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io.c
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io.c
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/*
* Socket and pipe I/O utilities used in rsync.
*
* Copyright (C) 1996-2001 Andrew Tridgell
* Copyright (C) 1996 Paul Mackerras
* Copyright (C) 2001, 2002 Martin Pool <[email protected]>
* Copyright (C) 2003-2022 Wayne Davison
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program; if not, visit the http://fsf.org website.
*/
/* Rsync provides its own multiplexing system, which is used to send
* stderr and stdout over a single socket.
*
* For historical reasons this is off during the start of the
* connection, but it's switched on quite early using
* io_start_multiplex_out() and io_start_multiplex_in(). */
#include "rsync.h"
#include "ifuncs.h"
#include "inums.h"
/** If no timeout is specified then use a 60 second select timeout */
#define SELECT_TIMEOUT 60
extern int bwlimit;
extern size_t bwlimit_writemax;
extern int io_timeout;
extern int am_server;
extern int am_sender;
extern int am_receiver;
extern int am_generator;
extern int local_server;
extern int msgs2stderr;
extern int inc_recurse;
extern int io_error;
extern int batch_fd;
extern int eol_nulls;
extern int flist_eof;
extern int file_total;
extern int file_old_total;
extern int list_only;
extern int read_batch;
extern int compat_flags;
extern int protect_args;
extern int checksum_seed;
extern int daemon_connection;
extern int protocol_version;
extern int remove_source_files;
extern int preserve_hard_links;
extern BOOL extra_flist_sending_enabled;
extern BOOL flush_ok_after_signal;
extern struct stats stats;
extern time_t stop_at_utime;
extern struct file_list *cur_flist;
#ifdef ICONV_OPTION
extern int filesfrom_convert;
extern iconv_t ic_send, ic_recv;
#endif
int csum_length = SHORT_SUM_LENGTH; /* initial value */
int allowed_lull = 0;
int msgdone_cnt = 0;
int forward_flist_data = 0;
BOOL flist_receiving_enabled = False;
/* Ignore an EOF error if non-zero. See whine_about_eof(). */
int kluge_around_eof = 0;
int got_kill_signal = -1; /* is set to 0 only after multiplexed I/O starts */
int sock_f_in = -1;
int sock_f_out = -1;
int64 total_data_read = 0;
int64 total_data_written = 0;
char num_dev_ino_buf[4 + 8 + 8];
static struct {
xbuf in, out, msg;
int in_fd;
int out_fd; /* Both "out" and "msg" go to this fd. */
int in_multiplexed;
unsigned out_empty_len;
size_t raw_data_header_pos; /* in the out xbuf */
size_t raw_flushing_ends_before; /* in the out xbuf */
size_t raw_input_ends_before; /* in the in xbuf */
} iobuf = { .in_fd = -1, .out_fd = -1 };
static time_t last_io_in;
static time_t last_io_out;
static int write_batch_monitor_in = -1;
static int write_batch_monitor_out = -1;
static int ff_forward_fd = -1;
static int ff_reenable_multiplex = -1;
static char ff_lastchar = '\0';
static xbuf ff_xb = EMPTY_XBUF;
#ifdef ICONV_OPTION
static xbuf iconv_buf = EMPTY_XBUF;
#endif
static int select_timeout = SELECT_TIMEOUT;
static int active_filecnt = 0;
static OFF_T active_bytecnt = 0;
static int first_message = 1;
static char int_byte_extra[64] = {
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, /* (00 - 3F)/4 */
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, /* (40 - 7F)/4 */
1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, /* (80 - BF)/4 */
2, 2, 2, 2, 2, 2, 2, 2, 3, 3, 3, 3, 4, 4, 5, 6, /* (C0 - FF)/4 */
};
/* Our I/O buffers are sized with no bits on in the lowest byte of the "size"
* (indeed, our rounding of sizes in 1024-byte units assures more than this).
