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ftp_eb.c
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ftp_eb.c
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/*
* University of Illinois/NCSA Open Source License
*
* Copyright (c) 2003-2012 NCSA. All rights reserved.
*
* Developed by:
*
* Storage Enabling Technologies (SET)
*
* Nation Center for Supercomputing Applications (NCSA)
*
* http://dims.ncsa.uiuc.edu/set/uberftp
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the .Software.),
* to deal with the Software without restriction, including without limitation
* the rights to use, copy, modify, merge, publish, distribute, sublicense,
* and/or sell copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following conditions:
*
* + Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimers.
*
* + Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimers in the
* documentation and/or other materials provided with the distribution.
*
* + Neither the names of SET, NCSA
* nor the names of its contributors may be used to endorse or promote
* products derived from this Software without specific prior written
* permission.
*
* THE SOFTWARE IS PROVIDED .AS IS., WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* THE CONTRIBUTORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR
* OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
* ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
* DEALINGS WITH THE SOFTWARE.
*/
/*
* NOTE ABOUT FILE/TRANSFER OFFSETS IN EXTENDED BLOCK MODE
*
* The offset used for sending/receiving buffers in extended block mode
* should be the transfer offset (starting at 0 regardless of starting
* file offset). If the transfer is a restart, the first offset received
* will not be zero but only because it is a restart!
*
* STOR <file> - Offset 0, 1, 2
* ESTO <off> <len> <file> - Offset 0, 1, 2 (receiver should add <off>)
* REST <off1>-<off2> - Offset 0-off1, off2, ...
* REST 0-<off1> - Offset off1, off1+1, ...
*
* This was determined by watching globus-url-copy and globus-gridftp-server
* in GT 5.2.3rc2.
*/
#include <stdlib.h>
#include "settings.h"
#include "errcode.h"
#include "network.h"
#include "output.h"
#include "ftp_eb.h"
#include "misc.h"
#include "gsi.h"
#include "ftp.h"
#ifdef DMALLOC
#include "dmalloc.h"
#endif /* DMALLOC */
#define DC_STATE_ACCEPT 0x00
#define DC_STATE_CONNECT 0x01
#define DC_STATE_ACCEPT_AUTH 0x02
#define DC_STATE_CONNECT_AUTH 0x03
#define DC_STATE_HEADER_PULLUP 0x04
#define DC_STATE_READ_READY 0x05
#define DC_STATE_READY 0x10
#define DC_STATE_PUSH_HEADER 0x20
#define DC_STATE_FLUSH_HEADER 0x30
#define DC_STATE_PUSH_DATA 0x40
#define DC_STATE_FLUSH_DATA 0x50
#define DC_STATE_PUSH_EOF 0x60
#define DC_STATE_FLUSH_EOF 0x70
#define DC_STATE_PUSH_EOD 0x80
#define DC_STATE_FLUSH_EOD 0x90
#define DC_STATE_EOD 0xA0
#define EB_HEADER_LEN (1+8+8)
typedef struct _dc_ {
nh_t * nh;
gh_t * gh;
char * buf;
int buflen;
int state; /* 0 read/write, 1 listen, 2 connect */
int eod;
int eof;
globus_off_t off;
globus_off_t count;
} dc_t;
typedef struct {
dc_t * dcs;
int dccnt;
int eods;
int eeods;
} ebpd_t;
static errcode_t
_f_eb_read_pullup(dc_t * dc);
static errcode_t
_f_eb_header_pullup(ebpd_t * ebpd, dc_t * dc);
static errcode_t
_f_eb_poll(dch_t * dch);
static char *
_f_eb_header(char desc, globus_off_t count, globus_off_t off);
static errcode_t
