/* Written by Hrvoje Niksic. Parts are loosely inspired by cookie
code submitted by Tomasz Wegrzanowski.
- TODO: Implement limits on cookie-related sizes, such as max. cookie
- size, max. number of cookies, etc. Add more "cookie jar" methods,
- such as methods to over stored cookies, to clear temporary cookies,
- to perform intelligent auto-saving, etc. Ultimately support
- `Set-Cookie2' and `Cookie2' headers. */
+ Ideas for future work:
+
+ * Implement limits on cookie-related sizes, such as max. cookie
+ size, max. number of cookies, etc.
+
+ * Add more "cookie jar" methods, such as methods to iterate over
+ stored cookies, to clear temporary cookies, to perform
+ intelligent auto-saving, etc.
+
+ * Support `Set-Cookie2' and `Cookie2' headers? Does anyone really
+ use them? */
#include <config.h>
\f
/* Declarations of `struct cookie' and the most basic functions. */
+/* Cookie jar serves as cookie storage and a means of retrieving
+ cookies efficiently. All cookies with the same domain are stored
+ in a linked list called "chain". A cookie chain can be reached by
+ looking up the domain in the cookie jar's chains_by_domain table.
+
+ For example, to reach all the cookies under google.com, one must
+ execute hash_table_get(jar->chains_by_domain, "google.com"). Of
+ course, when sending a cookie to `www.google.com', one must search
+ for cookies that belong to either `www.google.com' or `google.com'
+ -- but the point is that the code doesn't need to go through *all*
+ the cookies. */
+
struct cookie_jar {
- /* Hash table that maps domain names to cookie chains. A "cookie
- chain" is a linked list of cookies that belong to the same
- domain. */
- struct hash_table *chains_by_domain;
+ /* Cookie chains indexed by domain. */
+ struct hash_table *chains;
int cookie_count; /* number of cookies in the jar. */
};
struct cookie_jar *
cookie_jar_new (void)
{
- struct cookie_jar *jar = xmalloc (sizeof (struct cookie_jar));
- jar->chains_by_domain = make_nocase_string_hash_table (0);
+ struct cookie_jar *jar = xnew (struct cookie_jar);
+ jar->chains = make_nocase_string_hash_table (0);
jar->cookie_count = 0;
return jar;
}
char *domain; /* domain of the cookie */
int port; /* port number */
char *path; /* path prefix of the cookie */
+
int secure; /* whether cookie should be
transmitted over non-https
connections. */
+ int domain_exact; /* whether DOMAIN must match as a
+ whole. */
+
int permanent; /* whether the cookie should outlive
- the session */
- time_t expiry_time; /* time when the cookie expires */
+ the session. */
+ time_t expiry_time; /* time when the cookie expires, 0
+ means undetermined. */
+
int discard_requested; /* whether cookie was created to
request discarding another
- cookie */
+ cookie. */
char *attr; /* cookie attribute name */
char *value; /* cookie attribute value */
- struct cookie_jar *jar; /* pointer back to the cookie jar, for
- convenience. */
struct cookie *next; /* used for chaining of cookies in the
same domain. */
};
#define PORT_ANY (-1)
-#define COOKIE_EXPIRED_P(c) ((c)->expiry_time != 0 && (c)->expiry_time < cookies_now)
/* Allocate and return a new, empty cookie structure. */
static struct cookie *
cookie_new (void)
{
- struct cookie *cookie = xmalloc (sizeof (struct cookie));
- memset (cookie, '\0', sizeof (struct cookie));
+ struct cookie *cookie = xnew0 (struct cookie);
- /* Both cookie->permanent and cookie->expiry_time are now 0. By
- default, we assume that the cookie is non-permanent and valid
- until the end of the session. */
+ /* Both cookie->permanent and cookie->expiry_time are now 0. This
+ means that the cookie doesn't expire, but is only valid for this
+ session (i.e. not written out to disk). */
cookie->port = PORT_ANY;
return cookie;
}
+/* Non-zero if the cookie has expired. Assumes cookies_now has been
+ set by one of the entry point functions. */
+
+static int
+cookie_expired_p (const struct cookie *c)
+{
+ return c->expiry_time != 0 && c->expiry_time < cookies_now;
+}
+
/* Deallocate COOKIE and its components. */
static void
delete_cookie (struct cookie *cookie)
{
- FREE_MAYBE (cookie->domain);
- FREE_MAYBE (cookie->path);
- FREE_MAYBE (cookie->attr);
- FREE_MAYBE (cookie->value);
+ xfree_null (cookie->domain);
+ xfree_null (cookie->path);
+ xfree_null (cookie->attr);
+ xfree_null (cookie->value);
xfree (cookie);
}
\f
/* Functions for storing cookies.
