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Fixed whitespaces; updated UDP code

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This commit is contained in:
Nikhil Chandru Rao 2006-06-28 07:46:28 +00:00
parent 2b15084388
commit a6c6b3d739
2 changed files with 171 additions and 120 deletions
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27
src/include/gpxe/udp.h
View File

@ -18,7 +18,6 @@
* UDP constants
*/
#define UDP_HLEN 8
#define UDP_MAX_HLEN 72
#define UDP_MAX_TXPKB ETH_MAX_MTU
#define UDP_MIN_TXPKB ETH_ZLEN
@ -29,10 +28,10 @@ typedef uint16_t port_t;
* A UDP header
*/
struct udp_header {
port_t source_port;
port_t dest_port;
uint16_t len;
uint16_t chksum;
port_t source_port;
port_t dest_port;
uint16_t len;
uint16_t chksum;
};
struct udp_connection;
@ -59,15 +58,15 @@ struct udp_operations {
*/
struct udp_connection {
/** Address of the remote end of the connection */
struct sockaddr sin;
/** Local port on which the connection receives packets */
port_t local_port;
/** Transmit buffer */
struct pk_buff *tx_pkb;
/** List of registered connections */
struct list_head list;
/** Operations table for this connection */
struct udp_operations *udp_op;
struct sockaddr sin;
/** Local port on which the connection receives packets */
port_t local_port;
/** Transmit buffer */
struct pk_buff *tx_pkb;
/** List of registered connections */
struct list_head list;
/** Operations table for this connection */
struct udp_operations *udp_op;
};
/**

264
src/net/udp.c
View File

@ -17,7 +17,40 @@
* UDP protocol
*/
void copy_sockaddr ( struct sockaddr *source, struct sockaddr *dest );
static inline void copy_sockaddr ( struct sockaddr *source, struct sockaddr *dest ) {
memcpy ( dest, source, sizeof ( *dest ) );
}
static inline uint16_t dest_port ( struct sockaddr *sock, uint16_t *dest ) {
switch ( sock->sa_family ) {
case AF_INET:
dest = &sock->sin.sin_port;
break;
case AF_INET6:
dest = &sock->sin6.sin6_port;
break;
default:
DBG ( "Network family %d not supported\n", sock->sa_family );
return -EAFNOSUPPORT;
}
return 0;
}
/**
* Dump the UDP header
*
* @v udphdr UDP header
*/
void udp_dump ( struct udp_header *udphdr ) {
/* Print UDP header for debugging */
DBG ( "UDP header at %#x + %d\n", udphdr, sizeof ( *udphdr ) );
DBG ( "\tSource Port = %d\n", ntohs ( udphdr->source_port ) );
DBG ( "\tDestination Port = %d\n", ntohs ( udphdr->dest_port ) );
DBG ( "\tLength = %d\n", ntohs ( udphdr->len ) );
DBG ( "\tChecksum = %d\n", ntohs ( udphdr->chksum ) );
DBG ( "\tChecksum located at %#x\n", &udphdr->chksum );
}
/**
* Open a UDP connection
@ -28,10 +61,11 @@ void copy_sockaddr ( struct sockaddr *source, struct sockaddr *dest );
* This function stores the socket address within the connection
*/
void udp_connect ( struct udp_connection *conn, struct sockaddr *peer ) {
copy_sockaddr ( peer, &conn->sin );
/**
* Not sure if this should add the connection to udp_conns; If it does, uncomment the following code
*/
copy_sockaddr ( peer, &conn->sin );
/* Not sure if this should add the connection to udp_conns; If it does,
* uncomment the following code
*/
// list_add ( &conn->list, &udp_conns );
}
@ -42,11 +76,11 @@ void udp_connect ( struct udp_connection *conn, struct sockaddr *peer ) {
* @v udp_op UDP operations
*/
void udp_init ( struct udp_connection *conn, struct udp_operations *udp_op ) {
conn->local_port = 0;
conn->tx_pkb = NULL;
if ( udp_op != NULL ) {
conn->udp_op = udp_op;
}
conn->local_port = 0;
conn->tx_pkb = NULL;
if ( udp_op != NULL ) {
conn->udp_op = udp_op;
}
}
/**
@ -59,12 +93,12 @@ void udp_init ( struct udp_connection *conn, struct udp_operations *udp_op ) {
* Allocate "len" amount of space in the transmit buffer
*/
int udp_buf_alloc ( struct udp_connection *conn, size_t len ) {
if ( conn->tx_pkb != NULL ) {
free_pkb ( conn->tx_pkb );
conn->tx_pkb = NULL;
}
conn->tx_pkb = alloc_pkb ( len < UDP_MIN_TXPKB ? UDP_MIN_TXPKB : len );
return !conn ? -ENOMEM : 0;
if ( conn->tx_pkb != NULL ) {
free_pkb ( conn->tx_pkb );
conn->tx_pkb = NULL;
}
conn->tx_pkb = alloc_pkb ( len < UDP_MIN_TXPKB ? UDP_MIN_TXPKB : len );
return !conn ? -ENOMEM : 0;
}
/**
@ -74,45 +108,47 @@ int udp_buf_alloc ( struct udp_connection *conn, size_t len ) {
* @v data Data to send
* @v len Length of data
*
* This function fills up the UDP headers and sends the data. Discover the network protocol to
* use through the sa_family field in the destination socket address.
