#include "host.h"
#include "connect.h"
#include "hash.h"
+#include "convert.h"
#ifdef HAVE_SSL
# include "gen_sslfunc.h" /* for ssl_iread */
/* See the comment in gethttp() why this is needed. */
int global_download_count;
+/* Total size of downloaded files. Used to enforce quota. */
+LARGE_INT total_downloaded_bytes;
+
\f
static struct {
- long bytes;
- double dltime;
+ long chunk_bytes;
+ double chunk_start;
+ double sleep_adjust;
} limit_data;
static void
limit_bandwidth_reset (void)
{
- limit_data.bytes = 0;
- limit_data.dltime = 0;
+ limit_data.chunk_bytes = 0;
+ limit_data.chunk_start = 0;
}
/* Limit the bandwidth by pausing the download for an amount of time.
- BYTES is the number of bytes received from the network, and DELTA
- is how long it took to receive them. */
+ BYTES is the number of bytes received from the network, and TIMER
+ is the timer that started at the beginning of download. */
static void
-limit_bandwidth (long bytes, double delta)
+limit_bandwidth (long bytes, struct wget_timer *timer)
{
+ double delta_t = wtimer_read (timer) - limit_data.chunk_start;
double expected;
- limit_data.bytes += bytes;
- limit_data.dltime += delta;
+ limit_data.chunk_bytes += bytes;
- expected = 1000.0 * limit_data.bytes / opt.limit_rate;
+ /* Calculate the amount of time we expect downloading the chunk
+ should take. If in reality it took less time, sleep to
+ compensate for the difference. */
+ expected = 1000.0 * limit_data.chunk_bytes / opt.limit_rate;
- if (expected > limit_data.dltime)
+ if (expected > delta_t)
{
- double slp = expected - limit_data.dltime;
+ double slp = expected - delta_t + limit_data.sleep_adjust;
+ double t0, t1;
if (slp < 200)
{
DEBUGP (("deferring a %.2f ms sleep (%ld/%.2f).\n",
- slp, limit_data.bytes, limit_data.dltime));
+ slp, limit_data.chunk_bytes, delta_t));
return;
}
- DEBUGP (("sleeping %.2f ms\n", slp));
- usleep ((unsigned long) (1000 * slp));
+ DEBUGP (("\nsleeping %.2f ms for %ld bytes, adjust %.2f ms\n",
+ slp, limit_data.chunk_bytes, limit_data.sleep_adjust));
+
+ t0 = wtimer_read (timer);
+ xsleep (slp / 1000);
+ wtimer_update (timer);
+ t1 = wtimer_read (timer);
+
+ /* Due to scheduling, we probably slept slightly longer (or
+ shorter) than desired. Calculate the difference between the
+ desired and the actual sleep, and adjust the next sleep by
+ that amount. */
+ limit_data.sleep_adjust = slp - (t1 - t0);
}
- limit_data.bytes = 0;
- limit_data.dltime = 0;
+ limit_data.chunk_bytes = 0;
+ limit_data.chunk_start = wtimer_read (timer);
}
#define MIN(i, j) ((i) <= (j) ? (i) : (j))
/* Reads the contents of file descriptor FD, until it is closed, or a
read error occurs. The data is read in 8K chunks, and stored to
- stream fp, which should have been open for writing. If BUF is
- non-NULL and its file descriptor is equal to FD, flush RBUF first.
- This function will *not* use the rbuf_* functions!
+ stream fp, which should have been open for writing.
The EXPECTED argument is passed to show_progress() unchanged, but
otherwise ignored.
The function exits and returns codes of 0, -1 and -2 if the
connection was closed, there was a read error, or if it could not
- write to the output stream, respectively.
