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wget/src/http.c

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/* HTTP support.
Copyright (C) 2005 Free Software Foundation, Inc.
This file is part of GNU Wget.
GNU Wget 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 2 of the License, or
(at your option) any later version.
GNU Wget 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 Wget; if not, write to the Free Software
Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
In addition, as a special exception, the Free Software Foundation
gives permission to link the code of its release of Wget with the
OpenSSL project's "OpenSSL" library (or with modified versions of it
that use the same license as the "OpenSSL" library), and distribute
the linked executables. You must obey the GNU General Public License
in all respects for all of the code used other than "OpenSSL". If you
modify this file, you may extend this exception to your version of the
file, but you are not obligated to do so. If you do not wish to do
so, delete this exception statement from your version. */
#include <config.h>
#include <stdio.h>
#include <stdlib.h>
#include <sys/types.h>
#ifdef HAVE_STRING_H
# include <string.h>
#else
# include <strings.h>
#endif
#ifdef HAVE_UNISTD_H
# include <unistd.h>
#endif
#include <assert.h>
#include <errno.h>
#if TIME_WITH_SYS_TIME
# include <sys/time.h>
# include <time.h>
#else
# if HAVE_SYS_TIME_H
# include <sys/time.h>
# else
# include <time.h>
# endif
#endif
#ifndef errno
extern int errno;
#endif
#include "wget.h"
#include "utils.h"
#include "url.h"
#include "host.h"
#include "retr.h"
#include "connect.h"
#include "netrc.h"
#ifdef HAVE_SSL
# include "ssl.h"
#endif
#ifdef ENABLE_NTLM
# include "http-ntlm.h"
#endif
#include "cookies.h"
#ifdef ENABLE_DIGEST
# include "gen-md5.h"
#endif
#include "convert.h"
extern char *version_string;
extern LARGE_INT total_downloaded_bytes;
extern FILE *output_stream;
extern int output_stream_regular;
#ifndef MIN
# define MIN(x, y) ((x) > (y) ? (y) : (x))
#endif
static int cookies_loaded_p;
static struct cookie_jar *wget_cookie_jar;
#define TEXTHTML_S "text/html"
#define TEXTXHTML_S "application/xhtml+xml"
/* Some status code validation macros: */
#define H_20X(x) (((x) >= 200) && ((x) < 300))
#define H_PARTIAL(x) ((x) == HTTP_STATUS_PARTIAL_CONTENTS)
#define H_REDIRECTED(x) ((x) == HTTP_STATUS_MOVED_PERMANENTLY \
|| (x) == HTTP_STATUS_MOVED_TEMPORARILY \
|| (x) == HTTP_STATUS_SEE_OTHER \
|| (x) == HTTP_STATUS_TEMPORARY_REDIRECT)
/* HTTP/1.0 status codes from RFC1945, provided for reference. */
/* Successful 2xx. */
#define HTTP_STATUS_OK 200
#define HTTP_STATUS_CREATED 201
#define HTTP_STATUS_ACCEPTED 202
#define HTTP_STATUS_NO_CONTENT 204
#define HTTP_STATUS_PARTIAL_CONTENTS 206
/* Redirection 3xx. */
#define HTTP_STATUS_MULTIPLE_CHOICES 300
#define HTTP_STATUS_MOVED_PERMANENTLY 301
#define HTTP_STATUS_MOVED_TEMPORARILY 302
#define HTTP_STATUS_SEE_OTHER 303 /* from HTTP/1.1 */
#define HTTP_STATUS_NOT_MODIFIED 304
#define HTTP_STATUS_TEMPORARY_REDIRECT 307 /* from HTTP/1.1 */
/* Client error 4xx. */
#define HTTP_STATUS_BAD_REQUEST 400
#define HTTP_STATUS_UNAUTHORIZED 401
#define HTTP_STATUS_FORBIDDEN 403
#define HTTP_STATUS_NOT_FOUND 404
#define HTTP_STATUS_RANGE_NOT_SATISFIABLE 416
/* Server errors 5xx. */
#define HTTP_STATUS_INTERNAL 500
#define HTTP_STATUS_NOT_IMPLEMENTED 501
#define HTTP_STATUS_BAD_GATEWAY 502
#define HTTP_STATUS_UNAVAILABLE 503
enum rp {
rel_none, rel_name, rel_value, rel_both
};
struct request {
const char *method;
char *arg;
struct request_header {
char *name, *value;
enum rp release_policy;
} *headers;
int hcount, hcapacity;
};
/* Create a new, empty request. At least request_set_method must be
called before the request can be used. */
static struct request *
request_new ()
{
struct request *req = xnew0 (struct request);
req->hcapacity = 8;
req->headers = xnew_array (struct request_header, req->hcapacity);
return req;
}
/* Set the request's method and its arguments. METH should be a
literal string (or it should outlive the request) because it will
not be freed. ARG will be freed by request_free. */
static void
request_set_method (struct request *req, const char *meth, char *arg)
{
req->method = meth;
req->arg = arg;
}
/* Return the method string passed with the last call to
request_set_method. */
static const char *
request_method (const struct request *req)
{
return req->method;
}
/* Free one header according to the release policy specified with
request_set_header. */
static void
release_header (struct request_header *hdr)
{
switch (hdr->release_policy)
{
case rel_none:
break;
case rel_name:
xfree (hdr->name);
break;
case rel_value:
xfree (hdr->value);
break;
case rel_both:
xfree (hdr->name);
xfree (hdr->value);
break;
}
}
/* Set the request named NAME to VALUE. Specifically, this means that
a "NAME: VALUE\r\n" header line will be used in the request. If a
header with the same name previously existed in the request, its
value will be replaced by this one. A NULL value means do nothing.
RELEASE_POLICY determines whether NAME and VALUE should be released
(freed) with request_free. Allowed values are:
- rel_none - don't free NAME or VALUE
- rel_name - free NAME when done
- rel_value - free VALUE when done
- rel_both - free both NAME and VALUE when done
Setting release policy is useful when arguments come from different
sources. For example:
// Don't free literal strings!
request_set_header (req, "Pragma", "no-cache", rel_none);
// Don't free a global variable, we'll need it later.
request_set_header (req, "Referer", opt.referer, rel_none);
// Value freshly allocated, free it when done.
request_set_header (req, "Range",
aprintf ("bytes=%s-", number_to_static_string (hs->restval)),
rel_value);
*/
static void
request_set_header (struct request *req, char *name, char *value,
enum rp release_policy)
{
struct request_header *hdr;
int i;
if (!value)
{
/* A NULL value is a no-op; if freeing the name is requested,
free it now to avoid leaks. */
if (release_policy == rel_name || release_policy == rel_both)
xfree (name);
return;
}
for (i = 0; i < req->hcount; i++)
{
hdr = &req->headers[i];
if (0 == strcasecmp (name, hdr->name))
{
/* Replace existing header. */
release_header (hdr);
hdr->name = name;
hdr->value = value;
hdr->release_policy = release_policy;
return;
}
}
/* Install new header. */
if (req->hcount >= req->hcapacity)
{
req->hcapacity <<= 1;
req->headers = xrealloc (req->headers, req->hcapacity * sizeof (*hdr));
}
hdr = &req->headers[req->hcount++];
hdr->name = name;
hdr->value = value;
hdr->release_policy = release_policy;
}
/* Like request_set_header, but sets the whole header line, as
provided by the user using the `--header' option. For example,
request_set_user_header (req, "Foo: bar") works just like
request_set_header (req, "Foo", "bar"). */
static void
request_set_user_header (struct request *req, const char *header)
{
char *name;
const char *p = strchr (header, ':');
if (!p)
return;
BOUNDED_TO_ALLOCA (header, p, name);
++p;
while (ISSPACE (*p))
++p;
request_set_header (req, xstrdup (name), (char *) p, rel_name);
}
/* Remove the header with specified name from REQ. Returns 1 if the
header was actually removed, 0 otherwise. */
static int
request_remove_header (struct request *req, char *name)
{
int i;
for (i = 0; i < req->hcount; i++)
{
struct request_header *hdr = &req->headers[i];
if (0 == strcasecmp (name, hdr->name))
{
release_header (hdr);
/* Move the remaining headers by one. */
if (i < req->hcount - 1)
memmove (hdr, hdr + 1, (req->hcount - i - 1) * sizeof (*hdr));
--req->hcount;
return 1;
}
}
return 0;
}
#define APPEND(p, str) do { \
int A_len = strlen (str); \
memcpy (p, str, A_len); \
p += A_len; \
} while (0)
/* Construct the request and write it to FD using fd_write. */
static int
request_send (const struct request *req, int fd)
{
char *request_string, *p;
int i, size, write_error;
/* Count the request size. */
size = 0;
/* METHOD " " ARG " " "HTTP/1.0" "\r\n" */
size += strlen (req->method) + 1 + strlen (req->arg) + 1 + 8 + 2;
for (i = 0; i < req->hcount; i++)
{
struct request_header *hdr = &req->headers[i];
/* NAME ": " VALUE "\r\n" */
size += strlen (hdr->name) + 2 + strlen (hdr->value) + 2;
}
/* "\r\n\0" */
size += 3;
p = request_string = alloca_array (char, size);
/* Generate the request. */
APPEND (p, req->method); *p++ = ' ';
APPEND (p, req->arg); *p++ = ' ';
memcpy (p, "HTTP/1.0\r\n", 10); p += 10;
for (i = 0; i < req->hcount; i++)
{
struct request_header *hdr = &req->headers[i];
APPEND (p, hdr->name);
*p++ = ':', *p++ = ' ';
APPEND (p, hdr->value);
*p++ = '\r', *p++ = '\n';
}
*p++ = '\r', *p++ = '\n', *p++ = '\0';
assert (p - request_string == size);
#undef APPEND
DEBUGP (("\n---request begin---\n%s---request end---\n", request_string));
/* Send the request to the server. */
write_error = fd_write (fd, request_string, size - 1, -1);
if (write_error < 0)
logprintf (LOG_VERBOSE, _("Failed writing HTTP request: %s.\n"),
strerror (errno));
return write_error;
}
/* Release the resources used by REQ. */
static void
request_free (struct request *req)
{
int i;
xfree_null (req->arg);
for (i = 0; i < req->hcount; i++)
release_header (&req->headers[i]);
xfree_null (req->headers);
xfree (req);
}
/* Send the contents of FILE_NAME to SOCK. Make sure that exactly
PROMISED_SIZE bytes are sent over the wire -- if the file is
longer, read only that much; if the file is shorter, report an error. */
static int
post_file (int sock, const char *file_name, wgint promised_size)
{
static char chunk[8192];
wgint written = 0;
int write_error;
FILE *fp;
DEBUGP (("[writing POST file %s ... ", file_name));
fp = fopen (file_name, "rb");
if (!fp)
return -1;
while (!feof (fp) && written < promised_size)
{
int towrite;
int length = fread (chunk, 1, sizeof (chunk), fp);
if (length == 0)
break;
towrite = MIN (promised_size - written, length);
write_error = fd_write (sock, chunk, towrite, -1);
if (write_error < 0)
{
fclose (fp);
return -1;
}
written += towrite;
}
fclose (fp);
/* If we've written less than was promised, report a (probably
nonsensical) error rather than break the promise. */
if (written < promised_size)
{
errno = EINVAL;
return -1;
}
assert (written == promised_size);
DEBUGP (("done]\n"));
return 0;
}
static const char *
response_head_terminator (const char *hunk, int oldlen, int peeklen)
{
const char *start, *end;
/* If at first peek, verify whether HUNK starts with "HTTP". If
not, this is a HTTP/0.9 request and we must bail out without
reading anything. */
if (oldlen == 0 && 0 != memcmp (hunk, "HTTP", MIN (peeklen, 4)))
return hunk;
if (oldlen < 4)
start = hunk;
else
start = hunk + oldlen - 4;
end = hunk + oldlen + 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;
}
/* The maximum size of a single HTTP response we care to read. This
is not meant to impose an arbitrary limit, but to protect the user
from Wget slurping up available memory upon encountering malicious
or buggy server output. Define it to 0 to remove the limit. */
#define HTTP_RESPONSE_MAX_SIZE 65536
/* Read the HTTP request head from FD and return it. The error
conditions are the same as with fd_read_hunk.