- All cookies can be reached beginning with jar->chains_by_domain.
- The key in that table is the domain name, and the value is a linked
- list of all cookies from that domain. Every new cookie is placed
- on the head of the list. */
+ All cookies can be reached beginning with jar->chains. The key in
+ that table is the domain name, and the value is a linked list of
+ all cookies from that domain. Every new cookie is placed on the
+ head of the list. */
/* Find and return a cookie in JAR whose domain, path, and attribute
name correspond to COOKIE. If found, PREVPTR will point to the
{
struct cookie *chain, *prev;
- chain = hash_table_get (jar->chains_by_domain, cookie->domain);
+ chain = hash_table_get (jar->chains, cookie->domain);
if (!chain)
goto nomatch;
struct cookie *chain_head;
char *chain_key;
- if (hash_table_get_pair (jar->chains_by_domain, cookie->domain,
+ if (hash_table_get_pair (jar->chains, cookie->domain,
&chain_key, &chain_head))
{
/* A chain of cookies in this domain already exists. Check for
}
else
{
- /* We are now creating the chain. Allocate the string that will
- be used as a key. It is unsafe to use cookie->domain for
- that, because it might get deallocated by the above code at
- some point later. */
+ /* We are now creating the chain. Use a copy of cookie->domain
+ as the key for the life-time of the chain. Using
+ cookie->domain would be unsafe because the life-time of the
+ chain may exceed the life-time of the cookie. (Cookies may
+ be deleted from the chain by this very function.) */
cookie->next = NULL;
chain_key = xstrdup (cookie->domain);
}
- hash_table_put (jar->chains_by_domain, chain_key, cookie);
+ hash_table_put (jar->chains, chain_key, cookie);
++jar->cookie_count;
- DEBUGP (("\nStored cookie %s %d%s %s %s %d %s %s %s\n",
- cookie->domain, cookie->port,
- cookie->port == PORT_ANY ? " (ANY)" : "",
- cookie->path,
- cookie->permanent ? "permanent" : "nonpermanent",
- cookie->secure,
- cookie->expiry_time
- ? asctime (localtime (&cookie->expiry_time)) : "<undefined>",
- cookie->attr, cookie->value));
+#ifdef ENABLE_DEBUG
+ if (opt.debug)
+ {
+ time_t exptime = (time_t) cookie->expiry_time;
+ DEBUGP (("\nStored cookie %s %d%s %s <%s> <%s> [expiry %s] %s %s\n",
+ cookie->domain, cookie->port,
+ cookie->port == PORT_ANY ? " (ANY)" : "",
+ cookie->path,
+ cookie->permanent ? "permanent" : "session",
+ cookie->secure ? "secure" : "insecure",
+ cookie->expiry_time ? datetime_str (&exptime) : "none",
+ cookie->attr, cookie->value));
+ }
+#endif
}
/* Discard a cookie matching COOKIE's domain, port, path, and
{
struct cookie *prev, *victim;
- if (!hash_table_count (jar->chains_by_domain))
+ if (!hash_table_count (jar->chains))
/* No elements == nothing to discard. */
return;
char *chain_key = NULL;
int res;
- res = hash_table_get_pair (jar->chains_by_domain, victim->domain,
+ res = hash_table_get_pair (jar->chains, victim->domain,
&chain_key, NULL);
assert (res != 0);
if (!victim->next)
{
/* VICTIM was the only cookie in the chain. Destroy the
chain and deallocate the chain key. */
- hash_table_remove (jar->chains_by_domain, victim->domain);
+ hash_table_remove (jar->chains, victim->domain);
xfree (chain_key);
}
else
- hash_table_put (jar->chains_by_domain, chain_key, victim->next);
+ hash_table_put (jar->chains, chain_key, victim->next);
}
delete_cookie (victim);
DEBUGP (("Discarded old cookie.\n"));
/* Functions for parsing the `Set-Cookie' header, and creating new
cookies from the wire. */
-
#define NAME_IS(string_literal) \
BOUNDED_EQUAL_NO_CASE (name_b, name_e, string_literal)
{
if (!VALUE_NON_EMPTY)
return 0;
- FREE_MAYBE (cookie->domain);
+ xfree_null (cookie->domain);
+ /* Strictly speaking, we should set cookie->domain_exact if the
+ domain doesn't begin with a dot. But many sites set the
+ domain to "foo.com" and expect "subhost.foo.com" to get the
+ cookie, and it apparently works. */
+ if (*value_b == '.')
