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elinks/src/cookies/cookies.c

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/* Internal cookies implementation */
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <sys/types.h>
#include <sys/stat.h> /* OS/2 needs this after sys/types.h */
#ifdef HAVE_TIME_H
#include <time.h>
#endif
#include "elinks.h"
#if 0
#define DEBUG_COOKIES
#endif
#include "bfu/dialog.h"
#include "cookies/cookies.h"
#include "cookies/dialogs.h"
#include "cookies/parser.h"
#include "config/home.h"
#include "config/kbdbind.h"
#include "config/options.h"
#include "intl/gettext/libintl.h"
#include "main/module.h"
#include "main/object.h"
#include "main/select.h"
#include "protocol/date.h"
#include "protocol/header.h"
#include "protocol/protocol.h"
#include "protocol/uri.h"
#include "session/session.h"
#include "terminal/terminal.h"
#include "util/conv.h"
#ifdef DEBUG_COOKIES
#include "util/error.h"
#endif
#include "util/file.h"
#include "util/memory.h"
#include "util/secsave.h"
#include "util/string.h"
#include "util/time.h"
#define COOKIES_FILENAME "cookies"
static int cookies_nosave = 0;
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static INIT_LIST_OF(struct cookie, cookies);
struct c_domain {
LIST_HEAD(struct c_domain);
unsigned char domain[1]; /* Must be at end of struct. */
};
/* List of domains for which there may be cookies. This supposedly
* speeds up @send_cookies for other domains. Each element is a
* struct c_domain. No other data structures have pointers to these
* objects. Currently the domains remain in the list until
* @done_cookies clears the whole list. */
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static INIT_LIST_OF(struct c_domain, c_domains);
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/* List of servers for which there are cookies. */
static INIT_LIST_OF(struct cookie_server, cookie_servers);
/* Only @set_cookies_dirty may make this nonzero. */
static int cookies_dirty = 0;
enum cookies_option {
COOKIES_TREE,
COOKIES_ACCEPT_POLICY,
COOKIES_MAX_AGE,
COOKIES_PARANOID_SECURITY,
COOKIES_SAVE,
COOKIES_RESAVE,
COOKIES_OPTIONS,
};
bug 764: Initialize the right member of union option_value INIT_OPTION used to initialize union option_value at compile time by casting the default value to LIST_OF(struct option) *, which is the type of the first member. On sparc64 and other big-endian systems where sizeof(int) < sizeof(struct list_head *), this tended to leave option->value.number as zero, thus messing up OPT_INT and OPT_BOOL at least. OPT_LONG however tended to work right. This would be easy to fix with C99 designated initializers, but doc/hacking.txt says ELinks must be kept C89 compatible. Another solution would be to make register_options() read the value from option->value.tree (the first member), cast it back to the right type, and write it to the appropriate member; but that would still require somewhat dubious conversions between integers, data pointers, and function pointers. So here's a rather more invasive solution. Add struct option_init, which is somewhat similar to struct option but has non-overlapping members for different types of values, to ensure nothing is lost in compile-time conversions. Move unsigned char *path from struct option_info to struct option_init, and replace struct option_info with a union that contains struct option_init and struct option. Now, this union can be initialized with no portability problems, and register_options() then moves the values from struct option_init to their final places in struct option. In my x86 ELinks build with plenty of options configured in, this change bloated the text section by 340 bytes but compressed the data section by 2784 bytes, presumably because union option_info is a pointer smaller than struct option_info was. (cherry picked from elinks-0.12 commit e5f6592ee20780a61f70feeb1f9e17631b9c5835) Conflicts: src/protocol/fsp/fsp.c: All options had been removed in 0.13.GIT. src/protocol/smb/smb2.c: Ditto.
