* apps/system/zmodem/zm_receive.c
*
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership. The
* ASF licenses this file to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance with the
* License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
* WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
* License for the specific language governing permissions and limitations
* under the License.
*
****************************************************************************/
* "The ZMODEM Inter Application File Transfer Protocol", Chuck Forsberg,
* Omen Technology Inc., October 14, 1988
*
* This is an original work, but I want to make sure that credit is given
* where due: Parts of the state machine design were inspired by the
* Zmodem library of Edward A. Falk, dated January, 1995. License
* unspecified.
*/
* Included Files
****************************************************************************/
#include <nuttx/config.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <inttypes.h>
#include <stdio.h>
#include <stdlib.h>
#include <unistd.h>
#include <string.h>
#include <fcntl.h>
#include <assert.h>
#include <errno.h>
#include "system/zmodem.h"
#include "zm.h"
* Pre-processor Definitions
****************************************************************************/
* Private Types
****************************************************************************/
*
* A simple transaction, one file, no errors, no CHALLENGE, overlapped I/O:
* These happen when zm_read() is called:
*
* Sender Receiver State
* -------------- ------------ --------
* "rz\r" ---->
* ZRQINIT ---->
* <---- ZRINIT ZMR_START
* ZSINIT ---->
* <---- ZACK ZMR_INITWAIT
* ZFILE ---->
* <---- ZRPOS ZMR_FILEINFO
* ZDATA ---->
* <---- ZCRC ZMR_CRCWAIT
* ZCRC ----> ZMR_READREADY
* Data packets ----> ZMR_READING
* Last packet ---->
* ZEOF ---->
* <---- ZRINIT
* ZFIN ---->
* <---- ZFIN ZMR_FINISH
* OO ----> ZMR_DONE
*/
enum zmrs_e
{
ZMR_START = 0,
ZMR_INITWAIT,
ZMR_FILEINFO,
ZMR_CRCWAIT,
ZMR_READREADY,
ZMR_READING,
ZMR_FINISH,
ZMR_COMMAND,
ZMR_MESSAGE,
ZMR_DONE
};
* Private Function Prototypes
****************************************************************************/
static int zmr_zrinit(FAR struct zm_state_s *pzm);
static int zmr_zsinit(FAR struct zm_state_s *pzm);
static int zmr_zsrintdata(FAR struct zm_state_s *pzm);
static int zmr_startto(FAR struct zm_state_s *pzm);
static int zmr_freecnt(FAR struct zm_state_s *pzm);
static int zmr_zcrc(FAR struct zm_state_s *pzm);
static int zmr_nakcrc(FAR struct zm_state_s *pzm);
static int zmr_zfile(FAR struct zm_state_s *pzm);
static int zmr_zdata(FAR struct zm_state_s *pzm);
static int zmr_badrpos(FAR struct zm_state_s *pzm);
static int zmr_filename(FAR struct zm_state_s *pzm);
static int zmr_filedata(FAR struct zm_state_s *pzm);
static int zmr_rcvto(FAR struct zm_state_s *pzm);
static int zmr_fileto(FAR struct zm_state_s *pzm);
static int zmr_cmddata(FAR struct zm_state_s *pzm);
static int zmr_zeof(FAR struct zm_state_s *pzm);
static int zmr_zfin(FAR struct zm_state_s *pzm);
static int zmr_finto(FAR struct zm_state_s *pzm);
static int zmr_oo(FAR struct zm_state_s *pzm);
static int zmr_message(FAR struct zm_state_s *pzm);
static int zmr_zstderr(FAR struct zm_state_s *pzm);
static int zmr_cmdto(FAR struct zm_state_s *pzm);
static int zmr_doneto(FAR struct zm_state_s *pzm);
static int zmr_error(FAR struct zm_state_s *pzm);
static int zmr_parsefilename(FAR struct zmr_state_s *pzmr,
FAR const uint8_t *namptr);
static int zmr_openfile(FAR struct zmr_state_s *pzmr, uint32_t crc);
static int zmr_fileerror(FAR struct zmr_state_s *pzmr, uint8_t type,
uint32_t data);
static void zmr_filecleanup(FAR struct zmr_state_s *pzmr);
* Private Data
****************************************************************************/
* ZSINIT
*/
static const struct zm_transition_s g_zmr_start[] =
{
{ZME_SINIT, false, ZMR_INITWAIT, zmr_zsinit},
{ZME_FILE, false, ZMR_FILEINFO, zmr_zfile},
{ZME_RQINIT, false, ZMR_START, zmr_zrinit},
{ZME_FIN, true, ZMR_FINISH, zmr_zfin},
{ZME_NAK, true, ZMR_START, zmr_zrinit},
{ZME_FREECNT, false, ZMR_START, zmr_freecnt},
{ZME_COMMAND, false, ZMR_COMMAND, zmr_cmddata},
{ZME_STDERR, false, ZMR_MESSAGE, zmr_message},
{ZME_TIMEOUT, false, ZMR_START, zmr_startto},
{ZME_ERROR, false, ZMR_START, zmr_error}
};
* waiting for ZFILE.