+ ++value_b;
cookie->domain = strdupdelim (value_b, value_e);
return 1;
}
{
if (!VALUE_NON_EMPTY)
return 0;
- FREE_MAYBE (cookie->path);
+ xfree_null (cookie->path);
cookie->path = strdupdelim (value_b, value_e);
return 1;
}
cookie->expiry_time = (time_t)expires;
}
else
- /* Error in expiration spec. Assume default (cookie valid for
- this session.) */
+ /* Error in expiration spec. Assume default (cookie doesn't
+ expire, but valid only for this session.) */
;
/* According to netscape's specification, expiry time in the
/* Check whether ADDR matches <digits>.<digits>.<digits>.<digits>.
- We don't want to call network functions like inet_addr() because all
- we need is a check, preferrably one that is small, fast, and
- well-defined. */
+ We don't want to call network functions like inet_addr() because
+ all we need is a check, preferrably one that is small, fast, and
+ well-defined. */
static int
numeric_address_p (const char *addr)
DEBUGP ((" 2"));
/* For the sake of efficiency, check for exact match first. */
- if (!strcasecmp (cookie_domain, host))
+ if (0 == strcasecmp (cookie_domain, host))
return 1;
DEBUGP ((" 3"));
DEBUGP ((" 7"));
- /* Don't allow domain "bar.com" to match host "foobar.com". */
+ /* Don't allow the host "foobar.com" to set a cookie for domain
+ "bar.com". */
if (*cookie_domain != '.')
{
int dlen = strlen (cookie_domain);
depending on the contents. */
void
-cookie_jar_process_set_cookie (struct cookie_jar *jar,
- const char *host, int port,
- const char *path, const char *set_cookie)
+cookie_handle_set_cookie (struct cookie_jar *jar,
+ const char *host, int port,
+ const char *path, const char *set_cookie)
{
struct cookie *cookie;
cookies_now = time (NULL);
if (!cookie->domain)
{
copy_domain:
+ /* If the domain was not provided, we use the one we're talking
+ to, and set exact match. */
cookie->domain = xstrdup (host);
- cookie->port = port;
+ cookie->domain_exact = 1;
+ /* Set the port, but only if it's non-default. */
+ if (port != 80 && port != 443)
+ cookie->port = port;
}
else
{
logprintf (LOG_NOTQUIET,
"Cookie coming from %s attempted to set domain to %s\n",
host, cookie->domain);
+ xfree (cookie->domain);
goto copy_domain;
}
}
+
if (!cookie->path)
cookie->path = xstrdup (path);
else
previously stored cookies. Entry point is
`build_cookies_request'. */
-/* Store CHAIN to STORE if there is room in STORE. If not, inrecement
- COUNT anyway, so that when the function is done, we end up with the
- exact count of how much place we actually need. */
+/* Find the cookie chains whose domains match HOST and store them to
+ DEST.
-#define STORE_CHAIN(st_chain, st_store, st_size, st_count) do { \
- if (st_count < st_size) \
- store[st_count] = st_chain; \
- ++st_count; \
-} while (0)
+ A cookie chain is the head of a list of cookies that belong to a
+ host/domain. Given HOST "img.search.xemacs.org", this function
+ will return the chains for "img.search.xemacs.org",
+ "search.xemacs.org", and "xemacs.org" -- those of them that exist
+ (if any), that is.