2009-08-15 15:39:07 -04:00
static union option_info cookies_options[] = {
INIT_OPT_TREE("", N_("Cookies"),
"cookies", 0,
N_("Cookies options.")),
INIT_OPT_INT("cookies", N_("Accept policy"),
"accept_policy", 0,
COOKIES_ACCEPT_NONE, COOKIES_ACCEPT_ALL, COOKIES_ACCEPT_ALL,
N_("Cookies accepting policy:\n"
"0 is accept no cookies\n"
"1 is ask for confirmation before accepting cookie\n"
"2 is accept all cookies")),
INIT_OPT_INT("cookies", N_("Maximum age"),
"max_age", 0, -1, 10000, -1,
N_("Cookie maximum age (in days):\n"
"-1 is use cookie's expiration date if any\n"
"0 is force expiration at the end of session, ignoring\n"
" cookie's expiration date\n"
"1+ is use cookie's expiration date, but limit age to the\n"
" given number of days")),
INIT_OPT_BOOL("cookies", N_("Paranoid security"),
"paranoid_security", 0, 0,
N_("When enabled, we'll require three dots in cookies domain "
"for all non-international domains (instead of just two "
"dots). Some countries have generic second level domains "
"(eg. .com.pl, .co.uk) and allowing sites to set cookies "
"for these generic domains could potentially be very bad. "
"Note, it is off by default as it breaks a lot of sites.")),
INIT_OPT_BOOL("cookies", N_("Saving"),
"save", 0, 1,
N_("Whether cookies should be loaded from and saved to "
"disk.")),
INIT_OPT_BOOL("cookies", N_("Resaving"),
"resave", 0, 1,
N_("Save cookies after each change in cookies list? "
"No effect when cookie saving (cookies.save) is off.")),
NULL_OPTION_INFO,
};
#define get_opt_cookies(which) cookies_options[(which)].option.value
#define get_cookies_accept_policy() get_opt_cookies(COOKIES_ACCEPT_POLICY).number
#define get_cookies_max_age() get_opt_cookies(COOKIES_MAX_AGE).number
#define get_cookies_paranoid_security() get_opt_cookies(COOKIES_PARANOID_SECURITY).number
#define get_cookies_save() get_opt_cookies(COOKIES_SAVE).number
#define get_cookies_resave() get_opt_cookies(COOKIES_RESAVE).number
struct cookie_server *
get_cookie_server(unsigned char *host, int hostlen)
{
struct cookie_server *sort_spot = NULL;
struct cookie_server *cs;
foreach (cs, cookie_servers) {
/* XXX: We must count with cases like "x.co" vs "x.co.uk"
* below! */
int cslen = strlen(cs->host);
int cmp = c_strncasecmp(cs->host, host, hostlen);
if (!sort_spot && (cmp > 0 || (cmp == 0 && cslen > hostlen))) {
/* This is the first @cs with name greater than @host,
* our dream sort spot! */
sort_spot = cs->prev;
}
if (cmp || cslen != hostlen)
continue;
object_lock(cs);
return cs;
}
cs = mem_calloc(1, sizeof(*cs) + hostlen);
if (!cs) return NULL;
memcpy(cs->host, host, hostlen);
object_nolock(cs, "cookie_server");
cs->box_item = add_listbox_folder(&cookie_browser, NULL, cs);
object_lock(cs);
if (!sort_spot) {
/* No sort spot found, therefore this sorts at the end. */
add_to_list_end(cookie_servers, cs);
del_from_list(cs->box_item);
add_to_list_end(cookie_browser.root.child, cs->box_item);
} else {
/* Sort spot found, sort after it. */
add_at_pos(sort_spot, cs);
if (sort_spot != (struct cookie_server *) &cookie_servers) {
del_from_list(cs->box_item);
add_at_pos(sort_spot->box_item, cs->box_item);
} /* else we are already at the top anyway. */
}
return cs;
}
static void
done_cookie_server(struct cookie_server *cs)
{
object_unlock(cs);
if (is_object_used(cs)) return;
if (cs->box_item) done_listbox_item(&cookie_browser, cs->box_item);
del_from_list(cs);
mem_free(cs);
}
void
done_cookie(struct cookie *c)
{
if (c->box_item) done_listbox_item(&cookie_browser, c->box_item);
if (c->server) done_cookie_server(c->server);
mem_free_if(c->name);
mem_free_if(c->value);
mem_free_if(c->path);
mem_free_if(c->domain);
mem_free(c);
}
/* The cookie @c can be either in @cookies or in @cookie_queries.