*/
static const struct zm_transition_s g_zmr_initwait[] =
{
{ZME_DATARCVD, false, ZMR_START, zmr_zsrintdata},
{ZME_TIMEOUT, false, ZMR_INITWAIT, zmr_rcvto},
{ZME_ERROR, false, ZMR_INITWAIT, zmr_error}
};
* for filename in ZDATA
*/
static const struct zm_transition_s g_zmr_fileinfo[] =
{
{ZME_DATARCVD, false, ZMR_READREADY, zmr_filename},
{ZME_TIMEOUT, false, ZMR_FILEINFO, zmr_rcvto},
{ZME_ERROR, false, ZMR_FILEINFO, zmr_error}
};
* wait for ZCRC response
*/
static const struct zm_transition_s g_zmr_crcwait[] =
{
{ZME_CRC, false, ZMR_READREADY, zmr_zcrc},
{ZME_NAK, false, ZMR_CRCWAIT, zmr_nakcrc},
{ZME_RQINIT, true, ZMR_START, zmr_zrinit},
{ZME_FIN, true, ZMR_FINISH, zmr_zfin},
{ZME_TIMEOUT, false, ZMR_CRCWAIT, zmr_fileto},
{ZME_ERROR, false, ZMR_CRCWAIT, zmr_error}
};
* ready for data packets
*/
static const struct zm_transition_s g_zmr_readready[] =
{
{ZME_DATA, false, ZMR_READING, zmr_zdata},
{ZME_NAK, false, ZMR_READREADY, zmr_badrpos},
{ZME_EOF, false, ZMR_START, zmr_zeof},
{ZME_RQINIT, true, ZMR_START, zmr_zrinit},
{ZME_FILE, false, ZMR_READREADY, zmr_badrpos},
{ZME_FIN, true, ZMR_FINISH, zmr_zfin},
{ZME_TIMEOUT, false, ZMR_READREADY, zmr_fileto},
{ZME_ERROR, false, ZMR_READREADY, zmr_error}
};
static const struct zm_transition_s g_zmr_reading[] =
{
{ZME_RQINIT, true, ZMR_START, zmr_zrinit},
{ZME_FILE, false, ZMR_FILEINFO, zmr_zfile},
{ZME_NAK, true, ZMR_READREADY, zmr_badrpos},
{ZME_FIN, true, ZMR_FINISH, zmr_zfin},
{ZME_DATA, false, ZMR_READING, zmr_zdata},
{ZME_EOF, true, ZMR_START, zmr_zeof},
{ZME_DATARCVD, false, ZMR_READING, zmr_filedata},
{ZME_TIMEOUT, false, ZMR_READING, zmr_fileto},
{ZME_ERROR, false, ZMR_READING, zmr_error}
};
* ZRQINIT
*/
static const struct zm_transition_s g_zmr_finish[] =
{
{ZME_RQINIT, true, ZMR_START, zmr_zrinit},
{ZME_FILE, true, ZMR_FILEINFO, zmr_zfile},
{ZME_NAK, true, ZMR_FINISH, zmr_zfin},
{ZME_FIN, true, ZMR_FINISH, zmr_zfin},
{ZME_TIMEOUT, false, ZMR_READING, zmr_finto},
{ZME_OO, false, ZMR_READING, zmr_oo},
{ZME_ERROR, false, ZMR_FINISH, zmr_error}
};
static const struct zm_transition_s g_zmr_command[] =
{
{ZME_DATARCVD, false, ZMR_COMMAND, zmr_cmddata},
{ZME_TIMEOUT, false, ZMR_COMMAND, zmr_cmdto},
{ZME_ERROR, false, ZMR_COMMAND, zmr_error}
};
static struct zm_transition_s g_zmr_message[] =
{
{ZME_DATARCVD, false, ZMR_MESSAGE, zmr_zstderr},
{ZME_TIMEOUT, false, ZMR_MESSAGE, zmr_cmdto},
{ZME_ERROR, false, ZMR_MESSAGE, zmr_error}
};
* or
*/
static struct zm_transition_s g_zmr_done[] =
{
{ZME_TIMEOUT, false, ZMR_DONE, zmr_doneto},
{ZME_ERROR, false, ZMR_DONE, zmr_error}
};
* exactly match the order defined in enum zmrs_e
*/
static const struct zm_transition_s *g_zmr_evtable[] =
{
g_zmr_start,
g_zmr_initwait,
g_zmr_fileinfo,
g_zmr_crcwait,
g_zmr_readready,
g_zmr_reading,
g_zmr_finish,
g_zmr_command,
g_zmr_message,
g_zmr_done
};
* Private Functions
****************************************************************************/
* Name: zmr_zrinit
*
* Description:
* Resend ZRINIT header in response to ZRQINIT or ZNAK header
*
* Paragraph 9.5 "If the receiver cannot overlap serial and disk I/O, it
* uses the ZRINIT frame to specify a buffer length which the sender will
* not overflow. The sending program sends a ZCRCW data subpacket and
* waits for a ZACK header before sending the next segment of the file."