-/* Store cookie chains that match HOST. Since more than one chain can
- match, the matches are written to STORE. No more than SIZE matches
- are written; if more matches are present, return the number of
- chains that would have been written. */
+ DEST should be large enough to accept (in the worst case) as many
+ elements as there are domain components of HOST. */
static int
-find_matching_chains (struct cookie_jar *jar, const char *host,
- struct cookie *store[], int size)
+find_chains_of_host (struct cookie_jar *jar, const char *host,
+ struct cookie *dest[])
{
- struct cookie *chain;
- int dot_count;
- char *hash_key;
- int count = 0;
+ int dest_count = 0;
+ int passes, passcnt;
- if (!hash_table_count (jar->chains_by_domain))
+ /* Bail out quickly if there are no cookies in the jar. */
+ if (!hash_table_count (jar->chains))
return 0;
- STRDUP_ALLOCA (hash_key, host);
-
- /* Look for an exact match. */
- chain = hash_table_get (jar->chains_by_domain, hash_key);
- if (chain)
- STORE_CHAIN (chain, store, size, count);
-
- dot_count = count_char (host, '.');
-
- /* Match less and less specific domains. For instance, given
- fly.srk.fer.hr, we match .srk.fer.hr, then .fer.hr. */
- while (dot_count-- > 1)
+ if (numeric_address_p (host))
+ /* If host is an IP address, only check for the exact match. */
+ passes = 1;
+ else
+ /* Otherwise, check all the subdomains except the top-level (last)
+ one. As a domain with N components has N-1 dots, the number of
+ passes equals the number of dots. */
+ passes = count_char (host, '.');
+
+ passcnt = 0;
+
+ /* Find chains that match HOST, starting with exact match and
+ progressing to less specific domains. For instance, given HOST
+ fly.srk.fer.hr, first look for fly.srk.fer.hr's chain, then
+ srk.fer.hr's, then fer.hr's. */
+ while (1)
{
- /* Note: we operate directly on hash_key (in form host:port)
- because we don't want to allocate new hash keys in a
- loop. */
- char *p = strchr (hash_key, '.');
- assert (p != NULL);
- chain = hash_table_get (jar->chains_by_domain, p);
+ struct cookie *chain = hash_table_get (jar->chains, host);
if (chain)
- STORE_CHAIN (chain, store, size, count);
- hash_key = p + 1;
+ dest[dest_count++] = chain;
+ if (++passcnt >= passes)
+ break;
+ host = strchr (host, '.') + 1;
}
- return count;
+
+ return dest_count;
}
/* If FULL_PATH begins with PREFIX, return the length of PREFIX, zero
if (*prefix != '/')
/* Wget's HTTP paths do not begin with '/' (the URL code treats it
- as a separator), but the '/' is assumed when matching against
- the cookie stuff. */
+ as a mere separator, inspired by rfc1808), but the '/' is
+ assumed when matching against the cookie stuff. */
return 0;
++prefix;
return len + 1;
}
-/* Return non-zero iff COOKIE matches the given PATH, PORT, and
- security flag. HOST is not a flag because it is assumed that the
- cookie comes from the correct chain.
+/* Return non-zero iff COOKIE matches the provided parameters of the
+ URL being downloaded: HOST, PORT, PATH, and SECFLAG.