* Because changes in @cookie_queries should not affect the cookie
* file, this function does not set @cookies_dirty. Instead, the
* caller must do that if appropriate. */
void
delete_cookie(struct cookie *c)
{
del_from_list(c);
done_cookie(c);
}
/* Check whether cookie's domain matches server.
* It returns 1 if ok, 0 else. */
static int
is_domain_security_ok(unsigned char *domain, unsigned char *server, int server_len)
{
int i;
int domain_len;
int need_dots;
if (domain[0] == '.') domain++;
domain_len = strlen(domain);
/* Match domain and server.. */
/* XXX: Hmm, can't we use c_strlcasecmp() here? --pasky */
if (domain_len > server_len) return 0;
/* Ensure that the domain is atleast a substring of the server before
* continuing. */
if (c_strncasecmp(domain, server + server_len - domain_len, domain_len))
return 0;
/* Allow domains which are same as servers. --<rono@sentuny.com.au> */
/* Mozilla does it as well ;))) and I can't figure out any security
* risk. --pasky */
if (server_len == domain_len)
return 1;
/* Check whether the server is an IP address, and require an exact host
* match for the cookie, so any chance of IP address funkiness is
* eliminated (e.g. the alias 127.1 domain-matching 99.54.127.1). Idea
* from mozilla. (bug 562) */
if (is_ip_address(server, server_len))
return 0;
/* Also test if domain is secure en ugh.. */
need_dots = 1;
if (get_cookies_paranoid_security()) {
/* This is somehow controversial attempt (by the way violating
* RFC) to increase cookies security in national domains, done
* by Mikulas. As it breaks a lot of sites, I decided to make
* this optional and off by default. I also don't think this
* improves security considerably, as it's SITE'S fault and
* also no other browser probably does it. --pasky */
/* Mikulas' comment: Some countries have generic 2-nd level
* domains (like .com.pl, .co.uk ...) and it would be very bad
* if someone set cookies for these generic domains. Imagine
* for example that server http://brutalporn.com.pl sets cookie
* Set-Cookie: user_is=perverse_pig; domain=.com.pl -- then
* this cookie would be sent to all commercial servers in
* Poland. */
need_dots = 2;
if (domain_len > 0) {
int pos = end_with_known_tld(domain, domain_len);
if (pos >= 1 && domain[pos - 1] == '.')
need_dots = 1;
}
}
for (i = 0; domain[i]; i++)
if (domain[i] == '.' && !--need_dots)
break;
if (need_dots > 0) return 0;
return 1;
}
/* Allocate a struct cookie and initialize it with the specified
* values (rather than copies). Returns NULL on error. On success,
* the cookie is basically safe for @done_cookie or @accept_cookie,
* although you may also want to set the remaining members and check
* @get_cookies_accept_policy and @is_domain_security_ok.
*
* The unsigned char * arguments must be allocated with @mem_alloc or
* equivalent, because @done_cookie will @mem_free them. Likewise,
* the caller must already have locked @server. If @init_cookie
* fails, then it frees the strings itself, and unlocks @server.