*
****************************************************************************/
static int zmr_zrinit(FAR struct zm_state_s *pzm)
{
FAR struct zmr_state_s *pzmr = (FAR struct zmr_state_s *)pzm;
uint8_t buf[4];
zmdbg("ZMR_STATE %d:->%d Send ZRINIT\n", pzm->state, ZMR_START);
pzm->state = ZMR_START;
pzm->flags &= ~ZM_FLAG_OO;
pzm->timeout = CONFIG_SYSTEM_ZMODEM_RESPTIME;
buf[0] = CONFIG_SYSTEM_ZMODEM_PKTBUFSIZE & 0xff;
buf[1] = (CONFIG_SYSTEM_ZMODEM_PKTBUFSIZE >> 8) & 0xff;
buf[2] = 0;
buf[3] = pzmr->rcaps;
return zm_sendhexhdr(pzm, ZRINIT, buf);
}
* Name: zmr_zsinit
*
* Description:
* Received a ZSINIT header in response to ZRINIT
*
****************************************************************************/
static int zmr_zsinit(FAR struct zm_state_s *pzm)
{
FAR struct zmr_state_s *pzmr = (FAR struct zmr_state_s *)pzm;
zmdbg("ZMR_STATE %d: Received ZSINIT header\n", pzm->state);
pzmr->scaps = pzm->hdrdata[4];
pzm->flags &= ~ZM_FLAG_ESCCTRL;
if ((pzmr->scaps & TESCCTL) != 0)
{
pzm->flags |= ZM_FLAG_ESCCTRL;
}
zm_readstate(pzm);
return OK;
}
* Name: zmr_startto
*
* Description:
* Timed out waiting for ZSINIT or ZFILE.
*
****************************************************************************/
static int zmr_startto(FAR struct zm_state_s *pzm)
{
FAR struct zmr_state_s *pzmr = (FAR struct zmr_state_s *)pzm;
pzmr->ntimeouts++;
zmdbg("ZMR_STATE %d: %d timeouts waiting for ZSINIT or ZFILE\n",
pzm->state, pzmr->ntimeouts);
if (pzmr->ntimeouts < 4)
{
return zmr_zrinit(pzm);
}
return -ETIMEDOUT;
}
* Name: zmr_zsrintdata
*
* Description:
* Received the rest of the ZSINIT packet.
*
****************************************************************************/
static int zmr_zsrintdata(FAR struct zm_state_s *pzm)
{
FAR struct zmr_state_s *pzmr = (FAR struct zmr_state_s *)pzm;
uint8_t by[4];
zmdbg("PSTATE %d:%d->%d:%d. Received the rest of the ZSINIT packet\n",
pzm->pstate, pzm->psubstate, PSTATE_IDLE, PIDLE_ZPAD);
pzm->pstate = PSTATE_IDLE;
pzm->psubstate = PIDLE_ZPAD;
if ((pzm->flags & ZM_FLAG_CRKOK) == 0)
{
return zm_sendhexhdr(pzm, ZNAK, g_zeroes);
}
if (pzmr->attn != NULL)
{
free(pzmr->attn);
}
pzmr->attn = NULL;
if (pzm->pktbuf[0] != '\0')
{
pzmr->attn = strdup((FAR char *)pzm->pktbuf);
}
zm_be32toby(CONFIG_SYSTEM_ZMODEM_SERIALNO, by);
return zm_sendhexhdr(pzm, ZACK, by);
}
* Name: zmr_freecnt
*
* Description:
* TODO: This is supposed to return the amount of free space on the media.
* We just return a really big number now.
*
****************************************************************************/
static int zmr_freecnt(FAR struct zm_state_s *pzm)
{
uint8_t by[4];
zmdbg("ZMR_STATE %d\n", pzm->state);
zm_be32toby(0xffffffff, by);
return zm_sendhexhdr(pzm, ZACK, by);
}
* Name: zmr_zcrc
*
* Description:
* Received file CRC. Need to accept or reject it.
*
****************************************************************************/
static int zmr_zcrc(FAR struct zm_state_s *pzm)
{
FAR struct zmr_state_s *pzmr = (FAR struct zmr_state_s *)pzm;
pzmr->crc = zm_bytobe32(pzm->hdrdata);
zmdbg("ZMR_STATE %d: CRC=%08x call zmr_openfile\n", pzmr->crc, pzm->state);
return zmr_openfile(pzmr, zm_bytobe32(pzm->hdrdata + 1));
}
* Name: zmr_nakcrc
*
* Description:
* The sender responded to ZCRC with NAK. Resend the ZCRC.
*
****************************************************************************/
static int zmr_nakcrc(FAR struct zm_state_s *pzm)
{
zmdbg("ZMR_STATE %d: Send ZCRC\n", pzm->state);
return zm_sendhexhdr(pzm, ZCRC, g_zeroes);
}
* Name: zmr_zfile
*
* Description:
* Received ZFILE. Cache the flags and set up to receive filename in
* ZDATA.
*
****************************************************************************/
static int zmr_zfile(FAR struct zm_state_s *pzm)
{
FAR struct zmr_state_s *pzmr = (FAR struct zmr_state_s *)pzm;
zmdbg("ZMR_STATE %d\n", pzm->state);
pzm->nerrors = 0;
pzm->flags &= ~ZM_FLAG_OO;
pzmr->f0 = pzmr->cmn.hdrdata[4];
pzmr->f1 = pzmr->cmn.hdrdata[3];
#if 0
pzmr->f2 = pzmr->cmn.hdrdata[2];
pzmr->f3 = pzmr->cmn.hdrdata[1];
#endif
zm_readstate(pzm);
return OK;
}
* Name: zmr_zdata
*
* Description:
* Received ZDATA header
*
****************************************************************************/
static int zmr_zdata(FAR struct zm_state_s *pzm)
{
FAR struct zmr_state_s *pzmr = (FAR struct zmr_state_s *)pzm;
zmdbg("ZMR_STATE %d\n", pzm->state);
* header with the number of characters successfully received to the file.
* If they do not agree, a ZRPOS error response is generated to force the
* sender to the right position within the file."
*/
if (zm_bytobe32(pzm->hdrdata + 1) != pzmr->offset)
{
* correct position within the file.
