files changed, 2154 insertions(+), 1779 deletions(-) diff --git a/Demo/Common/ethernet/FreeRTOS-uIP/psock.c b/Demo/Common/ethernet/FreeRTOS-uIP/psock.c index 2c8fc86c3..d29ef0172 100644 --- a/Demo/Common/ethernet/FreeRTOS-uIP/psock.c +++ b/Demo/Common/ethernet/FreeRTOS-uIP/psock.c @@ -205,7 +205,7 @@ PT_THREAD( psock_send ( register struct psock *s, const char *buf, unsigned int /* Save the length of and a pointer to the data that is to be sent. */ - s->sendptr = ( u8_t*)buf; + s->sendptr = ( u8_t * ) buf; s->sendlen = len; s->state = STATE_NONE; @@ -305,7 +305,7 @@ PT_THREAD( psock_readto ( register struct psock *psock, unsigned char c ) ) { PT_BEGIN( &psock->psockpt ); - buf_setup( &psock->buf, (u8_t*) psock->bufptr, psock->bufsize ); + buf_setup( &psock->buf, ( u8_t * ) psock->bufptr, psock->bufsize ); /* XXX: Should add buf_checkmarker() before do{} loop, if incoming data has been handled while waiting for a write. */ @@ -334,7 +334,7 @@ PT_THREAD( psock_readbuf ( register struct psock *psock ) ) { PT_BEGIN( &psock->psockpt ); - buf_setup( &psock->buf, (u8_t*) psock->bufptr, psock->bufsize ); + buf_setup( &psock->buf, ( u8_t * ) psock->bufptr, psock->bufsize ); /* XXX: Should add buf_checkmarker() before do{} loop, if incoming data has been handled while waiting for a write. */ @@ -366,7 +366,7 @@ void psock_init( register struct psock *psock, char *buffer, unsigned int buffer psock->readlen = 0; psock->bufptr = buffer; psock->bufsize = buffersize; - buf_setup( &psock->buf, (u8_t*) buffer, buffersize ); + buf_setup( &psock->buf, ( u8_t * ) buffer, buffersize ); PT_INIT( &psock->pt ); PT_INIT( &psock->psockpt ); } diff --git a/Demo/Common/ethernet/FreeRTOS-uIP/timer.c b/Demo/Common/ethernet/FreeRTOS-uIP/timer.c index 6bc21b353..9a6365313 100644 --- a/Demo/Common/ethernet/FreeRTOS-uIP/timer.c +++ b/Demo/Common/ethernet/FreeRTOS-uIP/timer.c @@ -44,11 +44,11 @@ * * $Id: timer.c,v 1.2 2006/06/12 08:00:30 adam Exp $ */ - #include "clock.h" #include "uip_timer.h" /*---------------------------------------------------------------------------*/ + /** * Set a timer. * @@ -60,13 +60,14 @@ * \param interval The interval before the timer expires. * */ -void -timer_set(struct timer *t, clock_time_t interval) +void timer_set( struct timer *t, clock_time_t interval ) { - t->interval = interval; - t->start = clock_time(); + t->interval = interval; + t->start = clock_time(); } + /*---------------------------------------------------------------------------*/ + /** * Reset the timer with the same interval. * @@ -80,12 +81,13 @@ timer_set(struct timer *t, clock_time_t interval) * * \sa timer_restart() */ -void -timer_reset(struct timer *t) +void timer_reset( struct timer *t ) { - t->start += t->interval; + t->start += t->interval; } + /*---------------------------------------------------------------------------*/ + /** * Restart the timer from the current point in time * @@ -100,12 +102,13 @@ timer_reset(struct timer *t) * * \sa timer_reset() */ -void -timer_restart(struct timer *t) +void timer_restart( struct timer *t ) { - t->start = clock_time(); + t->start = clock_time(); } + /*---------------------------------------------------------------------------*/ + /** * Check if a timer has expired. * @@ -117,11 +120,11 @@ timer_restart(struct timer *t) * \return Non-zero if the timer has expired, zero otherwise. * */ -int -timer_expired(struct timer *t) +int timer_expired( struct timer *t ) { - return (clock_time_t)(clock_time() - t->start) >= (clock_time_t)t->interval; + return( clock_time_t ) ( clock_time() - t->start ) >= ( clock_time_t ) t->interval; } + /*---------------------------------------------------------------------------*/ /** @} */ diff --git a/Demo/Common/ethernet/FreeRTOS-uIP/uip-split.c b/Demo/Common/ethernet/FreeRTOS-uIP/uip-split.c index 3365f2e55..6828f3c74 100644 --- a/Demo/Common/ethernet/FreeRTOS-uIP/uip-split.c +++ b/Demo/Common/ethernet/FreeRTOS-uIP/uip-split.c @@ -32,7 +32,6 @@ * * $Id: uip-split.c,v 1.2 2006/06/12 08:00:30 adam Exp $ */ - #include #include "uip-split.h" @@ -40,97 +39,106 @@ #include "uip-fw.h" #include "uip_arch.h" - - -#define BUF ((struct uip_tcpip_hdr *)&uip_buf[UIP_LLH_LEN]) +#define BUF ( ( struct uip_tcpip_hdr * ) &uip_buf[UIP_LLH_LEN] ) /*-----------------------------------------------------------------------------*/ -void -uip_split_output(void) +void uip_split_output( void ) { - u16_t tcplen, len1, len2; + u16_t tcplen, len1, len2; - /* We only try to split maximum sized TCP segments. */ - if(BUF->proto == UIP_PROTO_TCP && - uip_len == UIP_BUFSIZE - UIP_LLH_LEN) { + /* We only try to split maximum sized TCP segments. */ + if( BUF->proto == UIP_PROTO_TCP && uip_len == UIP_BUFSIZE - UIP_LLH_LEN ) + { + tcplen = uip_len - UIP_TCPIP_HLEN; - tcplen = uip_len - UIP_TCPIP_HLEN; - /* Split the segment in two. If the original packet length was + /* Split the segment in two. If the original packet length was odd, we make the second packet one byte larger. */ - len1 = len2 = tcplen / 2; - if(len1 + len2 < tcplen) { - ++len2; - } + len1 = len2 = tcplen / 2; + if( len1 + len2 < tcplen ) + { + ++len2; + } - /* Create the first packet. This is done by altering the length + /* Create the first packet. This is done by altering the length field of the IP header and updating the checksums. */ - uip_len = len1 + UIP_TCPIP_HLEN; -#if UIP_CONF_IPV6 - /* For IPv6, the IP length field does not include the IPv6 IP header + uip_len = len1 + UIP_TCPIP_HLEN; + #if UIP_CONF_IPV6 + + /* For IPv6, the IP length field does not include the IPv6 IP header length. */ - BUF->len[0] = ((uip_len - UIP_IPH_LEN) >> 8); - BUF->len[1] = ((uip_len - UIP_IPH_LEN) & 0xff); -#else /* UIP_CONF_IPV6 */ - BUF->len[0] = uip_len >> 8; - BUF->len[1] = uip_len & 0xff; -#endif /* UIP_CONF_IPV6 */ - - /* Recalculate the TCP checksum. */ - BUF->tcpchksum = 0; - BUF->tcpchksum = ~(uip_tcpchksum()); - -#if !UIP_CONF_IPV6 - /* Recalculate the IP checksum. */ - BUF->ipchksum = 0; - BUF->ipchksum = ~(uip_ipchksum()); -#endif /* UIP_CONF_IPV6 */ - - /* Transmit the first packet. */ - /* uip_fw_output();*/ -// tcpip_output(); - - /* Now, create the second packet. To do this, it is not enough to + BUF->len[0] = ( (uip_len - UIP_IPH_LEN) >> 8 ); + BUF->len[1] = ( (uip_len - UIP_IPH_LEN) & 0xff ); + #else /* UIP_CONF_IPV6 */ + BUF->len[0] = uip_len >> 8; + BUF->len[1] = uip_len & 0xff; + #endif /* UIP_CONF_IPV6 */ + + /* Recalculate the TCP checksum. */ + BUF->tcpchksum = 0; + BUF->tcpchksum = ~( uip_tcpchksum() ); + + #if !UIP_CONF_IPV6 + + /* Recalculate the IP checksum. */ + BUF->ipchksum = 0; + BUF->ipchksum = ~( uip_ipchksum() ); + #endif /* UIP_CONF_IPV6 */ + + /* Transmit the first packet. */ + + /* uip_fw_output();*/ + + // tcpip_output(); + + /* Now, create the second packet. To do this, it is not enough to just alter the length field, but we must also update the TCP sequence number and point the uip_appdata to a new place in memory. This place is detemined by the length of the first packet (len1). */ - uip_len = len2 + UIP_TCPIP_HLEN; -#if UIP_CONF_IPV6 - /* For IPv6, the IP length field does not include the IPv6 IP header + uip_len = len2 + UIP_TCPIP_HLEN; + #if UIP_CONF_IPV6 + + /* For IPv6, the IP length field does not include the IPv6 IP header length. */ - BUF->len[0] = ((uip_len - UIP_IPH_LEN) >> 8); - BUF->len[1] = ((uip_len - UIP_IPH_LEN) & 0xff); -#else /* UIP_CONF_IPV6 */ - BUF->len[0] = uip_len >> 8; - BUF->len[1] = uip_len & 0xff; -#endif /* UIP_CONF_IPV6 */ - - /* uip_appdata += len1;*/ - memcpy(uip_appdata, (u8_t *)uip_appdata + len1, len2); - - uip_add32(BUF->seqno, len1); - BUF->seqno[0] = uip_acc32[0]; - BUF->seqno[1] = uip_acc32[1]; - BUF->seqno[2] = uip_acc32[2]; - BUF->seqno[3] = uip_acc32[3]; - - /* Recalculate the TCP checksum. */ - BUF->tcpchksum = 0; - BUF->tcpchksum = ~(uip_tcpchksum()); - -#if !UIP_CONF_IPV6 - /* Recalculate the IP checksum. */ - BUF->ipchksum = 0; - BUF->ipchksum = ~(uip_ipchksum()); -#endif /* UIP_CONF_IPV6 */ - - /* Transmit the second packet. */ - /* uip_fw_output();*/ -// tcpip_output(); - } else { - /* uip_fw_output();*/ -// tcpip_output(); - } + BUF->len[0] = ( (uip_len - UIP_IPH_LEN) >> 8 ); + BUF->len[1] = ( (uip_len - UIP_IPH_LEN) & 0xff ); + #else /* UIP_CONF_IPV6 */ + BUF->len[0] = uip_len >> 8; + BUF->len[1] = uip_len & 0xff; + #endif /* UIP_CONF_IPV6 */ + + /* uip_appdata += len1;*/ + memcpy( uip_appdata, ( u8_t * ) uip_appdata + len1, len2 ); + + uip_add32( BUF->seqno, len1 ); + BUF->seqno[0] = uip_acc32[0]; + BUF->seqno[1] = uip_acc32[1]; + BUF->seqno[2] = uip_acc32[2]; + BUF->seqno[3] = uip_acc32[3]; + + /* Recalculate the TCP checksum. */ + BUF->tcpchksum = 0; + BUF->tcpchksum = ~( uip_tcpchksum() ); + + #if !UIP_CONF_IPV6 + /* Recalculate the IP checksum. */ + BUF->ipchksum = 0; + BUF->ipchksum = ~( uip_ipchksum() ); + #endif /* UIP_CONF_IPV6 */ + + /* Transmit the second packet. */ + + /* uip_fw_output();*/ + + // tcpip_output(); + } + else + { + /* uip_fw_output();*/ + + // tcpip_output(); + } } + /*-----------------------------------------------------------------------------*/ diff --git a/Demo/Common/ethernet/FreeRTOS-uIP/uip.c b/Demo/Common/ethernet/FreeRTOS-uIP/uip.c index 24e9b19dd..34e322d33 100644 --- a/Demo/Common/ethernet/FreeRTOS-uIP/uip.c +++ b/Demo/Common/ethernet/FreeRTOS-uIP/uip.c @@ -1,4 +1,4 @@ -#define DEBUG_PRINTF(...) /*printf(__VA_ARGS__)*/ +#define DEBUG_PRINTF( ... ) /*printf(__VA_ARGS__)*/ /** * \defgroup uip The uIP TCP/IP stack @@ -78,791 +78,862 @@ * checksums, and fill in the necessary header fields and finally send * the packet back to the peer. */ - #include "uip.h" #include "uipopt.h" #include "uip_arch.h" +#include "uip_arp.h" +#include "FreeRTOS.h" #if UIP_CONF_IPV6 -#include "uip-neighbor.h" + #include "uip-neighbor.h" #endif /* UIP_CONF_IPV6 */ #include /*---------------------------------------------------------------------------*/ -/* Variable definitions. */ +/* Variable definitions. */ /* The IP address of this host. If it is defined to be fixed (by setting UIP_FIXEDADDR to 1 in uipopt.h), the address is set here. Otherwise, the address */ #if UIP_FIXEDADDR > 0 -const uip_ipaddr_t uip_hostaddr = - {HTONS((UIP_IPADDR0 << 8) | UIP_IPADDR1), - HTONS((UIP_IPADDR2 << 8) | UIP_IPADDR3)}; -const uip_ipaddr_t uip_draddr = - {HTONS((UIP_DRIPADDR0 << 8) | UIP_DRIPADDR1), - HTONS((UIP_DRIPADDR2 << 8) | UIP_DRIPADDR3)}; -const uip_ipaddr_t uip_netmask = - {HTONS((UIP_NETMASK0 << 8) | UIP_NETMASK1), - HTONS((UIP_NETMASK2 << 8) | UIP_NETMASK3)}; +const uip_ipaddr_t uip_hostaddr = { HTONS( (UIP_IPADDR0 << 8) | UIP_IPADDR1 ), HTONS( (UIP_IPADDR2 << 8) | UIP_IPADDR3 ) }; +const uip_ipaddr_t uip_draddr = { HTONS( (UIP_DRIPADDR0 << 8) | UIP_DRIPADDR1 ), HTONS( (UIP_DRIPADDR2 << 8) | UIP_DRIPADDR3 ) }; +const uip_ipaddr_t uip_netmask = { HTONS( (UIP_NETMASK0 << 8) | UIP_NETMASK1 ), HTONS( (UIP_NETMASK2 << 8) | UIP_NETMASK3 ) }; #else -uip_ipaddr_t uip_hostaddr, uip_draddr, uip_netmask; +uip_ipaddr_t uip_hostaddr, uip_draddr, uip_netmask; #endif /* UIP_FIXEDADDR */ -static const uip_ipaddr_t all_ones_addr = +static const uip_ipaddr_t all_ones_addr = #if UIP_CONF_IPV6 - {0xffff,0xffff,0xffff,0xffff,0xffff,0xffff,0xffff,0xffff}; +{ 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff }; #else /* UIP_CONF_IPV6 */ - {0xffff,0xffff}; +{ + 0xffff, 0xffff +}; #endif /* UIP_CONF_IPV6 */ -static const uip_ipaddr_t all_zeroes_addr = +static const uip_ipaddr_t all_zeroes_addr = #if UIP_CONF_IPV6 - {0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000}; +{ 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000 }; #else /* UIP_CONF_IPV6 */ - {0x0000,0x0000}; +{ + 0x0000, 0x0000 +}; #endif /* UIP_CONF_IPV6 */ #if UIP_FIXEDETHADDR -const struct uip_eth_addr uip_ethaddr = {{UIP_ETHADDR0, - UIP_ETHADDR1, - UIP_ETHADDR2, - UIP_ETHADDR3, - UIP_ETHADDR4, - UIP_ETHADDR5}}; +const struct uip_eth_addr uip_ethaddr = { { UIP_ETHADDR0, UIP_ETHADDR1, UIP_ETHADDR2, UIP_ETHADDR3, UIP_ETHADDR4, UIP_ETHADDR5 } }; #else -struct uip_eth_addr uip_ethaddr = {{0,0,0,0,0,0}}; +struct uip_eth_addr uip_ethaddr = { { 0, 0, 0, 0, 0, 0 } }; #endif - #ifndef UIP_CONF_EXTERNAL_BUFFER - -#ifdef __ICCARM__ - #pragma data_alignment=4 - u8_t uip_buf[UIP_BUFSIZE + 2]; /* The packet buffer that contains incoming packets. */ -#else - u8_t uip_buf[UIP_BUFSIZE + 2] ALIGN_STRUCT_END; /* The packet buffer that contains incoming packets. */ -#endif - + #ifdef __ICCARM__ + #pragma data_alignment = 4 +u8_t uip_buf[UIP_BUFSIZE + 2]; /* The packet buffer that contains incoming packets. */ + #else +u8_t uip_buf[UIP_BUFSIZE + 2] ALIGN_STRUCT_END; /* The packet buffer that contains incoming packets. */ + #endif #endif /* UIP_CONF_EXTERNAL_BUFFER */ -void *uip_appdata; /* The uip_appdata pointer points to +void *uip_appdata; /* The uip_appdata pointer points to application data. */ -void *uip_sappdata; /* The uip_appdata pointer points to +void *uip_sappdata; /* The uip_appdata pointer points to the application data which is to be sent. */ #if UIP_URGDATA > 0 -void *uip_urgdata; /* The uip_urgdata pointer points to +void *uip_urgdata; /* The uip_urgdata pointer points to urgent data (out-of-band data), if present. */ -u16_t uip_urglen, uip_surglen; +u16_t uip_urglen, uip_surglen; #endif /* UIP_URGDATA > 0 */ -u16_t uip_len, uip_slen; - /* The uip_len is either 8 or 16 bits, +u16_t uip_len, uip_slen; + +/* The uip_len is either 8 or 16 bits, depending on the maximum packet size. */ - -u8_t uip_flags; /* The uip_flags variable is used for +u8_t uip_flags; /* The uip_flags variable is used for communication between the TCP/IP stack and the application program. */ -struct uip_conn *uip_conn; /* uip_conn always points to the current +struct uip_conn *uip_conn; /* uip_conn always points to the current connection. */ -struct uip_conn uip_conns[UIP_CONNS]; - /* The uip_conns array holds all TCP +struct uip_conn uip_conns[UIP_CONNS]; + +/* The uip_conns array holds all TCP connections. */ -u16_t uip_listenports[UIP_LISTENPORTS]; - /* The uip_listenports list all currently +u16_t uip_listenports[UIP_LISTENPORTS]; + +/* The uip_listenports list all currently listning ports. */ #if UIP_UDP struct uip_udp_conn *uip_udp_conn; struct uip_udp_conn uip_udp_conns[UIP_UDP_CONNS]; #endif /* UIP_UDP */ -static u16_t ipid; /* Ths ipid variable is an increasing +static u16_t ipid; /* Ths ipid variable is an increasing number that is used for the IP ID field. */ -void uip_setipid(u16_t id) { ipid = id; } +void uip_setipid( u16_t id ) +{ + ipid = id; +} -static u8_t iss[4]; /* The iss variable is used for the TCP +static u8_t iss[4]; /* The iss variable is used for the TCP initial sequence number. */ #if UIP_ACTIVE_OPEN -static u16_t lastport; /* Keeps track of the last port used for +static u16_t lastport; /* Keeps track of the last port used for a new connection. */ #endif /* UIP_ACTIVE_OPEN */ /* Temporary variables. */ -u8_t uip_acc32[4]; -static u8_t c, opt; -static u16_t tmp16; +u8_t uip_acc32[4]; +static u8_t c, opt; +static u16_t tmp16; /* Structures and definitions. */ -#define TCP_FIN 0x01 -#define TCP_SYN 0x02 -#define TCP_RST 0x04 -#define TCP_PSH 0x08 -#define TCP_ACK 0x10 -#define TCP_URG 0x20 -#define TCP_CTL 0x3f +#define TCP_FIN 0x01 +#define TCP_SYN 0x02 +#define TCP_RST 0x04 +#define TCP_PSH 0x08 +#define TCP_ACK 0x10 +#define TCP_URG 0x20 +#define TCP_CTL 