- If PATH_GOODNESS is non-NULL, store the "path goodness" there. The
- said goodness is a measure of how well COOKIE matches PATH. It is
+ If PATH_GOODNESS is non-NULL, store the "path goodness" value
+ there. That value is a measure of how closely COOKIE matches PATH,
used for ordering cookies. */
static int
-matching_cookie (const struct cookie *cookie, const char *path, int port,
- int connection_secure_p, int *path_goodness)
+cookie_matches_url (const struct cookie *cookie,
+ const char *host, int port, const char *path,
+ int secflag, int *path_goodness)
{
int pg;
- if (COOKIE_EXPIRED_P (cookie))
+ if (cookie_expired_p (cookie))
/* Ignore stale cookies. Don't bother unchaining the cookie at
this point -- Wget is a relatively short-lived application, and
stale cookies will not be saved by `save_cookies'. On the
possible. */
return 0;
- if (cookie->secure && !connection_secure_p)
- /* Don't transmit secure cookies over an insecure connection. */
+ if (cookie->secure && !secflag)
+ /* Don't transmit secure cookies over insecure connections. */
return 0;
if (cookie->port != PORT_ANY && cookie->port != port)
return 0;
+
+ /* If exact domain match is required, verify that cookie's domain is
+ equal to HOST. If not, assume success on the grounds of the
+ cookie's chain having been found by find_chains_of_host. */
+ if (cookie->domain_exact
+ && 0 != strcasecmp (host, cookie->domain))
+ return 0;
+
pg = path_matches (path, cookie->path);
if (!pg)
return 0;
return 1;
}
+/* A structure that points to a cookie, along with the additional
+ information about the cookie's "goodness". This allows us to sort
+ the cookies when returning them to the server, as required by the
+ spec. */
+
struct weighed_cookie {
struct cookie *cookie;
int domain_goodness;
}
/* Eliminate duplicate cookies. "Duplicate cookies" are any two
- cookies whose name and value are the same. Whenever a duplicate
+ cookies with the same attr name and value. Whenever a duplicate
pair is found, one of the cookies is removed. */
static int
eliminate_dups (struct weighed_cookie *outgoing, int count)
{
- int i;
+ struct weighed_cookie *h; /* hare */
+ struct weighed_cookie *t; /* tortoise */
+ struct weighed_cookie *end = outgoing + count;
/* We deploy a simple uniquify algorithm: first sort the array
- according to our sort criterion, then uniquify it by comparing
- each cookie with its neighbor. */
+ according to our sort criteria, then copy it to itself, comparing
+ each cookie to its neighbor and ignoring the duplicates. */
qsort (outgoing, count, sizeof (struct weighed_cookie), equality_comparator);
- for (i = 0; i < count - 1; i++)
+ /* "Hare" runs through all the entries in the array, followed by
+ "tortoise". If a duplicate is found, the hare skips it.
+ Non-duplicate entries are copied to the tortoise ptr. */
+
+ for (h = t = outgoing; h < end; h++)
{
- struct cookie *c1 = outgoing[i].cookie;
- struct cookie *c2 = outgoing[i + 1].cookie;
- if (!strcmp (c1->attr, c2->attr) && !strcmp (c1->value, c2->value))
+ if (h != end - 1)
{
- /* c1 and c2 are the same; get rid of c2. */
- if (count > i + 1)
- /* move all ptrs from positions [i + 1, count) to i. */
- memmove (outgoing + i, outgoing + i + 1,
- (count - (i + 1)) * sizeof (struct weighed_cookie));
- /* We decrement i to counter the ++i above. Remember that
- we've just removed the element in front of us; we need to
- remain in place to check whether outgoing[i] matches what
- used to be outgoing[i + 2]. */
- --i;
- --count;
+ struct cookie *c0 = h[0].cookie;
+ struct cookie *c1 = h[1].cookie;
+ if (!strcmp (c0->attr, c1->attr) && !strcmp (c0->value, c1->value))
+ continue; /* ignore the duplicate */
}
+
+ /* If the hare has advanced past the tortoise (because of
+ previous dups), make sure the values get copied. Otherwise,
+ no copying is necessary. */
+ if (h != t)
+ *t++ = *h;
+ else
+ t++;
}
- return count;
+ return t - outgoing;
}
/* Comparator used for sorting by quality. */
generated, NULL is returned. */
char *
-cookie_jar_generate_cookie_header (struct cookie_jar *jar, const char *host,
- int port, const char *path,
- int connection_secure_p)
+cookie_header (struct cookie_jar *jar, const char *host,
+ int port, const char *path, int secflag)
{
- struct cookie *chain_default_store[20];