_f_eb_push_header(ebpd_t * ebpd, dc_t * dc);
static errcode_t
_f_eb_push_eod(ebpd_t * ebpd, dc_t * dc);
static errcode_t
_f_eb_push_eof(ebpd_t * ebpd, dc_t * dc);
static errcode_t
_f_eb_push_data(ebpd_t * ebpd, dc_t * dc);
static errcode_t
_f_eb_active(dch_t * dch, struct sockaddr * sin, socklen_t sin_len, int scnt)
{
errcode_t ec = EC_SUCCESS;
ebpd_t * ebpd = NULL;
int s = 0;
int p = 0;
dch->privdata = ebpd = (ebpd_t*) malloc(sizeof(ebpd_t));
memset(ebpd, 0, sizeof(ebpd_t));
ebpd->dcs = (dc_t*) malloc(sizeof(dc_t) * (scnt * s_parallel()));
memset(ebpd->dcs, 0, sizeof(dc_t) * (scnt * s_parallel()));
for (s = 0; s < scnt; s++)
{
for (p = 0; p < s_parallel(); p++)
{
/* Non blocking connect. */
ec = net_connect(&ebpd->dcs[ebpd->dccnt].nh, &sin[s], sin_len);
if (ec)
return ec;
ebpd->dcs[ebpd->dccnt].state = DC_STATE_CONNECT;
ebpd->dccnt++;
}
}
ebpd->eeods = ebpd->dccnt;
return ec;
}
static errcode_t
_f_eb_passive(dch_t * dch, struct sockaddr * sin, socklen_t sin_len)
{
errcode_t ec = EC_SUCCESS;
ebpd_t * ebpd = NULL;
dch->privdata = ebpd = (ebpd_t*) malloc(sizeof(ebpd_t));
memset(ebpd, 0, sizeof(ebpd_t));
ebpd->dcs = (dc_t*) malloc(sizeof(dc_t));
memset(ebpd->dcs, 0, sizeof(dc_t));
ec = net_listen(&ebpd->dcs[0].nh, sin, sin_len);
if (ec)
return ec;
ebpd->dcs[0].state = DC_STATE_ACCEPT;
ebpd->dccnt++;
return ec;
}
static errcode_t
_f_eb_read_ready(dch_t * dch, int * ready)
{
int i = 0;
int eods = 0;
ebpd_t * ebpd = (ebpd_t *) dch->privdata;
errcode_t ec = EC_SUCCESS;
/* Initialize the return. */
*ready = 0;
/* 'poll' to push each channel forward. */
ec = _f_eb_poll(dch);
if (ec)
return ec;
/*
* We are 'read ready' if any channel is in READ_READY and has a buflen > 0
* or all channels are at eod w/ count = 0.
*/
for (i = 0; i < ebpd->dccnt; i++)
{
/* If the channel is at eod w/ no data to read... */
if (ebpd->dcs[i].eod && ebpd->dcs[i].count == 0)
eods++;
if (ebpd->dcs[i].state == DC_STATE_READ_READY)
{
if (ebpd->dcs[i].buflen > 0)
{
*ready = 1;
return EC_SUCCESS;
}
}
}
/* If no one was ready... */
if (*ready == 0)
{
/* If we received the EOF header... */
if (ebpd->eeods > 0)
{
/* If every channel has received an EOD... */
if (ebpd->eeods == eods)
*ready = 1;
}
}
return EC_SUCCESS;
}
static errcode_t
_f_eb_read(dch_t * dch,
char ** buf,
globus_off_t * off,
size_t * len,
int * eof)
{
int i = 0;
dc_t * dc = NULL;
ebpd_t * ebpd = (ebpd_t *) dch->privdata;
errcode_t ec = EC_SUCCESS;
*buf = NULL;
*len = 0;
*off = 0;
*eof = 0;
while (!dc)
{
ec = _f_eb_poll(dch);
if (ec)
return ec;
for (i = 0; i < ebpd->dccnt; i++)
{
if (ebpd->dcs[i].state == DC_STATE_READ_READY)
{
/* If this channel is at eod w/ no data to follow... */
if (ebpd->dcs[i].eod && ebpd->dcs[i].count == 0)
{
/* Mark the channel as EOD. */
ebpd->dcs[i].state = DC_STATE_EOD;
/* Increment the eod count. */
ebpd->eods++;
/* Continue to the next channel. */
continue;
}
/* If this channel has data in its buffer... */
if (ebpd->dcs[i].buflen > 0)
{
/* Find the larget buffer to read. */
if (!dc || dc->buflen < ebpd->dcs[i].buflen)
dc = &ebpd->dcs[i];
}
}
}
/* If we could not find a channel to read... */
if (!dc)
{
/* If we have received the EOF header w/ the expected eod count...*/
if (ebpd->eeods > 0)
{
/* If all channels are now at EOD... */
if (ebpd->eods == ebpd->eeods)
{
/* Indicate EOF to the caller. */
*eof = 1;
/* Return success. */
return EC_SUCCESS;
}
}
}
}
/*
* We have a channel w/ a buffer!