0x3f -#define TCP_OPT_END 0 /* End of TCP options list */ -#define TCP_OPT_NOOP 1 /* "No-operation" TCP option */ -#define TCP_OPT_MSS 2 /* Maximum segment size TCP option */ +#define TCP_OPT_END 0 /* End of TCP options list */ +#define TCP_OPT_NOOP 1 /* "No-operation" TCP option */ +#define TCP_OPT_MSS 2 /* Maximum segment size TCP option */ -#define TCP_OPT_MSS_LEN 4 /* Length of TCP MSS option. */ +#define TCP_OPT_MSS_LEN 4 /* Length of TCP MSS option. */ -#define ICMP_ECHO_REPLY 0 -#define ICMP_ECHO 8 +#define ICMP_ECHO_REPLY 0 +#define ICMP_ECHO 8 -#define ICMP6_ECHO_REPLY 129 -#define ICMP6_ECHO 128 -#define ICMP6_NEIGHBOR_SOLICITATION 135 -#define ICMP6_NEIGHBOR_ADVERTISEMENT 136 - -#define ICMP6_FLAG_S (1 << 6) - -#define ICMP6_OPTION_SOURCE_LINK_ADDRESS 1 -#define ICMP6_OPTION_TARGET_LINK_ADDRESS 2 +#define ICMP6_ECHO_REPLY 129 +#define ICMP6_ECHO 128 +#define ICMP6_NEIGHBOR_SOLICITATION 135 +#define ICMP6_NEIGHBOR_ADVERTISEMENT 136 +#define ICMP6_FLAG_S ( 1 << 6 ) +#define ICMP6_OPTION_SOURCE_LINK_ADDRESS 1 +#define ICMP6_OPTION_TARGET_LINK_ADDRESS 2 /* Macros. */ -#define BUF ((struct uip_tcpip_hdr *)&uip_buf[UIP_LLH_LEN]) -#define FBUF ((struct uip_tcpip_hdr *)&uip_reassbuf[0]) -#define ICMPBUF ((struct uip_icmpip_hdr *)&uip_buf[UIP_LLH_LEN]) -#define UDPBUF ((struct uip_udpip_hdr *)&uip_buf[UIP_LLH_LEN]) - - +#define BUF ( ( struct uip_tcpip_hdr * ) &uip_buf[UIP_LLH_LEN] ) +#define FBUF ( ( struct uip_tcpip_hdr * ) &uip_reassbuf[0] ) +#define ICMPBUF ( ( struct uip_icmpip_hdr * ) &uip_buf[UIP_LLH_LEN] ) +#define UDPBUF ( ( struct uip_udpip_hdr * ) &uip_buf[UIP_LLH_LEN] ) #if UIP_STATISTICS == 1 -struct uip_stats uip_stat; -#define UIP_STAT(s) s +struct uip_stats uip_stat; + #define UIP_STAT( s ) s #else -#define UIP_STAT(s) + #define UIP_STAT( s ) #endif /* UIP_STATISTICS == 1 */ #if UIP_LOGGING == 1 -#include -void uip_log(char *msg); -#define UIP_LOG(m) uip_log(m) + #include +void uip_log( char *msg ); + #define UIP_LOG( m ) uip_log( m ) #else -#define UIP_LOG(m) + #define UIP_LOG( m ) #endif /* UIP_LOGGING == 1 */ -#if ! UIP_ARCH_ADD32 -void -uip_add32(u8_t *op32, u16_t op16) +#if !UIP_ARCH_ADD32 +void uip_add32( u8_t *op32, u16_t op16 ) { - uip_acc32[3] = op32[3] + (op16 & 0xff); - uip_acc32[2] = op32[2] + (op16 >> 8); - uip_acc32[1] = op32[1]; - uip_acc32[0] = op32[0]; - - if(uip_acc32[2] < (op16 >> 8)) { - ++uip_acc32[1]; - if(uip_acc32[1] == 0) { - ++uip_acc32[0]; - } - } - - - if(uip_acc32[3] < (op16 & 0xff)) { - ++uip_acc32[2]; - if(uip_acc32[2] == 0) { - ++uip_acc32[1]; - if(uip_acc32[1] == 0) { - ++uip_acc32[0]; - } - } - } + uip_acc32[3] = op32[3] + ( op16 & 0xff ); + uip_acc32[2] = op32[2] + ( op16 >> 8 ); + uip_acc32[1] = op32[1]; + uip_acc32[0] = op32[0]; + + if( uip_acc32[2] < (op16 >> 8) ) + { + ++uip_acc32[1]; + if( uip_acc32[1] == 0 ) + { + ++uip_acc32[0]; + } + } + + if( uip_acc32[3] < (op16 & 0xff) ) + { + ++uip_acc32[2]; + if( uip_acc32[2] == 0 ) + { + ++uip_acc32[1]; + if( uip_acc32[1] == 0 ) + { + ++uip_acc32[0]; + } + } + } } #endif /* UIP_ARCH_ADD32 */ -#if ! UIP_ARCH_CHKSUM +#if !UIP_ARCH_CHKSUM + /*---------------------------------------------------------------------------*/ -static u16_t -chksum(u16_t sum, const u8_t *data, u16_t len) +static u16_t chksum( u16_t sum, const u8_t *data, u16_t len ) { - u16_t t; - const u8_t *dataptr; - const u8_t *last_byte; - - dataptr = data; - last_byte = data + len - 1; - - while(dataptr < last_byte) { /* At least two more bytes */ - t = (dataptr[0] << 8) + dataptr[1]; - sum += t; - if(sum < t) { - sum++; /* carry */ - } - dataptr += 2; - } - - if(dataptr == last_byte) { - t = (dataptr[0] << 8) + 0; - sum += t; - if(sum < t) { - sum++; /* carry */ - } - } - - /* Return sum in host byte order. */ - return sum; + u16_t t; + const u8_t *dataptr; + const u8_t *last_byte; + + dataptr = data; + last_byte = data + len - 1; + + while( dataptr < last_byte ) + { /* At least two more bytes */ + t = ( dataptr[0] << 8 ) + dataptr[1]; + sum += t; + if( sum < t ) + { + sum++; /* carry */ + } + + dataptr += 2; + } + + if( dataptr == last_byte ) + { + t = ( dataptr[0] << 8 ) + 0; + sum += t; + if( sum < t ) + { + sum++; /* carry */ + } + } + + /* Return sum in host byte order. */ + return sum; } + /*---------------------------------------------------------------------------*/ -u16_t -uip_chksum(u16_t *data, u16_t len) +u16_t uip_chksum( u16_t *data, u16_t len ) { - return htons(chksum(0, (u8_t *)data, len)); + return htons( chksum(0, ( u8_t * ) data, len) ); } + /*---------------------------------------------------------------------------*/ -#ifndef UIP_ARCH_IPCHKSUM -u16_t -uip_ipchksum(void) + #ifndef UIP_ARCH_IPCHKSUM +u16_t uip_ipchksum( void ) { - u16_t sum; + u16_t sum; - sum = chksum(0, &uip_buf[UIP_LLH_LEN], UIP_IPH_LEN); - DEBUG_PRINTF("uip_ipchksum: sum 0x%04x\n", sum); - return (sum == 0) ? 0xffff : htons(sum); + sum = chksum( 0, &uip_buf[UIP_LLH_LEN], UIP_IPH_LEN ); + DEBUG_PRINTF( "uip_ipchksum: sum 0x%04x\n", sum ); + return( sum == 0 ) ? 0xffff : htons( sum ); } -#endif + + #endif + /*---------------------------------------------------------------------------*/ -static u16_t -upper_layer_chksum(u8_t proto) +static u16_t upper_layer_chksum( u8_t proto ) { - u16_t upper_layer_len; - u16_t sum; + u16_t upper_layer_len; + u16_t sum; -#if UIP_CONF_IPV6 - upper_layer_len = (((u16_t)(BUF->len[0]) << 8) + BUF->len[1]); -#else /* UIP_CONF_IPV6 */ - upper_layer_len = (((u16_t)(BUF->len[0]) << 8) + BUF->len[1]) - UIP_IPH_LEN; -#endif /* UIP_CONF_IPV6 */ + #if UIP_CONF_IPV6 + upper_layer_len = ( ((u16_t) (BUF->len[0]) << 8) + BUF->len[1] ); + #else /* UIP_CONF_IPV6 */ + upper_layer_len = ( ((u16_t) (BUF->len[0]) << 8) + BUF->len[1] ) - UIP_IPH_LEN; + #endif /* UIP_CONF_IPV6 */ - /* First sum pseudoheader. */ + /* First sum pseudoheader. */ - /* IP protocol and length fields. This addition cannot carry. */ - sum = upper_layer_len + proto; - /* Sum IP source and destination addresses. */ - sum = chksum(sum, (u8_t *)&BUF->srcipaddr[0], 2 * sizeof(uip_ipaddr_t)); + /* IP protocol and length fields. This addition cannot carry. */ + sum = upper_layer_len + proto; - /* Sum TCP header and data. */ - sum = chksum(sum, &uip_buf[UIP_IPH_LEN + UIP_LLH_LEN], - upper_layer_len); + /* Sum IP source and destination addresses. */ + sum = chksum( sum, ( u8_t * ) &BUF->srcipaddr[0], 2 * sizeof(uip_ipaddr_t) ); - return (sum == 0) ? 0xffff : htons(sum); + /* Sum TCP header and data. */ + sum = chksum( sum, &uip_buf[UIP_IPH_LEN + UIP_LLH_LEN], upper_layer_len ); + + return( sum == 0 ) ? 0xffff : htons( sum ); } + /*---------------------------------------------------------------------------*/ -#if UIP_CONF_IPV6 -u16_t -uip_icmp6chksum(void) + #if UIP_CONF_IPV6 +u16_t uip_icmp6chksum( void ) { - return upper_layer_chksum(UIP_PROTO_ICMP6); - + return upper_layer_chksum( UIP_PROTO_ICMP6 ); } -#endif /* UIP_CONF_IPV6 */ + + #endif /* UIP_CONF_IPV6 */ + /*---------------------------------------------------------------------------*/ -u16_t -uip_tcpchksum(void) +u16_t uip_tcpchksum( void ) { - return upper_layer_chksum(UIP_PROTO_TCP); + return upper_layer_chksum( UIP_PROTO_TCP ); } + /*---------------------------------------------------------------------------*/ -#if UIP_UDP_CHECKSUMS -u16_t -uip_udpchksum(void) + #if UIP_UDP_CHECKSUMS +u16_t uip_udpchksum( void ) { - return upper_layer_chksum(UIP_PROTO_UDP); + return upper_layer_chksum( UIP_PROTO_UDP ); } -#endif /* UIP_UDP_CHECKSUMS */ + + #endif /* UIP_UDP_CHECKSUMS */ #endif /* UIP_ARCH_CHKSUM */ + /*---------------------------------------------------------------------------*/ -void -uip_init(void) +void uip_init( void ) { - for(c = 0; c < UIP_LISTENPORTS; ++c) { - uip_listenports[c] = 0; - } - for(c = 0; c < UIP_CONNS; ++c) { - uip_conns[c].tcpstateflags = UIP_CLOSED; - } -#if UIP_ACTIVE_OPEN - lastport = 1024; -#endif /* UIP_ACTIVE_OPEN */ + for( c = 0; c < UIP_LISTENPORTS; ++c ) + { + uip_listenports[c] = 0; + } -#if UIP_UDP - for(c = 0; c < UIP_UDP_CONNS; ++c) { - uip_udp_conns[c].lport = 0; - } -#endif /* UIP_UDP */ + for( c = 0; c < UIP_CONNS; ++c ) + { + uip_conns[c].tcpstateflags = UIP_CLOSED; + } + #if UIP_ACTIVE_OPEN + lastport = 1024; + #endif /* UIP_ACTIVE_OPEN */ - /* IPv4 initialization. */ -#if UIP_FIXEDADDR == 0 - /* uip_hostaddr[0] = uip_hostaddr[1] = 0;*/ -#endif /* UIP_FIXEDADDR */ + #if UIP_UDP + for( c = 0; c < UIP_UDP_CONNS; ++c ) + { + uip_udp_conns[c].lport = 0; + } + + #endif /* UIP_UDP */ + /* IPv4 initialization. */ + #if UIP_FIXEDADDR == 0 + + /* uip_hostaddr[0] = uip_hostaddr[1] = 0;*/ + #endif /* UIP_FIXEDADDR */ } + /*---------------------------------------------------------------------------*/ #if UIP_ACTIVE_OPEN -struct uip_conn * -uip_connect(uip_ipaddr_t *ripaddr, u16_t rport) +struct uip_conn *uip_connect( uip_ipaddr_t *ripaddr, u16_t rport ) { - register struct uip_conn *conn, *cconn; + register struct uip_conn *conn, *cconn; - /* Find an unused local port. */ - again: - ++lastport; + /* Find an unused local port. */ +again: + ++lastport; - if(lastport >= 32000) { - lastport = 4096; - } + if( lastport >= 32000 ) + { + lastport = 4096; + } - /* Check if this port is already in use, and if so try to find + /* Check if this port is already in use, and if so try to find another one. */ - for(c = 0; c < UIP_CONNS; ++c) { - conn = &uip_conns[c]; - if(conn->tcpstateflags != UIP_CLOSED && - conn->lport == htons(lastport)) { - goto again; - } - } - - conn = 0; - for(c = 0; c < UIP_CONNS; ++c) { - cconn = &uip_conns[c]; - if(cconn->tcpstateflags == UIP_CLOSED) { - conn = cconn; - break; - } - if(cconn->tcpstateflags == UIP_TIME_WAIT) { - if(conn == 0 || - cconn->timer > conn->timer) { - conn = cconn; - } - } - } - - if(conn == 0) { - return 0; - } - - conn->tcpstateflags = UIP_SYN_SENT; - - conn->snd_nxt[0] = iss[0]; - conn->snd_nxt[1] = iss[1]; - conn->snd_nxt[2] = iss[2]; - conn->snd_nxt[3] = iss[3]; - - conn->initialmss = conn->mss = UIP_TCP_MSS; - - conn->len = 1; /* TCP length of the SYN is one. */ - conn->nrtx = 0; - conn->timer = 1; /* Send the SYN next time around. */ - conn->rto = UIP_RTO; - conn->sa = 0; - conn->sv = 16; /* Initial value of the RTT variance. */ - conn->lport = htons(lastport); - conn->rport = rport; - uip_ipaddr_copy(&conn->ripaddr, ripaddr); - - return conn; + for( c = 0; c < UIP_CONNS; ++c ) + { + conn = &uip_conns[c]; + if( conn->tcpstateflags != UIP_CLOSED && conn->lport == htons(lastport) ) + { + goto again; + } + } + + conn = 0; + for( c = 0; c < UIP_CONNS; ++c ) + { + cconn = &uip_conns[c]; + if( cconn->tcpstateflags == UIP_CLOSED ) + { + conn = cconn; + break; + } + + if( cconn->tcpstateflags == UIP_TIME_WAIT ) + { + if( conn == 0 || cconn->timer > conn->timer ) + { + conn = cconn; + } + } + } + + if( conn == 0 ) + { + return 0; + } + + conn->tcpstateflags = UIP_SYN_SENT; + + conn->snd_nxt[0] = iss[0]; + conn->snd_nxt[1] = iss[1]; + conn->snd_nxt[2] = iss[2]; + conn->snd_nxt[3] = iss[3]; + + conn->initialmss = conn->mss = UIP_TCP_MSS; + + conn->len = 1; /* TCP length of the SYN is one. */ + conn->nrtx = 0; + conn->timer = 1; /* Send the SYN next time around. */ + conn->rto = UIP_RTO; + conn->sa = 0; + conn->sv = 16; /* Initial value of the RTT variance. */ + conn->lport = htons( lastport ); + conn->rport = rport; + uip_ipaddr_copy( &conn->ripaddr, ripaddr ); + + return conn; } + #endif /* UIP_ACTIVE_OPEN */ + /*---------------------------------------------------------------------------*/ #if UIP_UDP -struct uip_udp_conn * -uip_udp_new(uip_ipaddr_t *ripaddr, u16_t rport) +struct uip_udp_conn *uip_udp_new( uip_ipaddr_t *ripaddr, u16_t rport ) { - register struct uip_udp_conn *conn; - - /* Find an unused local port. */ - again: - ++lastport; - - if(lastport >= 32000) { - lastport = 4096; - } - - for(c = 0; c < UIP_UDP_CONNS; ++c) { - if(uip_udp_conns[c].lport == htons(lastport)) { - goto again; - } - } - - - conn = 0; - for(c = 0; c < UIP_UDP_CONNS; ++c) { - if(uip_udp_conns[c].lport == 0) { - conn = &uip_udp_conns[c]; - break; - } - } - - if(conn == 0) { - return 0; - } - - conn->lport = HTONS(lastport); - conn->rport = rport; - if(ripaddr == NULL) { - memset(conn->ripaddr, 0, sizeof(uip_ipaddr_t)); - } else { - uip_ipaddr_copy(&conn->ripaddr, ripaddr); - } - conn->ttl = UIP_TTL; - - return conn; + register struct uip_udp_conn *conn; + + /* Find an unused local port. */ +again: + ++lastport; + + if( lastport >= 32000 ) + { + lastport = 4096; + } + + for( c = 0; c < UIP_UDP_CONNS; ++c ) + { + if( uip_udp_conns[c].lport == htons(lastport) ) + { + goto again; + } + } + + conn = 0; + for( c = 0; c < UIP_UDP_CONNS; ++c ) + { + if( uip_udp_conns[c].lport == 0 ) + { + conn = &uip_udp_conns[c]; + break; + } + } + + if( conn == 0 ) + { + return 0; + } + + conn->lport = HTONS( lastport ); + conn->rport = rport; + if( ripaddr == NULL ) + { + memset( conn->ripaddr, 0, sizeof(uip_ipaddr_t) ); + } + else + { + uip_ipaddr_copy( &conn->ripaddr, ripaddr ); + } + + conn->ttl = UIP_TTL; + + return conn; } + #endif /* UIP_UDP */ + /*---------------------------------------------------------------------------*/ -void -uip_unlisten(u16_t port) +void uip_unlisten( u16_t port ) { - for(c = 0; c < UIP_LISTENPORTS; ++c) { - if(uip_listenports[c] == port) { - uip_listenports[c] = 0; - return; - } - } + for( c = 0; c < UIP_LISTENPORTS; ++c ) + { + if( uip_listenports[c] == port ) + { + uip_listenports[c] = 0; + return; + } + } } + /*---------------------------------------------------------------------------*/ -void -uip_listen(u16_t port) +void uip_listen( u16_t port ) { - for(c = 0; c < UIP_LISTENPORTS; ++c) { - if(uip_listenports[c] == 0) { - uip_listenports[c] = port; - return; - } - } + for( c = 0; c < UIP_LISTENPORTS; ++c ) + { + if( uip_listenports[c] == 0 ) + { + uip_listenports[c] = port; + return; + } + } } + /*---------------------------------------------------------------------------*/ -/* XXX: IP fragment reassembly: not well-tested. */ +/* XXX: IP fragment reassembly: not well-tested. */ #if UIP_REASSEMBLY && !UIP_CONF_IPV6 -#define UIP_REASS_BUFSIZE (UIP_BUFSIZE - UIP_LLH_LEN) -static u8_t uip_reassbuf[UIP_REASS_BUFSIZE]; -static u8_t uip_reassbitmap[UIP_REASS_BUFSIZE / (8 * 8)]; -static const u8_t bitmap_bits[8] = {0xff, 0x7f, 0x3f, 0x1f, - 0x0f, 0x07, 0x03, 0x01}; -static u16_t uip_reasslen; -static u8_t uip_reassflags; -#define UIP_REASS_FLAG_LASTFRAG 0x01 -static u8_t uip_reasstmr; - -#define IP_MF 0x20 - -static u8_t -uip_reass(void) + #define UIP_REASS_BUFSIZE ( UIP_BUFSIZE - UIP_LLH_LEN ) +static u8_t uip_reassbuf[UIP_REASS_BUFSIZE]; +static u8_t uip_reassbitmap[UIP_REASS_BUFSIZE / ( 8 * 8 )]; +static const u8_t bitmap_bits[8] = { 0xff, 0x7f, 0x3f, 0x1f, 0x0f, 0x07, 0x03, 0x01 }; +static u16_t uip_reasslen; +static u8_t uip_reassflags; + #define UIP_REASS_FLAG_LASTFRAG 0x01 +static u8_t uip_reasstmr; + + #define IP_MF 0x20 + +static u8_t uip_reass( void ) { - u16_t offset, len; - u16_t i; + u16_t offset, len; + u16_t i; - /* If ip_reasstmr is zero, no packet is present in the buffer, so we + /* If ip_reasstmr is zero, no packet is present in the buffer, so we write the IP header of the fragment into the reassembly buffer. The timer is updated with the maximum age. */ - if(uip_reasstmr == 0) { - memcpy(uip_reassbuf, &BUF->vhl, UIP_IPH_LEN); - uip_reasstmr = UIP_REASS_MAXAGE; - uip_reassflags = 0; - /* Clear the