- struct cookie **all_chains = chain_default_store;
- int chain_store_size = countof (chain_default_store);
+ struct cookie **chains;
int chain_count;
struct cookie *cookie;
char *result;
int result_size, pos;
- again:
- chain_count = find_matching_chains (jar, host, all_chains, chain_store_size);
- if (chain_count > chain_store_size)
- {
- /* It's extremely unlikely that more than 20 chains will ever
- match. But since find_matching_chains reports the exact size
- it needs, it's easy to not have the limitation, so we
- don't. */
- all_chains = alloca (chain_count * sizeof (struct cookie *));
- chain_store_size = chain_count;
- goto again;
- }
+ /* First, find the cookie chains whose domains match HOST. */
+ /* Allocate room for find_chains_of_host to write to. The number of
+ chains can at most equal the number of subdomains, hence
+ 1+<number of dots>. */
+ chains = alloca_array (struct cookie *, 1 + count_char (host, '.'));
+ chain_count = find_chains_of_host (jar, host, chains);
+
+ /* No cookies for this host. */
if (!chain_count)
return NULL;
cookies_now = time (NULL);
- /* Count the number of cookies whose path matches. */
+ /* Now extract from the chains those cookies that match our host
+ (for domain_exact cookies), port (for cookies with port other
+ than PORT_ANY), etc. See matching_cookie for details. */
+
+ /* Count the number of matching cookies. */
count = 0;
for (i = 0; i < chain_count; i++)
- for (cookie = all_chains[i]; cookie; cookie = cookie->next)
- if (matching_cookie (cookie, path, port, connection_secure_p, NULL))
+ for (cookie = chains[i]; cookie; cookie = cookie->next)
+ if (cookie_matches_url (cookie, host, port, path, secflag, NULL))
++count;
if (!count)
- /* No matching cookies. */
- return NULL;
+ return NULL; /* no cookies matched */
/* Allocate the array. */
- outgoing = alloca (count * sizeof (struct weighed_cookie));
+ outgoing = alloca_array (struct weighed_cookie, count);
- /* Fill the array with all the matching cookies from all the
- matching chains. */
+ /* Fill the array with all the matching cookies from the chains that
+ match HOST. */
ocnt = 0;
for (i = 0; i < chain_count; i++)
- for (cookie = all_chains[i]; cookie; cookie = cookie->next)
+ for (cookie = chains[i]; cookie; cookie = cookie->next)
{
int pg;
- if (!matching_cookie (cookie, path, port, connection_secure_p, &pg))
+ if (!cookie_matches_url (cookie, host, port, path, secflag, &pg))
continue;
outgoing[ocnt].cookie = cookie;
outgoing[ocnt].domain_goodness = strlen (cookie->domain);
}
/* Allocate output buffer:
- "Cookie: " -- 8
name=value pairs -- result_size
"; " separators -- (count - 1) * 2
- \r\n line ending -- 2
\0 terminator -- 1 */
- result_size = 8 + result_size + (count - 1) * 2 + 2 + 1;
+ result_size = result_size + (count - 1) * 2 + 1;
result = xmalloc (result_size);
pos = 0;
- strcpy (result, "Cookie: ");
- pos += 8;
for (i = 0; i < count; i++)
{
struct cookie *c = outgoing[i].cookie;
result[pos++] = ' ';
}
}
- result[pos++] = '\r';
- result[pos++] = '\n';
result[pos++] = '\0';
assert (pos == result_size);
return result;
}
\f
/* Support for loading and saving cookies. The format used for
- loading and saving roughly matches the format of `cookies.txt' file
- used by Netscape and Mozilla, at least the Unix versions. The
+ loading and saving should be the format of the `cookies.txt' file
+ used by Netscape and Mozilla, at least the Unix versions.
+ (Apparently IE can export cookies in that format as well.) The
format goes like this:
DOMAIN DOMAIN-FLAG PATH SECURE-FLAG TIMESTAMP ATTR-NAME ATTR-VALUE
ATTR-NAME -- name of the cookie attribute
ATTR-VALUE -- value of the cookie attribute (empty if absent)
- The fields are separated by TABs (but Wget's loader recognizes any
- whitespace). All fields are mandatory, except for ATTR-VALUE. The
- `-FLAG' fields are boolean, their legal values being "TRUE" and
- "FALSE'. Empty lines, lines consisting of whitespace only, and
- comment lines (beginning with # optionally preceded by whitespace)
- are ignored.
+ The fields are separated by TABs. All fields are mandatory, except
+ for ATTR-VALUE. The `-FLAG' fields are boolean, their legal values
+ being "TRUE" and "FALSE'. Empty lines, lines consisting of
+ whitespace only, and comment lines (beginning with # optionally
+ preceded by whitespace) are ignored.