*/
zmdbg("Bad position, send ZRPOS(%ld)\n",
(unsigned long)pzmr->offset);
return zmr_fileerror(pzmr, ZRPOS, (uint32_t)pzmr->offset);
}
zm_readstate(pzm);
return OK;
}
* Name: zmr_badrpos
*
* Description:
* Last ZRPOS was bad, resend it
*
****************************************************************************/
static int zmr_badrpos(FAR struct zm_state_s *pzm)
{
FAR struct zmr_state_s *pzmr = (FAR struct zmr_state_s *)pzm;
uint8_t by[4];
zmdbg("ZMR_STATE %d: Send ZRPOS(%ld)\n", pzm->state,
(unsigned long)pzmr->offset);
zm_be32toby(pzmr->offset, by);
return zm_sendhexhdr(pzm, ZRPOS, by);
}
* Name: zmr_filename
*
* Description:
* Received file information
*
****************************************************************************/
static int zmr_filename(FAR struct zm_state_s *pzm)
{
FAR struct zmr_state_s *pzmr = (FAR struct zmr_state_s *)pzm;
FAR const uint8_t *pktptr;
unsigned long filesize;
unsigned long timestamp;
unsigned long bremaining;
int mode;
int serialno;
int fremaining;
int filetype;
int ret;
zmdbg("PSTATE %d:%d->%d:%d\n",
pzm->pstate, pzm->psubstate, PSTATE_IDLE, PIDLE_ZPAD);
zmdbg("ZMR_STATE %d\n", pzm->state);
pzm->pstate = PSTATE_IDLE;
pzm->psubstate = PIDLE_ZPAD;
if ((pzm->flags & ZM_FLAG_CRKOK) == 0)
{
zmdbg("ZMR_STATE %d->%d: ERROR: Bad CRC, send ZNAK\n",
pzm->state, ZMR_START);
pzm->state = ZMR_START;
return zm_sendhexhdr(pzm, ZNAK, g_zeroes);
}
if (pzmr->filename != NULL)
{
free(pzmr->filename);
pzmr->filename = NULL;
}
* that we can use it.
*/
pktptr = pzmr->cmn.pktbuf;
ret = zmr_parsefilename(pzmr, pktptr);
if (ret < 0)
{
zmdbg("ZMR_STATE %d->%d: ERROR: Failed to parse filename. "
"Send ZSKIP: %d\n",
pzm->state, ZMR_START, ret);
pzmr->cmn.state = ZMR_START;
return zm_sendhexhdr(&pzmr->cmn, ZSKIP, g_zeroes);
}
pktptr += (strlen((FAR const char *)pktptr) + 1);
*
* length timestamp mode serial-number files-remaining bytes-remaining
* file-type
*/
filesize = 0;
timestamp = 0;
mode = 0;
serialno = 0;
fremaining = 0;
bremaining = 0;
filetype = 0;
sscanf((FAR char *)pktptr, "%lu %lo %o %o %d %lu %d",
&filesize, ×tamp, &mode, &serialno, &fremaining, &bremaining,
&filetype);
pzmr->filesize = (off_t)filesize;
#ifdef CONFIG_SYSTEM_ZMODEM_TIMESTAMPS
pzmr->timestamp = (time_t)timestamp;
#endif
if ((pzmr->f1 & ZMMASK) == ZMCRC)
{
zmdbg("ZMR_STATE %d->%d\n", pzm->state, ZMR_CRCWAIT);
pzm->state = ZMR_CRCWAIT;
return zm_sendhexhdr(pzm, ZCRC, g_zeroes);
}
zmdbg("ZMR_STATE %d->%d\n", pzm->state, ZMR_READREADY);
pzm->state = ZMR_READREADY;
return zmr_openfile(pzmr, 0);
}
* Name: zmr_filedata
*
* Description:
* Received file data
*
****************************************************************************/
static int zmr_filedata(FAR struct zm_state_s *pzm)
{
FAR struct zmr_state_s *pzmr = (FAR struct zmr_state_s *)pzm;
uint8_t by[4];
int ret;
zmdbg("ZMR_STATE %d\n", pzm->state);
if ((pzm->flags & ZM_FLAG_CRKOK) == 0)
{
zmdbg("ERROR: Bad crc, send ZRPOS(%ld)\n",
(unsigned long)pzmr->offset);
pzm->nerrors++;
zmdbg("%d data errors\n", pzm->nerrors);
* the transfer
*/
if (pzm->nerrors > CONFIG_SYSTEM_ZMODEM_MAXERRORS)
{
zmdbg("PSTATE %d:%d->%d:%d\n",
pzm->pstate, pzm->psubstate, PSTATE_DATA, PDATA_READ);
zm_remwrite(pzm->remfd, g_canistr, CANISTR_SIZE);
zm_readstate(pzm);
return -EIO;
}
else
{
zmdbg("PSTATE %d:%d->%d:%d\n",
pzm->pstate, pzm->psubstate, PSTATE_IDLE, PIDLE_ZPAD);
zmdbg("ZMR_STATE %d->%d\n", pzm->state, ZMR_READREADY);
* sync
*/
pzm->state = ZMR_READREADY;
pzm->pstate = PSTATE_IDLE;
pzm->psubstate = PIDLE_ZPAD;
return zmr_fileerror(pzmr, ZRPOS, (uint32_t)pzmr->offset);
}
}
ret = zm_writefile(pzmr->outfd, pzm->pktbuf, pzm->pktlen,
pzmr->f0 == ZCNL);
if (ret < 0)
{
int errorcode = errno;
zmdbg("ERROR: Write to file failed: %d\n", errorcode);
zmdbg("PSTATE %d:%d->%d:%d\n",
pzm->pstate, pzm->psubstate, PSTATE_IDLE, PIDLE_ZPAD);
zmdbg("ZMR_STATE %d->%d\n", pzm->state, ZMR_FINISH);
* with an error.