*
* If any parameter is NULL, then @init_cookie fails and does not
* consider that a bug. This means callers can use e.g. @stracpy
* and let @init_cookie check whether the call ran out of memory. */
struct cookie *
init_cookie(unsigned char *name, unsigned char *value,
unsigned char *path, unsigned char *domain,
struct cookie_server *server)
{
struct cookie *cookie = mem_calloc(1, sizeof(*cookie));
if (!cookie || !name || !value || !path || !domain || !server) {
mem_free_if(cookie);
mem_free_if(name);
mem_free_if(value);
mem_free_if(path);
mem_free_if(domain);
done_cookie_server(server);
return NULL;
}
object_nolock(cookie, "cookie"); /* Debugging purpose. */
cookie->name = name;
cookie->value = value;
cookie->domain = domain;
cookie->path = path;
cookie->server = server; /* the caller already locked it for us */
return cookie;
}
void
set_cookie(struct uri *uri, unsigned char *str)
{
unsigned char *path, *domain;
struct cookie *cookie;
struct cookie_str cstr;
int max_age;
if (get_cookies_accept_policy() == COOKIES_ACCEPT_NONE)
return;
#ifdef DEBUG_COOKIES
DBG("set_cookie -> (%s) %s", struri(uri), str);
#endif
if (!parse_cookie_str(&cstr, str)) return;
switch (parse_header_param(str, "path", &path)) {
unsigned char *path_end;
case HEADER_PARAM_FOUND:
if (!path[0]
|| path[strlen(path) - 1] != '/')
add_to_strn(&path, "/");
if (path[0] != '/') {
add_to_strn(&path, "x");
memmove(path + 1, path, strlen(path) - 1);
path[0] = '/';
}
break;
case HEADER_PARAM_NOT_FOUND:
path = get_uri_string(uri, URI_PATH);
if (!path)
return;
path_end = strrchr(path, '/');
if (path_end)
path_end[1] = '\0';
break;
default: /* error */
return;
}
if (parse_header_param(str, "domain", &domain) == HEADER_PARAM_NOT_FOUND)
domain = memacpy(uri->host, uri->hostlen);
if (domain && domain[0] == '.')
memmove(domain, domain + 1, strlen(domain));
cookie = init_cookie(memacpy(str, cstr.nam_end - str),
memacpy(cstr.val_start, cstr.val_end - cstr.val_start),
path,
domain,
get_cookie_server(uri->host, uri->hostlen));
if (!cookie) return;
/* @cookie now owns @path and @domain. */
#if 0
/* We don't actually set ->accept at the moment. But I have kept it
* since it will maybe help to fix bug 77 - Support for more
* finegrained control upon accepting of cookies. */
if (!cookie->server->accept) {
#ifdef DEBUG_COOKIES
DBG("Dropped.");
#endif
done_cookie(cookie);
return;
}
#endif
/* Set cookie expiration if needed.
* Cookie expires at end of session by default,
* set to 0 by calloc().
*
* max_age:
* -1 is use cookie's expiration date if any
* 0 is force expiration at the end of session,
* ignoring cookie's expiration date
* 1+ is use cookie's expiration date,
* but limit age to the given number of days.
*/
max_age = get_cookies_max_age();
if (max_age) {
unsigned char *date;
time_t expires;
switch (parse_header_param(str, "expires", &date)) {
case HEADER_PARAM_FOUND:
expires = parse_date(&date, NULL, 0, 1); /* Convert date to seconds. */
mem_free(date);
if (expires) {
if (max_age > 0) {
time_t seconds = ((time_t) max_age)*24*3600;
time_t deadline = time(NULL) + seconds;
if (expires > deadline) /* Over-aged cookie ? */
expires = deadline;
}
cookie->expires = expires;
}
break;
case HEADER_PARAM_NOT_FOUND:
break;
default: /* error */
done_cookie(cookie);
return;
}
}
cookie->secure = (parse_header_param(str, "secure", NULL)
== HEADER_PARAM_FOUND);
#ifdef DEBUG_COOKIES
{
DBG("Got cookie %s = %s from %s, domain %s, "
"expires at %"TIME_PRINT_FORMAT", secure %d", cookie->name,
cookie->value, cookie->server->host, cookie->domain,
(time_print_T) cookie->expires, cookie->secure);
}
#endif