To support HTTP/0.9 responses, this function tries to make sure
that the data begins with "HTTP". If this is not the case, no data
is read and an empty request is returned, so that the remaining
data can be treated as body. */
static char *
read_http_response_head (int fd)
{
return fd_read_hunk (fd, response_head_terminator, 512,
HTTP_RESPONSE_MAX_SIZE);
}
struct response {
/* The response data. */
const char *data;
/* The array of pointers that indicate where each header starts.
For example, given this HTTP response:
HTTP/1.0 200 Ok
Description: some
text
Etag: x
The headers are located like this:
"HTTP/1.0 200 Ok\r\nDescription: some\r\n text\r\nEtag: x\r\n\r\n"
^ ^ ^ ^
headers[0] headers[1] headers[2] headers[3]
I.e. headers[0] points to the beginning of the request,
headers[1] points to the end of the first header and the
beginning of the second one, etc. */
const char **headers;
};
/* Create a new response object from the text of the HTTP response,
available in HEAD. That text is automatically split into
constituent header lines for fast retrieval using
resp_header_*. */
static struct response *
resp_new (const char *head)
{
const char *hdr;
int count, size;
struct response *resp = xnew0 (struct response);
resp->data = head;
if (*head == '\0')
{
/* Empty head means that we're dealing with a headerless
(HTTP/0.9) response. In that case, don't set HEADERS at
all. */
return resp;
}
/* Split HEAD into header lines, so that resp_header_* functions
don't need to do this over and over again. */
size = count = 0;
hdr = head;
while (1)
{
DO_REALLOC (resp->headers, size, count + 1, const char *);
resp->headers[count++] = hdr;
/* Break upon encountering an empty line. */
if (!hdr[0] || (hdr[0] == '\r' && hdr[1] == '\n') || hdr[0] == '\n')
break;
/* Find the end of HDR, including continuations. */
do
{
const char *end = strchr (hdr, '\n');
if (end)
hdr = end + 1;
else
hdr += strlen (hdr);
}
while (*hdr == ' ' || *hdr == '\t');
}
DO_REALLOC (resp->headers, size, count + 1, const char *);
resp->headers[count] = NULL;
return resp;
}
/* Locate the header named NAME in the request data, starting with
position START. This allows the code to loop through the request
data, filtering for all requests of a given name. Returns the
found position, or -1 for failure. The code that uses this
function typically looks like this:
for (pos = 0; (pos = resp_header_locate (...)) != -1; pos++)
... do something with header ...
If you only care about one header, use resp_header_get instead of
this function. */
static int
resp_header_locate (const struct response *resp, const char *name, int start,
const char **begptr, const char **endptr)
{
int i;
const char **headers = resp->headers;
int name_len;
if (!headers || !headers[1])
return -1;
name_len = strlen (name);
if (start > 0)
i = start;
else
i = 1;
for (; headers[i + 1]; i++)
{
const char *b = headers[i];
const char *e = headers[i + 1];
if (e - b > name_len
&& b[name_len] == ':'
&& 0 == strncasecmp (b, name, name_len))
{
b += name_len + 1;
while (b < e && ISSPACE (*b))
++b;
while (b < e && ISSPACE (e[-1]))
--e;
*begptr = b;
*endptr = e;
return i;
}
}
return -1;
}
/* Find and retrieve the header named NAME in the request data. If
found, set *BEGPTR to its starting, and *ENDPTR to its ending
position, and return 1. Otherwise return 0.
This function is used as a building block for resp_header_copy
and resp_header_strdup. */
static int
resp_header_get (const struct response *resp, const char *name,
const char **begptr, const char **endptr)
{
int pos = resp_header_locate (resp, name, 0, begptr, endptr);
return pos != -1;
}
/* Copy the response header named NAME to buffer BUF, no longer than
BUFSIZE (BUFSIZE includes the terminating 0). If the header
exists, 1 is returned, otherwise 0. If there should be no limit on
the size of the header, use resp_header_strdup instead.
If BUFSIZE is 0, no data is copied, but the boolean indication of
whether the header is present is still returned. */
static int
resp_header_copy (const struct response *resp, const char *name,
char *buf, int bufsize)
{
const char *b, *e;
if (!resp_header_get (resp, name, &b, &e))
return 0;
if (bufsize)
{
int len = MIN (e - b, bufsize - 1);
memcpy (buf, b, len);
buf[len] = '\0';
}
return 1;
}
/* Return the value of header named NAME in RESP, allocated with
malloc. If such a header does not exist in RESP, return NULL. */
static char *
resp_header_strdup (const struct response *resp, const char *name)
{
const char *b, *e;
if (!resp_header_get (resp, name, &b, &e))
return NULL;
return strdupdelim (b, e);
}
/* Parse the HTTP status line, which is of format:
HTTP-Version SP Status-Code SP Reason-Phrase
The function returns the status-code, or -1 if the status line
appears malformed. The pointer to "reason-phrase" message is
returned in *MESSAGE. */
static int
resp_status (const struct response *resp, char **message)
{
int status;
const char *p, *end;
if (!resp->headers)
{
/* For a HTTP/0.9 response, assume status 200. */
if (message)
*message = xstrdup (_("No headers, assuming HTTP/0.9"));
return 200;
}
p = resp->headers[0];
end = resp->headers[1];
if (!end)
return -1;
/* "HTTP" */
if (end - p < 4 || 0 != strncmp (p, "HTTP", 4))
return -1;
p += 4;
/* Match the HTTP version. This is optional because Gnutella
servers have been reported to not specify HTTP version. */
if (p < end && *p == '/')
{
++p;
while (p < end && ISDIGIT (*p))
++p;
if (p < end && *p == '.')
++p;
while (p < end && ISDIGIT (*p))
++p;
}
while (p < end && ISSPACE (*p))
++p;
if (end - p < 3 || !ISDIGIT (p[0]) || !ISDIGIT (p[1]) || !ISDIGIT (p[2]))
return -1;
status = 100 * (p[0] - '0') + 10 * (p[1] - '0') + (p[2] - '0');
p += 3;
if (message)
{
while (p < end && ISSPACE (*p))
++p;
while (p < end && ISSPACE (end[-1]))
--end;
*message = strdupdelim (p, end);
}
return status;
}
/* Release the resources used by RESP. */
static void
resp_free (struct response *resp)
{
xfree_null (resp->headers);
xfree (resp);
}
/* Print the server response, line by line, omitting the trailing CRLF
from individual header lines, and prefixed with PREFIX. */
static void
print_server_response (const struct response *resp, const char *prefix)
{
int i;
if (!resp->headers)
return;
for (i = 0; resp->headers[i + 1]; i++)
{
const char *b = resp->headers[i];
const char *e = resp->headers[i + 1];
/* Skip CRLF */
if (b < e && e[-1] == '\n')
--e;
if (b < e && e[-1] == '\r')
--e;
/* This is safe even on printfs with broken handling of "%.<n>s"
because resp->headers ends with \0. */
logprintf (LOG_VERBOSE, "%s%.*s\n", prefix, e - b, b);
}
}
/* Parse the `Content-Range' header and extract the information it
contains. Returns 1 if successful, -1 otherwise. */
static int
parse_content_range (const char *hdr, wgint *first_byte_ptr,
wgint *last_byte_ptr, wgint *entity_length_ptr)
{
wgint num;
/* Ancient versions of Netscape proxy server, presumably predating
rfc2068, sent out `Content-Range' without the "bytes"
specifier. */
if (!strncasecmp (hdr, "bytes", 5))
{
hdr += 5;
/* "JavaWebServer/1.1.1" sends "bytes: x-y/z", contrary to the
HTTP spec. */
if (*hdr == ':')
++hdr;
while (ISSPACE (*hdr))
++hdr;
if (!*hdr)
return 0;
}
if (!ISDIGIT (*hdr))
return 0;
for (num = 0; ISDIGIT (*hdr); hdr++)
num = 10 * num + (*hdr - '0');
if (*hdr != '-' || !ISDIGIT (*(hdr + 1)))
return 0;
*first_byte_ptr = num;
++hdr;
for (num = 0; ISDIGIT (*hdr); hdr++)
num = 10 * num + (*hdr - '0');
if (*hdr != '/' || !ISDIGIT (*(hdr + 1)))
return 0;
*last_byte_ptr = num;
++hdr;
for (num = 0; ISDIGIT (*hdr); hdr++)
num = 10 * num + (*hdr - '0');
*entity_length_ptr = num;
return 1;
}
/* Read the body of the request, but don't store it anywhere and don't
display a progress gauge. This is useful for reading the bodies of
administrative responses to which we will soon issue another
request. The response is not useful to the user, but reading it
allows us to continue using the same connection to the server.