*/
pzm->state = ZMR_FINISH;
pzm->pstate = PSTATE_IDLE;
pzm->psubstate = PIDLE_ZPAD;
zmr_fileerror(pzmr, ZFERR, (uint32_t)errorcode);
return -errorcode;
}
zmdbg("offset: %ld nchars: %d pkttype: %02x\n",
(unsigned long)pzmr->offset, pzm->pktlen, pzm->pkttype);
pzmr->offset += pzm->pktlen;
zmdbg("Bytes received: %ld\n", (unsigned long)pzmr->offset);
if (pzm->pkttype == ZCRCE || pzm->pkttype == ZCRCW)
{
zmdbg("PSTATE %d:%d->%d:%d: ZCRCE|ZCRCW\n",
pzm->pstate, pzm->psubstate, PSTATE_IDLE, PIDLE_ZPAD);
zmdbg("ZMR_STATE %d->%d\n", pzm->state, ZMR_READREADY);
pzm->state = ZMR_READREADY;
pzm->pstate = PSTATE_IDLE;
pzm->psubstate = PIDLE_ZPAD;
}
else
{
zm_readstate(pzm);
}
*
* ZCRCW: Non-streaming, ZACK required
* ZCRCG: Streaming, no response
* ZCRCQ: Streaming, ZACK required
* ZCRCE: End of file, no response
*/
if (pzm->pkttype == ZCRCQ || pzm->pkttype == ZCRCW)
{
zmdbg("Send ZACK\n");
zm_be32toby(pzmr->offset, by);
return zm_sendhexhdr(pzm, ZACK, by);
}
return OK;
}
* Name: zmr_rcvto
*
* Description:
* Timed out waiting:
*
* 1) In state ZMR_INITWAIT - Received ZSINIT, waiting for data, or
* 2) In state XMRS_FILENAME - Received ZFILE, waiting for file _info
*
****************************************************************************/
static int zmr_rcvto(FAR struct zm_state_s *pzm)
{
FAR struct zmr_state_s *pzmr = (FAR struct zmr_state_s *)pzm;
pzmr->ntimeouts++;
zmdbg("ZMR_STATE %d: Send timeouts: %d\n", pzm->state, pzmr->ntimeouts);
if (pzmr->ntimeouts > 4)
{
return -ETIMEDOUT;
}
return zmr_zrinit(pzm);
}
* Name: zmr_fileto
*
* Description:
* Timed out waiting
* 1) In state ZMR_CRCWAIT - Received filename, waiting for CRC,
* 2) In state ZMR_READREADY - Received filename, ready to read, or
* 3) IN state ZMR_READING - Reading data
*
****************************************************************************/
static int zmr_fileto(FAR struct zm_state_s *pzm)
{
FAR struct zmr_state_s *pzmr = (FAR struct zmr_state_s *)pzm;
pzmr->ntimeouts++;
zmdbg("ZMR_STATE %d: %d send timeouts\n", pzm->state, pzmr->ntimeouts);
if (pzmr->ntimeouts > 2)
{
pzmr->ntimeouts = 0;
return zmr_zrinit(pzm);
}
return pzm->state == ZMR_CRCWAIT ? zmr_nakcrc(pzm) : zmr_badrpos(pzm);
}
* Name: zmr_zeof
*
* Description:
* Received ZEOF packet. File is now complete
*
****************************************************************************/
static int zmr_zeof(FAR struct zm_state_s *pzm)
{
FAR struct zmr_state_s *pzmr = (FAR struct zmr_state_s *)pzm;
zmdbg("ZMR_STATE %d: offset=%ld\n", pzm->state,
(unsigned long)pzmr->offset);
if (zm_bytobe32(pzm->hdrdata + 1) != pzmr->offset)
{
zmdbg("ERROR: Bad length\n");
zmdbg("ZMR_STATE %d->%d\n", pzm->state, ZMR_READREADY);
pzm->state = ZMR_READREADY;
return OK;
}
* TODO: if we can't close the file, send a ZFERR.
*/
close(pzmr->outfd);
pzmr->outfd = -1;
return zmr_zrinit(pzm);
}
* Name: zmr_cmddata
*
* Description:
* Received command data (not implemented)
*
****************************************************************************/
static int zmr_cmddata(FAR struct zm_state_s *pzm)
{
zmdbg("ZMR_STATE %d\n", pzm->state);
return OK;
}
* Name: zmr_zfin
*
* Description:
* Received ZFIN, respond with ZFIN. Wait for ZRQINIT or "OO"
*
****************************************************************************/
static int zmr_zfin(FAR struct zm_state_s *pzm)
{
FAR struct zmr_state_s *pzmr = (FAR struct zmr_state_s *)pzm;
* and wait for either ZRQINIT meaning that another file follows or "OO"
* meaning that we are all done.