*
* 4 scenerios here:
* 1) We have more data than this block holds. Copy it out and pull the
* next header.
* 2) We have less data than this block holds. Copy it out and read more
* data.
* 3) We have all data this block holds and eod. Pull it out and indicate
* EOD.
* 4) We have all data this block holds and !eod. Pull it out and pull
* the next header.
*/
/* If we have more data than this block holds... */
if (dc->buflen > dc->count)
{
/* This would be illegal. */
assert(dc->eod == 0);
/* Copy it out. */
*buf = malloc(dc->count);
*len = dc->count;
*off = dc->off;
memcpy(*buf, dc->buf, dc->count);
memmove(dc->buf, dc->buf + dc->count, dc->buflen - dc->count);
dc->buflen -= dc->count;
dc->off += dc->count;
dc->count = 0;
} else
{
/* Give them the actual buffer. */
*len = dc->buflen;
*buf = dc->buf;
*off = dc->off;
dc->buf = NULL;
dc->count -= dc->buflen;
dc->off += dc->buflen;
dc->buflen = 0;
}
*off += dch->partial_off;
if (dc->eod == 1 && dc->count == 0)
{
/* Mark the channel as EOD. */
dc->state = DC_STATE_EOD;
/* Increment the eod count. */
ebpd->eods++;
/* If we have received the EOF header w/ the expected eod count...*/
if (ebpd->eeods > 0)
{
/* If all channels are now at EOD... */
if (ebpd->eods == ebpd->eeods)
{
/* Indicate EOF to the caller. */
*eof = 1;
}
}
return EC_SUCCESS;
}
/* If the block is done. */
if (dc->count == 0)
{
/* Read the next header. */
dc->state = DC_STATE_HEADER_PULLUP;
return EC_SUCCESS;
}
/* There is still some block left to read, stay in READ READY. */
return EC_SUCCESS;
}
static errcode_t
_f_eb_write_ready(dch_t * dch, int * ready)
{
errcode_t ec = EC_SUCCESS;
ebpd_t * ebpd = (ebpd_t *) dch->privdata;
int i = 0;
*ready = 0;
ec = _f_eb_poll(dch);
if (ec)
return ec;
for (i = 0; i < ebpd->dccnt; i++)
{
if (ebpd->dcs[i].state == DC_STATE_READY)
{
*ready = 1;
return ec;
}
}
return ec;
}
static errcode_t
_f_eb_write(dch_t * dch,
char * buf,
globus_off_t off,
size_t len,
int eof)
{
errcode_t ec = EC_SUCCESS;
dc_t * dc = NULL;
ebpd_t * ebpd = (ebpd_t *) dch->privdata;
int i = 0;
off -= dch->partial_off;
if (buf && len)
{
while (!dc)
{
ec = _f_eb_poll(dch);
if (ec)
return ec;
for (i = 0; !dc && i < ebpd->dccnt; i++)
{
if (ebpd->dcs[i].state == DC_STATE_READY)
dc = &ebpd->dcs[i];
}
}
dc->buf = buf;
dc->off = off;
dc->count = len;
dc->buflen = len;
dc->state = DC_STATE_PUSH_HEADER;