+ write to the output stream, respectively. */
- IMPORTANT: The function flushes the contents of the buffer in
- rbuf_flush() before actually reading from fd. If you wish to read
- from fd immediately, flush or discard the buffer. */
int
-get_contents (int fd, FILE *fp, long *len, long restval, long expected,
- struct rbuf *rbuf, int use_expected, double *elapsed)
+fd_read_body (int fd, FILE *out, long *len, long restval, long expected,
+ int use_expected, double *elapsed)
{
int res = 0;
static char dlbuf[16384];
int dlbufsize = sizeof (dlbuf);
- void *progress = NULL;
struct wget_timer *timer = wtimer_allocate ();
- double dltime = 0, last_dltime = 0;
+ double last_successful_read_tm;
+
+ /* The progress gauge, set according to the user preferences. */
+ void *progress = NULL;
+
+ /* Non-zero if the progress gauge is interactive, i.e. if it can
+ continually update the display. When true, smaller timeout
+ values are used so that the gauge can update the display when
+ data arrives slowly. */
+ int progress_interactive = 0;
*len = restval;
if (opt.verbose)
- progress = progress_create (restval, expected);
-
- if (rbuf && RBUF_FD (rbuf) == fd)
{
- int sz = 0;
- while ((res = rbuf_flush (rbuf, dlbuf, sizeof (dlbuf))) != 0)
- {
- fwrite (dlbuf, 1, res, fp);
- *len += res;
- sz += res;
- }
- if (sz)
- fflush (fp);
- if (ferror (fp))
- {
- res = -2;
- goto out;
- }
- if (progress)
- progress_update (progress, sz, 0);
+ progress = progress_create (restval, expected);
+ progress_interactive = progress_interactive_p (progress);
}
if (opt.limit_rate)
limit_bandwidth_reset ();
wtimer_reset (timer);
+ last_successful_read_tm = 0;
- /* If we're limiting the download, set our buffer size to the
- limit. */
+ /* Use a smaller buffer for low requested bandwidths. For example,
+ with --limit-rate=2k, it doesn't make sense to slurp in 16K of
+ data and then sleep for 8s. With buffer size equal to the limit,
+ we never have to sleep for more than one second. */
if (opt.limit_rate && opt.limit_rate < dlbufsize)
dlbufsize = opt.limit_rate;
{
int amount_to_read = (use_expected
? MIN (expected - *len, dlbufsize) : dlbufsize);
-#ifdef HAVE_SSL
- if (rbuf->ssl!=NULL)
- res = ssl_iread (rbuf->ssl, dlbuf, amount_to_read);
- else
-#endif /* HAVE_SSL */
- res = iread (fd, dlbuf, amount_to_read);
+ double tmout = opt.read_timeout;
+ if (progress_interactive)
+ {
+ double waittm;
+ /* For interactive progress gauges, always specify a ~1s
+ timeout, so that the gauge can be updated regularly even
+ when the data arrives very slowly or stalls. */
+ tmout = 0.95;
+ waittm = (wtimer_read (timer) - last_successful_read_tm) / 1000;
+ if (waittm + tmout > opt.read_timeout)
+ {
+ /* Don't allow waiting time to exceed read timeout. */
+ tmout = opt.read_timeout - waittm;
+ if (tmout < 0)
+ {
+ /* We've already exceeded the timeout. */
+ res = -1, errno = ETIMEDOUT;
+ break;
+ }
+ }
+ }
+ res = fd_read (fd, dlbuf, amount_to_read, tmout);
- if (res <= 0)
+ if (res == 0 || (res < 0 && errno != ETIMEDOUT))
break;
+ else if (res < 0)
+ res = 0; /* timeout */
- fwrite (dlbuf, 1, res, fp);
- /* Always flush the contents of the network packet. This should
- not hinder performance: fast downloads will be received in
- 16K chunks (which stdio would write out anyway), and slow
- downloads won't be limited with disk performance. */
- fflush (fp);
- if (ferror (fp))
+ wtimer_update (timer);
+ if (res > 0)
{
- res = -2;
- goto out;
+ fwrite (dlbuf, 1, res, out);
+ /* Always flush the contents of the network packet. This
+ should not hinder performance: fast downloads will be
+ received in 16K chunks (which stdio would write out
+ anyway), and slow downloads won't be limited by disk
+ performance. */
+ fflush (out);
+ if (ferror (out))
+ {
+ res = -2;
+ goto out;
+ }
+ last_successful_read_tm = wtimer_read (timer);
}
- /* If bandwidth is not limited, one call to wtimer_elapsed is
- sufficient. */
- dltime = wtimer_elapsed (timer);
if (opt.limit_rate)
- {
- limit_bandwidth (res, dltime - last_dltime);
- dltime = wtimer_elapsed (timer);
- last_dltime = dltime;
- }
+ limit_bandwidth (res, timer);
- if (progress)
- progress_update (progress, res, dltime);
*len += res;
+ if (progress)
+ progress_update (progress, res, wtimer_read (timer));
+#ifdef WINDOWS
+ if (use_expected && expected > 0)
+ ws_percenttitle (100.0 * (double)(*len) / (double)expected);
+#endif
}
if (res < -1)
res = -1;
out:
if (progress)
- progress_finish (progress, dltime);
+ progress_finish (progress, wtimer_read (timer));
if (elapsed)
- *elapsed = dltime;
+ *elapsed = wtimer_read (timer);
wtimer_delete (timer);
return res;
}
\f
+typedef const char *(*finder_t) PARAMS ((const char *, int, int));
+
+/* Driver for fd_read_line and fd_read_head: keeps reading data until
+ a terminator (as decided by FINDER) occurs in the data. The trick
+ is that the data is first peeked at, and only then actually read.