bitmap. */ - memset(uip_reassbitmap, 0, sizeof(uip_reassbitmap)); - } - - /* Check if the incoming fragment matches the one currently present + if( uip_reasstmr == 0 ) + { + memcpy( uip_reassbuf, &BUF->vhl, UIP_IPH_LEN ); + uip_reasstmr = UIP_REASS_MAXAGE; + uip_reassflags = 0; + + /* Clear the bitmap. */ + memset( uip_reassbitmap, 0, sizeof(uip_reassbitmap) ); + } + + /* Check if the incoming fragment matches the one currently present in the reasembly buffer. If so, we proceed with copying the fragment into the buffer. */ - if(BUF->srcipaddr[0] == FBUF->srcipaddr[0] && - BUF->srcipaddr[1] == FBUF->srcipaddr[1] && - BUF->destipaddr[0] == FBUF->destipaddr[0] && - BUF->destipaddr[1] == FBUF->destipaddr[1] && - BUF->ipid[0] == FBUF->ipid[0] && - BUF->ipid[1] == FBUF->ipid[1]) { - - len = (BUF->len[0] << 8) + BUF->len[1] - (BUF->vhl & 0x0f) * 4; - offset = (((BUF->ipoffset[0] & 0x3f) << 8) + BUF->ipoffset[1]) * 8; - - /* If the offset or the offset + fragment length overflows the + if + ( + BUF->srcipaddr[0] == FBUF->srcipaddr[0] && + BUF->srcipaddr[1] == FBUF->srcipaddr[1] && + BUF->destipaddr[0] == FBUF->destipaddr[0] && + BUF->destipaddr[1] == FBUF->destipaddr[1] && + BUF->ipid[0] == FBUF->ipid[0] && + BUF->ipid[1] == FBUF->ipid[1] + ) + { + len = ( BUF->len[0] << 8 ) + BUF->len[1] - ( BUF->vhl & 0x0f ) * 4; + offset = ( ((BUF->ipoffset[0] & 0x3f) << 8) + BUF->ipoffset[1] ) * 8; + + /* If the offset or the offset + fragment length overflows the reassembly buffer, we discard the entire packet. */ - if(offset > UIP_REASS_BUFSIZE || - offset + len > UIP_REASS_BUFSIZE) { - uip_reasstmr = 0; - goto nullreturn; - } + if( offset > UIP_REASS_BUFSIZE || offset + len > UIP_REASS_BUFSIZE ) + { + uip_reasstmr = 0; + goto nullreturn; + } - /* Copy the fragment into the reassembly buffer, at the right + /* Copy the fragment into the reassembly buffer, at the right offset. */ - memcpy(&uip_reassbuf[UIP_IPH_LEN + offset], - (char *)BUF + (int)((BUF->vhl & 0x0f) * 4), - len); + memcpy( &uip_reassbuf[UIP_IPH_LEN + offset], ( char * ) BUF + ( int ) ((BUF->vhl & 0x0f) * 4), len ); - /* Update the bitmap. */ - if(offset / (8 * 8) == (offset + len) / (8 * 8)) { - /* If the two endpoints are in the same byte, we only update + /* Update the bitmap. */ + if( offset / (8 * 8) == (offset + len) / (8 * 8) ) + { + /* If the two endpoints are in the same byte, we only update that byte. */ - - uip_reassbitmap[offset / (8 * 8)] |= - bitmap_bits[(offset / 8 ) & 7] & - ~bitmap_bits[((offset + len) / 8 ) & 7]; - } else { - /* If the two endpoints are in different bytes, we update the + uip_reassbitmap[offset / ( 8 * 8 )] |= bitmap_bits[( offset / 8 ) & 7] &~bitmap_bits[( (offset + len) / 8 ) & 7]; + } + else + { + /* If the two endpoints are in different bytes, we update the bytes in the endpoints and fill the stuff inbetween with 0xff. */ - uip_reassbitmap[offset / (8 * 8)] |= - bitmap_bits[(offset / 8 ) & 7]; - for(i = 1 + offset / (8 * 8); i < (offset + len) / (8 * 8); ++i) { - uip_reassbitmap[i] = 0xff; - } - uip_reassbitmap[(offset + len) / (8 * 8)] |= - ~bitmap_bits[((offset + len) / 8 ) & 7]; - } - - /* If this fragment has the More Fragments flag set to zero, we + uip_reassbitmap[offset / ( 8 * 8 )] |= bitmap_bits[( offset / 8 ) & 7]; + for( i = 1 + offset / (8 * 8); i < (offset + len) / (8 * 8); ++i ) + { + uip_reassbitmap[i] = 0xff; + } + + uip_reassbitmap[( offset + len ) / ( 8 * 8 )] |= ~bitmap_bits[( (offset + len) / 8 ) & 7]; + } + + /* If this fragment has the More Fragments flag set to zero, we know that this is the last fragment, so we can calculate the size of the entire packet. We also set the IP_REASS_FLAG_LASTFRAG flag to indicate that we have received the final fragment. */ + if( (BUF->ipoffset[0] & IP_MF) == 0 ) + { + uip_reassflags |= UIP_REASS_FLAG_LASTFRAG; + uip_reasslen = offset + len; + } - if((BUF->ipoffset[0] & IP_MF) == 0) { - uip_reassflags |= UIP_REASS_FLAG_LASTFRAG; - uip_reasslen = offset + len; - } - - /* Finally, we check if we have a full packet in the buffer. We do + /* Finally, we check if we have a full packet in the buffer. We do this by checking if we have the last fragment and if all bits in the bitmap are set. */ - if(uip_reassflags & UIP_REASS_FLAG_LASTFRAG) { - /* Check all bytes up to and including all but the last byte in + if( uip_reassflags & UIP_REASS_FLAG_LASTFRAG ) + { + /* Check all bytes up to and including all but the last byte in the bitmap. */ - for(i = 0; i < uip_reasslen / (8 * 8) - 1; ++i) { - if(uip_reassbitmap[i] != 0xff) { - goto nullreturn; - } - } - /* Check the last byte in the bitmap. It should contain just the + for( i = 0; i < uip_reasslen / (8 * 8) - 1; ++i ) + { + if( uip_reassbitmap[i] != 0xff ) + { + goto nullreturn; + } + } + + /* Check the last byte in the bitmap. It should contain just the right amount of bits. */ - if(uip_reassbitmap[uip_reasslen / (8 * 8)] != - (u8_t)~bitmap_bits[uip_reasslen / 8 & 7]) { - goto nullreturn; - } + if( uip_reassbitmap[uip_reasslen / (8 * 8)] != (u8_t)~bitmap_bits[uip_reasslen / 8 & 7] ) + { + goto nullreturn; + } - /* If we have come this far, we have a full packet in the + /* If we have come this far, we have a full packet in the buffer, so we allocate a pbuf and copy the packet into it. We also reset the timer. */ - uip_reasstmr = 0; - memcpy(BUF, FBUF, uip_reasslen); + uip_reasstmr = 0; + memcpy( BUF, FBUF, uip_reasslen ); - /* Pretend to be a "normal" (i.e., not fragmented) IP packet + /* Pretend to be a "normal" (i.e., not fragmented) IP packet from now on. */ - BUF->ipoffset[0] = BUF->ipoffset[1] = 0; - BUF->len[0] = uip_reasslen >> 8; - BUF->len[1] = uip_reasslen & 0xff; - BUF->ipchksum = 0; - BUF->ipchksum = ~(uip_ipchksum()); - - return uip_reasslen; - } - } - - nullreturn: - return 0; + BUF->ipoffset[0] = BUF->ipoffset[1] = 0; + BUF->len[0] = uip_reasslen >> 8; + BUF->len[1] = uip_reasslen & 0xff; + BUF->ipchksum = 0; + BUF->ipchksum = ~( uip_ipchksum() ); + + return uip_reasslen; + } + } + +nullreturn: + return 0; } + #endif /* UIP_REASSEMBLY */ + /*---------------------------------------------------------------------------*/ -static void -uip_add_rcv_nxt(u16_t n) +static void uip_add_rcv_nxt( u16_t n ) { - uip_add32(uip_conn->rcv_nxt, n); - uip_conn->rcv_nxt[0] = uip_acc32[0]; - uip_conn->rcv_nxt[1] = uip_acc32[1]; - uip_conn->rcv_nxt[2] = uip_acc32[2]; - uip_conn->rcv_nxt[3] = uip_acc32[3]; + uip_add32( uip_conn->rcv_nxt, n ); + uip_conn->rcv_nxt[0] = uip_acc32[0]; + uip_conn->rcv_nxt[1] = uip_acc32[1]; + uip_conn->rcv_nxt[2] = uip_acc32[2]; + uip_conn->rcv_nxt[3] = uip_acc32[3]; } + /*---------------------------------------------------------------------------*/ -void -uip_process(u8_t flag) +void uip_process( u8_t flag ) { - register struct uip_conn *uip_connr = uip_conn; + register struct uip_conn *uip_connr = uip_conn; -#if UIP_UDP - if(flag == UIP_UDP_SEND_CONN) { - goto udp_send; - } -#endif /* UIP_UDP */ + #if UIP_UDP + if( flag == UIP_UDP_SEND_CONN ) + { + goto udp_send; + } - uip_sappdata = uip_appdata = &uip_buf[UIP_IPTCPH_LEN + UIP_LLH_LEN]; + #endif /* UIP_UDP */ - /* Check if we were invoked because of a poll request for a + uip_sappdata = uip_appdata = &uip_buf[UIP_IPTCPH_LEN + UIP_LLH_LEN]; + + /* Check if we were invoked because of a poll request for a particular connection. */ - if(flag == UIP_POLL_REQUEST) { - if((uip_connr->tcpstateflags & UIP_TS_MASK) == UIP_ESTABLISHED && - !uip_outstanding(uip_connr)) { - uip_flags = UIP_POLL; - UIP_APPCALL(); - goto appsend; - } - goto drop; - - /* Check if we were invoked because of the perodic timer fireing. */ - } else if(flag == UIP_TIMER) { -#if UIP_REASSEMBLY - if(uip_reasstmr != 0) { - --uip_reasstmr; - } -#endif /* UIP_REASSEMBLY */ - /* Increase the initial sequence number. */ - if(++iss[3] == 0) { - if(++iss[2] == 0) { - if(++iss[1] == 0) { - ++iss[0]; + if( flag == UIP_POLL_REQUEST ) + { + if( (uip_connr->tcpstateflags & UIP_TS_MASK) == UIP_ESTABLISHED && !uip_outstanding(uip_connr) ) + { + uip_flags = UIP_POLL; + UIP_APPCALL(); + goto appsend; + } + + goto drop; + + /* Check if we were invoked because of the perodic timer fireing. */ } - } - } - - /* Reset the length variables. */ - uip_len = 0; - uip_slen = 0; - - /* Check if the connection is in a state in which we simply wait + else if( flag == UIP_TIMER ) + { + #if UIP_REASSEMBLY + if( uip_reasstmr != 0 ) + { + --uip_reasstmr; + } + + #endif /* UIP_REASSEMBLY */ + + /* Increase the initial sequence number. */ + if( ++iss[3] == 0 ) + { + if( ++iss[2] == 0 ) + { + if( ++iss[1] == 0 ) + { + ++iss[0]; + } + } + } + + /* Reset the length variables. */ + uip_len = 0; + uip_slen = 0; + + /* Check if the connection is in a state in which we simply wait for the connection to time out. If so, we increase the connection's timer and remove the connection if it times out. */ - if(uip_connr->tcpstateflags == UIP_TIME_WAIT || - uip_connr->tcpstateflags == UIP_FIN_WAIT_2) { - ++(uip_connr->timer); - if(uip_connr->timer == UIP_TIME_WAIT_TIMEOUT) { - uip_connr->tcpstateflags = UIP_CLOSED; - } - } else if(uip_connr->tcpstateflags != UIP_CLOSED) { - /* If the connection has outstanding data, we increase the + if( uip_connr->tcpstateflags == UIP_TIME_WAIT || uip_connr->tcpstateflags == UIP_FIN_WAIT_2 ) + { + ++( uip_connr->timer ); + if( uip_connr->timer == UIP_TIME_WAIT_TIMEOUT ) + { + uip_connr->tcpstateflags = UIP_CLOSED; + } + } + else if( uip_connr->tcpstateflags != UIP_CLOSED ) + { + /* If the connection has outstanding data, we increase the connection's timer and see if it has reached the RTO value in which case we retransmit. */ - if(uip_outstanding(uip_connr)) { - uip_connr->timer = uip_connr->timer - 1; - if(uip_connr->timer == 0) { - if(uip_connr->nrtx == UIP_MAXRTX || - ((uip_connr->tcpstateflags == UIP_SYN_SENT || - uip_connr->tcpstateflags == UIP_SYN_RCVD) && - uip_connr->nrtx == UIP_MAXSYNRTX)) { - uip_connr->tcpstateflags = UIP_CLOSED; - - /* We call UIP_APPCALL() with uip_flags set to + if( uip_outstanding(uip_connr) ) + { + uip_connr->timer = uip_connr->timer - 1; + if( uip_connr->timer == 0 ) + { + if + ( + uip_connr->nrtx == UIP_MAXRTX || + ( + (uip_connr->tcpstateflags == UIP_SYN_SENT || uip_connr->tcpstateflags == UIP_SYN_RCVD) && + uip_connr->nrtx == UIP_MAXSYNRTX + ) + ) + { + uip_connr->tcpstateflags = UIP_CLOSED; + + /* We call UIP_APPCALL() with uip_flags set to UIP_TIMEDOUT to inform the application that the connection has timed out. */ - uip_flags = UIP_TIMEDOUT; - UIP_APPCALL(); - - /* We also send a reset packet to the remote host. */ - BUF->flags = TCP_RST | TCP_ACK; - goto tcp_send_nodata; - } - - /* Exponential backoff. */ - uip_connr->timer = UIP_RTO << (uip_connr->nrtx > 4? - 4: - uip_connr->nrtx); - ++(uip_connr->nrtx); - - /* Ok, so we need to retransmit. We do this differently + uip_flags = UIP_TIMEDOUT; + UIP_APPCALL(); + + /* We also send a reset packet to the remote host. */ + BUF->flags = TCP_RST | TCP_ACK; + goto tcp_send_nodata; + } + + /* Exponential backoff. */ + uip_connr->timer = UIP_RTO << ( uip_connr->nrtx > 4 ? 4 : uip_connr->nrtx ); + ++( uip_connr->nrtx ); + + /* Ok, so we need to retransmit. We do this differently depending on which state we are in. In ESTABLISHED, we call upon the application so that it may prepare the data for the retransmit. In SYN_RCVD, we resend the SYNACK that we sent earlier and in LAST_ACK we have to retransmit our FINACK. */ - UIP_STAT(++uip_stat.tcp.rexmit); - switch(uip_connr->tcpstateflags & UIP_TS_MASK) { - case UIP_SYN_RCVD: - /* In the SYN_RCVD state, we should retransmit our + UIP_STAT( ++uip_stat.tcp.rexmit ); + switch( uip_connr->tcpstateflags & UIP_TS_MASK ) + { + case UIP_SYN_RCVD: + /* In the SYN_RCVD state, we should retransmit our SYNACK. */ - goto tcp_send_synack; - -#if UIP_ACTIVE_OPEN - case UIP_SYN_SENT: - /* In the SYN_SENT state, we retransmit out SYN. */ - BUF->flags = 0; - goto tcp_send_syn; -#endif /* UIP_ACTIVE_OPEN */ - - case UIP_ESTABLISHED: - /* In the ESTABLISHED state, we call upon the application + goto tcp_send_synack; + + #if UIP_ACTIVE_OPEN + + case UIP_SYN_SENT: + /* In the SYN_SENT state, we retransmit out SYN. */ + BUF->flags = 0; + goto tcp_send_syn; + #endif /* UIP_ACTIVE_OPEN */ + + case UIP_ESTABLISHED: + /* In the ESTABLISHED state, we call upon the application to do the actual retransmit after which we jump into the code for sending out the packet (the apprexmit label). */ - uip_flags = UIP_REXMIT; - UIP_APPCALL(); - goto apprexmit; - - case UIP_FIN_WAIT_1: - case UIP_CLOSING: - case UIP_LAST_ACK: - /* In all these states we should retransmit a FINACK. */ - goto tcp_send_finack; - - } - } - } else if((uip_connr->tcpstateflags & UIP_TS_MASK) == UIP_ESTABLISHED) { - /* If there was no need for a retransmission, we poll the + uip_flags = UIP_REXMIT; + UIP_APPCALL(); + goto apprexmit; + + case UIP_FIN_WAIT_1: + case UIP_CLOSING: + case UIP_LAST_ACK: + /* In all these states we should retransmit a FINACK. */ + goto tcp_send_finack; + } + } + } + else if( (uip_connr->tcpstateflags & UIP_TS_MASK) == UIP_ESTABLISHED ) + { + /* If there was no need for a retransmission, we poll the application for new data. */ - uip_flags = UIP_POLL; - UIP_APPCALL(); - goto appsend; - } - } - goto drop; - } -#if UIP_UDP - if(flag == UIP_UDP_TIMER) { - if(uip_udp_conn->lport != 0) { - uip_conn = NULL; - uip_sappdata = uip_appdata = &uip_buf[UIP_LLH_LEN + UIP_IPUDPH_LEN]; - uip_len = uip_slen = 0; - uip_flags = UIP_POLL; - UIP_UDP_APPCALL(); - goto udp_send; - } else { - goto drop; - } - } -#endif + uip_flags = UIP_POLL; + UIP_APPCALL(); + goto appsend; + } + } - /* This is where the input processing starts. */ - UIP_STAT(++uip_stat.ip.recv); + goto drop; + } - /* Start of IP input header processing code. */ + #if UIP_UDP + if( flag == UIP_UDP_TIMER ) + { + if( uip_udp_conn->lport != 0 ) + { + uip_conn = NULL; + uip_sappdata = uip_appdata = &uip_buf[UIP_LLH_LEN + UIP_IPUDPH_LEN]; + uip_len = uip_slen = 0; + uip_flags = UIP_POLL; + UIP_UDP_APPCALL(); + goto udp_send; + } + else + { + goto drop; + } + } -#if UIP_CONF_IPV6 - /* Check validity of the IP header. */ - if((BUF->vtc & 0xf0) != 0x60) { /* IP version and header length. */ - UIP_STAT(++uip_stat.ip.drop); - UIP_STAT(++uip_stat.ip.vhlerr); - UIP_LOG("ipv6: invalid version."); - goto drop; - } -#else /* UIP_CONF_IPV6 */ - /* Check validity of the IP header. */ - if(BUF->vhl != 0x45) { /* IP version and header length. */ - UIP_STAT(++uip_stat.ip.drop); - UIP_STAT(++uip_stat.ip.vhlerr); - UIP_LOG("ip: invalid version or header length."); - goto drop; - } -#endif /* UIP_CONF_IPV6 */ + #endif + + /* This is where the input processing starts. */ + UIP_STAT( ++uip_stat.ip.recv ); + + /* Start of IP input header processing code. */ + #if UIP_CONF_IPV6 + + /* Check validity of the IP header. */ + if( (BUF->vtc & 0xf0) != 0x60 ) + { /* IP version and header length. */ + UIP_STAT( ++uip_stat.ip.drop ); + UIP_STAT( ++uip_stat.ip.vhlerr ); + UIP_LOG( "ipv6: invalid version." ); + goto drop; + } + + #else /* UIP_CONF_IPV6 */ + + /* Check validity of the IP header. */ + if( BUF->vhl != 0x45 ) + { /* IP version and header length. */ + UIP_STAT( ++uip_stat.ip.drop ); + UIP_STAT( ++uip_stat.ip.vhlerr ); + UIP_LOG( "ip: invalid version or header length." ); + goto drop; + } + + #endif /* UIP_CONF_IPV6 */ - /* Check the size of the packet. If