Example line from cookies.txt (split in two lines for readability):
.google.com TRUE / FALSE 2147368447 \
PREF ID=34bb47565bbcd47b:LD=en:NR=20:TM=985172580:LM=985739012
- DOMAIN-FLAG is currently not honored by Wget. The cookies whose
- domain begins with `.' are treated as if DOMAIN-FLAG were true,
- while all other cookies are treated as if it were FALSE. */
-
+*/
/* If the region [B, E) ends with :<digits>, parse the number, return
it, and store new boundary (location of the `:') to DOMAIN_E_PTR.
return port;
}
-#define SKIP_WS(p) do { \
- while (*p && ISSPACE (*p)) \
- ++p; \
-} while (0)
-
-#define SET_WORD_BOUNDARIES(p, b, e) do { \
- SKIP_WS (p); \
+#define GET_WORD(p, b, e) do { \
b = p; \
- /* skip non-ws */ \
- while (*p && !ISSPACE (*p)) \
+ while (*p && *p != '\t') \
++p; \
e = p; \
- if (b == e) \
+ if (b == e || !*p) \
goto next; \
+ ++p; \
} while (0)
/* Load cookies from FILE. */
int port;
char *domain_b = NULL, *domain_e = NULL;
- char *ignore_b = NULL, *ignore_e = NULL;
+ char *domflag_b = NULL, *domflag_e = NULL;
char *path_b = NULL, *path_e = NULL;
char *secure_b = NULL, *secure_e = NULL;
char *expires_b = NULL, *expires_e = NULL;
char *name_b = NULL, *name_e = NULL;
char *value_b = NULL, *value_e = NULL;
- SKIP_WS (p);
-
+ /* Skip leading white-space. */
+ while (*p && ISSPACE (*p))
+ ++p;
+ /* Ignore empty lines. */
if (!*p || *p == '#')
- /* empty line */
continue;
- SET_WORD_BOUNDARIES (p, domain_b, domain_e);
- SET_WORD_BOUNDARIES (p, ignore_b, ignore_e);
- SET_WORD_BOUNDARIES (p, path_b, path_e);
- SET_WORD_BOUNDARIES (p, secure_b, secure_e);
- SET_WORD_BOUNDARIES (p, expires_b, expires_e);
- SET_WORD_BOUNDARIES (p, name_b, name_e);
-
- /* Don't use SET_WORD_BOUNDARIES for value because it may
- contain whitespace. Instead, set value_e to the end of line,
- modulo trailing space (this will skip the line separator.) */
- SKIP_WS (p);
+ GET_WORD (p, domain_b, domain_e);
+ GET_WORD (p, domflag_b, domflag_e);
+ GET_WORD (p, path_b, path_e);
+ GET_WORD (p, secure_b, secure_e);
+ GET_WORD (p, expires_b, expires_e);
+ GET_WORD (p, name_b, name_e);
+
+ /* Don't use GET_WORD for value because it ends with newline,
+ not TAB. */
value_b = p;
value_e = p + strlen (p);
- while (value_e > value_b && ISSPACE (*(value_e - 1)))
+ if (value_e > value_b && value_e[-1] == '\n')
--value_e;
- if (value_b == value_e)
- /* Hmm, should we check for empty value? I guess that's
- legal, so I leave it. */
- ;
+ if (value_e > value_b && value_e[-1] == '\r')
+ --value_e;
+ /* Empty values are legal (I think), so don't bother checking. */
cookie = cookie_new ();
cookie->attr = strdupdelim (name_b, name_e);
cookie->value = strdupdelim (value_b, value_e);
cookie->path = strdupdelim (path_b, path_e);
+ cookie->secure = BOUNDED_EQUAL (secure_b, secure_e, "TRUE");
- if (BOUNDED_EQUAL (secure_b, secure_e, "TRUE"))
- cookie->secure = 1;
+ /* Curl source says, quoting Andre Garcia: "flag: A TRUE/FALSE
+ value indicating if all machines within a given domain can
+ access the variable. This value is set automatically by the
+ browser, depending on the value set for the domain." */
+ cookie->domain_exact = !BOUNDED_EQUAL (domflag_b, domflag_e, "TRUE");
/* DOMAIN needs special treatment because we might need to
extract the port. */
port = domain_port (domain_b, domain_e, (const char **)&domain_e);
if (port)
cookie->port = port;
+
+ if (*domain_b == '.')