+ That way the data after the terminator is never read. */
+
+static char *
+fd_read_until (int fd, finder_t finder, int bufsize)
+{
+ int size = bufsize, tail = 0;
+ char *buf = xmalloc (size);
+
+ while (1)
+ {
+ const char *end;
+ int pklen, rdlen, remain;
+
+ /* First, peek at the available data. */
+
+ pklen = fd_peek (fd, buf + tail, size - tail, -1);
+ if (pklen < 0)
+ {
+ xfree (buf);
+ return NULL;
+ }
+ end = finder (buf, tail, pklen);
+ if (end)
+ {
+ /* The data contains the terminator: we'll read the data up
+ to the end of the terminator. */
+ remain = end - (buf + tail);
+ /* Note +1 for trailing \0. */
+ if (size < tail + remain + 1)
+ {
+ size = tail + remain + 1;
+ buf = xrealloc (buf, size);
+ }
+ }
+ else
+ /* No terminator: simply read the data we know is (or should
+ be) available. */
+ remain = pklen;
+
+ /* Now, read the data. Note that we make no assumptions about
+ how much data we'll get. (Some TCP stacks are notorious for
+ read returning less data than the previous MSG_PEEK.) */
+
+ rdlen = fd_read (fd, buf + tail, remain, 0);
+ if (rdlen < 0)
+ {
+ xfree_null (buf);
+ return NULL;
+ }
+ if (rdlen == 0)
+ {
+ if (tail == 0)
+ {
+ /* EOF without anything having been read */
+ xfree (buf);
+ errno = 0;
+ return NULL;
+ }
+ /* Return what we received so far. */
+ if (size < tail + 1)
+ {
+ size = tail + 1; /* expand the buffer to receive the
+ terminating \0 */
+ buf = xrealloc (buf, size);
+ }
+ buf[tail] = '\0';
+ return buf;
+ }
+ tail += rdlen;
+ if (end && rdlen == remain)
+ {
+ /* The end was seen and the data read -- we got what we came
+ for. */
+ buf[tail] = '\0';
+ return buf;
+ }
+
+ /* Keep looping until all the data arrives. */
+
+ if (tail == size)
+ {
+ size <<= 1;
+ buf = xrealloc (buf, size);
+ }
+ }
+}
+
+static const char *
+line_terminator (const char *buf, int tail, int peeklen)
+{
+ const char *p = memchr (buf + tail, '\n', peeklen);
+ if (p)
+ /* p+1 because we want the line to include '\n' */
+ return p + 1;
+ return NULL;
+}
+
+/* Read one line from FD and return it. The line is allocated using
+ malloc.
+
+ If an error occurs, or if no data can be read, NULL is returned.