* This allows the code that is storing bytes near the physical end of a
* circular buffer to temporarily reduce the buffer's size (in order to make
* some storing idioms easier), while also making it simple to restore the
* buffer's actual size when the buffer's "pos" wraps around to the start (we
* just round the buffer's size up again). */
#define IOBUF_WAS_REDUCED(siz) ((siz) & 0xFF)
#define IOBUF_RESTORE_SIZE(siz) (((siz) | 0xFF) + 1)
#define IN_MULTIPLEXED (iobuf.in_multiplexed != 0)
#define IN_MULTIPLEXED_AND_READY (iobuf.in_multiplexed > 0)
#define OUT_MULTIPLEXED (iobuf.out_empty_len != 0)
#define PIO_NEED_INPUT (1<<0) /* The *_NEED_* flags are mutually exclusive. */
#define PIO_NEED_OUTROOM (1<<1)
#define PIO_NEED_MSGROOM (1<<2)
#define PIO_CONSUME_INPUT (1<<4) /* Must becombined with PIO_NEED_INPUT. */
#define PIO_INPUT_AND_CONSUME (PIO_NEED_INPUT | PIO_CONSUME_INPUT)
#define PIO_NEED_FLAGS (PIO_NEED_INPUT | PIO_NEED_OUTROOM | PIO_NEED_MSGROOM)
#define REMOTE_OPTION_ERROR "rsync: on remote machine: -"
#define REMOTE_OPTION_ERROR2 ": unknown option"
#define FILESFROM_BUFLEN 2048
enum festatus { FES_SUCCESS, FES_REDO, FES_NO_SEND };
static flist_ndx_list redo_list, hlink_list;
static void read_a_msg(void);
static void drain_multiplex_messages(void);
static void sleep_for_bwlimit(int bytes_written);
static void check_timeout(BOOL allow_keepalive, int keepalive_flags)
{
time_t t, chk;
/* On the receiving side, the generator is now the one that decides
* when a timeout has occurred. When it is sifting through a lot of
* files looking for work, it will be sending keep-alive messages to
* the sender, and even though the receiver won't be sending/receiving
* anything (not even keep-alive messages), the successful writes to
* the sender will keep things going. If the receiver is actively
* receiving data, it will ensure that the generator knows that it is
* not idle by sending the generator keep-alive messages (since the
* generator might be blocked trying to send checksums, it needs to
* know that the receiver is active). Thus, as long as one or the
* other is successfully doing work, the generator will not timeout. */
if (!io_timeout)
return;
t = time(NULL);
if (allow_keepalive) {
/* This may put data into iobuf.msg w/o flushing. */
maybe_send_keepalive(t, keepalive_flags);
}
if (!last_io_in)
last_io_in = t;
if (am_receiver)
return;
chk = MAX(last_io_out, last_io_in);
if (t - chk >= io_timeout) {
if (am_server)
msgs2stderr = 1;
rprintf(FERROR, "[%s] io timeout after %d seconds -- exiting\n",
who_am_i(), (int)(t-chk));
exit_cleanup(RERR_TIMEOUT);
}
}
/* It's almost always an error to get an EOF when we're trying to read from the
* network, because the protocol is (for the most part) self-terminating.
*
* There is one case for the receiver when it is at the end of the transfer
* (hanging around reading any keep-alive packets that might come its way): if
* the sender dies before the generator's kill-signal comes through, we can end
* up here needing to loop until the kill-signal arrives. In this situation,
* kluge_around_eof will be < 0.
*
* There is another case for older protocol versions (< 24) where the module
* listing was not terminated, so we must ignore an EOF error in that case and
* exit. In this situation, kluge_around_eof will be > 0. */
static NORETURN void whine_about_eof(BOOL allow_kluge)
{
if (kluge_around_eof && allow_kluge) {
int i;
if (kluge_around_eof > 0)
exit_cleanup(0);
/* If we're still here after 10 seconds, exit with an error. */
for (i = 10*1000/20; i--; )
msleep(20);
}
rprintf(FERROR, RSYNC_NAME ": connection unexpectedly closed "
"(%s bytes received so far) [%s]\n",
big_num(stats.total_read), who_am_i());
exit_cleanup(RERR_STREAMIO);
}
/* Do a safe read, handling any needed looping and error handling.
