/*
* TFTP data output backend
*/
#include <string.h>
#include <stdio.h>
#include <syslinux/pxe.h>
#include <syslinux/config.h>
#include <netinet/in.h>
#include <sys/times.h>
#include "upload_backend.h"
enum tftp_opcode {
TFTP_RRQ = 1,
TFTP_WRQ = 2,
TFTP_DATA = 3,
TFTP_ACK = 4,
TFTP_ERROR = 5,
};
struct tftp_error {
uint16_t opcode;
uint16_t errcode;
char errmsg[0];
} __attribute__ (( packed ));
struct tftp_state {
uint32_t my_ip;
uint32_t srv_ip;
uint32_t srv_gw;
uint16_t my_port;
uint16_t srv_port;
uint16_t seq;
};
const char *tftp_string_error_message[]={
"",
"File not found",
"Access Denied",
"Disk Full",
"Illegal Operation",
"Unknown Transfert ID",
"File already exists",
"Unknown User",
"Negociation failed",
"Unable to resolve hostname", // not in RFC
"Unable to connect", // not in RFC
"No Error",
};
#define RCV_BUF 2048
static int send_ack_packet(struct tftp_state *tftp,
const void *pkt, size_t len)
{
t_PXENV_UDP_WRITE *uw;
t_PXENV_UDP_READ *ur;
clock_t start;
static const clock_t timeouts[] = {
2, 2, 3, 3, 4, 5, 6, 7, 9, 10, 12, 15, 18, 21, 26, 31,
37, 44, 53, 64, 77, 92, 110, 132, 159, 191, 229, 0
};
const clock_t *timeout;
int err = -1;
uw = lmalloc(sizeof *uw + len);
ur = lmalloc(sizeof *ur + RCV_BUF);
for (timeout = timeouts ; *timeout ; timeout++) {
memset(uw, 0, sizeof *uw);
memcpy(uw+1, pkt, len);
uw->ip = tftp->srv_ip;
uw->gw = tftp->srv_gw;
uw->src_port = tftp->my_port;
uw->dst_port = tftp->srv_port ? tftp->srv_port : htons(69);
uw->buffer_size = len;
uw->buffer = FAR_PTR(uw+1);
pxe_call(PXENV_UDP_WRITE, uw);
start = times(NULL);
do {
memset(ur, 0, sizeof *ur);
ur->src_ip = tftp->srv_ip;
ur->dest_ip = tftp->my_ip;
ur->s_port = tftp->srv_port;
ur->d_port = tftp->my_port;
ur->buffer_size = RCV_BUF;
ur->buffer = FAR_PTR(ur+1);
err = pxe_call(PXENV_UDP_READ, ur);
if (!err && ur->status == PXENV_STATUS_SUCCESS &&
tftp->srv_ip == ur->src_ip &&
(tftp->srv_port == 0 ||
tftp->srv_port == ur->s_port)) {
uint16_t *xb = (uint16_t *)(ur+1);
if (ntohs(xb[0]) == TFTP_ACK &&
ntohs(xb[1]) == tftp->seq) {
tftp->srv_port = ur->s_port;
err = TFTP_OK; /* All good! */
goto done;
} else if (ntohs(xb[0]) == TFTP_ERROR) {
struct tftp_error *te = (struct tftp_error *)(ur+1);
if (te->errcode == TFTP_ERR_UNKNOWN_ERROR) {
tftp_string_error_message[TFTP_ERR_UNKNOWN_ERROR]=strdup(te->errmsg);
}
err=-ntohs(te->errcode); // Return the associated error code
goto done;
}
}
} while ((clock_t)(times(NULL) - start) < *timeout);
}
done:
lfree(ur);
lfree(uw);
return err;
}
static int upload_tftp_write(struct upload_backend *be)
{
static uint16_t local_port = 0x4000;
struct tftp_state tftp;
char buffer[512+4+6];
int nlen;
int err=TFTP_OK;
const union syslinux_derivative_info *sdi =
syslinux_derivative_info();
const char *data = be->outbuf;
size_t len = be->zbytes;
size_t chunk;
tftp.my_ip = sdi->pxe.myip;
tftp.my_port = htons(local_port++);
tftp.srv_gw = ((tftp.srv_ip ^ tftp.my_ip) & sdi->pxe.ipinfo->netmask)
? sdi->pxe.ipinfo->gateway : 0;
tftp.srv_port = 0;
tftp.seq = 0;
if (be->argv[1]) {
tftp.srv_ip = pxe_dns(be->argv[1]);
if (!tftp.srv_ip) {
// printf("\nUnable to resolve hostname: %s\n", be->argv[1]);
return -TFTP_ERR_UNABLE_TO_RESOLVE;
}
} else {
tftp.srv_ip = sdi->pxe.ipinfo->serverip;
if (!tftp.srv_ip) {
// printf("\nNo server IP address\n");
return -TFTP_ERR_UNABLE_TO_CONNECT;
}
}
/* printf("server %u.%u.%u.%u... ",
((uint8_t *)&tftp.srv_ip)[0],
((uint8_t *)&tftp.srv_ip)[1],
((uint8_t *)&tftp.srv_ip)[2],
((uint8_t *)&tftp.srv_ip)[3]);*/
buffer[0] = 0;
buffer[1] = TFTP_WRQ;
nlen = strlcpy(buffer+2, be->argv[0], 512);
memcpy(buffer+3+nlen, "octet", 6);
if ((err=send_ack_packet(&tftp, buffer, 2+nlen+1+6))!=TFTP_OK)
return err;
do {
chunk = len >= 512 ? 512 : len;
buffer[1] = TFTP_DATA;
*((uint16_t *)(buffer+2)) = htons(++tftp.seq);
memcpy(buffer+4, data, chunk);
data += chunk;
len -= chunk;
if ((err=send_ack_packet(&tftp, buffer, chunk+4))!=TFTP_OK)
return err;
} while (chunk == 512);
return TFTP_OK;
}
struct upload_backend upload_tftp = {
.name = "tftp",
.helpmsg = "filename [tftp_server]",
.minargs = 1,
.write = upload_tftp_write,
};