if (!is_domain_security_ok(cookie->domain, uri->host, uri->hostlen)) {
#ifdef DEBUG_COOKIES
DBG("Domain security violated: %s vs %.*s", cookie->domain,
uri->hostlen, uri->host);
#endif
mem_free(cookie->domain);
cookie->domain = memacpy(uri->host, uri->hostlen);
}
/* We have already check COOKIES_ACCEPT_NONE */
if (get_cookies_accept_policy() == COOKIES_ACCEPT_ASK) {
add_to_list(cookie_queries, cookie);
add_questions_entry(accept_cookie_dialog, cookie);
return;
}
accept_cookie(cookie);
}
void
accept_cookie(struct cookie *cookie)
{
struct c_domain *cd;
struct listbox_item *root = cookie->server->box_item;
int domain_len;
if (root)
cookie->box_item = add_listbox_leaf(&cookie_browser, root, cookie);
/* Do not weed out duplicates when loading the cookie file. It doesn't
* scale at all, being O(N^2) and taking about 2s with my 500 cookies
* (so if you don't notice that 100ms with your 100 cookies, that's
* not an argument). --pasky */
if (!cookies_nosave) {
struct cookie *c, *next;
foreachsafe (c, next, cookies) {
if (c_strcasecmp(c->name, cookie->name)
|| c_strcasecmp(c->domain, cookie->domain))
continue;
delete_cookie(c);
/* @set_cookies_dirty will be called below. */
}
}
add_to_list(cookies, cookie);
set_cookies_dirty();
/* XXX: This crunches CPU too. --pasky */
foreach (cd, c_domains)
if (!c_strcasecmp(cd->domain, cookie->domain))
return;
domain_len = strlen(cookie->domain);
/* One byte is reserved for domain in struct c_domain. */
cd = mem_alloc(sizeof(*cd) + domain_len);
if (!cd) return;
memcpy(cd->domain, cookie->domain, domain_len + 1);
add_to_list(c_domains, cd);
}
#if 0
static unsigned int cookie_id = 0;
static void
delete_cookie(struct cookie *c)
{
struct c_domain *cd;
struct cookie *d;
foreach (d, cookies)
if (!c_strcasecmp(d->domain, c->domain))
goto end;
foreach (cd, c_domains) {
if (!c_strcasecmp(cd->domain, c->domain)) {
del_from_list(cd);
mem_free(cd);
break;
}
}
end:
del_from_list(c);
done_cookie(c);
}
static struct
cookie *find_cookie_id(void *idp)
{
int id = (int) idp;
struct cookie *c;
foreach (c, cookies)
if (c->id == id)
return c;
return NULL;
}
static void
reject_cookie(void *idp)
{
struct cookie *c = find_cookie_id(idp);
if (!c) return;
delete_cookie(c);
set_cookies_dirty(); /* @find_cookie_id doesn't use @cookie_queries */
}
static void
cookie_default(void *idp, int a)
{
struct cookie *c = find_cookie_id(idp);
if (c) c->server->accept = a;
}
static void
accept_cookie_always(void *idp)
{
cookie_default(idp, 1);
}
static void
accept_cookie_never(void *idp)
{
cookie_default(idp, 0);
reject_cookie(idp);
}
#endif
static inline int
is_path_prefix(unsigned char *d, unsigned char *s)
{
int dl = strlen(d);
/* TODO: strlcmp()? --pasky */
if (dl > strlen(s)) return 0;
return !memcmp(d, s, dl);
}
struct string *
send_cookies(struct uri *uri)
{
struct c_domain *cd;
struct cookie *c, *next;
unsigned char *path = NULL;
static struct string header;
time_t now;
if (!uri->host || !uri->data)
return NULL;
foreach (cd, c_domains)
if (is_in_domain(cd->domain, uri->host, uri->hostlen)) {
path = get_uri_string(uri, URI_PATH);
break;
}
if (!path) return NULL;
init_string(&header);
now = time(NULL);
foreachsafe (c, next, cookies) {
if (!is_in_domain(c->domain, uri->host, uri->hostlen)
|| !is_path_prefix(c->path, path))
continue;
if (c->expires && c->expires <= now) {
#ifdef DEBUG_COOKIES
DBG("Cookie %s=%s (exp %"TIME_PRINT_FORMAT") expired.",
c->name, c->value, (time_print_T) c->expires);
#endif
delete_cookie(c);
set_cookies_dirty();
continue;
}
/* Not sure if this is 100% right..? --pasky */
if (c->secure && uri->protocol != PROTOCOL_HTTPS)
continue;
if (header.length)
add_to_string(&header, "; ");