* Returns the count of the bytes read, which will only be different
* from "len" if we encountered an EOF. This routine is not used on
* the socket except very early in the transfer. */
static size_t safe_read(int fd, char *buf, size_t len)
{
size_t got = 0;
assert(fd != iobuf.in_fd);
while (1) {
struct timeval tv;
fd_set r_fds, e_fds;
int cnt;
FD_ZERO(&r_fds);
FD_SET(fd, &r_fds);
FD_ZERO(&e_fds);
FD_SET(fd, &e_fds);
tv.tv_sec = select_timeout;
tv.tv_usec = 0;
cnt = select(fd+1, &r_fds, NULL, &e_fds, &tv);
if (cnt <= 0) {
if (cnt < 0 && errno == EBADF) {
rsyserr(FERROR, errno, "safe_read select failed");
exit_cleanup(RERR_FILEIO);
}
check_timeout(1, MSK_ALLOW_FLUSH);
continue;
}
/*if (FD_ISSET(fd, &e_fds))
rprintf(FINFO, "select exception on fd %d\n", fd); */
if (FD_ISSET(fd, &r_fds)) {
ssize_t n = read(fd, buf + got, len - got);
if (DEBUG_GTE(IO, 2)) {
rprintf(FINFO, "[%s] safe_read(%d)=%" SIZE_T_FMT_MOD "d\n",
who_am_i(), fd, (SIZE_T_FMT_CAST)n);
}
if (n == 0)
break;
if (n < 0) {
if (errno == EINTR)
continue;
rsyserr(FERROR, errno, "safe_read failed to read %" SIZE_T_FMT_MOD "d bytes",
(SIZE_T_FMT_CAST)len);
exit_cleanup(RERR_STREAMIO);
}
if ((got += (size_t)n) == len)
break;
}
}
return got;
}
static const char *what_fd_is(int fd)
{
static char buf[20];
if (fd == sock_f_out)
return "socket";
else if (fd == iobuf.out_fd)
return "message fd";
else if (fd == batch_fd)
return "batch file";
else {
snprintf(buf, sizeof buf, "fd %d", fd);
return buf;
}
}
/* Do a safe write, handling any needed looping and error handling.
* Returns only if everything was successfully written. This routine
* is not used on the socket except very early in the transfer. */
static void safe_write(int fd, const char *buf, size_t len)
{
ssize_t n;
assert(fd != iobuf.out_fd);
n = write(fd, buf, len);
if ((size_t)n == len)
return;
if (n < 0) {
if (errno != EINTR && errno != EWOULDBLOCK && errno != EAGAIN) {
write_failed:
rsyserr(FERROR, errno,
"safe_write failed to write %" SIZE_T_FMT_MOD "d bytes to %s",
(SIZE_T_FMT_CAST)len, what_fd_is(fd));
exit_cleanup(RERR_STREAMIO);
}
} else {
buf += n;
len -= n;
}
while (len) {
struct timeval tv;
fd_set w_fds;
int cnt;
FD_ZERO(&w_fds);
FD_SET(fd, &w_fds);
tv.tv_sec = select_timeout;
tv.tv_usec = 0;
cnt = select(fd + 1, NULL, &w_fds, NULL, &tv);
if (cnt <= 0) {
if (cnt < 0 && errno == EBADF) {
rsyserr(FERROR, errno, "safe_write select failed on %s", what_fd_is(fd));
exit_cleanup(RERR_FILEIO);
}
if (io_timeout)
maybe_send_keepalive(time(NULL), MSK_ALLOW_FLUSH);
continue;
}
if (FD_ISSET(fd, &w_fds)) {
n = write(fd, buf, len);
if (n < 0) {
if (errno == EINTR)
continue;
goto write_failed;
}
buf += n;
len -= n;
}
}
}
/* This is only called when files-from data is known to be available. We read
* a chunk of data and put it into the output buffer. */
static void forward_filesfrom_data(void)
{
ssize_t len;
len = read(ff_forward_fd, ff_xb.buf + ff_xb.len, ff_xb.size - ff_xb.len);
if (len <= 0) {
if (len == 0 || errno != EINTR) {
/* Send end-of-file marker */
ff_forward_fd = -1;
write_buf(iobuf.out_fd, "\0\0", ff_lastchar ? 2 : 1);
free_xbuf(&ff_xb);
if (ff_reenable_multiplex >= 0)
io_start_multiplex_out(ff_reenable_multiplex);
free_implied_include_partial_string();
}
return;
}
if (DEBUG_GTE(IO, 2)) {
rprintf(FINFO, "[%s] files-from read=%" SIZE_T_FMT_MOD "d\n",
who_am_i(), (SIZE_T_FMT_CAST)len);
}
#ifdef ICONV_OPTION
len += ff_xb.len;
#endif
if (!eol_nulls) {
char *s = ff_xb.buf + len;
/* Transform CR and/or LF into '\0' */
while (s-- > ff_xb.buf) {
if (*s == '\n' || *s == '\r')
*s = '\0';
}
}
if (ff_lastchar)
ff_xb.pos = 0;
else {
char *s = ff_xb.buf;
/* Last buf ended with a '\0', so don't let this buf start with one. */
while (len && *s == '\0')
s++, len--;
ff_xb.pos = s - ff_xb.buf;
}
#ifdef ICONV_OPTION
if (filesfrom_convert && len) {
char *sob = ff_xb.buf + ff_xb.pos, *s = sob;
char *eob = sob + len;