}
/* Set state to WRITE_PUSH */
if (!eof)
return ec;
/* Flush data. Send EOF once to each server. */
for (i = 0; i < ebpd->dccnt; i += s_parallel())
{
while (ebpd->dcs[i].state != DC_STATE_READY)
{
ec = _f_eb_poll(dch);
if (ec)
return ec;
}
ebpd->dcs[i].state = DC_STATE_PUSH_EOF;
}
/* Flush EOF. Send EOD. */
for (i = 0; i < ebpd->dccnt; i++)
{
while (ebpd->dcs[i].state != DC_STATE_READY)
{
ec = _f_eb_poll(dch);
if (ec)
return ec;
}
ebpd->dcs[i].state = DC_STATE_PUSH_EOD;
}
/* Flush EOD. */
for (i = 0; i < ebpd->dccnt; i++)
{
while (ebpd->dcs[i].state != DC_STATE_EOD)
{
ec = _f_eb_poll(dch);
if (ec)
return ec;
}
}
return ec;
}
static void
_f_eb_close(dch_t * dch)
{
errcode_t ec = EC_SUCCESS;
ebpd_t * ebpd = NULL;
int i = 0;
int wr = 0;
int rd = 0;
if (!dch->privdata)
return;
ebpd = (ebpd_t *) dch->privdata;
for (i = 0; i < ebpd->dccnt; i++)
{
if (ebpd->dcs[i].state == DC_STATE_CONNECT)
{
do {
rd = wr = 1;
ec = net_poll(ebpd->dcs[i].nh, &rd, &wr, -1);
} while (ec == EC_SUCCESS && !wr && !rd);
ec_destroy(ec);
}
FREE(ebpd->dcs[i].buf);
net_destroy(ebpd->dcs[i].nh);
gsi_destroy(ebpd->dcs[i].gh);
}
FREE(ebpd->dcs);
FREE(dch->privdata);
dch->privdata = NULL;
}
const dci_t Ftp_eb_dci = {
_f_eb_active,
_f_eb_passive,
_f_eb_read_ready,
_f_eb_read,
_f_eb_write_ready,
_f_eb_write,
_f_eb_close,
};
static errcode_t
_f_eb_read_pullup(dc_t * dc)
{
errcode_t ec = EC_SUCCESS;
int rdy = 0;
char * buf = NULL;
size_t len = 0;
int eof = 0;
if (dc->eof)
return ec;
ec = gsi_dc_fl_read(dc->gh, dc->nh);
if (ec)
return ec;
rdy = gsi_dc_ready(dc->gh, dc->nh, 1);
if (!rdy)
return ec;
ec = gsi_dc_read(dc->gh, dc->nh, &buf, &len, &eof);
if (ec)
return ec;
if (eof)
dc->eof = eof;
dc->buf = (char *) realloc(dc->buf, dc->buflen + len);
memcpy(dc->buf + dc->buflen, buf, len);
dc->buflen += len;
Free(buf);
return ec;
}
static errcode_t
_f_eb_header_pullup(ebpd_t * ebpd, dc_t * dc)
{
errcode_t ec = EC_SUCCESS;
int desc = 0;
ec = _f_eb_read_pullup(dc);
if (ec)
return ec;
if (dc->buflen < EB_HEADER_LEN)
return ec;
/* Initialize the count and offset. */
dc->count = 0;
dc->off = 0;
/* Find the descriptor field. */
desc = (int) dc->buf[0];
/* Eod */
if (desc & 0x08)
dc->eod = 1;
/*
* EOF Header. This header is a different format than the others:
* 8 bit descriptor, 64 bits unused, 64 bit expected EOD count
* No data follows this header.