*/
zmdbg("PSTATE %d:%d->%d:%d: Send ZFIN\n",
pzm->pstate, pzm->psubstate, PSTATE_IDLE, PIDLE_ZPAD);
zmdbg("ZMR_STATE %d\n", pzm->state);
pzm->pstate = ZMR_FINISH;
pzm->pstate = PSTATE_IDLE;
pzm->psubstate = PIDLE_ZPAD;
zmr_filecleanup(pzmr);
pzm->flags |= ZM_FLAG_OO;
return zm_sendhexhdr(pzm, ZFIN, g_zeroes);
}
* Name: zmr_finto
*
* Description:
* Timedout in state ZMR_FINISH - Sent ZFIN, waiting for "OO"
*
****************************************************************************/
static int zmr_finto(FAR struct zm_state_s *pzm)
{
FAR struct zmr_state_s *pzmr = (FAR struct zmr_state_s *)pzm;
* done).
*/
pzmr->ntimeouts++;
pzm->flags &= ~ZM_FLAG_OO;
zmdbg("ZMR_STATE %d: %d send timeouts\n", pzm->state, pzmr->ntimeouts);
return -ETIMEDOUT;
}
* Name: zmr_oo
*
* Description:
* Received "OO" in the ZMR_FINISH state. We are finished!
*
****************************************************************************/
static int zmr_oo(FAR struct zm_state_s *pzm)
{
zmdbg("ZMR_STATE %d: Done\n", pzm->state);
return ZM_XFRDONE;
}
* Name: zmr_message
*
* Description:
* The remote system wants to put a message on stderr
*
****************************************************************************/
int zmr_message(FAR struct zm_state_s *pzm)
{
zmdbg("ZMR_STATE %d\n", pzm->state);
zm_readstate(pzm);
return OK;
}
* Name: zmr_zstderr
*
* Description:
* The remote system wants to put a message on stderr
*
****************************************************************************/
static int zmr_zstderr(FAR struct zm_state_s *pzm)
{
zmdbg("ZMR_STATE %d\n", pzm->state);
pzm->pktbuf[pzm->pktlen] = '\0';
fprintf(stderr, "Message: %s", (FAR char *)pzm->pktbuf);
return OK;
}
* Name: zmr_cmdto
*
* Description:
* Timed out waiting for command or stderr data
*
****************************************************************************/
static int zmr_cmdto(FAR struct zm_state_s *pzm)
{
zmdbg("ZMR_STATE %d: Timed out: No command received\n", pzm->state);
return -ETIMEDOUT;
}
* Name: zmr_doneto
*
* Description:
* Timed out in ZMR_DONE state
*
****************************************************************************/
static int zmr_doneto(FAR struct zm_state_s *pzm)
{
zmdbg("ZMR_STATE %d: Timeout if ZMR_DONE\n", pzm->state);
return -ETIMEDOUT;
}
* Name: zmr_error
*
* Description:
* An unexpected event occurred in this state
*
****************************************************************************/
static int zmr_error(FAR struct zm_state_s *pzm)
{
zmdbg("ZMR_STATE %d: Protocol error, header=%d\n",
pzm->state, pzm->hdrdata[0]);
pzm->flags |= ZM_FLAG_WAIT;
pzm->flags &= ~ZM_FLAG_OO;
return OK;
}
* Name: zmr_parsefilename
*
* Description:
* Get an appropriate path to open. The path is returned in
* pzmr->filename.
*
****************************************************************************/
static int zmr_parsefilename(FAR struct zmr_state_s *pzmr,
FAR const uint8_t *namptr)
{
static uint32_t uniqno = 0;
struct stat buf;
uint8_t f0;
uint8_t f1;
bool exists;
int ret;
DEBUGASSERT(pzmr && !pzmr->filename);
if (*namptr == '/')
{
return -EINVAL;
}
ret = asprintf(&pzmr->filename, "%s/%s", pzmr->pathname, namptr);
if (ret < 0)
{
zmdbg("ERROR: Failed to allocate full path %s/%s\n",
CONFIG_SYSTEM_ZMODEM_MOUNTPOINT, namptr);
return -ENOMEM;
}
ret = stat(pzmr->filename, &buf);
if (ret == OK)
{
exists = true;
}
else
{
int errcode = errno;
if (errcode == ENOENT)
{
exists = false;
}
else
{
zmdbg("ERROR: stat of %s failed: %d\n", pzmr->filename, errcode);
ret = -errcode;
goto errout_with_filename;
}
}
* local definitions. We will stick with f0=f1=0 which will be a binary
* file.
*/
f0 = pzmr->f0;
f1 = pzmr->f1;
zmdbg("File %s f0=%02x, f1=%-2x, exists=%d, size=%ld/%ld\n",
pzmr->filename, f0, f1, exists, (long)buf.st_size,
(long)pzmr->filesize);
if (f0 == ZCRESUM)
{
* size. We already have the file!
*/
if (exists && buf.st_size == pzmr->filesize)
{
zmdbg("ZCRESUM: Rejected\n");
ret = -EEXIST;
goto errout_with_filename;
}
* exists yet or not.