add_to_string(&header, c->name);
add_char_to_string(&header, '=');
add_to_string(&header, c->value);
#ifdef DEBUG_COOKIES
DBG("Cookie: %s=%s", c->name, c->value);
#endif
}
mem_free(path);
if (!header.length) {
done_string(&header);
return NULL;
}
return &header;
}
static void done_cookies(struct module *module);
void
load_cookies(void) {
/* Buffer size is set to be enough to read long lines that
* save_cookies may write. 6 is choosen after the fprintf(..) call
* in save_cookies(). --Zas */
unsigned char in_buffer[6 * MAX_STR_LEN];
unsigned char *cookfile = COOKIES_FILENAME;
FILE *fp;
time_t now;
if (elinks_home) {
cookfile = straconcat(elinks_home, cookfile,
(unsigned char *) NULL);
if (!cookfile) return;
}
/* Do it here, as we will delete whole cookies list if the file was
* removed */
cookies_nosave = 1;
done_cookies(&cookies_module);
cookies_nosave = 0;
fp = fopen(cookfile, "rb");
if (elinks_home) mem_free(cookfile);
if (!fp) return;
/* XXX: We don't want to overwrite the cookies file
* periodically to our death. */
cookies_nosave = 1;
now = time(NULL);
while (fgets(in_buffer, 6 * MAX_STR_LEN, fp)) {
struct cookie *cookie;
unsigned char *p, *q = in_buffer;
enum { NAME = 0, VALUE, SERVER, PATH, DOMAIN, EXPIRES, SECURE, MEMBERS } member;
struct {
unsigned char *pos;
int len;
} members[MEMBERS];
time_t expires;
/* First find all members. */
for (member = NAME; member < MEMBERS; member++, q = ++p) {
p = strchr((const char *)q, '\t');
if (!p) {
if (member + 1 != MEMBERS) break; /* last field ? */
p = strchr((const char *)q, '\n');
if (!p) break;
}
members[member].pos = q;
members[member].len = p - q;
}
if (member != MEMBERS) continue; /* Invalid line. */
/* Skip expired cookies if any. */
expires = str_to_time_t(members[EXPIRES].pos);
if (!expires || expires <= now) {
set_cookies_dirty();
continue;
}
/* Prepare cookie if all members and fields was read. */
cookie = mem_calloc(1, sizeof(*cookie));
if (!cookie) continue;
cookie->server = get_cookie_server(members[SERVER].pos, members[SERVER].len);
cookie->name = memacpy(members[NAME].pos, members[NAME].len);
cookie->value = memacpy(members[VALUE].pos, members[VALUE].len);
cookie->path = memacpy(members[PATH].pos, members[PATH].len);
cookie->domain = memacpy(members[DOMAIN].pos, members[DOMAIN].len);
/* Check whether all fields were correctly allocated. */
if (!cookie->server || !cookie->name || !cookie->value
|| !cookie->path || !cookie->domain) {
done_cookie(cookie);
continue;
}
cookie->expires = expires;
cookie->secure = !!atoi(members[SECURE].pos);
accept_cookie(cookie);
}
cookies_nosave = 0;
fclose(fp);
}
static void
resave_cookies_bottom_half(void *always_null)
{
if (get_cookies_save() && get_cookies_resave())
save_cookies(NULL); /* checks cookies_dirty */
}
/* Note that the cookies have been modified, and register a bottom
* half for saving them if appropriate. We use a bottom half so that
* if something makes multiple changes and calls this for each change,
* the cookies get saved only once at the end. */
void
set_cookies_dirty(void)
{
/* Do not check @cookies_dirty here. If the previous attempt
* to save cookies failed, @cookies_dirty can still be nonzero
* even though @resave_cookies_bottom_half is no longer in the
* queue. */
cookies_dirty = 1;
/* If @resave_cookies_bottom_half is already in the queue,
* @register_bottom_half does nothing. */
register_bottom_half(resave_cookies_bottom_half, NULL);
}
/* @term is non-NULL if the user told ELinks to save cookies, or NULL
* if ELinks decided that on its own. In the former case, this
* function reports errors to @term, unless CONFIG_SMALL is defined.