*/
if (desc & 0x40)
{
ebpd->eeods = (((int)dc->buf[13]) << 24) +
(((int)dc->buf[14]) << 16) +
(((int)dc->buf[15]) << 8) +
(((int)dc->buf[16]));
memmove(dc->buf, dc->buf + EB_HEADER_LEN, dc->buflen - EB_HEADER_LEN);
dc->buflen -= EB_HEADER_LEN;
/*
* If we received EOD, we are done (since we can not receive more data
* on this header. Go to READ READY with count = 0 so that we can set
* eof when the caller calls read.
*/
if (dc->eod)
dc->state = DC_STATE_READ_READY;
/* If not eod, stay in header pullup. */
return ec;
}
dc->count = (((globus_off_t)dc->buf[1] & 0xFF) << 56) +
(((globus_off_t)dc->buf[2] & 0xFF) << 48) +
(((globus_off_t)dc->buf[3] & 0xFF) << 40) +
(((globus_off_t)dc->buf[4] & 0xFF) << 32) +
(((globus_off_t)dc->buf[5] & 0xFF) << 24) +
(((globus_off_t)dc->buf[6] & 0xFF) << 16) +
(((globus_off_t)dc->buf[7] & 0xFF) << 8) +
(((globus_off_t)dc->buf[8] & 0xFF));
dc->off = (((globus_off_t)dc->buf[9] & 0xFF) << 56) +
(((globus_off_t)dc->buf[10] & 0xFF) << 48) +
(((globus_off_t)dc->buf[11] & 0xFF) << 40) +
(((globus_off_t)dc->buf[12] & 0xFF) << 32) +
(((globus_off_t)dc->buf[13] & 0xFF) << 24) +
(((globus_off_t)dc->buf[14] & 0xFF) << 16) +
(((globus_off_t)dc->buf[15] & 0xFF) << 8) +
(((globus_off_t)dc->buf[16] & 0xFF));
memmove(dc->buf, dc->buf + EB_HEADER_LEN, dc->buflen - EB_HEADER_LEN);
dc->buflen -= EB_HEADER_LEN;
/* Mark us as read ready. */
dc->state = DC_STATE_READ_READY;
return ec;
}
static errcode_t
_f_eb_poll(dch_t * dch)
{
errcode_t ec = EC_SUCCESS;
int done = 0;
int i = 0;
ebpd_t * ebpd = (ebpd_t *) dch->privdata;
dc_t * dc = NULL;
nh_t * nh = NULL;
for (i = 0; !ec && i < ebpd->dccnt; i++)
{
dc = &ebpd->dcs[i];
switch (dc->state)
{
case DC_STATE_CONNECT:
dc->state = DC_STATE_CONNECT_AUTH;
case DC_STATE_CONNECT_AUTH:
ec = gsi_dc_auth(&dc->gh, dc->nh, dch->pbsz, dch->dcau, 0, &done);
if (!ec && done)
dc->state = DC_STATE_READY;
break;
case DC_STATE_ACCEPT:
ec = net_accept(dc->nh, &nh);
if (ec || !nh)
break;
ebpd->dccnt++;
ebpd->dcs = (dc_t*) realloc(ebpd->dcs, sizeof(dc_t)*ebpd->dccnt);
memset(&ebpd->dcs[ebpd->dccnt-1], 0, sizeof(dc_t));
ebpd->dcs[ebpd->dccnt-1].nh = nh;
ebpd->dcs[ebpd->dccnt-1].state = DC_STATE_ACCEPT_AUTH;
break;
case DC_STATE_ACCEPT_AUTH:
ec = gsi_dc_auth(&dc->gh, dc->nh, dch->pbsz, dch->dcau, 1, &done);
if (!ec && done)
dc->state = DC_STATE_HEADER_PULLUP;
break;
case DC_STATE_HEADER_PULLUP:
ec = _f_eb_header_pullup(ebpd, dc);
break;
case DC_STATE_READ_READY:
/*
* It may be the case that we have already read our entire block or
* perhaps we aren't receiving a block (count = 0). So only bother
* with the read if we know we have data to read.