int flags = ICB_INCLUDE_BAD | ICB_INCLUDE_INCOMPLETE | ICB_CIRCULAR_OUT;
if (ff_lastchar == '\0')
flags |= ICB_INIT;
/* Convert/send each null-terminated string separately, skipping empties. */
while (s != eob) {
if (*s++ == '\0') {
ff_xb.len = s - sob - 1;
add_implied_include(sob, 0);
if (iconvbufs(ic_send, &ff_xb, &iobuf.out, flags) < 0)
exit_cleanup(RERR_PROTOCOL); /* impossible? */
write_buf(iobuf.out_fd, s-1, 1); /* Send the '\0'. */
while (s != eob && *s == '\0')
s++;
sob = s;
ff_xb.pos = sob - ff_xb.buf;
flags |= ICB_INIT;
}
}
if ((ff_xb.len = s - sob) == 0)
ff_lastchar = '\0';
else {
/* Handle a partial string specially, saving any incomplete chars. */
implied_include_partial_string(sob, s);
flags &= ~ICB_INCLUDE_INCOMPLETE;
if (iconvbufs(ic_send, &ff_xb, &iobuf.out, flags) < 0) {
if (errno == E2BIG)
exit_cleanup(RERR_PROTOCOL); /* impossible? */
if (ff_xb.pos)
memmove(ff_xb.buf, ff_xb.buf + ff_xb.pos, ff_xb.len);
}
ff_lastchar = 'x'; /* Anything non-zero. */
}
} else
#endif
if (len) {
char *f = ff_xb.buf + ff_xb.pos;
char *t = ff_xb.buf;
char *eob = f + len;
char *cur = t;
/* Eliminate any multi-'\0' runs. */
while (f != eob) {
if (!(*t++ = *f++)) {
add_implied_include(cur, 0);
cur = t;
while (f != eob && *f == '\0')
f++;
}
}
implied_include_partial_string(cur, t);
ff_lastchar = f[-1];
if ((len = t - ff_xb.buf) != 0) {
/* This will not circle back to perform_io() because we only get
* called when there is plenty of room in the output buffer. */
write_buf(iobuf.out_fd, ff_xb.buf, len);
}
}
}
void reduce_iobuf_size(xbuf *out, size_t new_size)
{
if (new_size < out->size) {
/* Avoid weird buffer interactions by only outputting this to stderr. */
if (msgs2stderr == 1 && DEBUG_GTE(IO, 4)) {
const char *name = out == &iobuf.out ? "iobuf.out"
: out == &iobuf.msg ? "iobuf.msg"
: NULL;
if (name) {
rprintf(FINFO, "[%s] reduced size of %s (-%d)\n",
who_am_i(), name, (int)(out->size - new_size));
}
}
out->size = new_size;
}
}
void restore_iobuf_size(xbuf *out)
{
if (IOBUF_WAS_REDUCED(out->size)) {
size_t new_size = IOBUF_RESTORE_SIZE(out->size);
/* Avoid weird buffer interactions by only outputting this to stderr. */
if (msgs2stderr == 1 && DEBUG_GTE(IO, 4)) {
const char *name = out == &iobuf.out ? "iobuf.out"
: out == &iobuf.msg ? "iobuf.msg"
: NULL;
if (name) {
rprintf(FINFO, "[%s] restored size of %s (+%d)\n",
who_am_i(), name, (int)(new_size - out->size));
}
}
out->size = new_size;
}
}
static void handle_kill_signal(BOOL flush_ok)
{
got_kill_signal = -1;
flush_ok_after_signal = flush_ok;
exit_cleanup(RERR_SIGNAL);
}
/* Perform buffered input and/or output until specified conditions are met.
* When given a "needed" read or write request, this returns without doing any
* I/O if the needed input bytes or write space is already available. Once I/O
* is needed, this will try to do whatever reading and/or writing is currently
* possible, up to the maximum buffer allowances, no matter if this is a read
* or write request. However, the I/O stops as soon as the required input
* bytes or output space is available. If this is not a read request, the
* routine may also do some advantageous reading of messages from a multiplexed
* input source (which ensures that we don't jam up with everyone in their
* "need to write" code and nobody reading the accumulated data that would make
* writing possible).
*
* The iobuf.in, .out and .msg buffers are all circular. Callers need to be
* aware that some data copies will need to be split when the bytes wrap around
* from the end to the start. In order to help make writing into the output
* buffers easier for some operations (such as the use of SIVAL() into the
* buffer) a buffer may be temporarily shortened by a small amount, but the
* original size will be automatically restored when the .pos wraps to the
* start. See also the 3 raw_* iobuf vars that are used in the handling of
* MSG_DATA bytes as they are read-from/written-into the buffers.