+ In the former case errno indicates the error condition, and in the
+ latter case, errno is NULL. */
+
+char *
+fd_read_line (int fd)
+{
+ return fd_read_until (fd, line_terminator, 128);
+}
+
+static const char *
+head_terminator (const char *buf, int tail, int peeklen)
+{
+ const char *start, *end;
+ if (tail < 4)
+ start = buf;
+ else
+ start = buf + tail - 4;
+ end = buf + tail + peeklen;
+
+ for (; start < end - 1; start++)
+ if (*start == '\n')
+ {
+ if (start < end - 2
+ && start[1] == '\r'
+ && start[2] == '\n')
+ return start + 3;
+ if (start[1] == '\n')
+ return start + 2;
+ }
+ return NULL;
+}
+
+/* Read the request head from FD and return it. The chunk of data is
+ allocated using malloc.
+
+ If an error occurs, or if no data can be read, NULL is returned.
+ In the former case errno indicates the error condition, and in the
+ latter case, errno is NULL. */
+
+char *
+fd_read_head (int fd)
+{
+ return fd_read_until (fd, head_terminator, 512);
+}
+\f
/* Return a printed representation of the download rate, as
appropriate for the speed. If PAD is non-zero, strings will be
padded to the width of 7 characters (xxxx.xx). */
} \
} while (0)
+static char *getproxy PARAMS ((struct url *));
+
/* Retrieve the given URL. Decides which loop to call -- HTTP, FTP,
FTP, proxy, etc. */
char *saved_post_data = NULL;
char *saved_post_file_name = NULL;
- /* If dt is NULL, just ignore it. */
+ /* If dt is NULL, use local storage. */
if (!dt)
- dt = &dummy;
+ {
+ dt = &dummy;
+ dummy = 0;
+ }
url = xstrdup (origurl);
if (newloc)
*newloc = NULL;
if (file)
*file = local_file ? local_file : NULL;
else
- FREE_MAYBE (local_file);
+ xfree_null (local_file);
url_free (u);
them. If HTML is non-zero, treat the file as HTML, and construct
the URLs accordingly.
- If opt.recursive is set, call recursive_retrieve() for each file. */
+ If opt.recursive is set, call retrieve_tree() for each file. */
+
uerr_t
retrieve_from_file (const char *file, int html, int *count)
{
if (cur_url->ignore_when_downloading)
continue;
- if (downloaded_exceeds_quota ())
+ if (opt.quota && total_downloaded_bytes > opt.quota)
{
status = QUOTEXC;
break;
}
- if (opt.recursive && cur_url->url->scheme != SCHEME_FTP)
+ if ((opt.recursive || opt.page_requisites)
+ && cur_url->url->scheme != SCHEME_FTP)
status = retrieve_tree (cur_url->url->url);
else
status = retrieve_url (cur_url->url->url, &filename, &new_file, NULL, &dt);
dt &= ~RETROKF;
}
- FREE_MAYBE (new_file);
- FREE_MAYBE (filename);
+ xfree_null (new_file);
+ xfree_null (filename);
}
/* Free the linked list of URL-s. */
logputs (LOG_VERBOSE, (n1 == n2) ? _("Giving up.\n\n") : _("Retrying.\n\n"));
}
-/* Increment opt.downloaded by BY_HOW_MUCH. If an overflow occurs,
- set opt.downloaded_overflow to 1. */
-void
-downloaded_increase (unsigned long by_how_much)
-{
- VERY_LONG_TYPE old;
- if (opt.downloaded_overflow)
- return;
- old = opt.downloaded;
- opt.downloaded += by_how_much;
- if (opt.downloaded < old) /* carry flag, where are you when I
- need you? */
- {
- /* Overflow. */
- opt.downloaded_overflow = 1;
- opt.downloaded = ~((VERY_LONG_TYPE)0);
- }
-}
-
-/* Return non-zero if the downloaded amount of bytes exceeds the
- desired quota. If quota is not set or if the amount overflowed, 0
- is returned. */
-int
-downloaded_exceeds_quota (void)
-{
- if (!opt.quota)
- return 0;
- if (opt.downloaded_overflow)
- /* We don't really know. (Wildly) assume not. */
- return 0;
-
- return opt.downloaded > opt.quota;
-}
-
/* If opt.wait or opt.waitretry are specified, and if certain
conditions are met, sleep the appropriate number of seconds. See
the documentation of --wait and --waitretry for more information.