+ ++domain_b; /* remove leading dot internally */
cookie->domain = strdupdelim (domain_b, domain_e);
/* safe default in case EXPIRES field is garbled. */
expiry = (double)cookies_now - 1;
- /* I don't like changing the line, but it's completely safe.
- (line is malloced.) */
+ /* I don't like changing the line, but it's safe here. (line is
+ malloced.) */
*expires_e = '\0';
sscanf (expires_b, "%lf", &expiry);
- if (expiry < cookies_now)
- /* ignore stale cookie. */
- goto abort;
- cookie->expiry_time = expiry;
- /* If the cookie has survived being saved into an external file,
- it is obviously permanent. */
- cookie->permanent = 1;
+ if (expiry == 0)
+ {
+ /* EXPIRY can be 0 for session cookies saved because the
+ user specified `--keep-session-cookies' in the past.
+ They remain session cookies, and will be saved only if
+ the user has specified `keep-session-cookies' again. */
+ }
+ else
+ {
+ if (expiry < cookies_now)
+ goto abort; /* ignore stale cookie. */
+ cookie->expiry_time = expiry;
+ cookie->permanent = 1;
+ }
store_cookie (jar, cookie);
{
FILE *fp = (FILE *)arg;
char *domain = (char *)key;
- struct cookie *chain = (struct cookie *)value;
- for (; chain; chain = chain->next)
+ struct cookie *cookie = (struct cookie *)value;
+ for (; cookie; cookie = cookie->next)
{
- if (!chain->permanent)
+ if (!cookie->permanent && !opt.keep_session_cookies)
continue;
- if (COOKIE_EXPIRED_P (chain))
+ if (cookie_expired_p (cookie))
continue;
+ if (!cookie->domain_exact)
+ fputc ('.', fp);
fputs (domain, fp);
- if (chain->port != PORT_ANY)
- fprintf (fp, ":%d", chain->port);
+ if (cookie->port != PORT_ANY)
+ fprintf (fp, ":%d", cookie->port);
fprintf (fp, "\t%s\t%s\t%s\t%.0f\t%s\t%s\n",
- *domain == '.' ? "TRUE" : "FALSE",
- chain->path, chain->secure ? "TRUE" : "FALSE",
- (double)chain->expiry_time,
- chain->attr, chain->value);
+ cookie->domain_exact ? "FALSE" : "TRUE",
+ cookie->path, cookie->secure ? "TRUE" : "FALSE",
+ (double)cookie->expiry_time,
+ cookie->attr, cookie->value);
if (ferror (fp))
return 1; /* stop mapping */
}
}
fputs ("# HTTP cookie file.\n", fp);
- fprintf (fp, "# Generated by Wget on %s.\n", datetime_str (NULL));
+ fprintf (fp, "# Generated by Wget on %s.\n", datetime_str (&cookies_now));
fputs ("# Edit at your own risk.\n\n", fp);
- hash_table_map (jar->chains_by_domain, save_cookies_mapper, fp);
+ hash_table_map (jar->chains, save_cookies_mapper, fp);
if (ferror (fp))
logprintf (LOG_NOTQUIET, _("Error writing to `%s': %s\n"),
file, strerror (errno));
-
if (fclose (fp) < 0)
logprintf (LOG_NOTQUIET, _("Error closing `%s': %s\n"),
file, strerror (errno));
struct cookie_jar *jar = (struct cookie_jar *)arg;
/* Remove the chain from the table and free the key. */
- hash_table_remove (jar->chains_by_domain, chain_key);
+ hash_table_remove (jar->chains, chain_key);
xfree (chain_key);
/* Then delete all the cookies in the chain. */
void
cookie_jar_delete (struct cookie_jar *jar)
{
- hash_table_map (jar->chains_by_domain, nuke_cookie_chain, jar);
- hash_table_destroy (jar->chains_by_domain);
+ hash_table_map (jar->chains, nuke_cookie_chain, jar);
+ hash_table_destroy (jar->chains);
xfree (jar);
}
\f