the size reported to us in + /* Check the size of the packet. If the size reported to us in uip_len is smaller the size reported in the IP header, we assume that the packet has been corrupted in transit. If the size of uip_len is larger than the size reported in the IP packet header, the packet has been padded and we set uip_len to the correct value.. */ - - if((BUF->len[0] << 8) + BUF->len[1] <= uip_len) { - uip_len = (BUF->len[0] << 8) + BUF->len[1]; -#if UIP_CONF_IPV6 - uip_len += 40; /* The length reported in the IPv6 header is the + if( (BUF->len[0] << 8) + BUF->len[1] <= uip_len ) + { + uip_len = ( BUF->len[0] << 8 ) + BUF->len[1]; + #if UIP_CONF_IPV6 + uip_len += 40; /* The length reported in the IPv6 header is the length of the payload that follows the header. However, uIP uses the uip_len variable for holding the size of the entire packet, @@ -871,689 +942,796 @@ uip_process(u8_t flag) contains the length of the entire packet. But for IPv6 we need to add the size of the IPv6 header (40 bytes). */ -#endif /* UIP_CONF_IPV6 */ - } else { - UIP_LOG("ip: packet shorter than reported in IP header."); - goto drop; - } - -#if !UIP_CONF_IPV6 - /* Check the fragment flag. */ - if((BUF->ipoffset[0] & 0x3f) != 0 || - BUF->ipoffset[1] != 0) { -#if UIP_REASSEMBLY - uip_len = uip_reass(); - if(uip_len == 0) { - goto drop; - } -#else /* UIP_REASSEMBLY */ - UIP_STAT(++uip_stat.ip.drop); - UIP_STAT(++uip_stat.ip.fragerr); - UIP_LOG("ip: fragment dropped."); - goto drop; -#endif /* UIP_REASSEMBLY */ - } -#endif /* UIP_CONF_IPV6 */ + #endif /* UIP_CONF_IPV6 */ + } + else + { + UIP_LOG( "ip: packet shorter than reported in IP header." ); + goto drop; + } + + #if !UIP_CONF_IPV6 + + /* Check the fragment flag. */ + if( (BUF->ipoffset[0] & 0x3f) != 0 || BUF->ipoffset[1] != 0 ) + { + #if UIP_REASSEMBLY + uip_len = uip_reass(); + if( uip_len == 0 ) + { + goto drop; + } + + #else /* UIP_REASSEMBLY */ + UIP_STAT( ++uip_stat.ip.drop ); + UIP_STAT( ++uip_stat.ip.fragerr ); + UIP_LOG( "ip: fragment dropped." ); + goto drop; + #endif /* UIP_REASSEMBLY */ + } - if(uip_ipaddr_cmp(uip_hostaddr, all_zeroes_addr)) { - /* If we are configured to use ping IP address configuration and + #endif /* UIP_CONF_IPV6 */ + + if( uip_ipaddr_cmp(uip_hostaddr, all_zeroes_addr) ) + { + /* If we are configured to use ping IP address configuration and hasn't been assigned an IP address yet, we accept all ICMP packets. */ -#if UIP_PINGADDRCONF && !UIP_CONF_IPV6 - if(BUF->proto == UIP_PROTO_ICMP) { - UIP_LOG("ip: possible ping config packet received."); - goto icmp_input; - } else { - UIP_LOG("ip: packet dropped since no address assigned."); - goto drop; - } -#endif /* UIP_PINGADDRCONF */ - - } else { - /* If IP broadcast support is configured, we check for a broadcast + #if UIP_PINGADDRCONF && !UIP_CONF_IPV6 + if( BUF->proto == UIP_PROTO_ICMP ) + { + UIP_LOG( "ip: possible ping config packet received." ); + goto icmp_input; + } + else + { + UIP_LOG( "ip: packet dropped since no address assigned." ); + goto drop; + } + + #endif /* UIP_PINGADDRCONF */ + } + else + { + /* If IP broadcast support is configured, we check for a broadcast UDP packet, which may be destined to us. */ -#if UIP_BROADCAST - DEBUG_PRINTF("UDP IP checksum 0x%04x\n", uip_ipchksum()); - if(BUF->proto == UIP_PROTO_UDP && - uip_ipaddr_cmp(BUF->destipaddr, all_ones_addr) - /*&& - uip_ipchksum() == 0xffff*/) { - goto udp_input; - } -#endif /* UIP_BROADCAST */ - - /* Check if the packet is destined for our IP address. */ -#if !UIP_CONF_IPV6 - if(!uip_ipaddr_cmp(BUF->destipaddr, uip_hostaddr)) { - UIP_STAT(++uip_stat.ip.drop); - goto drop; - } -#else /* UIP_CONF_IPV6 */ - /* For IPv6, packet reception is a little trickier as we need to + #if UIP_BROADCAST + DEBUG_PRINTF( "UDP IP checksum 0x%04x\n", uip_ipchksum() ); + if( BUF->proto == UIP_PROTO_UDP && uip_ipaddr_cmp(BUF->destipaddr, all_ones_addr) /*&& + uip_ipchksum() == 0xffff*/ ) + { + goto udp_input; + } + + #endif /* UIP_BROADCAST */ + + /* Check if the packet is destined for our IP address. */ + #if !UIP_CONF_IPV6 + if( !uip_ipaddr_cmp(BUF->destipaddr, uip_hostaddr) ) + { + UIP_STAT( ++uip_stat.ip.drop ); + goto drop; + } + + #else /* UIP_CONF_IPV6 */ + + /* For IPv6, packet reception is a little trickier as we need to make sure that we listen to certain multicast addresses (all hosts multicast address, and the solicited-node multicast address) as well. However, we will cheat here and accept all multicast packets that are sent to the ff02::/16 addresses. */ - if(!uip_ipaddr_cmp(BUF->destipaddr, uip_hostaddr) && - BUF->destipaddr[0] != HTONS(0xff02)) { - UIP_STAT(++uip_stat.ip.drop); - goto drop; - } -#endif /* UIP_CONF_IPV6 */ - } + if( !uip_ipaddr_cmp(BUF->destipaddr, uip_hostaddr) && BUF->destipaddr[0] != HTONS(0xff02) ) + { + UIP_STAT( ++uip_stat.ip.drop ); + goto drop; + } -#if !UIP_CONF_IPV6 - if(uip_ipchksum() != 0xffff) { /* Compute and check the IP header + #endif /* UIP_CONF_IPV6 */ + } + + #if !UIP_CONF_IPV6 + if( uip_ipchksum() != 0xffff ) + { /* Compute and check the IP header checksum. */ - UIP_STAT(++uip_stat.ip.drop); - UIP_STAT(++uip_stat.ip.chkerr); - UIP_LOG("ip: bad checksum."); - goto drop; - } -#endif /* UIP_CONF_IPV6 */ + UIP_STAT( ++uip_stat.ip.drop ); + UIP_STAT( ++uip_stat.ip.chkerr ); + UIP_LOG( "ip: bad checksum." ); + goto drop; + } + + #endif /* UIP_CONF_IPV6 */ - if(BUF->proto == UIP_PROTO_TCP) { /* Check for TCP packet. If so, + if( BUF->proto == UIP_PROTO_TCP ) + { /* Check for TCP packet. If so, proceed with TCP input processing. */ - goto tcp_input; - } + goto tcp_input; + } -#if UIP_UDP - if(BUF->proto == UIP_PROTO_UDP) { - goto udp_input; - } -#endif /* UIP_UDP */ + #if UIP_UDP + if( BUF->proto == UIP_PROTO_UDP ) + { + goto udp_input; + } + + #endif /* UIP_UDP */ -#if !UIP_CONF_IPV6 - /* ICMPv4 processing code follows. */ - if(BUF->proto != UIP_PROTO_ICMP) { /* We only allow ICMP packets from + #if !UIP_CONF_IPV6 + + /* ICMPv4 processing code follows. */ + if( BUF->proto != UIP_PROTO_ICMP ) + { /* We only allow ICMP packets from here. */ - UIP_STAT(++uip_stat.ip.drop); - UIP_STAT(++uip_stat.ip.protoerr); - UIP_LOG("ip: neither tcp nor icmp."); - goto drop; - } - -#if UIP_PINGADDRCONF - icmp_input: -#endif /* UIP_PINGADDRCONF */ - UIP_STAT(++uip_stat.icmp.recv); - - /* ICMP echo (i.e., ping) processing. This is simple, we only change + UIP_STAT( ++uip_stat.ip.drop ); + UIP_STAT( ++uip_stat.ip.protoerr ); + UIP_LOG( "ip: neither tcp nor icmp." ); + goto drop; + } + + #if UIP_PINGADDRCONF + icmp_input : + #endif /* UIP_PINGADDRCONF */ + UIP_STAT( ++uip_stat.icmp.recv ); + + /* ICMP echo (i.e., ping) processing. This is simple, we only change the ICMP type from ECHO to ECHO_REPLY and adjust the ICMP checksum before we return the packet. */ - if(ICMPBUF->type != ICMP_ECHO) { - UIP_STAT(++uip_stat.icmp.drop); - UIP_STAT(++uip_stat.icmp.typeerr); - UIP_LOG("icmp: not icmp echo."); - goto drop; - } - - /* If we are configured to use ping IP address assignment, we use + if( ICMPBUF->type != ICMP_ECHO ) + { + UIP_STAT( ++uip_stat.icmp.drop ); + UIP_STAT( ++uip_stat.icmp.typeerr ); + UIP_LOG( "icmp: not icmp echo." ); + goto drop; + } + + /* If we are configured to use ping IP address assignment, we use the destination IP address of this ping packet and assign it to ourself. */ -#if UIP_PINGADDRCONF - if((uip_hostaddr[0] | uip_hostaddr[1]) == 0) { - uip_hostaddr[0] = BUF->destipaddr[0]; - uip_hostaddr[1] = BUF->destipaddr[1]; - } -#endif /* UIP_PINGADDRCONF */ + #if UIP_PINGADDRCONF + if( (uip_hostaddr[0] | uip_hostaddr[1]) == 0 ) + { + uip_hostaddr[0] = BUF->destipaddr[0]; + uip_hostaddr[1] = BUF->destipaddr[1]; + } - ICMPBUF->type = ICMP_ECHO_REPLY; + #endif /* UIP_PINGADDRCONF */ - if(ICMPBUF->icmpchksum >= HTONS(0xffff - (ICMP_ECHO << 8))) { - ICMPBUF->icmpchksum += HTONS(ICMP_ECHO << 8) + 1; - } else { - ICMPBUF->icmpchksum += HTONS(ICMP_ECHO << 8); - } + ICMPBUF->type = ICMP_ECHO_REPLY; - /* Swap IP addresses. */ - uip_ipaddr_copy(BUF->destipaddr, BUF->srcipaddr); - uip_ipaddr_copy(BUF->srcipaddr, uip_hostaddr); + if( ICMPBUF->icmpchksum >= HTONS(0xffff - (ICMP_ECHO << 8)) ) + { + ICMPBUF->icmpchksum += HTONS( ICMP_ECHO << 8 ) + 1; + } + else + { + ICMPBUF->icmpchksum += HTONS( ICMP_ECHO << 8 ); + } - UIP_STAT(++uip_stat.icmp.sent); - goto send; + /* Swap IP addresses. */ + uip_ipaddr_copy( BUF->destipaddr, BUF->srcipaddr ); + uip_ipaddr_copy( BUF->srcipaddr, uip_hostaddr ); - /* End of IPv4 input header processing code. */ -#else /* !UIP_CONF_IPV6 */ + UIP_STAT( ++uip_stat.icmp.sent ); + goto send; - /* This is IPv6 ICMPv6 processing code. */ - DEBUG_PRINTF("icmp6_input: length %d\n", uip_len); + /* End of IPv4 input header processing code. */ + #else /* !UIP_CONF_IPV6 */ - if(BUF->proto != UIP_PROTO_ICMP6) { /* We only allow ICMPv6 packets from + /* This is IPv6 ICMPv6 processing code. */ + DEBUG_PRINTF( "icmp6_input: length %d\n", uip_len ); + + if( BUF->proto != UIP_PROTO_ICMP6 ) + { /* We only allow ICMPv6 packets from here. */ - UIP_STAT(++uip_stat.ip.drop); - UIP_STAT(++uip_stat.ip.protoerr); - UIP_LOG("ip: neither tcp nor icmp6."); - goto drop; - } + UIP_STAT( ++uip_stat.ip.drop ); + UIP_STAT( ++uip_stat.ip.protoerr ); + UIP_LOG( "ip: neither tcp nor icmp6." ); + goto drop; + } - UIP_STAT(++uip_stat.icmp.recv); + UIP_STAT( ++uip_stat.icmp.recv ); - /* If we get a neighbor solicitation for our address we should send + /* If we get a neighbor solicitation for our address we should send a neighbor advertisement message back. */ - if(ICMPBUF->type == ICMP6_NEIGHBOR_SOLICITATION) { - if(uip_ipaddr_cmp(ICMPBUF->icmp6data, uip_hostaddr)) { - - if(ICMPBUF->options[0] == ICMP6_OPTION_SOURCE_LINK_ADDRESS) { - /* Save the sender's address in our neighbor list. */ - uip_neighbor_add(ICMPBUF->srcipaddr, &(ICMPBUF->options[2])); - } - - /* We should now send a neighbor advertisement back to where the + if( ICMPBUF->type == ICMP6_NEIGHBOR_SOLICITATION ) + { + if( uip_ipaddr_cmp(ICMPBUF->icmp6data, uip_hostaddr) ) + { + if( ICMPBUF->options[0] == ICMP6_OPTION_SOURCE_LINK_ADDRESS ) + { + /* Save the sender's address in our neighbor list. */ + uip_neighbor_add( ICMPBUF->srcipaddr, &(ICMPBUF->options[2]) ); + } + + /* We should now send a neighbor advertisement back to where the neighbor solicication came from. */ - ICMPBUF->type = ICMP6_NEIGHBOR_ADVERTISEMENT; - ICMPBUF->flags = ICMP6_FLAG_S; /* Solicited flag. */ - - ICMPBUF->reserved1 = ICMPBUF->reserved2 = ICMPBUF->reserved3 = 0; - - uip_ipaddr_copy(ICMPBUF->destipaddr, ICMPBUF->srcipaddr); - uip_ipaddr_copy(ICMPBUF->srcipaddr, uip_hostaddr); - ICMPBUF->options[0] = ICMP6_OPTION_TARGET_LINK_ADDRESS; - ICMPBUF->options[1] = 1; /* Options length, 1 = 8 bytes. */ - memcpy(&(ICMPBUF->options[2]), &uip_ethaddr, sizeof(uip_ethaddr)); - ICMPBUF->icmpchksum = 0; - ICMPBUF->icmpchksum = ~uip_icmp6chksum(); - goto send; - - } - goto drop; - } else if(ICMPBUF->type == ICMP6_ECHO) { - /* ICMP echo (i.e., ping) processing. This is simple, we only + ICMPBUF->type = ICMP6_NEIGHBOR_ADVERTISEMENT; + ICMPBUF->flags = ICMP6_FLAG_S; /* Solicited flag. */ + + ICMPBUF->reserved1 = ICMPBUF->reserved2 = ICMPBUF->reserved3 = 0; + + uip_ipaddr_copy( ICMPBUF->destipaddr, ICMPBUF->srcipaddr ); + uip_ipaddr_copy( ICMPBUF->srcipaddr, uip_hostaddr ); + ICMPBUF->options[0] = ICMP6_OPTION_TARGET_LINK_ADDRESS; + ICMPBUF->options[1] = 1; /* Options length, 1 = 8 bytes. */ + memcpy( &(ICMPBUF->options[2]), &uip_ethaddr, sizeof(uip_ethaddr) ); + ICMPBUF->icmpchksum = 0; + ICMPBUF->icmpchksum = ~uip_icmp6chksum(); + goto send; + } + + goto drop; + } + else if( ICMPBUF->type == ICMP6_ECHO ) + { + /* ICMP echo (i.e., ping) processing. This is simple, we only change the ICMP type from ECHO to ECHO_REPLY and update the ICMP checksum before we return the packet. */ + ICMPBUF->type = ICMP6_ECHO_REPLY; - ICMPBUF->type = ICMP6_ECHO_REPLY; + uip_ipaddr_copy( BUF->destipaddr, BUF->srcipaddr ); + uip_ipaddr_copy( BUF->srcipaddr, uip_hostaddr ); + ICMPBUF->icmpchksum = 0; + ICMPBUF->icmpchksum = ~uip_icmp6chksum(); - uip_ipaddr_copy(BUF->destipaddr, BUF->srcipaddr); - uip_ipaddr_copy(BUF->srcipaddr, uip_hostaddr); - ICMPBUF->icmpchksum = 0; - ICMPBUF->icmpchksum = ~uip_icmp6chksum(); - - UIP_STAT(++uip_stat.icmp.sent); - goto send; - } else { - DEBUG_PRINTF("Unknown icmp6 message type %d\n", ICMPBUF->type); - UIP_STAT(++uip_stat.icmp.drop); - UIP_STAT(++uip_stat.icmp.typeerr); - UIP_LOG("icmp: unknown ICMP message."); - goto drop; - } + UIP_STAT( ++uip_stat.icmp.sent ); + goto send; + } + else + { + DEBUG_PRINTF( "Unknown icmp6 message type %d\n", ICMPBUF->type ); + UIP_STAT( ++uip_stat.icmp.drop ); + UIP_STAT( ++uip_stat.icmp.typeerr ); + UIP_LOG( "icmp: unknown ICMP message." ); + goto drop; + } - /* End of IPv6 ICMP processing. */ + /* End of IPv6 ICMP processing. */ + #endif /* !UIP_CONF_IPV6 */ -#endif /* !UIP_CONF_IPV6 */ + #if UIP_UDP -#if UIP_UDP - /* UDP input processing. */ - udp_input: - /* UDP processing is really just a hack. We don't do anything to the + /* UDP input processing. */ + udp_input : + /* UDP processing is really just a hack. We don't do anything to the UDP/IP headers, but let the UDP application do all the hard work. If the application sets uip_slen, it has a packet to send. */ -#if UIP_UDP_CHECKSUMS - uip_len = uip_len - UIP_IPUDPH_LEN; - uip_appdata = &uip_buf[UIP_LLH_LEN + UIP_IPUDPH_LEN]; - if(UDPBUF->udpchksum != 0 && uip_udpchksum() != 0xffff) { - UIP_STAT(++uip_stat.udp.drop); - UIP_STAT(++uip_stat.udp.chkerr); - UIP_LOG("udp: bad checksum."); - goto drop; - } -#else /* UIP_UDP_CHECKSUMS */ - uip_len = uip_len - UIP_IPUDPH_LEN; -#endif /* UIP_UDP_CHECKSUMS */ - - /* Demultiplex this UDP packet between the UDP "connections". */ - for(uip_udp_conn = &uip_udp_conns[0]; - uip_udp_conn < &uip_udp_conns[UIP_UDP_CONNS]; - ++uip_udp_conn) { - /* If the local UDP port is non-zero, the connection is considered + #if UIP_UDP_CHECKSUMS + uip_len = uip_len - UIP_IPUDPH_LEN; + uip_appdata = &uip_buf[UIP_LLH_LEN + UIP_IPUDPH_LEN]; + if( UDPBUF->udpchksum != 0 && uip_udpchksum() != 0xffff ) + { + UIP_STAT( ++uip_stat.udp.drop ); + UIP_STAT( ++uip_stat.udp.chkerr ); + UIP_LOG( "udp: bad checksum." ); + goto drop; + } + + #else /* UIP_UDP_CHECKSUMS */ + uip_len = uip_len - UIP_IPUDPH_LEN; + #endif /* UIP_UDP_CHECKSUMS */ + + /* Demultiplex this UDP packet between the UDP "connections". */ + for( uip_udp_conn = &uip_udp_conns[0]; uip_udp_conn < &uip_udp_conns[UIP_UDP_CONNS]; ++uip_udp_conn ) + { + /* If the local UDP port is non-zero, the connection is considered to be used. If so, the local port number is checked against the destination port number in the received packet. If the two port numbers match, the remote port number is checked if the connection is bound to a remote port. Finally, if the connection is bound to a remote IP address, the source IP address of the packet is checked. */ - if(uip_udp_conn->lport != 0 && - UDPBUF->destport == uip_udp_conn->lport && - (uip_udp_conn->rport == 0 || - UDPBUF->srcport == uip_udp_conn->rport) && - (uip_ipaddr_cmp(uip_udp_conn->ripaddr, all_zeroes_addr) || - uip_ipaddr_cmp(uip_udp_conn->ripaddr, all_ones_addr) || - uip_ipaddr_cmp(BUF->srcipaddr, uip_udp_conn->ripaddr))) { - goto udp_found; - } - } - UIP_LOG("udp: no matching connection found"); - goto drop; - - udp_found: - UIP_STAT(++uip_stat.udp.recv); - uip_conn = NULL; - uip_flags = UIP_NEWDATA; - uip_sappdata = uip_appdata = &uip_buf[UIP_LLH_LEN + UIP_IPUDPH_LEN]; - uip_slen = 0; - UIP_UDP_APPCALL(); - udp_send: - if(uip_slen == 0) { - goto drop; - } - uip_len = uip_slen + UIP_IPUDPH_LEN; + if + ( + uip_udp_conn->lport != 0 && + UDPBUF->destport == uip_udp_conn->lport && + (uip_udp_conn->rport == 0 || UDPBUF->srcport == uip_udp_conn->rport) && + ( + uip_ipaddr_cmp(uip_udp_conn->ripaddr, all_zeroes_addr) || + uip_ipaddr_cmp(uip_udp_conn->ripaddr, all_ones_addr) || + uip_ipaddr_cmp(BUF->srcipaddr, uip_udp_conn->ripaddr) + ) + ) + { + goto udp_found; + } + } -#if UIP_CONF_IPV6 - /* For IPv6, the IP length field does not include the IPv6 IP header + UIP_LOG( "udp: no matching connection found" ); + goto drop; + +udp_found: + UIP_STAT( ++uip_stat.udp.recv ); + uip_conn = NULL; + uip_flags = UIP_NEWDATA; + uip_sappdata = uip_appdata = &uip_buf[UIP_LLH_LEN + UIP_IPUDPH_LEN]; + uip_slen = 0; + UIP_UDP_APPCALL(); +udp_send: + if( uip_slen == 0 ) + { + goto drop; + } + + uip_len = uip_slen + UIP_IPUDPH_LEN; + + #if UIP_CONF_IPV6 + + /* For IPv6, the IP length field does not include the IPv6 IP header length. */ - BUF->len[0] = ((uip_len - UIP_IPH_LEN) >> 8); - BUF->len[1] = ((uip_len - UIP_IPH_LEN) & 0xff); -#else /* UIP_CONF_IPV6 */ - BUF->len[0] = (uip_len >> 8); - BUF->len[1] = (uip_len & 0xff); -#endif /* UIP_CONF_IPV6 */ + BUF->len[0] = ( (uip_len - UIP_IPH_LEN) >> 8 ); + BUF->len[1] = ( (uip_len - UIP_IPH_LEN) & 0xff ); + #else /* UIP_CONF_IPV6 */ + BUF->len[0] = ( uip_len >> 8 ); + BUF->len[1] = ( uip_len & 0xff ); + #endif /* UIP_CONF_IPV6 */ - BUF->ttl = uip_udp_conn->ttl; - BUF->proto = UIP_PROTO_UDP; + BUF->ttl = uip_udp_conn->ttl; + BUF->proto = UIP_PROTO_UDP; - UDPBUF->udplen = HTONS(uip_slen + UIP_UDPH_LEN); - UDPBUF->udpchksum = 0; + UDPBUF->udplen = HTONS( uip_slen + UIP_UDPH_LEN ); + UDPBUF->udpchksum = 0; - BUF->srcport = uip_udp_conn->lport; - BUF->destport = uip_udp_conn->rport; + BUF->srcport = uip_udp_conn->lport; + BUF->destport = uip_udp_conn->rport; - uip_ipaddr_copy(BUF->srcipaddr, uip_hostaddr); - uip_ipaddr_copy(BUF->destipaddr, uip_udp_conn->ripaddr); + uip_ipaddr_copy( BUF->srcipaddr, uip_hostaddr ); + uip_ipaddr_copy( BUF->destipaddr, uip_udp_conn->ripaddr ); - uip_appdata = &uip_buf[UIP_LLH_LEN + UIP_IPTCPH_LEN]; + uip_appdata = &uip_buf[UIP_LLH_LEN + UIP_IPTCPH_LEN]; -#if UIP_UDP_CHECKSUMS - /* Calculate UDP checksum. */ - UDPBUF->udpchksum = ~(uip_udpchksum()); - if(UDPBUF->udpchksum == 0) { - UDPBUF->udpchksum = 0xffff; - } -#endif /* UIP_UDP_CHECKSUMS */ - UIP_STAT(++uip_stat.udp.sent); - goto ip_send_nolen; -#endif /* UIP_UDP */ + #if UIP_UDP_CHECKSUMS + + /* Calculate UDP checksum. */ + UDPBUF->udpchksum = ~( uip_udpchksum() ); + if( UDPBUF->udpchksum == 0 ) + { + UDPBUF->udpchksum = 0xffff; + } - /* TCP input processing. */ - tcp_input: - UIP_STAT(++uip_stat.tcp.recv); + #endif /* UIP_UDP_CHECKSUMS */ + UIP_STAT( ++uip_stat.udp.sent ); + goto ip_send_nolen; + #endif /* UIP_UDP */ - /* Start of TCP input header processing code. */ + /* TCP input processing. */ + tcp_input : UIP_STAT( ++uip_stat.tcp.recv ); - if(uip_tcpchksum() != 0xffff) { /* Compute and check the TCP + /* Start of TCP input header processing code. */ + if( uip_tcpchksum() != 0xffff ) + { /* Compute and check the TCP checksum. */ - UIP_STAT(++uip_stat.tcp.drop); - UIP_STAT(++uip_stat.tcp.chkerr); - UIP_LOG("tcp: bad checksum."); - goto drop; - } - - - /* Demultiplex this segment. */ - /* First check any active connections. */ - for(uip_connr = &uip_conns[0]; uip_connr <= &uip_conns[UIP_CONNS - 1]; - ++uip_connr) { - if(uip_connr->tcpstateflags != UIP_CLOSED && - BUF->destport == uip_connr->lport && - BUF->srcport == uip_connr->rport && - uip_ipaddr_cmp(BUF->srcipaddr, uip_connr->ripaddr)) { - goto found; - } - } - - /* If we didn't find and active connection that expected the packet, + UIP_STAT( ++uip_stat.tcp.drop ); + UIP_STAT( ++uip_stat.tcp.chkerr ); + UIP_LOG( "tcp: bad checksum." ); + goto drop; + } + + /* Demultiplex this segment. */ + + /* First check any active connections. */ + for( uip_connr = &uip_conns[0]; uip_connr <= &uip_conns[UIP_CONNS - 1]; ++uip_connr ) + { + if + ( + uip_connr->tcpstateflags != UIP_CLOSED && + BUF->destport == uip_connr->lport && + BUF->srcport == uip_connr->rport && + uip_ipaddr_cmp(BUF->srcipaddr, uip_connr->ripaddr) + ) + { + goto found; + } + } + + /* If we didn't find and active connection that expected the packet, either this packet is an old duplicate, or this is a SYN packet destined for a connection in LISTEN. If the SYN flag isn't set, it is an old packet and we send a RST. */ - if((BUF->flags & TCP_CTL) != TCP_SYN) { - goto reset; - } - - tmp16 = BUF->destport; - /* Next, check listening connections. */ - for(c = 0; c < UIP_LISTENPORTS; ++c) { - if(tmp16 == uip_listenports[c]) - goto found_listen; - } - - /* No matching connection found, so we send a RST packet. */ - UIP_STAT(++uip_stat.tcp.synrst); - reset: - - /* We do not send resets in response to resets. */ - if(BUF->flags & TCP_RST) { - goto drop; - } - - UIP_STAT(++uip_stat.tcp.rst); - - BUF->flags = TCP_RST | TCP_ACK; - uip_len = UIP_IPTCPH_LEN; - BUF->tcpoffset = 5 << 4; - - /* Flip the seqno and ackno fields in the TCP header. */ - c = BUF->seqno[3]; - BUF->seqno[3] = BUF->ackno[3]; - BUF->ackno[3] = c; - - c = BUF->seqno[2]; - BUF->seqno[2] = BUF->ackno[2]; - BUF->ackno[2] = c; - - c = BUF->seqno[1]; - BUF->seqno[1] = BUF->ackno[1]; - BUF->ackno[1] = c; - - c = BUF->seqno[0]; - BUF->seqno[0] = BUF->ackno[0]; - BUF->ackno[0] = c; - - /* We also have to increase the sequence number we are + if( (BUF->flags & TCP_CTL) != TCP_SYN ) + { + goto reset; + } + + tmp16 = BUF->destport; + + /* Next, check listening connections. */ + for( c = 0; c < UIP_LISTENPORTS; ++c ) + { + if( tmp16 == uip_listenports[c] ) + { + goto found_listen; + } + } + + /* No matching connection found, so we send a RST packet. */ + UIP_STAT( ++uip_stat.tcp.synrst ); +reset: + /* We do not send resets in response to resets. */ + if( BUF->flags & TCP_RST ) + { + goto drop; + } + + UIP_STAT( ++uip_stat.tcp.rst ); + + BUF->flags = TCP_RST | TCP_ACK; + uip_len = UIP_IPTCPH_LEN; + BUF->tcpoffset = 5 << 4; + + /* Flip the seqno and ackno fields in the TCP header. */ + c = BUF->seqno[3]; + BUF->seqno[3] = BUF->ackno[3]; + BUF->ackno[3] = c; + + c = BUF->seqno[2]; + BUF->seqno[2] = BUF->ackno[2]; + BUF->ackno[2] = c; + + c = BUF->seqno[1]; + BUF->seqno[1] = BUF->ackno[1]; + BUF->ackno[1] = c; + + c = BUF->seqno[0]; + BUF->seqno[0] = BUF->ackno[0]; + BUF->ackno[0] = c; + + /* We also have to increase the sequence number we are acknowledging. If the least significant byte overflowed, we need to propagate the carry to the other bytes as well. */ - if(++BUF->ackno[3] == 0) { - if(++BUF->ackno[2] == 0) { - if(++BUF->ackno[1] == 0) { - ++BUF->ackno[0]; - } - } - } - - /* Swap port numbers. */ - tmp16 = BUF->srcport; - BUF->srcport = BUF->destport; - BUF->destport = tmp16; - - /* Swap IP addresses. */ - uip_ipaddr_copy(BUF->destipaddr, BUF->srcipaddr); - uip_ipaddr_copy(BUF->srcipaddr, uip_hostaddr); - - /* And send out the RST packet! */ - goto tcp_send_noconn; - - /* This label will be jumped to if we matched the incoming packet + if( ++BUF->ackno[3] == 0 ) + { + if( ++BUF->ackno[2] == 0 ) + { + if( ++BUF->ackno[1] == 0 ) + { + ++BUF->ackno[0]; + } + } + } + + /* Swap port numbers. */ + tmp16 = BUF->srcport; + BUF->srcport = BUF->destport; + BUF->destport = tmp16; + + /* Swap IP addresses. */ + uip_ipaddr_copy( BUF->destipaddr, BUF->srcipaddr ); + uip_ipaddr_copy( BUF->srcipaddr, uip_hostaddr ); + + /* And send out the RST packet! */ + goto tcp_send_noconn; + + /* This label will be jumped to if we matched the incoming packet with a connection in LISTEN. In that case, we should create a new connection and send a SYNACK in return. */ - found_listen: - /* First we check if there are any connections avaliable. Unused +found_listen: + /* First we check if there are any connections avaliable. Unused connections are kept in the same table as used connections, but unused ones have the tcpstate set to CLOSED. Also, connections in TIME_WAIT are kept track of and we'll use the oldest one if no CLOSED connections are found. Thanks to Eddie C. Dost for a very nice algorithm for the TIME_WAIT search. */ - uip_connr = 0; - for(c = 0; c < UIP_CONNS; ++c) { - if(uip_conns[c].tcpstateflags == UIP_CLOSED) { - uip_connr = &uip_conns[c]; - break; - } - if(uip_conns[c].tcpstateflags == UIP_TIME_WAIT) { - if(uip_connr == 0 || - uip_conns[c].timer > uip_connr->timer) { - uip_connr = &uip_conns[c]; - } - } - } - - if(uip_connr == 0) { - /* All connections are used already, we drop packet and hope that + uip_connr = 0; + for( c = 0; c < UIP_CONNS; ++c ) + { + if( uip_conns[c].tcpstateflags == UIP_CLOSED ) + { + uip_connr = &uip_conns[c]; + break; + } + + if( uip_conns[c].tcpstateflags == UIP_TIME_WAIT ) + { + if( uip_connr == 0 || uip_conns[c].timer > uip_connr->timer ) + { + uip_connr = &uip_conns[c]; + } + } + } + + if( uip_connr == 0 ) + { + /* All connections are used already, we drop packet and hope that the remote end will retransmit the packet at a time when we have more spare connections. */ - UIP_STAT(++uip_stat.tcp.syndrop); - UIP_LOG("tcp: found no unused connections."); - goto drop; - } - uip_conn = uip_connr; - - /* Fill in the necessary fields for the new connection. */ - uip_connr->rto = uip_connr->timer = UIP_RTO; - uip_connr->sa = 0; - uip_connr->sv = 4; - uip_connr->nrtx = 0; - uip_connr->lport = BUF->destport; - uip_connr->rport = BUF->srcport; - uip_ipaddr_copy(uip_connr->ripaddr, BUF->srcipaddr); - uip_connr->tcpstateflags = UIP_SYN_RCVD; - - uip_connr->snd_nxt[0] = iss[0]; - uip_connr->snd_nxt[1] = iss[1]; - uip_connr->snd_nxt[2] = iss[2]; - uip_connr->snd_nxt[3] = iss[3]; - uip_connr->len = 1; - - /* rcv_nxt should be the seqno from the incoming packet + 1. */ - uip_connr->rcv_nxt[3] = BUF->seqno[3]; - uip_connr->rcv_nxt[2] = BUF->seqno[2]; - uip_connr->rcv_nxt[1] = BUF->seqno[1]; - uip_connr->rcv_nxt[0] = BUF->seqno[0]; - uip_add_rcv_nxt(1); - - /* Parse the TCP MSS option, if present. */ - if((BUF->tcpoffset & 0xf0) > 0x50) { - for(c = 0; c < ((BUF->tcpoffset >> 4) - 5) << 2 ;) { - opt = uip_buf[UIP_TCPIP_HLEN + UIP_LLH_LEN + c]; - if(opt == TCP_OPT_END) { - /* End of options. */ - break; - } else if(opt == TCP_OPT_NOOP) { - ++c; - /* NOP option. */ - } else if(opt == TCP_OPT_MSS && - uip_buf[UIP_TCPIP_HLEN + UIP_LLH_LEN + 1 + c] == TCP_OPT_MSS_LEN) { - /* An MSS option with the right option length. */ - tmp16 = ((u16_t)uip_buf[UIP_TCPIP_HLEN + UIP_LLH_LEN + 2 + c] << 8) | - (u16_t)uip_buf[UIP_IPTCPH_LEN + UIP_LLH_LEN + 3 + c]; - uip_connr->initialmss = uip_connr->mss = - tmp16 > UIP_TCP_MSS? UIP_TCP_MSS: tmp16; - - /* And we are done processing options. */ - break; - } else { - /* All other options have a length field, so that we easily + UIP_STAT( ++uip_stat.tcp.syndrop ); + UIP_LOG( "tcp: found no unused connections." ); + goto drop; + } + + uip_conn = uip_connr; + + /* Fill in the necessary fields for the new connection. */ + uip_connr->rto = uip_connr->timer = UIP_RTO; + uip_connr->sa = 0; + uip_connr->sv = 4; + uip_connr->nrtx = 0; + uip_connr->lport = BUF->destport; + uip_connr->rport = BUF->srcport; + uip_ipaddr_copy( uip_connr->ripaddr, BUF->srcipaddr ); + uip_connr->tcpstateflags = UIP_SYN_RCVD; + + uip_connr->snd_nxt[0] = iss[0]; + uip_connr->snd_nxt[1] = iss[1]; + uip_connr->snd_nxt[2] = iss[2]; + uip_connr->snd_nxt[3] = iss[3]; + uip_connr->len = 1; + + /* rcv_nxt should be the seqno from the incoming packet + 1. */ + uip_connr->rcv_nxt[3] = BUF->seqno[3]; + uip_connr->rcv_nxt[2] = BUF->seqno[2]; + uip_connr->rcv_nxt[1] = BUF->seqno[1]; + uip_connr->rcv_nxt[0] = BUF->seqno[0]; + uip_add_rcv_nxt( 1 ); + + /* Parse the TCP MSS option, if present. */ + if( (BUF->tcpoffset & 0xf0) > 0x50 ) + { + for( c = 0; c < ((BUF->tcpoffset >> 4) - 5) << 2; ) + { + opt = uip_buf[UIP_TCPIP_HLEN + UIP_LLH_LEN + c]; + if( opt == TCP_OPT_END ) + { + /* End of options. */ + break; + } + else if( opt == TCP_OPT_NOOP ) + { + ++c; + + /* NOP option. */ + } + else if( opt == TCP_OPT_MSS && uip_buf[UIP_TCPIP_HLEN + UIP_LLH_LEN + 1 + c] == TCP_OPT_MSS_LEN ) + { + /* An MSS option with the right option length. */ + tmp16 = ( (u16_t) uip_buf[UIP_TCPIP_HLEN + UIP_LLH_LEN + 2 + c] << 8 ) | ( u16_t ) uip_buf[UIP_IPTCPH_LEN + UIP_LLH_LEN + 3 + c]; + uip_connr->initialmss = uip_connr->mss = tmp16 > UIP_TCP_MSS ? UIP_TCP_MSS : tmp16; + + /* And we are done processing options. */ + break; + } + else + { + /* All other options have a length field, so that we easily can skip past them. */ - if(uip_buf[UIP_TCPIP_HLEN + UIP_LLH_LEN + 1 + c] == 0) { - /* If the length field is zero, the options are malformed + if( uip_buf[UIP_TCPIP_HLEN + UIP_LLH_LEN + 1 + c] == 0 ) + { + /* If the length field is zero, the options are malformed and we don't process them further. */ - break; + break; + } + + c += uip_buf[UIP_TCPIP_HLEN + UIP_LLH_LEN + 1 + c]; + } + } } - c += uip_buf[UIP_TCPIP_HLEN + UIP_LLH_LEN + 1 + c]; - } - } - } - /* Our response will be a SYNACK. */ -#if UIP_ACTIVE_OPEN - tcp_send_synack: - BUF->flags = TCP_ACK; - - tcp_send_syn: - BUF->flags |= TCP_SYN; -#else /* UIP_ACTIVE_OPEN */ - tcp_send_synack: - BUF->flags = TCP_SYN | TCP_ACK; -#endif /* UIP_ACTIVE_OPEN */ + /* Our response will be a SYNACK. */ + #if UIP_ACTIVE_OPEN + tcp_send_synack : BUF->flags = TCP_ACK; + +tcp_send_syn: + BUF->flags |= TCP_SYN; + #else /* UIP_ACTIVE_OPEN */ + tcp_send_synack : BUF->flags = TCP_SYN | TCP_ACK; + #endif /* UIP_ACTIVE_OPEN */ - /* We send out the TCP Maximum Segment Size option with our + /* We send out the TCP Maximum Segment Size option with our SYNACK. */ - BUF->optdata[0] = TCP_OPT_MSS; - BUF->optdata[1] = TCP_OPT_MSS_LEN; - BUF->optdata[2] = (UIP_TCP_MSS) / 256; - BUF->optdata[3] = (UIP_TCP_MSS) & 255; - uip_len = UIP_IPTCPH_LEN + TCP_OPT_MSS_LEN; - BUF->tcpoffset = ((UIP_TCPH_LEN + TCP_OPT_MSS_LEN) / 4) << 4; - goto tcp_send; - - /* This label will be jumped to if we found an active connection. */ - found: - uip_conn = uip_connr; - uip_flags = 0; - /* We do a very naive form of TCP reset processing; we just accept + BUF->optdata[0] = TCP_OPT_MSS; + BUF->optdata[1] = TCP_OPT_MSS_LEN; + BUF->optdata[2] = ( UIP_TCP_MSS ) / 256; + BUF->optdata[3] = ( UIP_TCP_MSS ) & 255; + uip_len = UIP_IPTCPH_LEN + TCP_OPT_MSS_LEN; + BUF->tcpoffset = ( (UIP_TCPH_LEN + TCP_OPT_MSS_LEN) / 4 ) << 4; + goto tcp_send; + + /* This label will be jumped to if we found an active connection. */ +found: + uip_conn = uip_connr; + uip_flags = 0; + + /* We do a very naive form of TCP reset processing; we just accept any RST and kill our connection. We should in fact check if the sequence number of this reset is wihtin our advertised window before we accept the reset. */ - if(BUF->flags & TCP_RST) { - uip_connr->tcpstateflags = UIP_CLOSED; - UIP_LOG("tcp: got reset, aborting connection."); - uip_flags = UIP_ABORT; - UIP_APPCALL(); - goto drop; - } - /* Calculated the length of the data, if the application has sent + if( BUF->flags & TCP_RST ) + { + uip_connr->tcpstateflags = UIP_CLOSED; + UIP_LOG( "tcp: got reset, aborting connection." ); + uip_flags = UIP_ABORT; + UIP_APPCALL(); + goto drop; + } + + /* Calculated the length of the data, if the application has sent any data to us. */ - c = (BUF->tcpoffset >> 4) << 2; - /* uip_len will contain the length of the actual TCP data. This is + c = ( BUF->tcpoffset >> 4 ) << 2; + + /* uip_len will contain the length of the actual TCP data. This is calculated by subtracing the length of the TCP header (in c) and the length of the IP header (20 bytes). */ - uip_len = uip_len - c - UIP_IPH_LEN; + uip_len = uip_len - c - UIP_IPH_LEN; - /* First, check if the sequence number of the incoming packet is + /* First, check if the sequence number of the incoming packet is what we're expecting next. If not, we send out an ACK with the correct numbers in. */ - if(!