If reading fails, 0 is returned, non-zero otherwise. In debug
mode, the body is displayed for debugging purposes. */
static int
skip_short_body (int fd, wgint contlen)
{
enum {
SKIP_SIZE = 512, /* size of the download buffer */
SKIP_THRESHOLD = 4096 /* the largest size we read */
};
char dlbuf[SKIP_SIZE + 1];
dlbuf[SKIP_SIZE] = '\0'; /* so DEBUGP can safely print it */
/* We shouldn't get here with unknown contlen. (This will change
with HTTP/1.1, which supports "chunked" transfer.) */
assert (contlen != -1);
/* If the body is too large, it makes more sense to simply close the
connection than to try to read the body. */
if (contlen > SKIP_THRESHOLD)
return 0;
DEBUGP (("Skipping %s bytes of body: [", number_to_static_string (contlen)));
while (contlen > 0)
{
int ret = fd_read (fd, dlbuf, MIN (contlen, SKIP_SIZE), -1);
if (ret <= 0)
{
/* Don't normally report the error since this is an
optimization that should be invisible to the user. */
DEBUGP (("] aborting (%s).\n",
ret < 0 ? strerror (errno) : "EOF received"));
return 0;
}
contlen -= ret;
/* Safe even if %.*s bogusly expects terminating \0 because
we've zero-terminated dlbuf above. */
DEBUGP (("%.*s", ret, dlbuf));
}
DEBUGP (("] done.\n"));
return 1;
}
/* Persistent connections. Currently, we cache the most recently used
connection as persistent, provided that the HTTP server agrees to
make it such. The persistence data is stored in the variables
below. Ideally, it should be possible to cache an arbitrary fixed
number of these connections. */
/* Whether a persistent connection is active. */
static int pconn_active;
static struct {
/* The socket of the connection. */
int socket;
/* Host and port of the currently active persistent connection. */
char *host;
int port;
/* Whether a ssl handshake has occoured on this connection. */
int ssl;
/* Whether the connection was authorized. This is only done by
NTLM, which authorizes *connections* rather than individual
requests. (That practice is peculiar for HTTP, but it is a
useful optimization.) */
int authorized;
#ifdef ENABLE_NTLM
/* NTLM data of the current connection. */
struct ntlmdata ntlm;
#endif
} pconn;
/* Mark the persistent connection as invalid and free the resources it
uses. This is used by the CLOSE_* macros after they forcefully
close a registered persistent connection. */
static void
invalidate_persistent (void)
{
DEBUGP (("Disabling further reuse of socket %d.\n", pconn.socket));
pconn_active = 0;
fd_close (pconn.socket);
xfree (pconn.host);
xzero (pconn);
}
/* Register FD, which should be a TCP/IP connection to HOST:PORT, as
persistent. This will enable someone to use the same connection
later. In the context of HTTP, this must be called only AFTER the
response has been received and the server has promised that the
connection will remain alive.
If a previous connection was persistent, it is closed. */
static void
register_persistent (const char *host, int port, int fd, int ssl)
{
if (pconn_active)
{
if (pconn.socket == fd)
{
/* The connection FD is already registered. */
return;
}
else
{
/* The old persistent connection is still active; close it
first. This situation arises whenever a persistent
connection exists, but we then connect to a different
host, and try to register a persistent connection to that
one. */
invalidate_persistent ();
}
}
pconn_active = 1;
pconn.socket = fd;
pconn.host = xstrdup (host);
pconn.port = port;
pconn.ssl = ssl;
pconn.authorized = 0;
DEBUGP (("Registered socket %d for persistent reuse.\n", fd));
}
/* Return non-zero if a persistent connection is available for
connecting to HOST:PORT. */
static int
persistent_available_p (const char *host, int port, int ssl,
int *host_lookup_failed)
{
/* First, check whether a persistent connection is active at all. */
if (!pconn_active)
return 0;
/* If we want SSL and the last connection wasn't or vice versa,
don't use it. Checking for host and port is not enough because
HTTP and HTTPS can apparently coexist on the same port. */
if (ssl != pconn.ssl)
return 0;
/* If we're not connecting to the same port, we're not interested. */
if (port != pconn.port)
return 0;
/* If the host is the same, we're in business. If not, there is
still hope -- read below. */
if (0 != strcasecmp (host, pconn.host))
{
/* If pconn.socket is already talking to HOST, we needn't
reconnect. This happens often when both sites are virtual
hosts distinguished only by name and served by the same
network interface, and hence the same web server (possibly
set up by the ISP and serving many different web sites).
This admittedly non-standard optimization does not contradict
HTTP and works well with popular server software. */
int found;
ip_address ip;
struct address_list *al;
if (ssl)
/* Don't try to talk to two different SSL sites over the same
secure connection! (Besides, it's not clear if name-based
virtual hosting is even possible with SSL.) */
return 0;
/* If pconn.socket's peer is one of the IP addresses HOST
resolves to, pconn.socket is for all intents and purposes
already talking to HOST. */
if (!socket_ip_address (pconn.socket, &ip, ENDPOINT_PEER))
{
/* Can't get the peer's address -- something must be very
wrong with the connection. */
invalidate_persistent ();
return 0;
}
al = lookup_host (host, 0);
if (!al)
{
*host_lookup_failed = 1;
return 0;
}
found = address_list_contains (al, &ip);
address_list_release (al);
if (!found)
return 0;
/* The persistent connection's peer address was found among the
addresses HOST resolved to; therefore, pconn.sock is in fact
already talking to HOST -- no need to reconnect. */
}
/* Finally, check whether the connection is still open. This is
important because most server implement a liberal (short) timeout
on persistent connections. Wget can of course always reconnect
if the connection doesn't work out, but it's nicer to know in
advance. This test is a logical followup of the first test, but
is "expensive" and therefore placed at the end of the list. */
if (!test_socket_open (pconn.socket))
{
/* Oops, the socket is no longer open. Now that we know that,
let's invalidate the persistent connection before returning
0. */
invalidate_persistent ();
return 0;
}
return 1;
}
/* The idea behind these two CLOSE macros is to distinguish between
two cases: one when the job we've been doing is finished, and we
want to close the connection and leave, and two when something is
seriously wrong and we're closing the connection as part of
cleanup.
In case of keep_alive, CLOSE_FINISH should leave the connection
open, while CLOSE_INVALIDATE should still close it.
Note that the semantics of the flag `keep_alive' is "this
connection *will* be reused (the server has promised not to close
the connection once we're done)", while the semantics of
`pc_active_p && (fd) == pc_last_fd' is "we're *now* using an
active, registered connection". */
#define CLOSE_FINISH(fd) do { \
if (!keep_alive) \
{ \
if (pconn_active && (fd) == pconn.socket) \
invalidate_persistent (); \
else \
{ \
fd_close (fd); \
fd = -1; \
} \
} \
} while (0)
#define CLOSE_INVALIDATE(fd) do { \
if (pconn_active && (fd) == pconn.socket) \
invalidate_persistent (); \
else \
fd_close (fd); \
fd = -1; \
} while (0)
struct http_stat
{
wgint len; /* received length */
wgint contlen; /* expected length */
wgint restval; /* the restart value */
int res; /* the result of last read */
char *newloc; /* new location (redirection) */
char *remote_time; /* remote time-stamp string */
char *error; /* textual HTTP error */
int statcode; /* status code */
wgint rd_size; /* amount of data read from socket */
double dltime; /* time it took to download the data */
const char *referer; /* value of the referer header. */
char **local_file; /* local file. */
};
static void
free_hstat (struct http_stat *hs)
{
xfree_null (hs->newloc);
xfree_null (hs->remote_time);
xfree_null (hs->error);
/* Guard against being called twice. */
hs->newloc = NULL;
hs->remote_time = NULL;
hs->error = NULL;
}
static char *create_authorization_line PARAMS ((const char *, const char *,
const char *, const char *,
const char *, int *));
static char *basic_authentication_encode PARAMS ((const char *, const char *));
static int known_authentication_scheme_p PARAMS ((const char *, const char *));
time_t http_atotm PARAMS ((const char *));
#define BEGINS_WITH(line, string_constant) \
(!strncasecmp (line, string_constant, sizeof (string_constant) - 1) \
&& (ISSPACE (line[sizeof (string_constant) - 1]) \
|| !line[sizeof (string_constant) - 1]))
#define SET_USER_AGENT(req) \
if (opt.useragent) \
request_set_header (req, "User-Agent", opt.useragent, rel_none); \
else \
request_set_header (req, "User-Agent", \
aprintf ("Wget/%s", version_string), rel_value);
/* Retrieve a document through HTTP protocol. It recognizes status
code, and correctly handles redirections. It closes the network
socket. If it receives an error from the functions below it, it
will print it if there is enough information to do so (almost
always), returning the error to the caller (i.e. http_loop).
Various HTTP parameters are stored to hs.
If PROXY is non-NULL, the connection will be made to the proxy
server, and u->url will be requested. */
static uerr_t
gethttp (struct url *u, struct http_stat *hs, int *dt, struct url *proxy)
{
struct request *req;
char *type;
char *user, *passwd;
char *proxyauth;
int statcode;
int write_error;
wgint contlen, contrange;
struct url *conn;
FILE *fp;
int sock = -1;
int flags;
/* Set to 1 when the authorization has failed permanently and should
not be tried again. */
int auth_finished = 0;
/* Whether NTLM authentication is used for this request. */
int ntlm_seen = 0;
/* Whether our connection to the remote host is through SSL. */
int using_ssl = 0;
char *head;
struct response *resp;
char hdrval[256];
char *message;
/* Whether this connection will be kept alive after the HTTP request
is done. */
int keep_alive;
/* Whether keep-alive should be inhibited.
RFC 2068 requests that 1.0 clients not send keep-alive requests
to proxies. This is because many 1.0 proxies do not interpret
the Connection header and transfer it to the remote server,
causing it to not close the connection and leave both the proxy
and the client hanging. */
int inhibit_keep_alive =
!opt.http_keep_alive || opt.ignore_length || proxy != NULL;
/* Headers sent when using POST. */
wgint post_data_size = 0;
int host_lookup_failed = 0;
#ifdef HAVE_SSL
if (u->scheme == SCHEME_HTTPS)
{
/* Initialize the SSL context. After this has once been done,
it becomes a no-op. */
if (!ssl_init ())
{
scheme_disable (SCHEME_HTTPS);
logprintf (LOG_NOTQUIET,
_("Disabling SSL due to encountered errors.\n"));
return SSLINITFAILED;
}
}
#endif /* HAVE_SSL */
if (!(*dt & HEAD_ONLY))
/* If we're doing a GET on the URL, as opposed to just a HEAD, we need to
know the local filename so we can save to it. */
assert (*hs->local_file != NULL);
/* Initialize certain elements of struct http_stat. */
hs->len = 0;
hs->contlen = -1;
hs->res = -1;
hs->newloc = NULL;
hs->remote_time = NULL;
hs->error = NULL;
conn = u;
/* Prepare the request to send. */
req = request_new ();
{
const char *meth = "GET";
if (*dt & HEAD_ONLY)
meth = "HEAD";
else if (opt.post_file_name || opt.post_data)
meth = "POST";
/* Use the full path, i.e. one that includes the leading slash and
the query string. E.g. if u->path is "foo/bar" and u->query is
"param=value", full_path will be "/foo/bar?param=value". */
request_set_method (req, meth,
proxy ? xstrdup (u->url) : url_full_path (u));
}
request_set_header (req, "Referer", (char *) hs->referer, rel_none);
if (*dt & SEND_NOCACHE)
request_set_header (req, "Pragma", "no-cache", rel_none);
if (hs->restval)
request_set_header (req, "Range",
aprintf ("bytes=%s-",
number_to_static_string (hs->restval)),
rel_value);
SET_USER_AGENT (req);
request_set_header (req, "Accept", "*/*", rel_none);
/* Find the username and password for authentication. */
user = u->user;
passwd = u->passwd;
search_netrc (u->host, (const char **)&user, (const char **)&passwd, 0);
user = user ? user : (opt.http_user ? opt.http_user : opt.user);
passwd = passwd ? passwd : (opt.http_passwd ? opt.http_passwd : opt.passwd);
if (user && passwd)
{
/* We have the username and the password, but haven't tried
any authorization yet. Let's see if the "Basic" method
works. If not, we'll come back here and construct a
proper authorization method with the right challenges.