*
* When writing, we flush data in the following priority order:
*
* 1. Finish writing any in-progress MSG_DATA sequence from iobuf.out.
*
* 2. Write out all the messages from the message buf (if iobuf.msg is active).
* Yes, this means that a PIO_NEED_OUTROOM call will completely flush any
* messages before getting to the iobuf.out flushing (except for rule 1).
*
* 3. Write out the raw data from iobuf.out, possibly filling in the multiplexed
* MSG_DATA header that was pre-allocated (when output is multiplexed).
*
* TODO: items for possible future work:
*
* - Make this routine able to read the generator-to-receiver batch flow?
*
* Unlike the old routines that this replaces, it is OK to read ahead as far as
* we can because the read_a_msg() routine now reads its bytes out of the input
* buffer. In the old days, only raw data was in the input buffer, and any
* unused raw data in the buf would prevent the reading of socket data. */
static char *perform_io(size_t needed, int flags)
{
fd_set r_fds, e_fds, w_fds;
struct timeval tv;
int cnt, max_fd;
size_t empty_buf_len = 0;
xbuf *out;
char *data;
if (iobuf.in.len == 0 && iobuf.in.pos != 0) {
if (iobuf.raw_input_ends_before)
iobuf.raw_input_ends_before -= iobuf.in.pos;
iobuf.in.pos = 0;
}
switch (flags & PIO_NEED_FLAGS) {
case PIO_NEED_INPUT:
/* We never resize the circular input buffer. */
if (iobuf.in.size < needed) {
rprintf(FERROR, "need to read %" SIZE_T_FMT_MOD "d bytes,"
" iobuf.in.buf is only %" SIZE_T_FMT_MOD "d bytes.\n",
(SIZE_T_FMT_CAST)needed, (SIZE_T_FMT_CAST)iobuf.in.size);
exit_cleanup(RERR_PROTOCOL);
}
if (msgs2stderr == 1 && DEBUG_GTE(IO, 3)) {
rprintf(FINFO, "[%s] perform_io(%" SIZE_T_FMT_MOD "d, %sinput)\n",
who_am_i(), (SIZE_T_FMT_CAST)needed, flags & PIO_CONSUME_INPUT ? "consume&" : "");
}
break;
case PIO_NEED_OUTROOM:
/* We never resize the circular output buffer. */
if (iobuf.out.size - iobuf.out_empty_len < needed) {
fprintf(stderr, "need to write %" SIZE_T_FMT_MOD "d bytes,"
" iobuf.out.buf is only %" SIZE_T_FMT_MOD "d bytes.\n",
(SIZE_T_FMT_CAST)needed, (SIZE_T_FMT_CAST)(iobuf.out.size - iobuf.out_empty_len));
exit_cleanup(RERR_PROTOCOL);
}
if (msgs2stderr == 1 && DEBUG_GTE(IO, 3)) {
rprintf(FINFO, "[%s] perform_io(%" SIZE_T_FMT_MOD "d,"
" outroom) needs to flush %" SIZE_T_FMT_MOD "d\n",
who_am_i(), (SIZE_T_FMT_CAST)needed,
iobuf.out.len + needed > iobuf.out.size
? (SIZE_T_FMT_CAST)(iobuf.out.len + needed - iobuf.out.size) : (SIZE_T_FMT_CAST)0);
}
break;
case PIO_NEED_MSGROOM:
/* We never resize the circular message buffer. */
if (iobuf.msg.size < needed) {
fprintf(stderr, "need to write %" SIZE_T_FMT_MOD "d bytes,"
" iobuf.msg.buf is only %" SIZE_T_FMT_MOD "d bytes.\n",
(SIZE_T_FMT_CAST)needed, (SIZE_T_FMT_CAST)iobuf.msg.size);
exit_cleanup(RERR_PROTOCOL);
}
if (msgs2stderr == 1 && DEBUG_GTE(IO, 3)) {
rprintf(FINFO, "[%s] perform_io(%" SIZE_T_FMT_MOD "d,"
" msgroom) needs to flush %" SIZE_T_FMT_MOD "d\n",
who_am_i(), (SIZE_T_FMT_CAST)needed,
iobuf.msg.len + needed > iobuf.msg.size
? (SIZE_T_FMT_CAST)(iobuf.msg.len + needed - iobuf.msg.size) : (SIZE_T_FMT_CAST)0);
}
break;
case 0:
if (msgs2stderr == 1 && DEBUG_GTE(IO, 3)) {
rprintf(FINFO, "[%s] perform_io(%" SIZE_T_FMT_MOD "d, %d)\n",
who_am_i(), (SIZE_T_FMT_CAST)needed, flags);
}
break;
default:
exit_cleanup(RERR_UNSUPPORTED);
}
while (1) {
switch (flags & PIO_NEED_FLAGS) {
case PIO_NEED_INPUT:
if (iobuf.in.len >= needed)
goto double_break;
break;
case PIO_NEED_OUTROOM:
/* Note that iobuf.out_empty_len doesn't factor into this check
* because iobuf.out.len already holds any needed header len. */
if (iobuf.out.len + needed <= iobuf.out.size)
goto double_break;
break;
case PIO_NEED_MSGROOM:
if (iobuf.msg.len + needed <= iobuf.msg.size)
goto double_break;
break;
}
max_fd = -1;
FD_ZERO(&r_fds);
FD_ZERO(&e_fds);
if (iobuf.in_fd >= 0 && iobuf.in.size - iobuf.in.len) {
if (!read_batch || batch_fd >= 0) {
FD_SET(iobuf.in_fd, &r_fds);
FD_SET(iobuf.in_fd, &e_fds);
}
if (iobuf.in_fd > max_fd)
max_fd = iobuf.in_fd;
}
/* Only do more filesfrom processing if there is enough room in the out buffer. */
if (ff_forward_fd >= 0 && iobuf.out.size - iobuf.out.len > FILESFROM_BUFLEN*2) {
FD_SET(ff_forward_fd, &r_fds);
if (ff_forward_fd > max_fd)
max_fd = ff_forward_fd;
}
FD_ZERO(&w_fds);
if (iobuf.out_fd >= 0) {
if (iobuf.raw_flushing_ends_before
|| (!iobuf.msg.len && iobuf.out.len > iobuf.out_empty_len && !(flags & PIO_NEED_MSGROOM))) {
if (OUT_MULTIPLEXED && !iobuf.raw_flushing_ends_before) {
/* The iobuf.raw_flushing_ends_before value can point off the end
* of the iobuf.out buffer for a while, for easier subtracting. */
iobuf.raw_flushing_ends_before = iobuf.out.pos + iobuf.out.len;
SIVAL(iobuf.out.buf + iobuf.raw_data_header_pos, 0,
((MPLEX_BASE + (int)MSG_DATA)<<24) + iobuf.out.len - 4);
if (msgs2stderr == 1 && DEBUG_GTE(IO, 1)) {
rprintf(FINFO, "[%s] send_msg(%d, %" SIZE_T_FMT_MOD "d)\n",
who_am_i(), (int)MSG_DATA, (SIZE_T_FMT_CAST)iobuf.out.len - 4);
}
/* reserve room for the next MSG_DATA header */
iobuf.raw_data_header_pos = iobuf.raw_flushing_ends_before;
if (iobuf.raw_data_header_pos >= iobuf.out.size)
iobuf.raw_data_header_pos -= iobuf.out.size;
else if (iobuf.raw_data_header_pos + 4 > iobuf.out.size) {
/* The 4-byte header won't fit at the end of the buffer,
* so we'll temporarily reduce the output buffer's size
* and put the header at the start of the buffer. */
reduce_iobuf_size(&iobuf.out, iobuf.raw_data_header_pos);
iobuf.raw_data_header_pos = 0;
}
/* Yes, it is possible for this to make len > size for a while. */
iobuf.out.len += 4;
}
empty_buf_len = iobuf.out_empty_len;
out = &iobuf.out;
} else if (iobuf.msg.len) {
empty_buf_len = 0;
out = &iobuf.msg;
} else
out = NULL;
if (out) {
FD_SET(iobuf.out_fd, &w_fds);
if (iobuf.out_fd > max_fd)
max_fd = iobuf.out_fd;
}
} else
out = NULL;
if (max_fd < 0) {
switch (flags & PIO_NEED_FLAGS) {
case PIO_NEED_INPUT:
iobuf.in.len = 0;
if (kluge_around_eof == 2)
exit_cleanup(0);
if (iobuf.in_fd == -2)
whine_about_eof(True);
rprintf(FERROR, "error in perform_io: no fd for input.\n");
exit_cleanup(RERR_PROTOCOL);
case PIO_NEED_OUTROOM:
case PIO_NEED_MSGROOM:
msgs2stderr = 1;
drain_multiplex_messages();
if (iobuf.out_fd == -2)
whine_about_eof(True);
rprintf(FERROR, "error in perform_io: no fd for output.\n");
exit_cleanup(RERR_PROTOCOL);
default:
/* No stated needs, so I guess this is OK. */
break;
}
break;
}
if (got_kill_signal > 0)
handle_kill_signal(True);
if (extra_flist_sending_enabled) {
if (file_total - file_old_total < MAX_FILECNT_LOOKAHEAD && IN_MULTIPLEXED_AND_READY)