(((uip_connr->tcpstateflags & UIP_TS_MASK) == UIP_SYN_SENT) && - ((BUF->flags & TCP_CTL) == (TCP_SYN | TCP_ACK)))) { - if((uip_len > 0 || ((BUF->flags & (TCP_SYN | TCP_FIN)) != 0)) && - (BUF->seqno[0] != uip_connr->rcv_nxt[0] || - BUF->seqno[1] != uip_connr->rcv_nxt[1] || - BUF->seqno[2] != uip_connr->rcv_nxt[2] || - BUF->seqno[3] != uip_connr->rcv_nxt[3])) { - goto tcp_send_ack; - } - } - - /* Next, check if the incoming segment acknowledges any outstanding + if( !(((uip_connr->tcpstateflags & UIP_TS_MASK) == UIP_SYN_SENT) && ((BUF->flags & TCP_CTL) == (TCP_SYN | TCP_ACK))) ) + { + if + ( + (uip_len > 0 || ((BUF->flags & (TCP_SYN | TCP_FIN)) != 0)) && + ( + BUF->seqno[0] != uip_connr->rcv_nxt[0] || + BUF->seqno[1] != uip_connr->rcv_nxt[1] || + BUF->seqno[2] != uip_connr->rcv_nxt[2] || + BUF->seqno[3] != uip_connr->rcv_nxt[3] + ) + ) + { + goto tcp_send_ack; + } + } + + /* Next, check if the incoming segment acknowledges any outstanding data. If so, we update the sequence number, reset the length of the outstanding data, calculate RTT estimations, and reset the retransmission timer. */ - if((BUF->flags & TCP_ACK) && uip_outstanding(uip_connr)) { - uip_add32(uip_connr->snd_nxt, uip_connr->len); - - if(BUF->ackno[0] == uip_acc32[0] && - BUF->ackno[1] == uip_acc32[1] && - BUF->ackno[2] == uip_acc32[2] && - BUF->ackno[3] == uip_acc32[3]) { - /* Update sequence number. */ - uip_connr->snd_nxt[0] = uip_acc32[0]; - uip_connr->snd_nxt[1] = uip_acc32[1]; - uip_connr->snd_nxt[2] = uip_acc32[2]; - uip_connr->snd_nxt[3] = uip_acc32[3]; - - - /* Do RTT estimation, unless we have done retransmissions. */ - if(uip_connr->nrtx == 0) { - signed char m; - m = uip_connr->rto - uip_connr->timer; - /* This is taken directly from VJs original code in his paper */ - m = m - (uip_connr->sa >> 3); - uip_connr->sa += m; - if(m < 0) { - m = -m; - } - m = m - (uip_connr->sv >> 2); - uip_connr->sv += m; - uip_connr->rto = (uip_connr->sa >> 3) + uip_connr->sv; - - } - /* Set the acknowledged flag. */ - uip_flags = UIP_ACKDATA; - /* Reset the retransmission timer. */ - uip_connr->timer = uip_connr->rto; - - /* Reset length of outstanding data. */ - uip_connr->len = 0; - } - - } - - /* Do different things depending on in what state the connection is. */ - switch(uip_connr->tcpstateflags & UIP_TS_MASK) { - /* CLOSED and LISTEN are not handled here. CLOSE_WAIT is not + if( (BUF->flags & TCP_ACK) && uip_outstanding(uip_connr) ) + { + uip_add32( uip_connr->snd_nxt, uip_connr->len ); + + if + ( + BUF->ackno[0] == uip_acc32[0] && + BUF->ackno[1] == uip_acc32[1] && + BUF->ackno[2] == uip_acc32[2] && + BUF->ackno[3] == uip_acc32[3] + ) + { + /* Update sequence number. */ + uip_connr->snd_nxt[0] = uip_acc32[0]; + uip_connr->snd_nxt[1] = uip_acc32[1]; + uip_connr->snd_nxt[2] = uip_acc32[2]; + uip_connr->snd_nxt[3] = uip_acc32[3]; + + /* Do RTT estimation, unless we have done retransmissions. */ + if( uip_connr->nrtx == 0 ) + { + signed char m; + m = uip_connr->rto - uip_connr->timer; + + /* This is taken directly from VJs original code in his paper */ + m = m - ( uip_connr->sa >> 3 ); + uip_connr->sa += m; + if( m < 0 ) + { + m = -m; + } + + m = m - ( uip_connr->sv >> 2 ); + uip_connr->sv += m; + uip_connr->rto = ( uip_connr->sa >> 3 ) + uip_connr->sv; + } + + /* Set the acknowledged flag. */ + uip_flags = UIP_ACKDATA; + + /* Reset the retransmission timer. */ + uip_connr->timer = uip_connr->rto; + + /* Reset length of outstanding data. */ + uip_connr->len = 0; + } + } + + /* Do different things depending on in what state the connection is. */ + switch( uip_connr->tcpstateflags & UIP_TS_MASK ) + { + /* CLOSED and LISTEN are not handled here. CLOSE_WAIT is not implemented, since we force the application to close when the peer sends a FIN (hence the application goes directly from ESTABLISHED to LAST_ACK). */ - case UIP_SYN_RCVD: - /* In SYN_RCVD we have sent out a SYNACK in response to a SYN, and + case UIP_SYN_RCVD: + /* In SYN_RCVD we have sent out a SYNACK in response to a SYN, and we are waiting for an ACK that acknowledges the data we sent out the last time. Therefore, we want to have the UIP_ACKDATA flag set. If so, we enter the ESTABLISHED state. */ - if(uip_flags & UIP_ACKDATA) { - uip_connr->tcpstateflags = UIP_ESTABLISHED; - uip_flags = UIP_CONNECTED; - uip_connr->len = 0; - if(uip_len > 0) { - uip_flags |= UIP_NEWDATA; - uip_add_rcv_nxt(uip_len); - } - uip_slen = 0; - UIP_APPCALL(); - goto appsend; - } - goto drop; -#if UIP_ACTIVE_OPEN - case UIP_SYN_SENT: - /* In SYN_SENT, we wait for a SYNACK that is sent in response to + if( uip_flags & UIP_ACKDATA ) + { + uip_connr->tcpstateflags = UIP_ESTABLISHED; + uip_flags = UIP_CONNECTED; + uip_connr->len = 0; + if( uip_len > 0 ) + { + uip_flags |= UIP_NEWDATA; + uip_add_rcv_nxt( uip_len ); + } + + uip_slen = 0; + UIP_APPCALL(); + goto appsend; + } + + goto drop; + #if UIP_ACTIVE_OPEN + + case UIP_SYN_SENT: + /* In SYN_SENT, we wait for a SYNACK that is sent in response to our SYN. The rcv_nxt is set to sequence number in the SYNACK plus one, and we send an ACK. We move into the ESTABLISHED state. */ - if((uip_flags & UIP_ACKDATA) && - (BUF->flags & TCP_CTL) == (TCP_SYN | TCP_ACK)) { - - /* Parse the TCP MSS option, if present. */ - if((BUF->tcpoffset & 0xf0) > 0x50) { - for(c = 0; c < ((BUF->tcpoffset >> 4) - 5) << 2 ;) { - opt = uip_buf[UIP_IPTCPH_LEN + UIP_LLH_LEN + c]; - if(opt == TCP_OPT_END) { - /* End of options. */ - break; - } else if(opt == TCP_OPT_NOOP) { - ++c; - /* NOP option. */ - } else if(opt == TCP_OPT_MSS && - uip_buf[UIP_TCPIP_HLEN + UIP_LLH_LEN + 1 + c] == TCP_OPT_MSS_LEN) { - /* An MSS option with the right option length. */ - tmp16 = (uip_buf[UIP_TCPIP_HLEN + UIP_LLH_LEN + 2 + c] << 8) | - uip_buf[UIP_TCPIP_HLEN + UIP_LLH_LEN + 3 + c]; - uip_connr->initialmss = - uip_connr->mss = tmp16 > UIP_TCP_MSS? UIP_TCP_MSS: tmp16; - - /* And we are done processing options. */ - break; - } else { - /* All other options have a length field, so that we easily + if( (uip_flags & UIP_ACKDATA) && (BUF->flags & TCP_CTL) == (TCP_SYN | TCP_ACK) ) + { + /* Parse the TCP MSS option, if present. */ + if( (BUF->tcpoffset & 0xf0) > 0x50 ) + { + for( c = 0; c < ((BUF->tcpoffset >> 4) - 5) << 2; ) + { + opt = uip_buf[UIP_IPTCPH_LEN + UIP_LLH_LEN + c]; + if( opt == TCP_OPT_END ) + { + /* End of options. */ + break; + } + else if( opt == TCP_OPT_NOOP ) + { + ++c; + + /* NOP option. */ + } + else if( opt == TCP_OPT_MSS && uip_buf[UIP_TCPIP_HLEN + UIP_LLH_LEN + 1 + c] == TCP_OPT_MSS_LEN ) + { + /* An MSS option with the right option length. */ + tmp16 = ( uip_buf[UIP_TCPIP_HLEN + UIP_LLH_LEN + 2 + c] << 8 ) | uip_buf[UIP_TCPIP_HLEN + UIP_LLH_LEN + 3 + c]; + uip_connr->initialmss = uip_connr->mss = tmp16 > UIP_TCP_MSS ? UIP_TCP_MSS : tmp16; + + /* And we are done processing options. */ + break; + } + else + { + /* All other options have a length field, so that we easily can skip past them. */ - if(uip_buf[UIP_TCPIP_HLEN + UIP_LLH_LEN + 1 + c] == 0) { - /* If the length field is zero, the options are malformed + if( uip_buf[UIP_TCPIP_HLEN + UIP_LLH_LEN + 1 + c] == 0 ) + { + /* If the length field is zero, the options are malformed and we don't process them further. */ - break; - } - c += uip_buf[UIP_TCPIP_HLEN + UIP_LLH_LEN + 1 + c]; - } - } - } - uip_connr->tcpstateflags = UIP_ESTABLISHED; - uip_connr->rcv_nxt[0] = BUF->seqno[0]; - uip_connr->rcv_nxt[1] = BUF->seqno[1]; - uip_connr->rcv_nxt[2] = BUF->seqno[2]; - uip_connr->rcv_nxt[3] = BUF->seqno[3]; - uip_add_rcv_nxt(1); - uip_flags = UIP_CONNECTED | UIP_NEWDATA; - uip_connr->len = 0; - uip_len = 0; - uip_slen = 0; - UIP_APPCALL(); - goto appsend; - } - /* Inform the application that the connection failed */ - uip_flags = UIP_ABORT; - UIP_APPCALL(); - /* The connection is closed after we send the RST */ - uip_conn->tcpstateflags = UIP_CLOSED; - goto reset; -#endif /* UIP_ACTIVE_OPEN */ - - case UIP_ESTABLISHED: - /* In the ESTABLISHED state, we call upon the application to feed + break; + } + + c += uip_buf[UIP_TCPIP_HLEN + UIP_LLH_LEN + 1 + c]; + } + } + } + + uip_connr->tcpstateflags = UIP_ESTABLISHED; + uip_connr->rcv_nxt[0] = BUF->seqno[0]; + uip_connr->rcv_nxt[1] = BUF->seqno[1]; + uip_connr->rcv_nxt[2] = BUF->seqno[2]; + uip_connr->rcv_nxt[3] = BUF->seqno[3]; + uip_add_rcv_nxt( 1 ); + uip_flags = UIP_CONNECTED | UIP_NEWDATA; + uip_connr->len = 0; + uip_len = 0; + uip_slen = 0; + UIP_APPCALL(); + goto appsend; + } + + /* Inform the application that the connection failed */ + uip_flags = UIP_ABORT; + UIP_APPCALL(); + + /* The connection is closed after we send the RST */ + uip_conn->tcpstateflags = UIP_CLOSED; + goto reset; + #endif /* UIP_ACTIVE_OPEN */ + + case UIP_ESTABLISHED: + /* In the ESTABLISHED state, we call upon the application to feed data into the uip_buf. If the UIP_ACKDATA flag is set, the application should put new data into the buffer, otherwise we are retransmitting an old segment, and the application should put that @@ -1563,57 +1741,67 @@ uip_process(u8_t flag) this side as well, and we send out a FIN and enter the LAST_ACK state. We require that there is no outstanding data; otherwise the sequence numbers will be screwed up. */ - - if(BUF->flags & TCP_FIN && !(uip_connr->tcpstateflags & UIP_STOPPED)) { - if(uip_outstanding(uip_connr)) { - goto drop; - } - uip_add_rcv_nxt(1 + uip_len); - uip_flags |= UIP_CLOSE; - if(uip_len > 0) { - uip_flags |= UIP_NEWDATA; - } - UIP_APPCALL(); - uip_connr->len = 1; - uip_connr->tcpstateflags = UIP_LAST_ACK; - uip_connr->nrtx = 0; - tcp_send_finack: - BUF->flags = TCP_FIN | TCP_ACK; - goto tcp_send_nodata; - } - - /* Check the URG flag. If this is set, the segment carries urgent + if( BUF->flags & TCP_FIN && !(uip_connr->tcpstateflags & UIP_STOPPED) ) + { + if( uip_outstanding(uip_connr) ) + { + goto drop; + } + + uip_add_rcv_nxt( 1 + uip_len ); + uip_flags |= UIP_CLOSE; + if( uip_len > 0 ) + { + uip_flags |= UIP_NEWDATA; + } + + UIP_APPCALL(); + uip_connr->len = 1; + uip_connr->tcpstateflags = UIP_LAST_ACK; + uip_connr->nrtx = 0; + tcp_send_finack: + BUF->flags = TCP_FIN | TCP_ACK; + goto tcp_send_nodata; + } + + /* Check the URG flag. If this is set, the segment carries urgent data that we must pass to the application. */ - if((BUF->flags & TCP_URG) != 0) { -#if UIP_URGDATA > 0 - uip_urglen = (BUF->urgp[0] << 8) | BUF->urgp[1]; - if(uip_urglen > uip_len) { - /* There is more urgent data in the next segment to come. */ - uip_urglen = uip_len; - } - uip_add_rcv_nxt(uip_urglen); - uip_len -= uip_urglen; - uip_urgdata = uip_appdata; - uip_appdata += uip_urglen; - } else { - uip_urglen = 0; -#else /* UIP_URGDATA > 0 */ - uip_appdata = ((char *)uip_appdata) + ((BUF->urgp[0] << 8) | BUF->urgp[1]); - uip_len -= (BUF->urgp[0] << 8) | BUF->urgp[1]; -#endif /* UIP_URGDATA > 0 */ - } - - /* If uip_len > 0 we have TCP data in the packet, and we flag this + if( (BUF->flags & TCP_URG) != 0 ) + { + #if UIP_URGDATA > 0 + uip_urglen = ( BUF->urgp[0] << 8 ) | BUF->urgp[1]; + if( uip_urglen > uip_len ) + { + /* There is more urgent data in the next segment to come. */ + uip_urglen = uip_len; + } + + uip_add_rcv_nxt( uip_urglen ); + uip_len -= uip_urglen; + uip_urgdata = uip_appdata; + uip_appdata += uip_urglen; + } + else + { + uip_urglen = 0; + #else /* UIP_URGDATA > 0 */ + uip_appdata = ( ( char * ) uip_appdata ) + ( (BUF->urgp[0] << 8) | BUF->urgp[1] ); + uip_len -= ( BUF->urgp[0] << 8 ) | BUF->urgp[1]; + #endif /* UIP_URGDATA > 0 */ + } + + /* If uip_len > 0 we have TCP data in the packet, and we flag this by setting the UIP_NEWDATA flag and update the sequence number we acknowledge. If the application has stopped the dataflow using uip_stop(), we must not accept any data packets from the remote host. */ - if(uip_len > 0 && !(uip_connr->tcpstateflags & UIP_STOPPED)) { - uip_flags |= UIP_NEWDATA; - uip_add_rcv_nxt(uip_len); - } + if( uip_len > 0 && !(uip_connr->tcpstateflags & UIP_STOPPED) ) + { + uip_flags |= UIP_NEWDATA; + uip_add_rcv_nxt( uip_len ); + } - /* Check if the available buffer space advertised by the other end + /* Check if the available buffer space advertised by the other end is smaller than the initial MSS for this connection. If so, we set the current MSS to the window size to ensure that the application does not send more data than the other end can @@ -1625,14 +1813,15 @@ uip_process(u8_t flag) and the application will retransmit it. This is called the "persistent timer" and uses the retransmission mechanim. */ - tmp16 = ((u16_t)BUF->wnd[0] << 8) + (u16_t)BUF->wnd[1]; - if(tmp16 > ( uip_connr->initialmss * FRAME_MULTIPLE ) || - tmp16 == 0) { - tmp16 = uip_connr->initialmss * FRAME_MULTIPLE; - } - uip_connr->mss = tmp16; - - /* If this packet constitutes an ACK for outstanding data (flagged + tmp16 = ( (u16_t) BUF->wnd[0] << 8 ) + ( u16_t ) BUF->wnd[1]; + if( tmp16 > (uip_connr->initialmss * FRAME_MULTIPLE) || tmp16 == 0 ) + { + tmp16 = uip_connr->initialmss * FRAME_MULTIPLE; + } + + uip_connr->mss = tmp16; + + /* If this packet constitutes an ACK for outstanding data (flagged by the UIP_ACKDATA flag, we should call the application since it might want to send more data. If the incoming packet had data from the peer (as flagged by the UIP_NEWDATA flag), the @@ -1648,259 +1837,396 @@ uip_process(u8_t flag) put into the uip_appdata and the length of the data should be put into uip_len. If the application don't have any data to send, uip_len must be set to 0. */ - if(uip_flags & (UIP_NEWDATA | UIP_ACKDATA)) { - uip_slen = 0; - UIP_APPCALL(); - - appsend: - - if(uip_flags & UIP_ABORT) { - uip_slen = 0; - uip_connr->tcpstateflags = UIP_CLOSED; - BUF->flags = TCP_RST | TCP_ACK; - goto tcp_send_nodata; - } - - if(uip_flags & UIP_CLOSE) { - uip_slen = 0; - uip_connr->len = 1; - uip_connr->tcpstateflags = UIP_FIN_WAIT_1; - uip_connr->nrtx = 0; - BUF->flags = TCP_FIN | TCP_ACK; - goto tcp_send_nodata; - } - - /* If uip_slen > 0, the application has data to be sent. */ - if(uip_slen > 0) { - - /* If the connection has acknowledged data, the contents of + if( uip_flags & (UIP_NEWDATA | UIP_ACKDATA) ) + { + uip_slen = 0; + UIP_APPCALL(); + + appsend: + if( uip_flags & UIP_ABORT ) + { + uip_slen = 0; + uip_connr->tcpstateflags = UIP_CLOSED; + BUF->flags = TCP_RST | TCP_ACK; + goto tcp_send_nodata; + } + + if( uip_flags & UIP_CLOSE ) + { + uip_slen = 0; + uip_connr->len = 1; + uip_connr->tcpstateflags = UIP_FIN_WAIT_1; + uip_connr->nrtx = 0; + BUF->flags = TCP_FIN | TCP_ACK; + goto tcp_send_nodata; + } + + /* If uip_slen > 0, the application has data to be sent. */ + if( uip_slen > 0 ) + { + /* If the connection has acknowledged data, the contents of the ->len