/* If opt.waitretry is specified and this is a retry, wait for
COUNT-1 number of seconds, or for opt.waitretry seconds. */
if (count <= opt.waitretry)
- sleep (count - 1);
+ xsleep (count - 1);
else
- sleep (opt.waitretry);
+ xsleep (opt.waitretry);
}
else if (opt.wait)
{
/* If random-wait is not specified, or if we are sleeping
between retries of the same download, sleep the fixed
interval. */
- sleep (opt.wait);
+ xsleep (opt.wait);
else
{
/* Sleep a random amount of time averaging in opt.wait
seconds. The sleeping amount ranges from 0 to
opt.wait*2, inclusive. */
- int waitsecs = random_number (opt.wait * 2 + 1);
+ double waitsecs = 2 * opt.wait * random_float ();
+ DEBUGP (("sleep_between_retrievals: avg=%f,sleep=%f\n",
+ opt.wait, waitsecs));
+ xsleep (waitsecs);
+ }
+ }
+}
+
+/* Free the linked list of urlpos. */
+void
+free_urlpos (struct urlpos *l)
+{
+ while (l)
+ {
+ struct urlpos *next = l->next;
+ if (l->url)
+ url_free (l->url);
+ xfree_null (l->local_name);
+ xfree (l);
+ l = next;
+ }
+}
- DEBUGP (("sleep_between_retrievals: norm=%ld,fuzz=%ld,sleep=%d\n",
- opt.wait, waitsecs - opt.wait, waitsecs));
+/* Rotate FNAME opt.backups times */
+void
+rotate_backups(const char *fname)
+{
+ int maxlen = strlen (fname) + 1 + numdigit (opt.backups) + 1;
+ char *from = (char *)alloca (maxlen);
+ char *to = (char *)alloca (maxlen);
+ struct stat sb;
+ int i;
+
+ if (stat (fname, &sb) == 0)
+ if (S_ISREG (sb.st_mode) == 0)
+ return;
- if (waitsecs)
- sleep (waitsecs);
- }
+ for (i = opt.backups; i > 1; i--)
+ {
+ sprintf (from, "%s.%d", fname, i - 1);
+ sprintf (to, "%s.%d", fname, i);
+ rename (from, to);
}
+
+ sprintf (to, "%s.%d", fname, 1);
+ rename(fname, to);
+}
+
+static int no_proxy_match PARAMS ((const char *, const char **));
+
+/* Return the URL of the proxy appropriate for url U. */
+
+static char *
+getproxy (struct url *u)
+{
+ char *proxy = NULL;
+ char *rewritten_url;
+ static char rewritten_storage[1024];
+
+ if (!opt.use_proxy)
+ return NULL;
+ if (!no_proxy_match (u->host, (const char **)opt.no_proxy))
+ return NULL;
+
+ switch (u->scheme)
+ {
+ case SCHEME_HTTP:
+ proxy = opt.http_proxy ? opt.http_proxy : getenv ("http_proxy");
+ break;
+#ifdef HAVE_SSL
+ case SCHEME_HTTPS:
+ proxy = opt.https_proxy ? opt.https_proxy : getenv ("https_proxy");
+ break;
+#endif
+ case SCHEME_FTP:
+ proxy = opt.ftp_proxy ? opt.ftp_proxy : getenv ("ftp_proxy");
+ break;
+ case SCHEME_INVALID:
+ break;
+ }
+ if (!proxy || !*proxy)
+ return NULL;
+
+ /* Handle shorthands. `rewritten_storage' is a kludge to allow
+ getproxy() to return static storage. */
+ rewritten_url = rewrite_shorthand_url (proxy);
+ if (rewritten_url)
+ {
+ strncpy (rewritten_storage, rewritten_url, sizeof(rewritten_storage));
+ rewritten_storage[sizeof (rewritten_storage) - 1] = '\0';
+ proxy = rewritten_storage;
+ }
+
+ return proxy;
+}
+
+/* Should a host be accessed through proxy, concerning no_proxy? */
+int
+no_proxy_match (const char *host, const char **no_proxy)
+{
+ if (!no_proxy)
+ return 1;
+ else
+ return !sufmatch (no_proxy, host);
}