tv.tv_sec = 0;
else {
extra_flist_sending_enabled = False;
tv.tv_sec = select_timeout;
}
} else
tv.tv_sec = select_timeout;
tv.tv_usec = 0;
cnt = select(max_fd + 1, &r_fds, &w_fds, &e_fds, &tv);
if (cnt <= 0) {
if (cnt < 0 && errno == EBADF) {
msgs2stderr = 1;
exit_cleanup(RERR_SOCKETIO);
}
if (extra_flist_sending_enabled) {
extra_flist_sending_enabled = False;
send_extra_file_list(sock_f_out, -1);
extra_flist_sending_enabled = !flist_eof;
} else
check_timeout((flags & PIO_NEED_INPUT) != 0, 0);
FD_ZERO(&r_fds); /* Just in case... */
FD_ZERO(&w_fds);
}
if (iobuf.in_fd >= 0 && FD_ISSET(iobuf.in_fd, &r_fds)) {
size_t len, pos = iobuf.in.pos + iobuf.in.len;
ssize_t n;
if (pos >= iobuf.in.size) {
pos -= iobuf.in.size;
len = iobuf.in.size - iobuf.in.len;
} else
len = iobuf.in.size - pos;
if ((n = read(iobuf.in_fd, iobuf.in.buf + pos, len)) <= 0) {
if (n == 0) {
/* Signal that input has become invalid. */
if (!read_batch || batch_fd < 0 || am_generator)
iobuf.in_fd = -2;
batch_fd = -1;
continue;
}
if (errno == EINTR || errno == EWOULDBLOCK || errno == EAGAIN)
n = 0;
else {
/* Don't write errors on a dead socket. */
if (iobuf.in_fd == sock_f_in) {
if (am_sender)
msgs2stderr = 1;
rsyserr(FERROR_SOCKET, errno, "read error");
} else
rsyserr(FERROR, errno, "read error");
exit_cleanup(RERR_SOCKETIO);
}
}
if (msgs2stderr == 1 && DEBUG_GTE(IO, 2)) {
rprintf(FINFO, "[%s] recv=%" SIZE_T_FMT_MOD "d\n",
who_am_i(), (SIZE_T_FMT_CAST)n);
}
if (io_timeout) {
last_io_in = time(NULL);
if (io_timeout && flags & PIO_NEED_INPUT)
maybe_send_keepalive(last_io_in, 0);
}
stats.total_read += n;
iobuf.in.len += n;
}
if (stop_at_utime && time(NULL) >= stop_at_utime) {
rprintf(FERROR, "stopping at requested limit\n");
exit_cleanup(RERR_TIMEOUT);
}
if (out && FD_ISSET(iobuf.out_fd, &w_fds)) {
size_t len = iobuf.raw_flushing_ends_before ? iobuf.raw_flushing_ends_before - out->pos : out->len;
ssize_t n;
if (bwlimit_writemax && len > bwlimit_writemax)
len = bwlimit_writemax;
if (out->pos + len > out->size)
len = out->size - out->pos;
if ((n = write(iobuf.out_fd, out->buf + out->pos, len)) <= 0) {
if (errno == EINTR || errno == EWOULDBLOCK || errno == EAGAIN)
n = 0;
else {
/* Don't write errors on a dead socket. */
msgs2stderr = 1;
iobuf.out_fd = -2;
iobuf.out.len = iobuf.msg.len = iobuf.raw_flushing_ends_before = 0;
rsyserr(FERROR_SOCKET, errno, "write error");
drain_multiplex_messages();
exit_cleanup(RERR_SOCKETIO);
}
}
if (msgs2stderr == 1 && DEBUG_GTE(IO, 2)) {
rprintf(FINFO, "[%s] %s sent=%" SIZE_T_FMT_MOD "d\n",
who_am_i(), out == &iobuf.out ? "out" : "msg", (SIZE_T_FMT_CAST)n);
}
if (io_timeout)
last_io_out = time(NULL);
stats.total_written += n;
if (bwlimit_writemax)
sleep_for_bwlimit(n);
if ((out->pos += n) == out->size) {
if (iobuf.raw_flushing_ends_before)
iobuf.raw_flushing_ends_before -= out->size;
out->pos = 0;
restore_iobuf_size(out);
} else if (out->pos == iobuf.raw_flushing_ends_before)
iobuf.raw_flushing_ends_before = 0;
if ((out->len -= n) == empty_buf_len) {
out->pos = 0;
restore_iobuf_size(out);
if (empty_buf_len)
iobuf.raw_data_header_pos = 0;
}
}
if (got_kill_signal > 0)
handle_kill_signal(True);
/* We need to help prevent deadlock by doing what reading
* we can whenever we are here trying to write. */