variable should be discarded. */ - if((uip_flags & UIP_ACKDATA) != 0) { - uip_connr->len = 0; - } + if( (uip_flags & UIP_ACKDATA) != 0 ) + { + uip_connr->len = 0; + } - /* If the ->len variable is non-zero the connection has + /* If the ->len variable is non-zero the connection has already data in transit and cannot send anymore right now. */ - if(uip_connr->len == 0) { - - /* The application cannot send more than what is allowed by + if( uip_connr->len == 0 ) + { + /* The application cannot send more than what is allowed by the mss (the minumum of the MSS and the available window). */ - if(uip_slen > uip_connr->mss) { - uip_slen = uip_connr->mss; - } + if( uip_slen > uip_connr->mss ) + { + uip_slen = uip_connr->mss; + } - /* Remember how much data we send out now so that we know + /* Remember how much data we send out now so that we know when everything has been acknowledged. */ - uip_connr->len = uip_slen; - } else { - - /* If the application already had unacknowledged data, we + uip_connr->len = uip_slen; + } + else + { + /* If the application already had unacknowledged data, we make sure that the application does not send (i.e., retransmit) out more than it previously sent out. */ - uip_slen = uip_connr->len; - } - } - uip_connr->nrtx = 0; - apprexmit: - uip_appdata = uip_sappdata; + uip_slen = uip_connr->len; + } + } + + uip_connr->nrtx = 0; + apprexmit: + uip_appdata = uip_sappdata; - /* If the application has data to be sent, or if the incoming + /* If the application has data to be sent, or if the incoming packet had new data in it, we must send out a packet. */ - if(uip_slen > 0 && uip_connr->len > 0) { - /* Add the length of the IP and TCP headers. */ - uip_len = uip_connr->len + UIP_TCPIP_HLEN; - /* We always set the ACK flag in response packets. */ - BUF->flags = TCP_ACK | TCP_PSH; - /* Send the packet. */ - goto tcp_send_noopts; - } - /* If there is no data to send, just send out a pure ACK if + if( uip_slen > 0 && uip_connr->len > 0 ) + { + /* Add the length of the IP and TCP headers. */ + uip_len = uip_connr->len + UIP_TCPIP_HLEN; + + /* We always set the ACK flag in response packets. */ + BUF->flags = TCP_ACK | TCP_PSH; + + /* Send the packet. */ + goto tcp_send_noopts; + } + + /* If there is no data to send, just send out a pure ACK if there is newdata. */ - if(uip_flags & UIP_NEWDATA) { - uip_len = UIP_TCPIP_HLEN; - BUF->flags = TCP_ACK; - goto tcp_send_noopts; - } - } - goto drop; - case UIP_LAST_ACK: - /* We can close this connection if the peer has acknowledged our + if( uip_flags & UIP_NEWDATA ) + { + uip_len = UIP_TCPIP_HLEN; + BUF->flags = TCP_ACK; + goto tcp_send_noopts; + } + } + + goto drop; + + case UIP_LAST_ACK: + /* We can close this connection if the peer has acknowledged our FIN. This is indicated by the UIP_ACKDATA flag. */ - if(uip_flags & UIP_ACKDATA) { - uip_connr->tcpstateflags = UIP_CLOSED; - uip_flags = UIP_CLOSE; - UIP_APPCALL(); - } - break; - - case UIP_FIN_WAIT_1: - /* The application has closed the connection, but the remote host + if( uip_flags & UIP_ACKDATA ) + { + uip_connr->tcpstateflags = UIP_CLOSED; + uip_flags = UIP_CLOSE; + UIP_APPCALL(); + } + + break; + + case UIP_FIN_WAIT_1: + /* The application has closed the connection, but the remote host hasn't closed its end yet. Thus we do nothing but wait for a FIN from the other side. */ - if(uip_len > 0) { - uip_add_rcv_nxt(uip_len); - } - if(BUF->flags & TCP_FIN) { - if(uip_flags & UIP_ACKDATA) { - uip_connr->tcpstateflags = UIP_TIME_WAIT; - uip_connr->timer = 0; - uip_connr->len = 0; - } else { - uip_connr->tcpstateflags = UIP_CLOSING; - } - uip_add_rcv_nxt(1); - uip_flags = UIP_CLOSE; - UIP_APPCALL(); - goto tcp_send_ack; - } else if(uip_flags & UIP_ACKDATA) { - uip_connr->tcpstateflags = UIP_FIN_WAIT_2; - uip_connr->len = 0; - goto drop; - } - if(uip_len > 0) { - goto tcp_send_ack; - } - goto drop; - - case UIP_FIN_WAIT_2: - if(uip_len > 0) { - uip_add_rcv_nxt(uip_len); - } - if(BUF->flags & TCP_FIN) { - uip_connr->tcpstateflags = UIP_TIME_WAIT; - uip_connr->timer = 0; - uip_add_rcv_nxt(1); - uip_flags = UIP_CLOSE; - UIP_APPCALL(); - goto tcp_send_ack; - } - if(uip_len > 0) { - goto tcp_send_ack; - } - goto drop; - - case UIP_TIME_WAIT: - goto tcp_send_ack; - - case UIP_CLOSING: - if(uip_flags & UIP_ACKDATA) { - uip_connr->tcpstateflags = UIP_TIME_WAIT; - uip_connr->timer = 0; - } - } - goto drop; - - - /* We jump here when we are ready to send the packet, and just want + if( uip_len > 0 ) + { + uip_add_rcv_nxt( uip_len ); + } + + if( BUF->flags & TCP_FIN ) + { + if( uip_flags & UIP_ACKDATA ) + { + uip_connr->tcpstateflags = UIP_TIME_WAIT; + uip_connr->timer = 0; + uip_connr->len = 0; + } + else + { + uip_connr->tcpstateflags = UIP_CLOSING; + } + + uip_add_rcv_nxt( 1 ); + uip_flags = UIP_CLOSE; + UIP_APPCALL(); + goto tcp_send_ack; + } + else if( uip_flags & UIP_ACKDATA ) + { + uip_connr->tcpstateflags = UIP_FIN_WAIT_2; + uip_connr->len = 0; + goto drop; + } + + if( uip_len > 0 ) + { + goto tcp_send_ack; + } + + goto drop; + + case UIP_FIN_WAIT_2: + if( uip_len > 0 ) + { + uip_add_rcv_nxt( uip_len ); + } + + if( BUF->flags & TCP_FIN ) + { + uip_connr->tcpstateflags = UIP_TIME_WAIT; + uip_connr->timer = 0; + uip_add_rcv_nxt( 1 ); + uip_flags = UIP_CLOSE; + UIP_APPCALL(); + goto tcp_send_ack; + } + + if( uip_len > 0 ) + { + goto tcp_send_ack; + } + + goto drop; + + case UIP_TIME_WAIT: + goto tcp_send_ack; + + case UIP_CLOSING: + if( uip_flags & UIP_ACKDATA ) + { + uip_connr->tcpstateflags = UIP_TIME_WAIT; + uip_connr->timer = 0; + } + } + + goto drop; + + /* We jump here when we are ready to send the packet, and just want to set the appropriate TCP sequence numbers in the TCP header. */ - tcp_send_ack: - BUF->flags = TCP_ACK; - tcp_send_nodata: - uip_len = UIP_IPTCPH_LEN; - tcp_send_noopts: - BUF->tcpoffset = (UIP_TCPH_LEN / 4) << 4; - tcp_send: - /* We're done with the input processing. We are now ready to send a +tcp_send_ack: + BUF->flags = TCP_ACK; +tcp_send_nodata: + uip_len = UIP_IPTCPH_LEN; +tcp_send_noopts: + BUF->tcpoffset = ( UIP_TCPH_LEN / 4 ) << 4; +tcp_send: + /* We're done with the input processing. We are now ready to send a reply. Our job is to fill in all the fields of the TCP and IP headers before calculating the checksum and finally send the packet. */ - BUF->ackno[0] = uip_connr->rcv_nxt[0]; - BUF->ackno[1] = uip_connr->rcv_nxt[1]; - BUF->ackno[2] = uip_connr->rcv_nxt[2]; - BUF->ackno[3] = uip_connr->rcv_nxt[3]; + BUF->ackno[0] = uip_connr->rcv_nxt[0]; + BUF->ackno[1] = uip_connr->rcv_nxt[1]; + BUF->ackno[2] = uip_connr->rcv_nxt[2]; + BUF->ackno[3] = uip_connr->rcv_nxt[3]; - BUF->seqno[0] = uip_connr->snd_nxt[0]; - BUF->seqno[1] = uip_connr->snd_nxt[1]; - BUF->seqno[2] = uip_connr->snd_nxt[2]; - BUF->seqno[3] = uip_connr->snd_nxt[3]; + BUF->seqno[0] = uip_connr->snd_nxt[0]; + BUF->seqno[1] = uip_connr->snd_nxt[1]; + BUF->seqno[2] = uip_connr->snd_nxt[2]; + BUF->seqno[3] = uip_connr->snd_nxt[3]; - BUF->proto = UIP_PROTO_TCP; + BUF->proto = UIP_PROTO_TCP; - BUF->srcport = uip_connr->lport; - BUF->destport = uip_connr->rport; + BUF->srcport = uip_connr->lport; + BUF->destport = uip_connr->rport; - uip_ipaddr_copy(BUF->srcipaddr, uip_hostaddr); - uip_ipaddr_copy(BUF->destipaddr, uip_connr->ripaddr); + uip_ipaddr_copy( BUF->srcipaddr, uip_hostaddr ); + uip_ipaddr_copy( BUF->destipaddr, uip_connr->ripaddr ); - if(uip_connr->tcpstateflags & UIP_STOPPED) { - /* If the connection has issued uip_stop(), we advertise a zero + if( uip_connr->tcpstateflags & UIP_STOPPED ) + { + /* If the connection has issued uip_stop(), we advertise a zero window so that the remote host will stop sending data. */ - BUF->wnd[0] = BUF->wnd[1] = 0; - } else { - BUF->wnd[0] = ((UIP_RECEIVE_WINDOW) >> 8); - BUF->wnd[1] = ((UIP_RECEIVE_WINDOW) & 0xff); - } - - tcp_send_noconn: - BUF->ttl = UIP_TTL; -#if UIP_CONF_IPV6 - /* For IPv6, the IP length field does not include the IPv6 IP header - length. */ - BUF->len[0] = ((uip_len - UIP_IPH_LEN) >> 8); - BUF->len[1] = ((uip_len - UIP_IPH_LEN) & 0xff); -#else /* UIP_CONF_IPV6 */ - BUF->len[0] = (uip_len >> 8); - BUF->len[1] = (uip_len & 0xff); -#endif /* UIP_CONF_IPV6 */ - - BUF->urgp[0] = BUF->urgp[1] = 0; + BUF->wnd[0] = BUF->wnd[1] = 0; + } + else + { + BUF->wnd[0] = ( (UIP_RECEIVE_WINDOW) >> 8 ); + BUF->wnd[1] = ( (UIP_RECEIVE_WINDOW) & 0xff ); + } - /* Calculate TCP checksum. */ - BUF->tcpchksum = 0; - BUF->tcpchksum = ~(uip_tcpchksum()); +tcp_send_noconn: + BUF->ttl = UIP_TTL; + #if UIP_CONF_IPV6 -#if UIP_UDP - ip_send_nolen: -#endif - -#if UIP_CONF_IPV6 - BUF->vtc = 0x60; - BUF->tcflow = 0x00; - BUF->flow = 0x00; -#else /* UIP_CONF_IPV6 */ - BUF->vhl = 0x45; - BUF->tos = 0; - BUF->ipoffset[0] = BUF->ipoffset[1] = 0; - ++ipid; - BUF->ipid[0] = ipid >> 8; - BUF->ipid[1] = ipid & 0xff; - /* Calculate IP checksum. */ - BUF->ipchksum = 0; - BUF->ipchksum = ~(uip_ipchksum()); - DEBUG_PRINTF("uip ip_send_nolen: chkecum 0x%04x\n", uip_ipchksum()); -#endif /* UIP_CONF_IPV6 */ + /* For IPv6, the IP length field does not include the IPv6 IP header + length. */ + BUF->len[0] = ( (uip_len - UIP_IPH_LEN) >> 8 ); + BUF->len[1] = ( (uip_len - UIP_IPH_LEN) & 0xff ); + #else /* UIP_CONF_IPV6 */ + BUF->len[0] = ( uip_len >> 8 ); + BUF->len[1] = ( uip_len & 0xff ); + #endif /* UIP_CONF_IPV6 */ + + BUF->urgp[0] = BUF->urgp[1] = 0; + + /* Calculate TCP checksum. */ + BUF->tcpchksum = 0; + BUF->tcpchksum = ~( uip_tcpchksum() ); + + #if UIP_UDP + ip_send_nolen : + #endif + #if UIP_CONF_IPV6 + BUF->vtc = 0x60; + BUF->tcflow = 0x00; + BUF->flow = 0x00; + #else /* UIP_CONF_IPV6 */ + BUF->vhl = 0x45; + BUF->tos = 0; + BUF->ipoffset[0] = BUF->ipoffset[1] = 0; + ++ipid; + BUF->ipid[0] = ipid >> 8; + BUF->ipid[1] = ipid & 0xff; + + /* Calculate IP checksum. */ + BUF->ipchksum = 0; + BUF->ipchksum = ~( uip_ipchksum() ); + DEBUG_PRINTF( "uip ip_send_nolen: chkecum 0x%04x\n", uip_ipchksum() ); + #endif /* UIP_CONF_IPV6 */ + + UIP_STAT( ++uip_stat.tcp.sent ); +send: + DEBUG_PRINTF( "Sending packet with length %d (%d)\n", uip_len, (BUF->len[0] << 8) | BUF->len[1] ); + + UIP_STAT( ++uip_stat.ip.sent ); + + /* Return and let the caller do the actual transmission. */ + uip_flags = 0; + return; +drop: + uip_len = 0; + uip_flags = 0; + return; +} - UIP_STAT(++uip_stat.tcp.sent); - send: - DEBUG_PRINTF("Sending packet with length %d (%d)\n", uip_len, - (BUF->len[0] << 8) | BUF->len[1]); - - UIP_STAT(++uip_stat.ip.sent); - /* Return and let the caller do the actual transmission. */ - uip_flags = 0; - return; - drop: - uip_len = 0; - uip_flags = 0; - return; +/*---------------------------------------------------------------------------*/ +u16_t htons( u16_t val ) +{ + return HTONS( val ); } + /*---------------------------------------------------------------------------*/ -u16_t -htons(u16_t val) +void uip_send( const void *data, int len ) { - return HTONS(val); + if( len > 0 ) + { + uip_slen = len; + if( data != uip_sappdata ) + { + memcpy( uip_sappdata, (data), uip_slen ); + } + } } + /*---------------------------------------------------------------------------*/ -void -uip_send(const void *data, int len) +int uip_fast_send( int xARP ) { - if(len > 0) { - uip_slen = len; - if(data != uip_sappdata) { - memcpy(uip_sappdata, (data), uip_slen); - } - } + #if NOT_YET_COMPLETE + + u16_t tcplen, len1 = 0, uiAccumulatedLen = 0, len_previous = 0, split_len; + int iSplitNo = 0; + extern int uip_low_level_output( unsigned char *pcBuf, int ilen ); + + if( xARP == pdTRUE ) + { + if( BUF->proto == UIP_PROTO_TCP && uip_slen > 1 ) + { + tcplen = uip_len - UIP_TCPIP_HLEN; + + if( tcplen > UIP_TCP_MSS ) + { + split_len = UIP_TCP_MSS; + } + else + { + split_len = tcplen / 2; + } + + while( tcplen > 0 ) + { + uiAccumulatedLen += len1; + + if( tcplen > split_len ) + { + len1 = split_len; + tcplen -= split_len; + } + else + { + len1 = tcplen; + tcplen = 0; + } + + uip_len = len1 + UIP_TCPIP_HLEN; + BUF->len[0] = uip_len >> 8; + BUF->len[1] = uip_len & 0xff; + if( iSplitNo == 0 ) + { + iSplitNo++; + + /* Create the first packet. This is done by altering the length + field of the IP header and updating the checksums. */ + } + else + { + /* Now, create the second packet. To do this, it is not enough to + just alter the length field, but we must also update the TCP + sequence number and point the uip_appdata to a new place in + memory. This place is determined by the length of the first + packet (len1). */ + + /* uip_appdata += len1;*/ + memcpy( uip_appdata, ( u8_t * ) uip_appdata + uiAccumulatedLen, len1 ); + uip_add32( BUF->seqno, len_previous ); + BUF->seqno[0] = uip_acc32[0]; + BUF->seqno[1] = uip_acc32[1]; + BUF->seqno[2] = uip_acc32[2]; + BUF->seqno[3] = uip_acc32[3]; + } + + /* Recalculate the TCP checksum. */ + BUF->tcpchksum = 0; + BUF->tcpchksum = ~( uip_tcpchksum() ); + + /* Recalculate the IP checksum. */ + BUF->ipchksum = 0; + BUF->ipchksum = ~( uip_ipchksum() ); + + /* Transmit the packet. */ + uip_arp_out(); + uip_low_level_output( uip_buf, uip_len ); + + len_previous = len1; + } + } + else + { + uip_arp_out(); + uip_low_level_output( uip_buf, uip_len ); + } + } + else + { + uip_low_level_output( uip_buf, uip_len ); + } + + #endif + return 1; } + /** @} */ diff --git a/Demo/Common/ethernet/FreeRTOS-uIP/uip.h b/Demo/Common/ethernet/FreeRTOS-uIP/uip.h index 82da6fbd2..e432d903b 100644 --- a/Demo/Common/ethernet/FreeRTOS-uIP/uip.h +++ b/Demo/Common/ethernet/FreeRTOS-uIP/uip.h @@ -1631,6 +1631,10 @@ u16_t uip_tcpchksum(void); */ u16_t uip_udpchksum(void); +/** + * Work out the fasted way of sending the data to the low level driver. + */ +int uip_fast_send( int xARP ); #endif /* __UIP_H__ */ diff --git a/Demo/Common/ethernet/FreeRTOS-uIP/uip_arp.c b/Demo/Common/ethernet/FreeRTOS-uIP/uip_arp.c index 44c7975fc..d10522661 100644 --- a/Demo/Common/ethernet/FreeRTOS-uIP/uip_arp.c +++ b/Demo/Common/ethernet/FreeRTOS-uIP/uip_arp.c @@ -57,94 +57,89 @@ * $Id: uip_arp.c,v 1.8 2006/06/02 23:36:21 adam Exp $ * */ - - #include "uip_arp.h" #include #ifdef __ICCARM__ - #pragma pack(1) + #pragma pack( 1 ) #endif - -struct arp_hdr { - struct uip_eth_hdr ethhdr; - u16_t hwtype; - u16_t protocol; - u8_t hwlen; - u8_t protolen; - u16_t opcode; - struct uip_eth_addr shwaddr; - u16_t sipaddr[2]; - struct uip_eth_addr dhwaddr; - u16_t dipaddr[2]; +struct arp_hdr +{ + struct uip_eth_hdr ethhdr; + u16_t hwtype; + u16_t protocol; + u8_t hwlen; + u8_t protolen; + u16_t opcode; + struct uip_eth_addr shwaddr; + u16_t sipaddr[2]; + struct uip_eth_addr dhwaddr; + u16_t dipaddr[2]; } PACK_STRUCT_END; #ifdef __ICCARM__ #pragma pack() #endif - #ifdef __ICCARM__ - #pragma pack(1) + #pragma pack( 1 ) #endif +struct ethip_hdr +{ + struct uip_eth_hdr ethhdr; -struct ethip_hdr { - struct uip_eth_hdr ethhdr; - /* IP header. */ - u8_t vhl, - tos, - len[2], - ipid[2], - ipoffset[2], - ttl, - proto; - u16_t ipchksum; - u16_t srcipaddr[2], - destipaddr[2]; + /* IP header. */ + u8_t vhl, tos, len[2], ipid[2], ipoffset[2], ttl, proto; + u16_t ipchksum; + u16_t srcipaddr[2], destipaddr[2]; } PACK_STRUCT_END; #ifdef __ICCARM__ #pragma pack() #endif +#define ARP_REQUEST 1 +#define ARP_REPLY 2 -#define ARP_REQUEST 1 -#define ARP_REPLY 2 - -#define ARP_HWTYPE_ETH 1 +#define ARP_HWTYPE_ETH 1 -struct arp_entry { - u16_t ipaddr[2]; - struct uip_eth_addr ethaddr; - u8_t time; +struct arp_entry +{ + u16_t ipaddr[2]; + struct uip_eth_addr