*/
pzmr->cmn.flags |= ZM_FLAG_APPEND;
}
if (!exists && (f1 & ZMSKNOLOC) != 0)
{
zmdbg("ZMSKNOLOC: Rejected\n");
ret = -ENOENT;
goto errout_with_filename;
}
switch (f1 & ZMMASK)
{
case ZMNEWL:
{
#ifdef CONFIG_SYSTEM_ZMODEM_TIMESTAMPS
zmdbg("ZMNEWL: timestamp=%08lx st_mtime=%08lx\n",
(unsigned long)pzmr->timestamp, (unsigned long)buf.st_mtime);
#endif
zmdbg("ZMNEWL: filesize=%08lx st_size=%08lx\n",
(unsigned long)pzmr->filesize, (unsigned long)buf.st_size);
if (exists &&
#ifdef CONFIG_SYSTEM_ZMODEM_TIMESTAMPS
pzmr->timestamp <= buf.st_mtime &&
#endif
pzmr->filesize <= buf.st_size)
{
zmdbg("ZMNEWL: Rejected\n");
ret = -EPERM;
goto errout_with_filename;
}
}
break;
case ZMCRC:
{
uint32_t crc = zm_filecrc(&pzmr->cmn, pzmr->filename);
zmdbg("ZMCRC: crc=%08x vs. %08x\n", pzmr->crc, crc);
zmdbg(" filesize=%08lx st_size=%08lx\n",
(unsigned long)pzmr->filesize, (unsigned long)buf.st_size);
if (exists &&
pzmr->filesize == buf.st_size &&
pzmr->crc == crc)
{
zmdbg("ZMCRC: Rejected\n");
ret = -EPERM;
goto errout_with_filename;
}
}
break;
case ZMAPND:
pzmr->cmn.flags |= ZM_FLAG_APPEND;
case 0:
case ZMCLOB:
break;
case ZMNEW:
{
#ifdef CONFIG_SYSTEM_ZMODEM_TIMESTAMPS
zmdbg("ZMNEWL: timestamp=%08lx st_mtime=%08lx\n",
(unsigned long)pzmr->timestamp, (unsigned long)buf.st_mtime);
if (exists &&
pzmr->timestamp <= buf.st_mtime)
{
zmdbg("ZMNEW: Rejected\n");
ret = -EPERM;
goto errout_with_filename;
}
#endif
}
break;
case ZMDIFF:
{
#ifdef CONFIG_SYSTEM_ZMODEM_TIMESTAMPS
zmdbg("ZMDIFF: timestamp=%08lx st_mtime=%0l8x\n",
(unsigned long)pzmr->timestamp, (unsigned long)buf.st_mtime);
#endif
zmdbg("ZMDIFF: filesize=%08lx st_size=%08lx\n",
(unsigned long)pzmr->filesize, (unsigned long)buf.st_size);
if (exists &&
#ifdef CONFIG_SYSTEM_ZMODEM_TIMESTAMPS
pzmr->timestamp == buf.st_mtime &&
#endif
pzmr->filesize == buf.st_size)
{
zmdbg("ZMDIFF: Rejected\n");
ret = -EPERM;
goto errout_with_filename;
}
}
break;
case ZMPROT:
{
if (exists)
{
zmdbg("ZMPROT: Rejected\n");
ret = -EPERM;
goto errout_with_filename;
}
}
break;
case ZMCHNG:
{
FAR char *candidate;
if (exists)
{
while (exists)
{
ret = asprintf(&candidate, "%s_%" PRId32, pzmr->filename,
++uniqno);
if (ret < 0)
{
zmdbg("ERROR: Failed to allocate candidate %s_%d\n",
pzmr->filename, uniqno);
ret = -ENOMEM;
goto errout_with_filename;
}
ret = stat(candidate, &buf);
if (ret < 0)
{
int errcode = errno;
if (errcode != ENOENT)
{
zmdbg("ERROR: stat of %s failed: %d\n", candidate,
errcode);
}
* candidate
*/
free(pzmr->filename);
pzmr->filename = candidate;
exists = false;
}
}
}
}
break;
default:
ret = -EINVAL;
goto errout_with_filename;
}
* appending to it, then unlink the old file now.
*/
if (exists && (pzmr->cmn.flags & ZM_FLAG_APPEND) == 0)
{
ret = unlink(pzmr->filename);
if (ret != OK)
{
int errorcode = errno;
zmdbg("ERROR: unlink of %s failed: %d\n", pzmr->filename,
errorcode);
ret = -errorcode;
goto errout_with_filename;
}
}
zmdbg("Accepted filename: %s\n", pzmr->filename);
return OK;
errout_with_filename:
free(pzmr->filename);
pzmr->filename = NULL;
return ret;
}
* Name: zmr_openfile
*
* Description:
* If no output file has been opened to receive the data, then open the
* file for output whose name is in pzm->pktbuf.
*
****************************************************************************/
static int zmr_openfile(FAR struct zmr_state_s *pzmr, uint32_t crc)
{
off_t offset;
uint8_t by[4];
if (pzmr->outfd < 0)
{
if (!pzmr->filename)
{
zmdbg("No filename!\n");
goto skip;
}
pzmr->outfd = open((FAR char *)pzmr->filename,
O_WRONLY | O_CREAT | O_TRUNC, 0644);
if (pzmr->outfd < 0)
{
zmdbg("ERROR: Failed to open %s: %d\n", pzmr->filename, errno);
goto skip;
}
}
offset = 0;
if (pzmr->f0 == ZCRESUM)
{
offset = lseek(pzmr->outfd, 0, SEEK_CUR);
if (offset == (off_t)-1)
{
zmdbg("ERROR: lseek failed: %d\n", errno);
goto skip;
}
}
zmdbg("ZMR_STATE %d->%d: Send ZRPOS(%ld)\n",
pzmr->cmn.state, ZMR_READREADY, (unsigned long)offset);
pzmr->offset = offset;
pzmr->cmn.state = ZMR_READREADY;
zm_be32toby(pzmr->offset, by);
return zm_sendhexhdr(&pzmr->cmn, ZRPOS, by);
skip:
zmdbg("ZMR_STATE %d->%d: Send ZSKIP\n", pzmr->cmn.state, ZMR_START);
pzmr->cmn.state = ZMR_START;
return zm_sendhexhdr(&pzmr->cmn, ZSKIP, g_zeroes);
}
* Name: zmr_fileerror
*
* Description:
* A receiver-detected file error has occurred. Send Attn followed by
* the specified header (ZRPOS or XFERR).