if (IN_MULTIPLEXED_AND_READY && !(flags & PIO_NEED_INPUT)) {
while (!iobuf.raw_input_ends_before && iobuf.in.len > 512)
read_a_msg();
if (flist_receiving_enabled && iobuf.in.len > 512)
wait_for_receiver(); /* generator only */
}
if (ff_forward_fd >= 0 && FD_ISSET(ff_forward_fd, &r_fds)) {
/* This can potentially flush all output and enable
* multiplexed output, so keep this last in the loop
* and be sure to not cache anything that would break
* such a change. */
forward_filesfrom_data();
}
}
double_break:
if (got_kill_signal > 0)
handle_kill_signal(True);
data = iobuf.in.buf + iobuf.in.pos;
if (flags & PIO_CONSUME_INPUT) {
iobuf.in.len -= needed;
iobuf.in.pos += needed;
if (iobuf.in.pos == iobuf.raw_input_ends_before)
iobuf.raw_input_ends_before = 0;
if (iobuf.in.pos >= iobuf.in.size) {
iobuf.in.pos -= iobuf.in.size;
if (iobuf.raw_input_ends_before)
iobuf.raw_input_ends_before -= iobuf.in.size;
}
}
return data;
}
static void raw_read_buf(char *buf, size_t len)
{
size_t pos = iobuf.in.pos;
char *data = perform_io(len, PIO_INPUT_AND_CONSUME);
if (iobuf.in.pos <= pos && len) {
size_t siz = len - iobuf.in.pos;
memcpy(buf, data, siz);
memcpy(buf + siz, iobuf.in.buf, iobuf.in.pos);
} else
memcpy(buf, data, len);
}
static int32 raw_read_int(void)
{
char *data, buf[4];
if (iobuf.in.size - iobuf.in.pos >= 4)
data = perform_io(4, PIO_INPUT_AND_CONSUME);
else
raw_read_buf(data = buf, 4);
return IVAL(data, 0);
}
void noop_io_until_death(void)
{
char buf[1024];
if (!iobuf.in.buf || !iobuf.out.buf || iobuf.in_fd < 0 || iobuf.out_fd < 0 || kluge_around_eof)
return;
/* If we're talking to a daemon over a socket, don't short-circuit this logic */
if (msgs2stderr && daemon_connection >= 0)
return;
kluge_around_eof = 2;
/* Setting an I/O timeout ensures that if something inexplicably weird
* happens, we won't hang around forever. */
if (!io_timeout)
set_io_timeout(60);
while (1)
read_buf(iobuf.in_fd, buf, sizeof buf);
}
/* Buffer a message for the multiplexed output stream. Is not used for (normal) MSG_DATA. */
int send_msg(enum msgcode code, const char *buf, size_t len, int convert)
{
char *hdr;
size_t needed, pos;
BOOL want_debug = DEBUG_GTE(IO, 1) && convert >= 0 && (msgs2stderr == 1 || code != MSG_INFO);
if (!OUT_MULTIPLEXED)
return 0;
if (want_debug) {
rprintf(FINFO, "[%s] send_msg(%d, %" SIZE_T_FMT_MOD "d)\n",
who_am_i(), (int)code, (SIZE_T_FMT_CAST)len);
}
/* When checking for enough free space for this message, we need to
* make sure that there is space for the 4-byte header, plus we'll
* assume that we may waste up to 3 bytes (if the header doesn't fit
* at the physical end of the buffer). */
#ifdef ICONV_OPTION
if (convert > 0 && ic_send == (iconv_t)-1)
convert = 0;
if (convert > 0) {
/* Ensuring double-size room leaves space for maximal conversion expansion. */
needed = len*2 + 4 + 3;
} else
#endif
needed = len + 4 + 3;
if (iobuf.msg.len + needed > iobuf.msg.size) {
if (am_sender)
perform_io(needed, PIO_NEED_MSGROOM);
else { /* We sometimes allow the iobuf.msg size to increase to avoid a deadlock. */
size_t old_size = iobuf.msg.size;
restore_iobuf_size(&iobuf.msg);
realloc_xbuf(&iobuf.msg, iobuf.msg.size * 2);
if (iobuf.msg.pos + iobuf.msg.len > old_size)
memcpy(iobuf.msg.buf + old_size, iobuf.msg.buf, iobuf.msg.pos + iobuf.msg.len - old_size);
}