ethaddr; + u8_t time; }; -static const struct uip_eth_addr broadcast_ethaddr = - {{0xff,0xff,0xff,0xff,0xff,0xff}}; -static const u16_t broadcast_ipaddr[2] = {0xffff,0xffff}; +static const struct uip_eth_addr broadcast_ethaddr = { { 0xff, 0xff, 0xff, 0xff, 0xff, 0xff } }; +static const u16_t broadcast_ipaddr[2] = { 0xffff, 0xffff }; + +static struct arp_entry arp_table[UIP_ARPTAB_SIZE]; +static u16_t ipaddr[2]; +static u8_t i, c; -static struct arp_entry arp_table[UIP_ARPTAB_SIZE]; -static u16_t ipaddr[2]; -static u8_t i, c; +static u8_t arptime; +static u8_t tmpage; -static u8_t arptime; -static u8_t tmpage; +#define BUF ( ( struct arp_hdr * ) &uip_buf[0] ) +#define IPBUF ( ( struct ethip_hdr * ) &uip_buf[0] ) -#define BUF ((struct arp_hdr *)&uip_buf[0]) -#define IPBUF ((struct ethip_hdr *)&uip_buf[0]) /*-----------------------------------------------------------------------------------*/ + /** * Initialize the ARP module. * */ + /*-----------------------------------------------------------------------------------*/ -void -uip_arp_init(void) +void uip_arp_init( void ) { - for(i = 0; i < UIP_ARPTAB_SIZE; ++i) { - memset(arp_table[i].ipaddr, 0, 4); - } + for( i = 0; i < UIP_ARPTAB_SIZE; ++i ) + { + memset( arp_table[i].ipaddr, 0, 4 ); + } } + /*-----------------------------------------------------------------------------------*/ + /** * Periodic ARP processing function. * @@ -153,86 +148,93 @@ uip_arp_init(void) * is 10 seconds between the calls. * */ + /*-----------------------------------------------------------------------------------*/ -void -uip_arp_timer(void) +void uip_arp_timer( void ) { - struct arp_entry *tabptr; - - ++arptime; - for(i = 0; i < UIP_ARPTAB_SIZE; ++i) { - tabptr = &arp_table[i]; - if((tabptr->ipaddr[0] | tabptr->ipaddr[1]) != 0 && - arptime - tabptr->time >= UIP_ARP_MAXAGE) { - memset(tabptr->ipaddr, 0, 4); - } - } - + struct arp_entry *tabptr; + + ++arptime; + for( i = 0; i < UIP_ARPTAB_SIZE; ++i ) + { + tabptr = &arp_table[i]; + if( (tabptr->ipaddr[0] | tabptr->ipaddr[1]) != 0 && arptime - tabptr->time >= UIP_ARP_MAXAGE ) + { + memset( tabptr->ipaddr, 0, 4 ); + } + } } + /*-----------------------------------------------------------------------------------*/ -static void -uip_arp_update(u16_t *ipaddr, struct uip_eth_addr *ethaddr) +static void uip_arp_update( u16_t *ipaddr, struct uip_eth_addr *ethaddr ) { - register struct arp_entry *tabptr; - /* Walk through the ARP mapping table and try to find an entry to + register struct arp_entry *tabptr; + + /* Walk through the ARP mapping table and try to find an entry to update. If none is found, the IP -> MAC address mapping is inserted in the ARP table. */ - for(i = 0; i < UIP_ARPTAB_SIZE; ++i) { - - tabptr = &arp_table[i]; - /* Only check those entries that are actually in use. */ - if(tabptr->ipaddr[0] != 0 && - tabptr->ipaddr[1] != 0) { - - /* Check if the source IP address of the incoming packet matches + for( i = 0; i < UIP_ARPTAB_SIZE; ++i ) + { + tabptr = &arp_table[i]; + + /* Only check those entries that are actually in use. */ + if( tabptr->ipaddr[0] != 0 && tabptr->ipaddr[1] != 0 ) + { + /* Check if the source IP address of the incoming packet matches the IP address in this ARP table entry. */ - if(ipaddr[0] == tabptr->ipaddr[0] && - ipaddr[1] == tabptr->ipaddr[1]) { - - /* An old entry found, update this and return. */ - memcpy(tabptr->ethaddr.addr, ethaddr->addr, 6); - tabptr->time = arptime; - - return; - } - } - } - - /* If we get here, no existing ARP table entry was found, so we + if( ipaddr[0] == tabptr->ipaddr[0] && ipaddr[1] == tabptr->ipaddr[1] ) + { + /* An old entry found, update this and return. */ + memcpy( tabptr->ethaddr.addr, ethaddr->addr, 6 ); + tabptr->time = arptime; + + return; + } + } + } + + /* If we get here, no existing ARP table entry was found, so we create one. */ - /* First, we try to find an unused entry in the ARP table. */ - for(i = 0; i < UIP_ARPTAB_SIZE; ++i) { - tabptr = &arp_table[i]; - if(tabptr->ipaddr[0] == 0 && - tabptr->ipaddr[1] == 0) { - break; - } - } - - /* If no unused entry is found, we try to find the oldest entry and + /* First, we try to find an unused entry in the ARP table. */ + for( i = 0; i < UIP_ARPTAB_SIZE; ++i ) + { + tabptr = &arp_table[i]; + if( tabptr->ipaddr[0] == 0 && tabptr->ipaddr[1] == 0 ) + { + break; + } + } + + /* If no unused entry is found, we try to find the oldest entry and throw it away. */ - if(i == UIP_ARPTAB_SIZE) { - tmpage = 0; - c = 0; - for(i = 0; i < UIP_ARPTAB_SIZE; ++i) { - tabptr = &arp_table[i]; - if(arptime - tabptr->time > tmpage) { - tmpage = arptime - tabptr->time; - c = i; - } - } - i = c; - tabptr = &arp_table[i]; - } - - /* Now, i is the ARP table entry which we will fill with the new + if( i == UIP_ARPTAB_SIZE ) + { + tmpage = 0; + c = 0; + for( i = 0; i < UIP_ARPTAB_SIZE; ++i ) + { + tabptr = &arp_table[i]; + if( arptime - tabptr->time > tmpage ) + { + tmpage = arptime - tabptr->time; + c = i; + } + } + + i = c; + tabptr = &arp_table[i]; + } + + /* Now, i is the ARP table entry which we will fill with the new information. */ - memcpy(tabptr->ipaddr, ipaddr, 4); - memcpy(tabptr->ethaddr.addr, ethaddr->addr, 6); - tabptr->time = arptime; + memcpy( tabptr->ipaddr, ipaddr, 4 ); + memcpy( tabptr->ethaddr.addr, ethaddr->addr, 6 ); + tabptr->time = arptime; } + /*-----------------------------------------------------------------------------------*/ + /** * ARP processing for incoming IP packets * @@ -245,29 +247,34 @@ uip_arp_update(u16_t *ipaddr, struct uip_eth_addr *ethaddr) * in the uip_buf[] buffer, and the length of the packet in the global * variable uip_len. */ + /*-----------------------------------------------------------------------------------*/ #if 1 -void -uip_arp_ipin(void) +void uip_arp_ipin( void ) { - uip_len -= sizeof(struct uip_eth_hdr); - - /* Only insert/update an entry if the source IP address of the + uip_len -= sizeof( struct uip_eth_hdr ); + + /* Only insert/update an entry if the source IP address of the incoming IP packet comes from a host on the local network. */ - if((IPBUF->srcipaddr[0] & uip_netmask[0]) != - (uip_hostaddr[0] & uip_netmask[0])) { - return; - } - if((IPBUF->srcipaddr[1] & uip_netmask[1]) != - (uip_hostaddr[1] & uip_netmask[1])) { - return; - } - uip_arp_update(IPBUF->srcipaddr, &(IPBUF->ethhdr.src)); - - return; + if( (IPBUF->srcipaddr[0] & uip_netmask[0]) != (uip_hostaddr[0] & uip_netmask[0]) ) + { + return; + } + + if( (IPBUF->srcipaddr[1] & uip_netmask[1]) != (uip_hostaddr[1] & uip_netmask[1]) ) + { + return; + } + + uip_arp_update( IPBUF->srcipaddr, &(IPBUF->ethhdr.src) ); + + return; } + #endif /* 0 */ + /*-----------------------------------------------------------------------------------*/ + /** * ARP processing for incoming ARP packets. * @@ -289,56 +296,65 @@ uip_arp_ipin(void) * header in the uip_buf[] buffer, and the length of the packet in the * global variable uip_len. */ + /*-----------------------------------------------------------------------------------*/ -void -uip_arp_arpin(void) +void uip_arp_arpin( void ) { - - if(uip_len < sizeof(struct arp_hdr)) { - uip_len = 0; - return; - } - uip_len = 0; - - switch(BUF->opcode) { - case HTONS(ARP_REQUEST): - /* ARP request. If it asked for our address, we send out a + if( uip_len < sizeof(struct arp_hdr) ) + { + uip_len = 0; + return; + } + + uip_len = 0; + + switch( BUF->opcode ) + { + case HTONS( ARP_REQUEST ): + /* ARP request. If it asked for our address, we send out a reply. */ - if(uip_ipaddr_cmp(BUF->dipaddr, uip_hostaddr)) { - /* First, we register the one who made the request in our ARP + if( uip_ipaddr_cmp(BUF->dipaddr, uip_hostaddr) ) + { + /* First, we register the one who made the request in our ARP table, since it is likely that we will do more communication with this host in the future. */ - uip_arp_update(BUF->sipaddr, &BUF->shwaddr); - - /* The reply opcode is 2. */ - BUF->opcode = HTONS(2); - - memcpy(BUF->dhwaddr.addr, BUF->shwaddr.addr, 6); - memcpy(BUF->shwaddr.addr, uip_ethaddr.addr, 6); - memcpy(BUF->ethhdr.src.addr, uip_ethaddr.addr, 6); - memcpy(BUF->ethhdr.dest.addr, BUF->dhwaddr.addr, 6); - - BUF->dipaddr[0] = BUF->sipaddr[0]; - BUF->dipaddr[1] = BUF->sipaddr[1]; - BUF->sipaddr[0] = uip_hostaddr[0]; - BUF->sipaddr[1] = uip_hostaddr[1]; - - BUF->ethhdr.type = HTONS(UIP_ETHTYPE_ARP); - uip_len = sizeof(struct arp_hdr); - } - break; - case HTONS(ARP_REPLY): - /* ARP reply. We insert or update the ARP table if it was meant + uip_arp_update( BUF->sipaddr, &BUF->shwaddr ); + + /* The reply opcode is 2. */ + BUF->opcode = HTONS( 2 ); + + memcpy( BUF->dhwaddr.addr, BUF->shwaddr.addr, 6 ); + memcpy( BUF->shwaddr.addr, uip_ethaddr.addr, 6 ); + memcpy( BUF->ethhdr.src.addr, uip_ethaddr.addr, 6 ); + memcpy( BUF->ethhdr.dest.addr, BUF->dhwaddr.addr, 6 ); + + BUF->dipaddr[0] = BUF->sipaddr[0]; + BUF->dipaddr[1] = BUF->sipaddr[1]; + BUF->sipaddr[0] = uip_hostaddr[0]; + BUF->sipaddr[1] = uip_hostaddr[1]; + + BUF->ethhdr.type = HTONS( UIP_ETHTYPE_ARP ); + uip_len = sizeof( struct arp_hdr ); + } + + break; + + case HTONS( ARP_REPLY ): + /* ARP reply. We insert or update the ARP table if it was meant for us. */ - if(uip_ipaddr_cmp(BUF->dipaddr, uip_hostaddr)) { - uip_arp_update(BUF->sipaddr, &BUF->shwaddr); - } - break; - } + if( uip_ipaddr_cmp(BUF->dipaddr, uip_hostaddr) ) + { + uip_arp_update( BUF->sipaddr, &BUF->shwaddr ); + } + + break; + } - return; + return; } + /*-----------------------------------------------------------------------------------*/ + /** * Prepend Ethernet header to an outbound IP packet and see if we need * to send out an ARP request. @@ -365,75 +381,86 @@ uip_arp_arpin(void) * buffer, and the length of the packet is in the global variable * uip_len. */ + /*-----------------------------------------------------------------------------------*/ -void -uip_arp_out(void) +void uip_arp_out( void ) { - struct arp_entry *tabptr; + struct arp_entry *tabptr; - /* Find the destination IP address in the ARP table and construct + /* Find the destination IP address in the ARP table and construct the Ethernet header. If the destination IP addres isn't on the local network, we use the default router's IP address instead. If not ARP table entry is found, we overwrite the original IP packet with an ARP request for the IP address. */ - /* First check if destination is a local broadcast. */ - if(uip_ipaddr_cmp(IPBUF->destipaddr, broadcast_ipaddr)) { - memcpy(IPBUF->ethhdr.dest.addr, broadcast_ethaddr.addr, 6); - } else { - /* Check if the destination address is on the local network. */ - if(!uip_ipaddr_maskcmp(IPBUF->destipaddr, uip_hostaddr, uip_netmask)) { - /* Destination address was not on the local network, so we need to + /* First check if destination is a local broadcast. */ + if( uip_ipaddr_cmp(IPBUF->destipaddr, broadcast_ipaddr) ) + { + memcpy( IPBUF->ethhdr.dest.addr, broadcast_ethaddr.addr, 6 ); + } + else + { + /* Check if the destination address is on the local network. */ + if( !uip_ipaddr_maskcmp(IPBUF->destipaddr, uip_hostaddr, uip_netmask) ) + { + /* Destination address was not on the local network, so we need to use the default router's IP address instead of the destination address when determining the MAC address. */ - uip_ipaddr_copy(ipaddr, uip_draddr); - } else { - /* Else, we use the destination IP address. */ - uip_ipaddr_copy(ipaddr, IPBUF->destipaddr); - } - - for(i = 0; i < UIP_ARPTAB_SIZE; ++i) { - tabptr = &arp_table[i]; - if(uip_ipaddr_cmp(ipaddr, tabptr->ipaddr)) { - break; - } - } - - if(i == UIP_ARPTAB_SIZE) { - /* The destination address was not in our ARP table, so we + uip_ipaddr_copy( ipaddr, uip_draddr ); + } + else + { + /* Else, we use the destination IP address. */ + uip_ipaddr_copy( ipaddr, IPBUF->destipaddr ); + } + + for( i = 0; i < UIP_ARPTAB_SIZE; ++i ) + { + tabptr = &arp_table[i]; + if( uip_ipaddr_cmp(ipaddr, tabptr->ipaddr) ) + { + break; + } + } + + if( i == UIP_ARPTAB_SIZE ) + { + /* The destination address was not in our ARP table, so we overwrite the IP packet with an ARP request. */ + memset( BUF->ethhdr.dest.addr, 0xff, 6 ); + memset( BUF->dhwaddr.addr, 0x00, 6 ); + memcpy( BUF->ethhdr.src.addr, uip_ethaddr.addr, 6 ); + memcpy( BUF->shwaddr.addr, uip_ethaddr.addr, 6 ); - memset(BUF->ethhdr.dest.addr, 0xff, 6); - memset(BUF->dhwaddr.addr, 0x00, 6); - memcpy(BUF->ethhdr.src.addr, uip_ethaddr.addr, 6); - memcpy(BUF->shwaddr.addr, uip_ethaddr.addr, 6); + uip_ipaddr_copy( BUF->dipaddr, ipaddr ); + uip_ipaddr_copy( BUF->sipaddr, uip_hostaddr ); + BUF->opcode = HTONS( ARP_REQUEST ); /* ARP request. */ + BUF->hwtype = HTONS( ARP_HWTYPE_ETH ); + BUF->protocol = HTONS( UIP_ETHTYPE_IP ); + BUF->hwlen = 6; + BUF->protolen = 4; + BUF->ethhdr.type = HTONS( UIP_ETHTYPE_ARP ); - uip_ipaddr_copy(BUF->dipaddr, ipaddr); - uip_ipaddr_copy(BUF->sipaddr, uip_hostaddr); - BUF->opcode = HTONS(ARP_REQUEST); /* ARP request. */ - BUF->hwtype = HTONS(ARP_HWTYPE_ETH); - BUF->protocol = HTONS(UIP_ETHTYPE_IP); - BUF->hwlen = 6; - BUF->protolen = 4; - BUF->ethhdr.type = HTONS(UIP_ETHTYPE_ARP); + uip_appdata = &uip_buf[UIP_TCPIP_HLEN + UIP_LLH_LEN]; - uip_appdata = &uip_buf[UIP_TCPIP_HLEN + UIP_LLH_LEN]; + uip_len = sizeof( struct arp_hdr ); + return; + } - uip_len = sizeof(struct arp_hdr); - return; - } + /* Build an ethernet header. */ + memcpy( IPBUF->ethhdr.dest.addr, tabptr->ethaddr.addr, 6 ); + } - /* Build an ethernet header. */ - memcpy(IPBUF->ethhdr.dest.addr, tabptr->ethaddr.addr, 6); - } - memcpy(IPBUF->ethhdr.src.addr, uip_ethaddr.addr, 6); + memcpy( IPBUF->ethhdr.src.addr, uip_ethaddr.addr, 6 ); - IPBUF->ethhdr.type = HTONS(UIP_ETHTYPE_IP); + IPBUF->ethhdr.type = HTONS( UIP_ETHTYPE_IP ); - uip_len += sizeof(struct uip_eth_hdr); + uip_len += sizeof( struct uip_eth_hdr ); } + /*-----------------------------------------------------------------------------------*/ /** @} */ + /** @} */ diff --git a/Demo/Common/ethernet/FreeRTOS-uIP/uiplib.c b/Demo/Common/ethernet/FreeRTOS-uIP/uiplib.c index 647b0b270..afedc0d42 100644 --- a/Demo/Common/ethernet/FreeRTOS-uIP/uiplib.c +++ b/Demo/Common/ethernet/FreeRTOS-uIP/uiplib.c @@ -32,43 +32,50 @@ * $Id: uiplib.c,v 1.2 2006/06/12 08:00:31 adam Exp $ * */ - - #include "uip.h" #include "uiplib.h" - /*-----------------------------------------------------------------------------------*/ -unsigned char -uiplib_ipaddrconv(char *addrstr, unsigned char *ipaddr) +unsigned char uiplib_ipaddrconv( char *addrstr, unsigned char *ipaddr ) { - unsigned char tmp; - char c; - unsigned char i, j; + unsigned char tmp; + char c; + unsigned char i, j; - tmp = 0; - - for(i = 0; i < 4; ++i) { - j = 0; - do { - c = *addrstr; - ++j; - if(j > 4) { - return 0; - } - if(c == '.' || c == 0) { - *ipaddr = tmp; - ++ipaddr; tmp = 0; - } else if(c >= '0' && c <= '9') { - tmp = (tmp * 10) + (c - '0'); - } else { - return 0; - } - ++addrstr; - } while(c != '.' && c != 0); - } - return 1; + + for( i = 0; i < 4; ++i ) + { + j = 0; + do + { + c = *addrstr; + ++j; + if( j > 4 ) + { + return 0; + } + + if( c == '.' || c == 0 ) + { + *ipaddr = tmp; + ++ipaddr; + tmp = 0; + } + else if( c >= '0' && c <= '9' ) + { + tmp = ( tmp * 10 ) + ( c - '0' ); + } + else + { + return 0; + } + + ++addrstr; + } while( c != '.' && c != 0 ); + } + + return 1; } /*-----------------------------------------------------------------------------------*/ -- 2.39.2