* This function fills up the UDP headers and sends the data. Discover the
* network protocol through the sa_family field in the destination socket
* address.
*/
int udp_send ( struct udp_connection *conn, const void *data, size_t len ) {
struct udp_header *udphdr; /* UDP header */
struct sockaddr *sock = &conn->sin; /* Destination sockaddr */
int rc;
struct udp_header *udphdr; /* UDP header */
struct sockaddr *sock = &conn->sin; /* Destination sockaddr */
uint16_t *dest;
int rc;
/* Copy data into packet buffer if necessary */
if ( data != conn->tx_pkb->data ) {
/* Allocate a buffer */
if ( ( rc = udp_buf_alloc ( conn, len + UDP_MAX_HLEN ) ) != 0 ) {
DBG ( "Error allocating buffer" );
return rc;
}
/* Copy data into packet buffer, if necessary */
if ( data != conn->tx_pkb->data ) {
/* Allocate space for data and lower layer headers */
if ( ( rc = udp_buf_alloc ( conn, len + UDP_MAX_HLEN ) ) != 0 ) {
DBG ( "Error allocating buffer" );
return rc;
}
/* Reserve space for the headers and copy contents */
pkb_reserve ( conn->tx_pkb, UDP_MAX_HLEN );
memcpy ( pkb_put ( conn->tx_pkb, len ), data, len );
}
/* Reserve space for the headers and copy contents */
pkb_reserve ( conn->tx_pkb, UDP_MAX_HLEN );
memcpy ( pkb_put ( conn->tx_pkb, len ), data, len );
}
/* Add the UDP header */
udphdr = pkb_push ( conn->tx_pkb, UDP_HLEN );
if ( sock->sa_family == AF_INET )
udphdr->dest_port = sock->sin.sin_port;
else
udphdr->dest_port = sock->sin6.sin6_port;
udphdr->source_port = conn->local_port;
udphdr->len = htons ( pkb_len ( conn->tx_pkb ) );
udphdr->chksum = calc_chksum ( udphdr, UDP_HLEN );
/*
* Add the UDP header
*
* Covert all 16- and 32- bit integers into network btye order before
* sending it over the network
*/
udphdr = pkb_push ( conn->tx_pkb, sizeof ( *udphdr ) );
if ( (rc = dest_port ( sock, dest ) ) != 0 ) {
return rc;
}
udphdr->dest_port = htons ( *dest );
udphdr->source_port = htons ( conn->local_port );
udphdr->len = htons ( pkb_len ( conn->tx_pkb ) );
udphdr->chksum = htons ( calc_chksum ( udphdr, sizeof ( *udphdr ) ) );
/* Print UDP header for debugging */
DBG ( "UDP header at %#x + %d\n", udphdr, UDP_HDR_LEN );
DBG ( "\tSource Port = %d\n", udphdr->source_port );
DBG ( "\tDestination Port = %d\n", udphdr->dest_port );
DBG ( "\tLength = %d\n", udphdr->len );
DBG ( "\tChecksum = %d\n", udphdr->chksum );
DBG ( "\tChecksum located at %#x\n", &udphdr->chksum );
udp_dump ( udphdr );
/* Send it to the next layer for processing */
return trans_tx ( conn->tx_pkb, IP_UDP, sock );
}
@ -125,13 +161,13 @@ int udp_send ( struct udp_connection *conn, const void *data, size_t len ) {
* @v len Length of data
*/
int udp_sendto ( struct udp_connection *conn, struct sockaddr *peer,
const void *data, size_t len ) {
struct sockaddr tempsock;
copy_sockaddr ( &conn->sin, &tempsock );
copy_sockaddr ( peer, &conn->sin );
int rc = udp_send ( conn, data, len );
copy_sockaddr ( &tempsock, &conn->sin );
return rc;
const void *data, size_t len ) {
struct sockaddr tempsock;
copy_sockaddr ( &conn->sin, &tempsock );
copy_sockaddr ( peer, &conn->sin );
int rc = udp_send ( conn, data, len );
copy_sockaddr ( &tempsock, &conn->sin );
return rc;
}
/**
@ -140,7 +176,7 @@ int udp_sendto ( struct udp_connection *conn, struct sockaddr *peer,
* @v conn UDP connection
*/
void udp_close ( struct udp_connection *conn ) {
list_del ( &conn->list );
list_del ( &conn->list );
}
/**
@ -152,74 +188,90 @@ void udp_close ( struct udp_connection *conn ) {
* This does not support the 0 port option correctly yet
*/
int udp_open ( struct udp_connection *conn, uint16_t local_port ) {
struct udp_connection *connr;
uint16_t min_port = 0xffff;
list_for_each_entry ( connr, &udp_conns, list ) {
if ( connr->local_port == local_port ) {
return -EISCONN; /* CHECK THE ERROR NUMBER */
}
if ( min_port > connr->local_port ) {
min_port = connr->local_port;
}
}
conn->local_port = local_port == 0 ? min_port > 1024 ? 1024 : min_port + 1 : local_port; // FAULTY!!!