If we didn't employ this kind of logic, every URL that
requires authorization would have to be processed twice,
which is very suboptimal and generates a bunch of false
"unauthorized" errors in the server log.
#### But this logic also has a serious problem when used
with stronger authentications: we *first* transmit the
username and the password in clear text, and *then* attempt a
stronger authentication scheme. That cannot be right! We
are only fortunate that almost everyone still uses the
`Basic' scheme anyway.
There should be an option to prevent this from happening, for
those who use strong authentication schemes and value their
passwords. */
request_set_header (req, "Authorization",
basic_authentication_encode (user, passwd),
rel_value);
}
proxyauth = NULL;
if (proxy)
{
char *proxy_user, *proxy_passwd;
/* For normal username and password, URL components override
command-line/wgetrc parameters. With proxy
authentication, it's the reverse, because proxy URLs are
normally the "permanent" ones, so command-line args
should take precedence. */
if (opt.proxy_user && opt.proxy_passwd)
{
proxy_user = opt.proxy_user;
proxy_passwd = opt.proxy_passwd;
}
else
{
proxy_user = proxy->user;
proxy_passwd = proxy->passwd;
}
/* #### This does not appear right. Can't the proxy request,
say, `Digest' authentication? */
if (proxy_user && proxy_passwd)
proxyauth = basic_authentication_encode (proxy_user, proxy_passwd);
/* If we're using a proxy, we will be connecting to the proxy
server. */
conn = proxy;
/* Proxy authorization over SSL is handled below. */
#ifdef HAVE_SSL
if (u->scheme != SCHEME_HTTPS)
#endif
request_set_header (req, "Proxy-Authorization", proxyauth, rel_value);
}
{
/* Whether we need to print the host header with braces around
host, e.g. "Host: [3ffe:8100:200:2::2]:1234" instead of the
usual "Host: symbolic-name:1234". */
int squares = strchr (u->host, ':') != NULL;
if (u->port == scheme_default_port (u->scheme))
request_set_header (req, "Host",
aprintf (squares ? "[%s]" : "%s", u->host),
rel_value);
else
request_set_header (req, "Host",
aprintf (squares ? "[%s]:%d" : "%s:%d",
u->host, u->port),
rel_value);
}
if (!inhibit_keep_alive)
request_set_header (req, "Connection", "Keep-Alive", rel_none);
if (opt.cookies)
request_set_header (req, "Cookie",
cookie_header (wget_cookie_jar,
u->host, u->port, u->path,
#ifdef HAVE_SSL
u->scheme == SCHEME_HTTPS
#else
0
#endif
),
rel_value);
if (opt.post_data || opt.post_file_name)
{
request_set_header (req, "Content-Type",
"application/x-www-form-urlencoded", rel_none);
if (opt.post_data)
post_data_size = strlen (opt.post_data);
else
{
post_data_size = file_size (opt.post_file_name);
if (post_data_size == -1)
{
logprintf (LOG_NOTQUIET, "POST data file missing: %s\n",
opt.post_file_name);
post_data_size = 0;
}
}
request_set_header (req, "Content-Length",
xstrdup (number_to_static_string (post_data_size)),
rel_value);
}
/* Add the user headers. */
if (opt.user_headers)
{
int i;
for (i = 0; opt.user_headers[i]; i++)
request_set_user_header (req, opt.user_headers[i]);
}
retry_with_auth:
/* We need to come back here when the initial attempt to retrieve
without authorization header fails. (Expected to happen at least
for the Digest authorization scheme.) */
keep_alive = 0;
/* Establish the connection. */
if (!inhibit_keep_alive)
{
/* Look for a persistent connection to target host, unless a
proxy is used. The exception is when SSL is in use, in which
case the proxy is nothing but a passthrough to the target
host, registered as a connection to the latter. */
struct url *relevant = conn;
#ifdef HAVE_SSL
if (u->scheme == SCHEME_HTTPS)
relevant = u;
#endif
if (persistent_available_p (relevant->host, relevant->port,
#ifdef HAVE_SSL
relevant->scheme == SCHEME_HTTPS,
#else
0,
#endif
&host_lookup_failed))
{
sock = pconn.socket;
using_ssl = pconn.ssl;
logprintf (LOG_VERBOSE, _("Reusing existing connection to %s:%d.\n"),
escnonprint (pconn.host), pconn.port);
DEBUGP (("Reusing fd %d.\n", sock));
if (pconn.authorized)
/* If the connection is already authorized, the "Basic"
authorization added by code above is unnecessary and
only hurts us. */
request_remove_header (req, "Authorization");
}
}
if (sock < 0)
{
/* In its current implementation, persistent_available_p will
look up conn->host in some cases. If that lookup failed, we
don't need to bother with connect_to_host. */
if (host_lookup_failed)
{
request_free (req);
return HOSTERR;
}
sock = connect_to_host (conn->host, conn->port);
if (sock == E_HOST)
{
request_free (req);
return HOSTERR;
}
else if (sock < 0)
{
request_free (req);
return (retryable_socket_connect_error (errno)
? CONERROR : CONIMPOSSIBLE);
}
#ifdef HAVE_SSL
if (proxy && u->scheme == SCHEME_HTTPS)
{
/* When requesting SSL URLs through proxies, use the
CONNECT method to request passthrough. */
struct request *connreq = request_new ();
request_set_method (connreq, "CONNECT",
aprintf ("%s:%d", u->host, u->port));
SET_USER_AGENT (connreq);
if (proxyauth)
{
request_set_header (connreq, "Proxy-Authorization",
proxyauth, rel_value);
/* Now that PROXYAUTH is part of the CONNECT request,
zero it out so we don't send proxy authorization with
the regular request below. */
proxyauth = NULL;
}
/* Examples in rfc2817 use the Host header in CONNECT
requests. I don't see how that gains anything, given
that the contents of Host would be exactly the same as
the contents of CONNECT. */
write_error = request_send (connreq, sock);
request_free (connreq);
if (write_error < 0)
{
logprintf (LOG_VERBOSE, _("Failed writing to proxy: %s.\n"),
strerror (errno));
CLOSE_INVALIDATE (sock);
return WRITEFAILED;
}
head = read_http_response_head (sock);
if (!head)
{
logprintf (LOG_VERBOSE, _("Failed reading proxy response: %s\n"),
strerror (errno));
CLOSE_INVALIDATE (sock);
return HERR;
}
message = NULL;
if (!*head)
{
xfree (head);
goto failed_tunnel;
}
DEBUGP (("proxy responded with: [%s]\n", head));
resp = resp_new (head);
statcode = resp_status (resp, &message);
resp_free (resp);
xfree (head);
if (statcode != 200)
{
failed_tunnel:
logprintf (LOG_NOTQUIET, _("Proxy tunneling failed: %s"),
message ? escnonprint (message) : "?");
xfree_null (message);
return CONSSLERR;
}
xfree_null (message);
/* SOCK is now *really* connected to u->host, so update CONN
to reflect this. That way register_persistent will
register SOCK as being connected to u->host:u->port. */
conn = u;
}
if (conn->scheme == SCHEME_HTTPS)
{
if (!ssl_connect (sock))
{
fd_close (sock);
return CONSSLERR;
}
using_ssl = 1;
}
#endif /* HAVE_SSL */
}
/* Send the request to server. */
write_error = request_send (req, sock);
if (write_error >= 0)
{
if (opt.post_data)
{
DEBUGP (("[POST data: %s]\n", opt.post_data));
write_error = fd_write (sock, opt.post_data, post_data_size, -1);
}
else if (opt.post_file_name && post_data_size != 0)
write_error = post_file (sock, opt.post_file_name, post_data_size);
}
if (write_error < 0)
{
logprintf (LOG_VERBOSE, _("Failed writing HTTP request: %s.\n"),
strerror (errno));
CLOSE_INVALIDATE (sock);
request_free (req);
return WRITEFAILED;
}
logprintf (LOG_VERBOSE, _("%s request sent, awaiting response... "),
proxy ? "Proxy" : "HTTP");
contlen = -1;
contrange = 0;
*dt &= ~RETROKF;
head = read_http_response_head (sock);
if (!head)
{
if (errno == 0)
{
logputs (LOG_NOTQUIET, _("No data received.\n"));
CLOSE_INVALIDATE (sock);
request_free (req);
return HEOF;
}
else
{
logprintf (LOG_NOTQUIET, _("Read error (%s) in headers.\n"),
strerror (errno));
CLOSE_INVALIDATE (sock);
request_free (req);
return HERR;
}
}
DEBUGP (("\n---response begin---\n%s---response end---\n", head));
resp = resp_new (head);
/* Check for status line. */
message = NULL;
statcode = resp_status (resp, &message);
if (!opt.server_response)
logprintf (LOG_VERBOSE, "%2d %s\n", statcode,
message ? escnonprint (message) : "");
else
{
logprintf (LOG_VERBOSE, "\n");
print_server_response (resp, " ");
}
if (!opt.ignore_length
&& resp_header_copy (resp, "Content-Length", hdrval, sizeof (hdrval)))
{
wgint parsed;
errno = 0;
parsed = str_to_wgint (hdrval, NULL, 10);
if (parsed == WGINT_MAX && errno == ERANGE)
/* Out of range.