*
****************************************************************************/
static int zmr_fileerror(FAR struct zmr_state_s *pzmr, uint8_t type,
uint32_t data)
{
FAR uint8_t *src;
FAR uint8_t *dest;
uint8_t by[4];
zmdbg("PSTATE %d:%d->%d:%d\n",
pzmr->cmn.pstate, pzmr->cmn.psubstate, PSTATE_IDLE, PIDLE_ZPAD);
pzmr->cmn.pstate = PSTATE_IDLE;
pzmr->cmn.psubstate = PIDLE_ZPAD;
if (pzmr->attn != NULL)
{
ssize_t nwritten;
int len;
* is encountered.
*/
dest = pzmr->cmn.pktbuf;
for (src = (FAR void *)pzmr->attn; *src != '\0'; src++)
{
if (*src == ATTNBRK)
{
#ifdef CONFIG_SYSTEM_ZMODEM_SENDBREAK
* TODO: tcsendbreak() does not yet exist.
*/
tcsendbreak(pzm->remfd, 0);
#endif
}
else if (*src == ATTNPSE)
{
sleep(1);
}
else
{
*dest++ = *src;
}
}
*dest++ = '\0';
len = strlen((FAR char *)pzmr->cmn.pktbuf);
nwritten = zm_remwrite(pzmr->cmn.remfd, pzmr->cmn.pktbuf, len);
if (nwritten < 0)
{
zmdbg("ERROR: zm_remwrite failed: %d\n", (int)nwritten);
return (int)nwritten;
}
}
zm_be32toby(data, by);
return zm_sendhexhdr(&pzmr->cmn, type, by);
}
* Name: zmr_filecleanup
*
* Description:
* Release resources tied up by the last file transfer
*
****************************************************************************/
static void zmr_filecleanup(FAR struct zmr_state_s *pzmr)
{
if (pzmr->outfd >= 0)
{
close(pzmr->outfd);
pzmr->outfd = -1;
}
if (pzmr->filename)
{
free(pzmr->filename);
pzmr->filename = NULL;
}
if (pzmr->attn)
{
free(pzmr->attn);
pzmr->attn = NULL;
}
}
* Public Functions
****************************************************************************/
* Name: zmr_initialize
*
* Description:
* Initialize for Zmodem receive operation
*
* Input Parameters:
* remfd - The R/W file/socket descriptor to use for communication with the
* remote peer.
*
* Returned Value:
* An opaque handle that can be use with zmr_receive() and zmr_release().
*
****************************************************************************/
ZMRHANDLE zmr_initialize(int remfd)
{
FAR struct zmr_state_s *pzmr;
FAR struct zm_state_s *pzm;
int ret;
pzmr = (FAR struct zmr_state_s *)zalloc(sizeof(struct zmr_state_s));
if (pzmr)
{
pzm = &pzmr->cmn;
pzm->evtable = g_zmr_evtable;
pzm->state = ZMR_START;
pzm->pstate = PSTATE_IDLE;
pzm->psubstate = PIDLE_ZPAD;
pzm->remfd = remfd;
pzmr->rcaps = CANFC32 | CANFDX;
pzmr->outfd = -1;
ret = zm_timerinit(pzm);
if (ret < 0)
{
zmdbg("ERROR: zm_timerinit failed: %d\n", ret);
free(pzmr);
return NULL;
}
* (because of the memset). If there is nothing pending, ZRINIT
* will be sent.
*/
zmdbg("Initial state: %d\n", pzm->state);
}
return (ZMRHANDLE)pzmr;
}
* Name: zmr_receive
*
* Description:
* Receive file(s) sent from the remote peer.
*
* Input Parameters:
* handle - The handler created by zmr_initialize().
* pathname - The name of the local path to hold the file
*
* Returned Value:
* Zero on success; a negated errno value on failure.
*
****************************************************************************/
int zmr_receive(ZMRHANDLE handle, FAR const char *pathname)
{
FAR struct zmr_state_s *pzmr = (FAR struct zmr_state_s *)handle;
pzmr->pathname = pathname;
* remote sender. This could take while so use a long timeout.
*/
pzmr->cmn.timeout = CONFIG_SYSTEM_ZMODEM_CONNTIME;
return zm_datapump(&pzmr->cmn);
}
* Name: zmr_release
*
* Description:
* Called by the user when there are no more files to receive.
*
* Input Parameters:
* handle - The handler created by zmr_initialize().
*
* Returned Value:
* Zero on success; a negated errno value on failure.
*
****************************************************************************/
int zmr_release(ZMRHANDLE handle)
{
FAR struct zmr_state_s *pzmr = (FAR struct zmr_state_s *)handle;
int ret;
pzmr->cmn.state = ZMR_FINISH;
ret = zm_sendhexhdr(&pzmr->cmn, ZFIN, g_zeroes);
zmdbg("ZMR_STATE %d: Send ZFIN\n", pzmr->cmn.state);
zm_timerrelease(&pzmr->cmn);
zmr_filecleanup(pzmr);
free(pzmr);
return ret;
}