* In the latter case, this function does not save the cookies if it
* thinks the file is already up to date. */
void
save_cookies(struct terminal *term) {
struct cookie *c;
unsigned char *cookfile;
struct secure_save_info *ssi;
time_t now;
#ifdef CONFIG_SMALL
2007-04-26 09:02:04 -04:00
# define CANNOT_SAVE_COOKIES(flags, message)
#else
# define CANNOT_SAVE_COOKIES(flags, message) \
do { \
if (term) \
info_box(term, flags, N_("Cannot save cookies"),\
ALIGN_LEFT, message); \
} while (0)
#endif
if (cookies_nosave) {
assert(term == NULL);
if_assert_failed {}
return;
}
if (!elinks_home) {
CANNOT_SAVE_COOKIES(0, N_("ELinks was started without a home directory."));
return;
}
if (!cookies_dirty && !term)
return;
if (get_cmd_opt_bool("anonymous")) {
CANNOT_SAVE_COOKIES(0, N_("ELinks was started with the -anonymous option."));
return;
}
cookfile = straconcat(elinks_home, COOKIES_FILENAME,
(unsigned char *) NULL);
if (!cookfile) {
CANNOT_SAVE_COOKIES(0, N_("Out of memory"));
return;
}
ssi = secure_open(cookfile);
mem_free(cookfile);
if (!ssi) {
CANNOT_SAVE_COOKIES(MSGBOX_NO_TEXT_INTL,
secsave_strerror(secsave_errno, term));
return;
}
now = time(NULL);
foreach (c, cookies) {
if (!c->expires || c->expires <= now) continue;
if (secure_fprintf(ssi, "%s\t%s\t%s\t%s\t%s\t%"TIME_PRINT_FORMAT"\t%d\n",
c->name, c->value,
c->server->host,
empty_string_or_(c->path),
empty_string_or_(c->domain),
(time_print_T) c->expires, c->secure) < 0)
break;
}
secsave_errno = SS_ERR_OTHER; /* @secure_close doesn't always set it */
if (!secure_close(ssi)) cookies_dirty = 0;
else {
CANNOT_SAVE_COOKIES(MSGBOX_NO_TEXT_INTL,
secsave_strerror(secsave_errno, term));
}
2007-04-26 09:02:04 -04:00
#undef CANNOT_SAVE_COOKIES
}
static void
init_cookies(struct module *module)
{
if (get_cookies_save())
load_cookies();
}
/* Like @delete_cookie, this function does not set @cookies_dirty.
* The caller must do that if appropriate. */
static void
2007-07-26 15:39:08 -04:00
free_cookies_list(LIST_OF(struct cookie) *list)
{
while (!list_empty(*list)) {
struct cookie *cookie = list->next;
delete_cookie(cookie);
}
}
static void
done_cookies(struct module *module)
{
free_list(c_domains);
if (!cookies_nosave && get_cookies_save())
save_cookies(NULL);
free_cookies_list(&cookies);
free_cookies_list(&cookie_queries);
/* If @save_cookies failed above, @cookies_dirty can still be
* nonzero. Now if @resave_cookies_bottom_half were in the
* queue, it could save the empty @cookies list to the file.
* Prevent that. */
cookies_dirty = 0;
}
struct module cookies_module = struct_module(
/* name: */ N_("Cookies"),
/* options: */ cookies_options,
/* events: */ NULL,
/* submodules: */ NULL,
/* data: */ NULL,
/* init: */ init_cookies,
/* done: */ done_cookies
);