#### If Content-Length is out of range, it most likely
means that the file is larger than 2G and that we're
compiled without LFS. In that case we should probably
refuse to even attempt to download the file. */
contlen = -1;
else
contlen = parsed;
}
/* Check for keep-alive related responses. */
if (!inhibit_keep_alive && contlen != -1)
{
if (resp_header_copy (resp, "Keep-Alive", NULL, 0))
keep_alive = 1;
else if (resp_header_copy (resp, "Connection", hdrval, sizeof (hdrval)))
{
if (0 == strcasecmp (hdrval, "Keep-Alive"))
keep_alive = 1;
}
}
if (keep_alive)
/* The server has promised that it will not close the connection
when we're done. This means that we can register it. */
register_persistent (conn->host, conn->port, sock, using_ssl);
if (statcode == HTTP_STATUS_UNAUTHORIZED)
{
/* Authorization is required. */
if (keep_alive)
{
if (skip_short_body (sock, contlen))
CLOSE_FINISH (sock);
else
CLOSE_INVALIDATE (sock);
}
pconn.authorized = 0;
if (auth_finished || !(user && passwd))
{
/* If we have tried it already, then there is not point
retrying it. */
logputs (LOG_NOTQUIET, _("Authorization failed.\n"));
}
else
{
/* IIS sometimes sends two instances of WWW-Authenticate
header, one with the keyword "negotiate", and other with
useful data. Loop over all occurrences of this header
and use the one we recognize. */
int wapos;
const char *wabeg, *waend;
char *www_authenticate = NULL;
for (wapos = 0;
(wapos = resp_header_locate (resp, "WWW-Authenticate", wapos,
&wabeg, &waend)) != -1;
++wapos)
if (known_authentication_scheme_p (wabeg, waend))
{
www_authenticate = strdupdelim (wabeg, waend);
break;
}
/* If the authentication header is missing or recognized, or
if the authentication scheme is "Basic" (which we send by
default), there's no sense in retrying. */
if (!www_authenticate
|| BEGINS_WITH (www_authenticate, "Basic"))
{
xfree_null (www_authenticate);
logputs (LOG_NOTQUIET, _("Unknown authentication scheme.\n"));
}
else
{
char *pth;
pth = url_full_path (u);
request_set_header (req, "Authorization",
create_authorization_line (www_authenticate,
user, passwd,
request_method (req),
pth,
&auth_finished),
rel_value);
if (BEGINS_WITH (www_authenticate, "NTLM"))
ntlm_seen = 1;
xfree (pth);
xfree (www_authenticate);
goto retry_with_auth;
}
}
request_free (req);
return AUTHFAILED;
}
else /* statcode != HTTP_STATUS_UNAUTHORIZED */
{
/* Kludge: if NTLM is used, mark the TCP connection as authorized. */
if (ntlm_seen)
pconn.authorized = 1;
}
request_free (req);
hs->statcode = statcode;
if (statcode == -1)
hs->error = xstrdup (_("Malformed status line"));
else if (!*message)
hs->error = xstrdup (_("(no description)"));
else
hs->error = xstrdup (message);
xfree (message);
type = resp_header_strdup (resp, "Content-Type");
if (type)
{
char *tmp = strchr (type, ';');
if (tmp)
{
while (tmp > type && ISSPACE (tmp[-1]))
--tmp;
*tmp = '\0';
}
}
hs->newloc = resp_header_strdup (resp, "Location");
hs->remote_time = resp_header_strdup (resp, "Last-Modified");
/* Handle (possibly multiple instances of) the Set-Cookie header. */
{
char *pth = NULL;
int scpos;
const char *scbeg, *scend;
/* The jar should have been created by now. */
assert (wget_cookie_jar != NULL);
for (scpos = 0;
(scpos = resp_header_locate (resp, "Set-Cookie", scpos,
&scbeg, &scend)) != -1;
++scpos)
{
char *set_cookie; BOUNDED_TO_ALLOCA (scbeg, scend, set_cookie);
if (pth == NULL)
{
/* u->path doesn't begin with /, which cookies.c expects. */
pth = (char *) alloca (1 + strlen (u->path) + 1);
pth[0] = '/';
strcpy (pth + 1, u->path);
}
cookie_handle_set_cookie (wget_cookie_jar, u->host, u->port, pth,
set_cookie);
}
}
if (resp_header_copy (resp, "Content-Range", hdrval, sizeof (hdrval)))
{
wgint first_byte_pos, last_byte_pos, entity_length;
if (parse_content_range (hdrval, &first_byte_pos, &last_byte_pos,
&entity_length))
contrange = first_byte_pos;
}
resp_free (resp);
xfree (head);
/* 20x responses are counted among successful by default. */
if (H_20X (statcode))
*dt |= RETROKF;
/* Return if redirected. */
if (H_REDIRECTED (statcode) || statcode == HTTP_STATUS_MULTIPLE_CHOICES)
{
/* RFC2068 says that in case of the 300 (multiple choices)
response, the server can output a preferred URL through
`Location' header; otherwise, the request should be treated
like GET. So, if the location is set, it will be a
redirection; otherwise, just proceed normally. */
if (statcode == HTTP_STATUS_MULTIPLE_CHOICES && !hs->newloc)
*dt |= RETROKF;
else
{
logprintf (LOG_VERBOSE,
_("Location: %s%s\n"),
hs->newloc ? escnonprint_uri (hs->newloc) : _("unspecified"),
hs->newloc ? _(" [following]") : "");
if (keep_alive)
{
if (skip_short_body (sock, contlen))
CLOSE_FINISH (sock);
else
CLOSE_INVALIDATE (sock);
}
xfree_null (type);
return NEWLOCATION;
}
}
/* If content-type is not given, assume text/html. This is because
of the multitude of broken CGI's that "forget" to generate the
content-type. */
if (!type ||
0 == strncasecmp (type, TEXTHTML_S, strlen (TEXTHTML_S)) ||
0 == strncasecmp (type, TEXTXHTML_S, strlen (TEXTXHTML_S)))
*dt |= TEXTHTML;
else
*dt &= ~TEXTHTML;
if (opt.html_extension && (*dt & TEXTHTML))
/* -E / --html-extension / html_extension = on was specified, and this is a
text/html file. If some case-insensitive variation on ".htm[l]" isn't
already the file's suffix, tack on ".html". */
{
char* last_period_in_local_filename = strrchr(*hs->local_file, '.');
if (last_period_in_local_filename == NULL
|| !(0 == strcasecmp (last_period_in_local_filename, ".htm")
|| 0 == strcasecmp (last_period_in_local_filename, ".html")))
{
size_t local_filename_len = strlen(*hs->local_file);
*hs->local_file = xrealloc(*hs->local_file,
local_filename_len + sizeof(".html"));
strcpy(*hs->local_file + local_filename_len, ".html");
*dt |= ADDED_HTML_EXTENSION;
}
}
if (statcode == HTTP_STATUS_RANGE_NOT_SATISFIABLE)
{
/* If `-c' is in use and the file has been fully downloaded (or
the remote file has shrunk), Wget effectively requests bytes
after the end of file and the server response with 416. */
logputs (LOG_VERBOSE, _("\
\n The file is already fully retrieved; nothing to do.\n\n"));
/* In case the caller inspects. */
hs->len = contlen;
hs->res = 0;
/* Mark as successfully retrieved. */
*dt |= RETROKF;
xfree_null (type);
CLOSE_INVALIDATE (sock); /* would be CLOSE_FINISH, but there
might be more bytes in the body. */
return RETRUNNEEDED;
}
if ((contrange != 0 && contrange != hs->restval)
|| (H_PARTIAL (statcode) && !contrange))
{
/* The Range request was somehow misunderstood by the server.
Bail out. */
xfree_null (type);
CLOSE_INVALIDATE (sock);
return RANGEERR;
}
hs->contlen = contlen + contrange;
if (opt.verbose)
{
if (*dt & RETROKF)
{
/* No need to print this output if the body won't be
downloaded at all, or if the original server response is
printed. */
logputs (LOG_VERBOSE, _("Length: "));
if (contlen != -1)
{
logputs (LOG_VERBOSE, with_thousand_seps (contlen + contrange));
if (contlen + contrange >= 1024)
logprintf (LOG_VERBOSE, " (%s)",
human_readable (contlen + contrange));
if (contrange)
{
if (contlen >= 1024)
logprintf (LOG_VERBOSE, _(", %s (%s) remaining"),
with_thousand_seps (contlen),
human_readable (contlen));
else
logprintf (LOG_VERBOSE, _(", %s remaining"),
with_thousand_seps (contlen));
}
}
else
logputs (LOG_VERBOSE,
opt.ignore_length ? _("ignored") : _("unspecified"));
if (type)
logprintf (LOG_VERBOSE, " [%s]\n", escnonprint (type));
else
logputs (LOG_VERBOSE, "\n");
}
}
xfree_null (type);
type = NULL; /* We don't need it any more. */
/* Return if we have no intention of further downloading. */
if (!(*dt & RETROKF) || (*dt & HEAD_ONLY))
{
/* In case the caller cares to look... */
hs->len = 0;
hs->res = 0;
xfree_null (type);
/* Pre-1.10 Wget used CLOSE_INVALIDATE here. Now we trust the
servers not to send body in response to a HEAD request. If
you encounter such a server (more likely a broken CGI), use
`--no-http-keep-alive'. */
CLOSE_FINISH (sock);
return RETRFINISHED;
}
/* Open the local file. */
if (!output_stream)
{
mkalldirs (*hs->local_file);
if (opt.backups)
rotate_backups (*hs->local_file);
if (hs->restval)
fp = fopen (*hs->local_file, "ab");
else if (opt.noclobber || opt.always_rest || opt.timestamping || opt.dirstruct
|| opt.output_document)
fp = fopen (*hs->local_file, "wb");
else
{
fp = fopen_excl (*hs->local_file, 1);
if (!fp && errno == EEXIST)
{
/* We cannot just invent a new name and use it (which is
what functions like unique_create typically do)
because we told the user we'd use this name.