*/
if (dc->count > dc->buflen)
ec = _f_eb_read_pullup(dc);
break;
case DC_STATE_PUSH_HEADER:
ec = _f_eb_push_header(ebpd, dc);
break;
case DC_STATE_PUSH_DATA:
ec = _f_eb_push_data(ebpd, dc);
break;
case DC_STATE_PUSH_EOD:
ec = _f_eb_push_eod(ebpd, dc);
break;
case DC_STATE_PUSH_EOF:
ec = _f_eb_push_eof(ebpd, dc);
break;
case DC_STATE_FLUSH_HEADER:
case DC_STATE_FLUSH_DATA:
case DC_STATE_FLUSH_EOF:
case DC_STATE_FLUSH_EOD:
ec = gsi_dc_fl_write(dc->gh, dc->nh);
if (gsi_dc_ready(dc->gh, dc->nh, 0))
{
switch (dc->state)
{
case DC_STATE_FLUSH_HEADER:
dc->state = DC_STATE_PUSH_DATA;
break;
case DC_STATE_FLUSH_DATA:
case DC_STATE_FLUSH_EOF:
dc->state = DC_STATE_READY;
break;
case DC_STATE_FLUSH_EOD:
dc->state = DC_STATE_EOD;
ebpd->eods++;
break;
}
}
break;
}
}
return ec;
}
static char *
_f_eb_header(char desc, globus_off_t count, globus_off_t off)
{
char * cptr = (char *) malloc(EB_HEADER_LEN);
cptr[0] = desc;
cptr[1] = (count >> 56) & 0xFF;
cptr[2] = (count >> 48) & 0xFF;
cptr[3] = (count >> 40) & 0xFF;
cptr[4] = (count >> 32) & 0xFF;
cptr[5] = (count >> 24) & 0xFF;
cptr[6] = (count >> 16) & 0xFF;
cptr[7] = (count >> 8) & 0xFF;
cptr[8] = (count >> 0) & 0xFF;
cptr[9] = (off >> 56) & 0xFF;
cptr[10] = (off >> 48) & 0xFF;
cptr[11] = (off >> 40) & 0xFF;
cptr[12] = (off >> 32) & 0xFF;
cptr[13] = (off >> 24) & 0xFF;
cptr[14] = (off >> 16) & 0xFF;
cptr[15] = (off >> 8) & 0xFF;
cptr[16] = (off >> 0) & 0xFF;
return cptr;
}
static errcode_t
_f_eb_push_header(ebpd_t * ebpd, dc_t * dc)
{
errcode_t ec = EC_SUCCESS;
char * header = _f_eb_header(0, dc->count, dc->off);
ec = gsi_dc_write(dc->gh, dc->nh, header, EB_HEADER_LEN, 0);
dc->state = DC_STATE_FLUSH_HEADER;
return ec;
}
static errcode_t
_f_eb_push_eod(ebpd_t * ebpd, dc_t * dc)
{
errcode_t ec = EC_SUCCESS;
/* 0x08 = EOD */
/* 0x04 = Close data channel . */
char * header = _f_eb_header(0x08|0x04, 0, 0);
ec = gsi_dc_write(dc->gh, dc->nh, header, EB_HEADER_LEN, 0);
dc->state = DC_STATE_FLUSH_EOD;
return ec;
}
static errcode_t
_f_eb_push_eof(ebpd_t * ebpd, dc_t * dc)
{
errcode_t ec = EC_SUCCESS;
char * header = _f_eb_header(0x40, 0, s_parallel());
ec = gsi_dc_write(dc->gh, dc->nh, header, EB_HEADER_LEN, 0);
dc->state = DC_STATE_FLUSH_EOF;
return ec;
}
static errcode_t
_f_eb_push_data(ebpd_t * ebpd, dc_t * dc)
{
errcode_t ec = EC_SUCCESS;
ec = gsi_dc_write(dc->gh, dc->nh, dc->buf, dc->buflen, 0);
dc->buf = NULL;
dc->buflen = 0;
dc->count = 0;
dc->off = 0;
dc->state = DC_STATE_FLUSH_DATA;
return ec;
}