list_add ( &conn->list, &udp_conns );
return 0;
struct udp_connection *connr;
uint16_t min_port = 0xffff;
/* Iterate through udp_conns to see if local_port is available */
list_for_each_entry ( connr, &udp_conns, list ) {
if ( connr->local_port == local_port ) {
return -EISCONN;
}
if ( min_port > connr->local_port ) {
min_port = connr->local_port;
}
}
/* This code is buggy. I will update it soon :) */
conn->local_port = local_port == 0 ? min_port > 1024 ? 1024 :
min_port + 1 : local_port;
/* Add the connection to the list of listening connections */
list_add ( &conn->list, &udp_conns );
return 0;
}
/**
* Process a received packet
*
* @v pkb Packet buffer
* @v pkb Packet buffer
* @v src_net_addr Source network address
* @v dest_net_addr Destination network address
*/
void udp_rx ( struct pk_buff *pkb, struct in_addr *src_net_addr __unused,
struct in_addr *dest_net_addr __unused ) {
struct udp_header *udphdr = pkb->data;
struct udp_connection *conn;
struct in_addr *dest_net_addr __unused ) {
struct udp_header *udphdr = pkb->data;
struct udp_connection *conn;
uint16_t ulen;
uint16_t chksum;
/* todo: Compute and verify checksum */
udp_dump ( udphdr );
/* Print UDP header for debugging */
DBG ( "UDP header at %#x + %d\n", udphdr, UDP_HDR_LEN );
DBG ( "\tSource Port = %d\n", udphdr->source_port );
DBG ( "\tDestination Port = %d\n", udphdr->dest_port );
DBG ( "\tLength = %d\n", udphdr->len );
DBG ( "\tChecksum = %d\n", udphdr->chksum );
DBG ( "\tChecksum located at %#x\n", &udphdr->chksum );
/* Validate the packet and the UDP length */
if ( pkb_len ( pkb ) < sizeof ( *udphdr ) ) {
DBG ( "UDP packet too short (%d bytes)\n",
pkb_len ( pkb ) );
return;
}
/* Demux the connection */
list_for_each_entry ( conn, &udp_conns, list ) {
if ( conn->local_port == udphdr->dest_port ) {
goto conn;
}
}
return;
ulen = ntohs ( udphdr->len );
if ( ulen != pkb_len ( pkb ) ) {
DBG ( "Inconsistent UDP packet length (%d bytes)\n",
pkb_len ( pkb ) );
return;
}
conn:
/** Strip off the UDP header */
pkb_pull ( pkb, UDP_HLEN );
/* Verify the checksum */
chksum = calc_chksum ( pkb->data, pkb_len ( pkb ) );
if ( chksum != 0xffff ) {
DBG ( "Bad checksum %d\n", chksum );
return;
}
/** Allocate max possible buffer space to the tx buffer */
conn->tx_pkb = alloc_pkb ( UDP_MAX_TXPKB );
pkb_reserve ( conn->tx_pkb, UDP_MAX_HLEN );
/* Todo: Check if it is a broadcast or multicast address */
/** Call the application's callback */
conn->udp_op->newdata ( conn, pkb->data, ntohs ( udphdr->len ) - UDP_HLEN );
/* Demux the connection */
list_for_each_entry ( conn, &udp_conns, list ) {
if ( conn->local_port == ntohs ( udphdr->dest_port ) ) {
goto conn;
}
}
return;
conn:
/** Strip off the UDP header */
pkb_pull ( pkb, sizeof ( *udphdr ) );
/** Allocate max possible buffer space to the tx buffer */
conn->tx_pkb = alloc_pkb ( UDP_MAX_TXPKB );
pkb_reserve ( conn->tx_pkb, UDP_MAX_HLEN );
/** Call the application's callback */
conn->udp_op->newdata ( conn, pkb->data, ulen - sizeof ( *udphdr ) );
}
struct trans_protocol udp_protocol = {
.name = "UDP",
.rx = udp_rx,
.trans_proto = IP_UDP,
.name = "UDP",
.rx = udp_rx,
.trans_proto = IP_UDP,
};
TRANS_PROTOCOL ( udp_protocol );
/**
* Internal functions
*/
void copy_sockaddr ( struct sockaddr *source, struct sockaddr *dest ) {
memcpy ( dest, source, sizeof ( struct sockaddr ) );
}