Instead, return and retry the download. */
logprintf (LOG_NOTQUIET,
_("%s has sprung into existence.\n"),
*hs->local_file);
CLOSE_INVALIDATE (sock);
return FOPEN_EXCL_ERR;
}
}
if (!fp)
{
logprintf (LOG_NOTQUIET, "%s: %s\n", *hs->local_file, strerror (errno));
CLOSE_INVALIDATE (sock);
return FOPENERR;
}
}
else
fp = output_stream;
/* #### This confuses the timestamping code that checks for file
size. Maybe we should save some additional information? */
if (opt.save_headers)
fwrite (head, 1, strlen (head), fp);
/* Download the request body. */
flags = 0;
if (keep_alive)
flags |= rb_read_exactly;
if (hs->restval > 0 && contrange == 0)
/* If the server ignored our range request, instruct fd_read_body
to skip the first RESTVAL bytes of body. */
flags |= rb_skip_startpos;
hs->len = hs->restval;
hs->rd_size = 0;
hs->res = fd_read_body (sock, fp, contlen != -1 ? contlen : 0,
hs->restval, &hs->rd_size, &hs->len, &hs->dltime,
flags);
if (hs->res >= 0)
CLOSE_FINISH (sock);
else
CLOSE_INVALIDATE (sock);
{
/* Close or flush the file. We have to be careful to check for
error here. Checking the result of fwrite() is not enough --
errors could go unnoticed! */
int flush_res;
if (!output_stream)
flush_res = fclose (fp);
else
flush_res = fflush (fp);
if (flush_res == EOF)
hs->res = -2;
}
if (hs->res == -2)
return FWRITEERR;
return RETRFINISHED;
}
/* The genuine HTTP loop! This is the part where the retrieval is
retried, and retried, and retried, and... */
uerr_t
http_loop (struct url *u, char **newloc, char **local_file, const char *referer,
int *dt, struct url *proxy)
{
int count;
int use_ts, got_head = 0; /* time-stamping info */
char *filename_plus_orig_suffix;
char *local_filename = NULL;
char *tms, *locf, *tmrate;
uerr_t err;
time_t tml = -1, tmr = -1; /* local and remote time-stamps */
wgint local_size = 0; /* the size of the local file */
size_t filename_len;
struct http_stat hstat; /* HTTP status */
struct_stat st;
char *dummy = NULL;
/* This used to be done in main(), but it's a better idea to do it
here so that we don't go through the hoops if we're just using
FTP or whatever. */
if (opt.cookies)
{
if (!wget_cookie_jar)
wget_cookie_jar = cookie_jar_new ();
if (opt.cookies_input && !cookies_loaded_p)
{
cookie_jar_load (wget_cookie_jar, opt.cookies_input);
cookies_loaded_p = 1;
}
}
*newloc = NULL;
/* Warn on (likely bogus) wildcard usage in HTTP. Don't use
has_wildcards_p because it would also warn on `?', and we know that
shows up in CGI paths a *lot*. */
if (strchr (u->url, '*'))
logputs (LOG_VERBOSE, _("Warning: wildcards not supported in HTTP.\n"));
xzero (hstat);
/* Determine the local filename. */
if (local_file && *local_file)
hstat.local_file = local_file;
else if (local_file && !opt.output_document)
{
*local_file = url_file_name (u);
hstat.local_file = local_file;
}
else
{
dummy = url_file_name (u);
hstat.local_file = &dummy;
/* be honest about where we will save the file */
if (local_file && opt.output_document)
*local_file = HYPHENP (opt.output_document) ? NULL : xstrdup (opt.output_document);
}
if (!opt.output_document)
locf = *hstat.local_file;
else
locf = opt.output_document;
hstat.referer = referer;
filename_len = strlen (*hstat.local_file);
filename_plus_orig_suffix = alloca (filename_len + sizeof (".orig"));
if (opt.noclobber && file_exists_p (*hstat.local_file))
{
/* If opt.noclobber is turned on and file already exists, do not
retrieve the file */
logprintf (LOG_VERBOSE, _("\
File `%s' already there, will not retrieve.\n"), *hstat.local_file);
/* If the file is there, we suppose it's retrieved OK. */
*dt |= RETROKF;
/* #### Bogusness alert. */
/* If its suffix is "html" or "htm" or similar, assume text/html. */
if (has_html_suffix_p (*hstat.local_file))
*dt |= TEXTHTML;
xfree_null (dummy);
return RETROK;
}
use_ts = 0;
if (opt.timestamping)
{
int local_dot_orig_file_exists = 0;
if (opt.backup_converted)
/* If -K is specified, we'll act on the assumption that it was specified
last time these files were downloaded as well, and instead of just
comparing local file X against server file X, we'll compare local
file X.orig (if extant, else X) against server file X. If -K
_wasn't_ specified last time, or the server contains files called
*.orig, -N will be back to not operating correctly with -k. */
{
/* Would a single s[n]printf() call be faster? --dan
Definitely not. sprintf() is horribly slow. It's a
different question whether the difference between the two
affects a program. Usually I'd say "no", but at one
point I profiled Wget, and found that a measurable and
non-negligible amount of time was lost calling sprintf()
in url.c. Replacing sprintf with inline calls to
strcpy() and number_to_string() made a difference.
--hniksic */
memcpy (filename_plus_orig_suffix, *hstat.local_file, filename_len);
memcpy (filename_plus_orig_suffix + filename_len,
".orig", sizeof (".orig"));
/* Try to stat() the .orig file. */
if (stat (filename_plus_orig_suffix, &st) == 0)
{
local_dot_orig_file_exists = 1;
local_filename = filename_plus_orig_suffix;
}
}
if (!local_dot_orig_file_exists)
/* Couldn't stat() <file>.orig, so try to stat() <file>. */
if (stat (*hstat.local_file, &st) == 0)
local_filename = *hstat.local_file;
if (local_filename != NULL)
/* There was a local file, so we'll check later to see if the version
the server has is the same version we already have, allowing us to
skip a download. */
{
use_ts = 1;
tml = st.st_mtime;
#ifdef WINDOWS
/* Modification time granularity is 2 seconds for Windows, so
increase local time by 1 second for later comparison. */
tml++;
#endif
local_size = st.st_size;
got_head = 0;
}
}
/* Reset the counter. */
count = 0;
*dt = 0;
/* THE loop */
do
{
/* Increment the pass counter. */
++count;
sleep_between_retrievals (count);
/* Get the current time string. */
tms = time_str (NULL);
/* Print fetch message, if opt.verbose. */
if (opt.verbose)
{
char *hurl = url_string (u, 1);
char tmp[256];
strcpy (tmp, " ");
if (count > 1)
sprintf (tmp, _("(try:%2d)"), count);
logprintf (LOG_VERBOSE, "--%s-- %s\n %s => `%s'\n",
tms, hurl, tmp, locf);
#ifdef WINDOWS
ws_changetitle (hurl);
#endif
xfree (hurl);
}
/* Default document type is empty. However, if spider mode is
on or time-stamping is employed, HEAD_ONLY commands is
encoded within *dt. */
if (opt.spider || (use_ts && !got_head))
*dt |= HEAD_ONLY;
else
*dt &= ~HEAD_ONLY;
/* Decide whether or not to restart. */
hstat.restval = 0;
if (count > 1)
hstat.restval = hstat.len; /* continue where we left off */
else if (opt.always_rest
&& stat (locf, &st) == 0
&& S_ISREG (st.st_mode))
hstat.restval = st.st_size;
/* Decide whether to send the no-cache directive. We send it in
two cases:
a) we're using a proxy, and we're past our first retrieval.
Some proxies are notorious for caching incomplete data, so
we require a fresh get.
b) caching is explicitly inhibited. */
if ((proxy && count > 1) /* a */
|| !opt.allow_cache /* b */
)
*dt |= SEND_NOCACHE;
else
*dt &= ~SEND_NOCACHE;
/* Try fetching the document, or at least its head. */
err = gethttp (u, &hstat, dt, proxy);
/* It's unfortunate that wget determines the local filename before finding
out the Content-Type of the file. Barring a major restructuring of the
code, we need to re-set locf here, since gethttp() may have xrealloc()d
*hstat.local_file to tack on ".html". */
if (!opt.output_document)
locf = *hstat.local_file;
/* Time? */
tms = time_str (NULL);
/* Get the new location (with or without the redirection). */
if (hstat.newloc)
*newloc = xstrdup (hstat.newloc);
switch (err)
{
case HERR: case HEOF: case CONSOCKERR: case CONCLOSED:
case CONERROR: case READERR: case WRITEFAILED:
case RANGEERR: case FOPEN_EXCL_ERR:
/* Non-fatal errors continue executing the loop, which will
bring them to "while" statement at the end, to judge
whether the number of tries was exceeded. */
free_hstat (&hstat);
printwhat (count, opt.ntry);
if (err == FOPEN_EXCL_ERR)
{
/* Re-determine the file name. */
if (local_file && *local_file)
{
xfree (*local_file);
*local_file = url_file_name (u);
hstat.local_file = local_file;
}
else
{
xfree (dummy);
dummy = url_file_name (u);
hstat.local_file = &dummy;
}
/* be honest about where we will save the file */
if (local_file && opt.output_document)
*local_file = HYPHENP (opt.output_document) ? NULL : xstrdup (opt.output_document);
if (!opt.output_document)
locf = *hstat.local_file;
else
locf = opt.output_document;
}
continue;
case HOSTERR: case CONIMPOSSIBLE: case PROXERR: case AUTHFAILED:
case SSLINITFAILED: case CONTNOTSUPPORTED:
/* Fatal errors just return from the function. */
free_hstat (&hstat);
xfree_null (dummy);
return err;
case FWRITEERR: case FOPENERR:
/* Another fatal error. */
logputs (LOG_VERBOSE, "\n");
logprintf (LOG_NOTQUIET, _("Cannot write to `%s' (%s).\n"),
*hstat.local_file, strerror (errno));
free_hstat (&hstat);
xfree_null (dummy);
return err;
case CONSSLERR:
/* Another fatal error. */
logputs (LOG_VERBOSE, "\n");
logprintf (LOG_NOTQUIET, _("Unable to establish SSL connection.\n"));
free_hstat (&hstat);
xfree_null (dummy);
return err;
case NEWLOCATION:
/* Return the new location to the caller. */
if (!hstat.newloc)
{
logprintf (LOG_NOTQUIET,
_("ERROR: Redirection (%d) without location.\n"),
hstat.statcode);
free_hstat (&hstat);
xfree_null (dummy);
return WRONGCODE;
}
free_hstat (&hstat);
xfree_null (dummy);
return NEWLOCATION;
case RETRUNNEEDED:
/* The file was already fully retrieved. */
free_hstat (&hstat);
xfree_null (dummy);
return RETROK;
case RETRFINISHED:
/* Deal with you later. */
break;
default:
/* All possibilities should have been exhausted. */
abort ();
}
if (!(*dt & RETROKF))
{
if (!opt.verbose)
{
/* #### Ugly ugly ugly! */
char *hurl = url_string (u, 1);
logprintf (LOG_NONVERBOSE, "%s:\n", hurl);
xfree (hurl);
}
logprintf (LOG_NOTQUIET, _("%s ERROR %d: %s.\n"),
tms, hstat.statcode, escnonprint (hstat.error));
logputs (LOG_VERBOSE, "\n");
free_hstat (&hstat);
xfree_null (dummy);
return WRONGCODE;
}
/* Did we get the time-stamp? */
if (!got_head)
{
if (opt.timestamping && !hstat.remote_time)
{
logputs (LOG_NOTQUIET, _("\
Last-modified header missing -- time-stamps turned off.\n"));
}
else if (hstat.remote_time)
{
/* Convert the date-string into struct tm. */
tmr = http_atotm (hstat.remote_time);
if (tmr == (time_t) (-1))
logputs (LOG_VERBOSE, _("\
Last-modified header invalid -- time-stamp ignored.\n"));
}
}
/* The time-stamping section. */
if (use_ts)
{
got_head = 1;
*dt &= ~HEAD_ONLY;
use_ts = 0; /* no more time-stamping */
count = 0; /* the retrieve count for HEAD is
reset */
if (hstat.remote_time && tmr != (time_t) (-1))
{
/* Now time-stamping can be used validly. Time-stamping
means that if the sizes of the local and remote file
match, and local file is newer than the remote file,
it will not be retrieved. Otherwise, the normal
download procedure is resumed. */
if (tml >= tmr &&
(hstat.contlen == -1 || local_size == hstat.contlen))
{
logprintf (LOG_VERBOSE, _("\
Server file no newer than local file `%s' -- not retrieving.\n\n"),
local_filename);
free_hstat (&hstat);
xfree_null (dummy);
return RETROK;
}
else if (tml >= tmr)
logprintf (LOG_VERBOSE, _("\
The sizes do not match (local %s) -- retrieving.\n"),
number_to_static_string (local_size));
else
logputs (LOG_VERBOSE,
_("Remote file is newer, retrieving.\n"));
}
free_hstat (&hstat);
continue;
}
if ((tmr != (time_t) (-1))
&& !opt.spider
&& ((hstat.len == hstat.contlen) ||
((hstat.res == 0) &&
((hstat.contlen == -1) ||
(hstat.len >= hstat.contlen && !opt.kill_longer)))))
{
/* #### This code repeats in http.c and ftp.c. Move it to a
function! */
const char *fl = NULL;
if (opt.output_document)
{
if (output_stream_regular)
fl = opt.output_document;
}
else
fl = *hstat.local_file;
if (fl)
touch (fl, tmr);
}
/* End of time-stamping section. */
if (opt.spider)
{
logprintf (LOG_NOTQUIET, "%d %s\n\n", hstat.statcode,
escnonprint (hstat.error));
xfree_null (dummy);
return RETROK;
}
tmrate = retr_rate (hstat.rd_size, hstat.dltime, 0);
if (hstat.len == hstat.contlen)
{
if (*dt & RETROKF)
{
logprintf (LOG_VERBOSE,
_("%s (%s) - `%s' saved [%s/%s]\n\n"),
tms, tmrate, locf,
number_to_static_string (hstat.len),
number_to_static_string (hstat.contlen));
logprintf (LOG_NONVERBOSE,
"%s URL:%s [%s/%s] -> \"%s\" [%d]\n",
tms, u->url,
number_to_static_string (hstat.len),
number_to_static_string (hstat.contlen),
locf, count);
}
++opt.numurls;
total_downloaded_bytes += hstat.len;
/* Remember that we downloaded the file for later ".orig" code. */
if (*dt & ADDED_HTML_EXTENSION)
downloaded_file(FILE_DOWNLOADED_AND_HTML_EXTENSION_ADDED, locf);
else
downloaded_file(FILE_DOWNLOADED_NORMALLY, locf);
free_hstat (&hstat);
xfree_null (dummy);
return RETROK;
}
else if (hstat.res == 0) /* No read error */
{
if (hstat.contlen == -1) /* We don't know how much we were supposed
to get, so assume we succeeded. */
{
if (*dt & RETROKF)
{
logprintf (LOG_VERBOSE,
_("%s (%s) - `%s' saved [%s]\n\n"),
tms, tmrate, locf,
number_to_static_string (hstat.len));
logprintf (LOG_NONVERBOSE,
"%s URL:%s [%s] -> \"%s\" [%d]\n",
tms, u->url, number_to_static_string (hstat.len),
locf, count);
}
++opt.numurls;
total_downloaded_bytes += hstat.len;
/* Remember that we downloaded the file for later ".orig" code. */
if (*dt & ADDED_HTML_EXTENSION)
downloaded_file(FILE_DOWNLOADED_AND_HTML_EXTENSION_ADDED, locf);
else
downloaded_file(FILE_DOWNLOADED_NORMALLY, locf);
free_hstat (&hstat);
xfree_null (dummy);
return RETROK;
}
else if (hstat.len < hstat.contlen) /* meaning we lost the
connection too soon */
{
logprintf (LOG_VERBOSE,
_("%s (%s) - Connection closed at byte %s. "),
tms, tmrate, number_to_static_string (hstat.len));
printwhat (count, opt.ntry);
free_hstat (&hstat);
continue;
}
else if (!opt.kill_longer) /* meaning we got more than expected */
{
logprintf (LOG_VERBOSE,
_("%s (%s) - `%s' saved [%s/%s])\n\n"),
tms, tmrate, locf,
number_to_static_string (hstat.len),
number_to_static_string (hstat.contlen));
logprintf (LOG_NONVERBOSE,
"%s URL:%s [%s/%s] -> \"%s\" [%d]\n",
tms, u->url,
number_to_static_string (hstat.len),
number_to_static_string (hstat.contlen),
locf, count);
++opt.numurls;
total_downloaded_bytes += hstat.len;
/* Remember that we downloaded the file for later ".orig" code. */
if (*dt & ADDED_HTML_EXTENSION)
downloaded_file(FILE_DOWNLOADED_AND_HTML_EXTENSION_ADDED, locf);
else
downloaded_file(FILE_DOWNLOADED_NORMALLY, locf);
free_hstat (&hstat);
xfree_null (dummy);
return RETROK;
}
else /* the same, but not accepted */
{
logprintf (LOG_VERBOSE,
_("%s (%s) - Connection closed at byte %s/%s. "),
tms, tmrate,
number_to_static_string (hstat.len),
number_to_static_string (hstat.contlen));
printwhat (count, opt.ntry);
free_hstat (&hstat);
continue;
}
}
else /* now hstat.res can only be -1 */
{
if (hstat.contlen == -1)
{
logprintf (LOG_VERBOSE,
_("%s (%s) - Read error at byte %s (%s)."),
tms, tmrate, number_to_static_string (hstat.len),
strerror (errno));
printwhat (count, opt.ntry);
free_hstat (&hstat);
continue;
}
else /* hstat.res == -1 and contlen is given */
{
logprintf (LOG_VERBOSE,
_("%s (%s) - Read error at byte %s/%s (%s). "),
tms, tmrate,
number_to_static_string (hstat.len),
number_to_static_string (hstat.contlen),
strerror (errno));
printwhat (count, opt.ntry);
free_hstat (&hstat);
continue;
}
}
/* not reached */
}
while (!opt.ntry || (count < opt.ntry));
return TRYLIMEXC;
}
/* Converts struct tm to time_t, assuming the data in tm is UTC rather
than local timezone.
mktime is similar but assumes struct tm, also known as the
"broken-down" form of time, is in local time zone. mktime_from_utc
uses mktime to make the conversion understanding that an offset
will be introduced by the local time assumption.
mktime_from_utc then measures the introduced offset by applying
gmtime to the initial result and applying mktime to the resulting
"broken-down" form. The difference between the two mktime results
is the measured offset which is then subtracted from the initial
mktime result to yield a calendar time which is the value returned.
tm_isdst in struct tm is set to 0 to force mktime to introduce a
consistent offset (the non DST offset) since tm and tm+o might be
on opposite sides of a DST change.
Some implementations of mktime return -1 for the nonexistent
localtime hour at the beginning of DST. In this event, use
mktime(tm - 1hr) + 3600.
Schematically
mktime(tm) --> t+o
gmtime(t+o) --> tm+o
mktime(tm+o) --> t+2o
t+o - (t+2o - t+o) = t
Note that glibc contains a function of the same purpose named
`timegm' (reverse of gmtime). But obviously, it is not universally
available, and unfortunately it is not straightforwardly
extractable for use here. Perhaps configure should detect timegm
and use it where available.
Contributed by Roger Beeman <beeman@cisco.com>, with the help of
Mark Baushke <mdb@cisco.com> and the rest of the Gurus at CISCO.
Further improved by Roger with assistance from Edward J. Sabol
based on input by Jamie Zawinski. */
static time_t
mktime_from_utc (struct tm *t)
{
time_t tl, tb;
struct tm *tg;
tl = mktime (t);
if (tl == -1)
{
t->tm_hour--;
tl = mktime (t);
if (tl == -1)
return -1; /* can't deal with output from strptime */
tl += 3600;
}
tg = gmtime (&tl);
tg->tm_isdst = 0;
tb = mktime (tg);
if (tb == -1)
{
tg->tm_hour--;
tb = mktime (tg);
if (tb == -1)
return -1; /* can't deal with output from gmtime */
tb += 3600;
}
return (tl - (tb - tl));
}
/* Check whether the result of strptime() indicates success.
strptime() returns the pointer to how far it got to in the string.
The processing has been successful if the string is at `GMT' or
`+X', or at the end of the string.
In extended regexp parlance, the function returns 1 if P matches
"^ *(GMT|[+-][0-9]|$)", 0 otherwise. P being NULL (which strptime
can return) is considered a failure and 0 is returned. */
static int
check_end (const char *p)
{
if (!p)
return 0;
while (ISSPACE (*p))
++p;
if (!*p
|| (p[0] == 'G' && p[1] == 'M' && p[2] == 'T')
|| ((p[0] == '+' || p[0] == '-') && ISDIGIT (p[1])))
return 1;
else
return 0;
}
/* Convert the textual specification of time in TIME_STRING to the
number of seconds since the Epoch.
TIME_STRING can be in any of the three formats RFC2068 allows the
HTTP servers to emit -- RFC1123-date, RFC850-date or asctime-date.
Timezones are ignored, and should be GMT.
Return the computed time_t representation, or -1 if the conversion
fails.
This function uses strptime with various string formats for parsing
TIME_STRING. This results in a parser that is not as lenient in
interpreting TIME_STRING as I would like it to be. Being based on
strptime, it always allows shortened months, one-digit days, etc.,
but due to the multitude of formats in which time can be
represented, an ideal HTTP time parser would be even more
forgiving. It should completely ignore things like week days and
concentrate only on the various forms of representing years,
months, days, hours, minutes, and seconds. For example, it would
be nice if it accepted ISO 8601 out of the box.
I've investigated free and PD code for this purpose, but none was
usable. getdate was big and unwieldy, and had potential copyright
issues, or so I was informed. Dr. Marcus Hennecke's atotm(),
distributed with phttpd, is excellent, but we cannot use it because
it is not assigned to the FSF. So I stuck it with strptime. */
time_t
http_atotm (const char *time_string)
{
/* NOTE: Solaris strptime man page claims that %n and %t match white
space, but that's not universally available. Instead, we simply
use ` ' to mean "skip all WS", which works under all strptime
implementations I've tested. */
static const char *time_formats[] = {
"%a, %d %b %Y %T", /* RFC1123: Thu, 29 Jan 1998 22:12:57 */
"%A, %d-%b-%y %T", /* RFC850: Thursday, 29-Jan-98 22:12:57 */
"%a, %d-%b-%Y %T", /* pseudo-RFC850: Thu, 29-Jan-1998 22:12:57
(google.com uses this for their cookies.) */
"%a %b %d %T %Y" /* asctime: Thu Jan 29 22:12:57 1998 */
};
int i;
struct tm t;
/* According to Roger Beeman, we need to initialize tm_isdst, since
strptime won't do it. */
t.tm_isdst = 0;
/* Note that under foreign locales Solaris strptime() fails to
recognize English dates, which renders this function useless. We
solve this by being careful not to affect LC_TIME when
initializing locale.
Another solution would be to temporarily set locale to C, invoke
strptime(), and restore it back. This is slow and dirty,
however, and locale support other than LC_MESSAGES can mess other
things, so I rather chose to stick with just setting LC_MESSAGES.
GNU strptime does not have this problem because it recognizes
both international and local dates. */
for (i = 0; i < countof (time_formats); i++)
if (check_end (strptime (time_string, time_formats[i], &t)))
return mktime_from_utc (&t);
/* All formats have failed. */
return -1;
}
/* Authorization support: We support three authorization schemes:
* `Basic' scheme, consisting of base64-ing USER:PASSWORD string;
* `Digest' scheme, added by Junio Hamano <junio@twinsun.com>,
consisting of answering to the server's challenge with the proper
MD5 digests.
* `NTLM' ("NT Lan Manager") scheme, based on code written by Daniel
Stenberg for libcurl. Like digest, NTLM is based on a
challenge-response mechanism, but unlike digest, it is non-standard
(authenticates TCP connections rather than requests), undocumented
and Microsoft-specific. */
/* Create the authentication header contents for the `Basic' scheme.
This is done by encoding the string `USER:PASS' in base64 and
prepending `HEADER: Basic ' to it. */
static char *
basic_authentication_encode (const char *user, const char *passwd)
{
char *t1, *t2;
int len1 = strlen (user) + 1 + strlen (passwd);
t1 = (char *)alloca (len1 + 1);
sprintf (t1, "%s:%s", user, passwd);
t2 = (char *)alloca (BASE64_LENGTH (len1) + 1);
base64_encode (t1, len1, t2);
return concat_strings ("Basic ", t2, (char *) 0);
}
#define SKIP_WS(x) do { \
while (ISSPACE (*(x))) \
++(x); \
} while (0)
#ifdef ENABLE_DIGEST
/* Parse HTTP `WWW-Authenticate:' header. AU points to the beginning
of a field in such a header. If the field is the one specified by
ATTR_NAME ("realm", "opaque", and "nonce" are used by the current
digest authorization code), extract its value in the (char*)
variable pointed by RET. Returns negative on a malformed header,
or number of bytes that have been parsed by this call. */
static int
extract_header_attr (const char *au, const char *attr_name, char **ret)
{
const char *ep;
const char *cp = au;
if (strncmp (cp, attr_name, strlen (attr_name)) == 0)
{
cp += strlen (attr_name);
if (!*cp)
return -1;
SKIP_WS (cp);
if (*cp != '=')
return -1;
if (!*++cp)
return -1;
SKIP_WS (cp);
if (*cp != '\"')
return -1;
if (!*++cp)
return -1;
for (ep = cp; *ep && *ep != '\"'; ep++)
;
if (!*ep)
return -1;
xfree_null (*ret);
*ret = strdupdelim (cp, ep);
return ep - au + 1;
}
else
return 0;
}
/* Dump the hexadecimal representation of HASH to BUF. HASH should be
an array of 16 bytes containing the hash keys, and BUF should be a
buffer of 33 writable characters (32 for hex digits plus one for
zero termination). */
static void
dump_hash (unsigned char *buf, const unsigned char *hash)
{
int i;
for (i = 0; i < MD5_HASHLEN; i++, hash++)
{
*buf++ = XNUM_TO_digit (*hash >> 4);
*buf++ = XNUM_TO_digit (*hash & 0xf);
}
*buf = '\0';
}
/* Take the line apart to find the challenge, and compose a digest
authorization header. See RFC2069 section 2.1.2. */
static char *
digest_authentication_encode (const char *au, const char *user,
const char *passwd, const char *method,
const char *path)
{
static char *realm, *opaque, *nonce;
static struct {
const char *name;
char **variable;
} options[] = {
{ "realm", &realm },
{ "opaque", &opaque },
{ "nonce", &nonce }
};
char *res;
realm = opaque = nonce = NULL;
au += 6; /* skip over `Digest' */
while (*au)
{
int i;
SKIP_WS (au);
for (i = 0; i < countof (options); i++)
{
int skip = extract_header_attr (au, options[i].name,
options[i].variable);
if (skip < 0)
{
xfree_null (realm);
xfree_null (opaque);
xfree_null (nonce);
return NULL;
}
else if (skip)
{
au += skip;
break;
}
}
if (i == countof (options))
{
while (*au && *au != '=')
au++;
if (*au && *++au)
{
SKIP_WS (au);
if (*au == '\"')
{
au++;
while (*au && *au != '\"')
au++;
if (*au)
au++;
}
}
}
while (*au && *au != ',')
au++;
if (*au)
au++;
}
if (!realm || !nonce || !user || !passwd || !path || !method)
{
xfree_null (realm);
xfree_null (opaque);
xfree_null (nonce);
return NULL;
}
/* Calculate the digest value. */
{
ALLOCA_MD5_CONTEXT (ctx);
unsigned char hash[MD5_HASHLEN];
unsigned char a1buf[MD5_HASHLEN * 2 + 1], a2buf[MD5_HASHLEN * 2 + 1];
unsigned char response_digest[MD5_HASHLEN * 2 + 1];
/* A1BUF = H(user ":" realm ":" password) */
gen_md5_init (ctx);
gen_md5_update ((unsigned char *)user, strlen (user), ctx);
gen_md5_update ((unsigned char *)":", 1, ctx);
gen_md5_update ((unsigned char *)realm, strlen (realm), ctx);
gen_md5_update ((unsigned char *)":", 1, ctx);
gen_md5_update ((unsigned char *)passwd, strlen (passwd), ctx);
gen_md5_finish (ctx, hash);
dump_hash (a1buf, hash);
/* A2BUF = H(method ":" path) */
gen_md5_init (ctx);
gen_md5_update ((unsigned char *)method, strlen (method), ctx);
gen_md5_update ((unsigned char *)":", 1, ctx);
gen_md5_update ((unsigned char *)path, strlen (path), ctx);
gen_md5_finish (ctx, hash);
dump_hash (a2buf, hash);
/* RESPONSE_DIGEST = H(A1BUF ":" nonce ":" A2BUF) */
gen_md5_init (ctx);
gen_md5_update (a1buf, MD5_HASHLEN * 2, ctx);
gen_md5_update ((unsigned char *)":", 1, ctx);
gen_md5_update ((unsigned char *)nonce, strlen (nonce), ctx);
gen_md5_update ((unsigned char *)":", 1, ctx);
gen_md5_update (a2buf, MD5_HASHLEN * 2, ctx);
gen_md5_finish (ctx, hash);
dump_hash (response_digest, hash);
res = (char*) xmalloc (strlen (user)
+ strlen (user)
+ strlen (realm)
+ strlen (nonce)
+ strlen (path)
+ 2 * MD5_HASHLEN /*strlen (response_digest)*/
+ (opaque ? strlen (opaque) : 0)
+ 128);
sprintf (res, "Digest \
username=\"%s\", realm=\"%s\", nonce=\"%s\", uri=\"%s\", response=\"%s\"",
user, realm, nonce, path, response_digest);
if (opaque)
{
char *p = res + strlen (res);
strcat (p, ", opaque=\"");
strcat (p, opaque);
strcat (p, "\"");
}
}
return res;
}
#endif /* ENABLE_DIGEST */
/* Computing the size of a string literal must take into account that
value returned by sizeof includes the terminating \0. */
#define STRSIZE(literal) (sizeof (literal) - 1)
/* Whether chars in [b, e) begin with the literal string provided as
first argument and are followed by whitespace or terminating \0.
The comparison is case-insensitive. */
#define STARTS(literal, b, e) \
((e) - (b) >= STRSIZE (literal) \
&& 0 == strncasecmp (b, literal, STRSIZE (literal)) \
&& ((e) - (b) == STRSIZE (literal) \
|| ISSPACE (b[STRSIZE (literal)])))
static int
known_authentication_scheme_p (const char *hdrbeg, const char *hdrend)
{
return STARTS ("Basic", hdrbeg, hdrend)
#ifdef ENABLE_DIGEST
|| STARTS ("Digest", hdrbeg, hdrend)
#endif
#ifdef ENABLE_NTLM
|| STARTS ("NTLM", hdrbeg, hdrend)
#endif
;
}
#undef STARTS
/* Create the HTTP authorization request header. When the
`WWW-Authenticate' response header is seen, according to the
authorization scheme specified in that header (`Basic' and `Digest'
are supported by the current implementation), produce an
appropriate HTTP authorization request header. */
static char *
create_authorization_line (const char *au, const char *user,
const char *passwd, const char *method,
const char *path, int *finished)
{
/* We are called only with known schemes, so we can dispatch on the
first letter. */
switch (TOUPPER (*au))
{
case 'B': /* Basic */
*finished = 1;
return basic_authentication_encode (user, passwd);
#ifdef ENABLE_DIGEST
case 'D': /* Digest */
*finished = 1;
return digest_authentication_encode (au, user, passwd, method, path);
#endif
#ifdef ENABLE_NTLM
case 'N': /* NTLM */
if (!ntlm_input (&pconn.ntlm, au))
{
*finished = 1;
return NULL;
}
return ntlm_output (&pconn.ntlm, user, passwd, finished);
#endif
default:
/* We shouldn't get here -- this function should be only called
with values approved by known_authentication_scheme_p. */
abort ();
}
}
void
save_cookies (void)
{
if (wget_cookie_jar)
cookie_jar_save (wget_cookie_jar, opt.cookies_output);
}
void
http_cleanup (void)
{
xfree_null (pconn.host);
if (wget_cookie_jar)
cookie_jar_delete (wget_cookie_jar);
}
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