#ifndef EL__CACHE_CACHE_H #define EL__CACHE_CACHE_H #include "main/object.h" #include "util/lists.h" #include "util/time.h" #ifdef __cplusplus extern "C" { #endif struct listbox_item; struct uri; /* This enum describes the level of caching of certain cache entry. That is, * under what conditions shall it be reloaded, if ever. The one with lowest * value is most agressively cached, however the cache is most reluctant to * cache the one with highest value. */ /* TODO: Invert order to be more intuitive. But be careful, many tests rely on * current order. --Miciah,Zas */ enum cache_mode { CACHE_MODE_INCREMENT = -1, CACHE_MODE_ALWAYS, CACHE_MODE_NORMAL, CACHE_MODE_CHECK_IF_MODIFIED, CACHE_MODE_FORCE_RELOAD, CACHE_MODE_NEVER, }; typedef int cache_mode_T; struct cache_entry { OBJECT_HEAD(struct cache_entry); /* Items in this list are ALLOCATED IN A NON-STANDARD WAY! Thus if you * are gonna mess with them (you shouldn't), you need to use the * mmap suite. */ LIST_OF(struct fragment) frag; struct uri *uri; /* Identifier for the cached data */ struct uri *proxy_uri; /* Proxy identifier or same as @uri */ struct uri *redirect; /* Location we were redirected to */ char *head; /* The protocol header */ char *content_type; /* MIME type: "/" */ char *last_modified; /* Latest modification date */ char *etag; /* ETag value from the HTTP header */ char *ssl_info; /* SSL ciphers used during transfer */ char *encoding_info; /* Encoding used during transfer */ unsigned int cache_id; /* Change each time entry is modified. */ time_t seconds; /* Access time. Used by 'If-Modified-Since' */ off_t length; /* The expected and complete size */ off_t data_size; /* The actual size of all fragments */ struct listbox_item *box_item; /* Dialog data for cache manager */ #ifdef CONFIG_SCRIPTING_SPIDERMONKEY struct JSObject *jsobject; /* Instance of cache_entry_class */ #endif timeval_T max_age; /* Expiration time */ unsigned int expire:1; /* Whether to honour max_age */ unsigned int preformatted:1; /* Has content been preformatted? */ unsigned int redirect_get:1; /* Follow redirect using get method? */ unsigned int incomplete:1; /* Has all data been downloaded? */ unsigned int valid:1; /* Is cache entry usable? */ /* This is a mark for internal workings of garbage_collection(), whether * the cache_entry should be busted or not. You are not likely to see * an entry with this set to 1 in wild nature ;-). */ unsigned int gc_target:1; /* The GC touch of death */ unsigned int cgi:1; /* Is a CGI output? */ cache_mode_T cache_mode; /* Reload condition */ }; struct fragment { LIST_HEAD(struct fragment); off_t offset; off_t length; off_t real_length; char data[1]; /* Must be last */ }; /* Searches the cache for an entry matching the URI. Returns NULL if no one * matches. */ struct cache_entry *find_in_cache(struct uri *uri); /* Searches the cache for a matching entry else a new one is added. Returns * NULL if allocation fails. */ struct cache_entry *get_cache_entry(struct uri *uri); /* Searches the cache for a matching entry and checks if it is still valid and * usable. Returns NULL if the @cache_mode suggests to reload it again. */ struct cache_entry *get_validated_cache_entry(struct uri *uri, cache_mode_T cache_mode); /* Checks if a dangling cache entry pointer is still valid. */ int cache_entry_is_valid(struct cache_entry *cached); /* Follow all redirects and return the resulting cache entry or NULL if there * are missing redirects. */ struct cache_entry *follow_cached_redirects(struct cache_entry *cached); /* Works like find_in_cache(), but will follow cached redirects using * follow_cached_redirects(). */ struct cache_entry *get_redirected_cache_entry(struct uri *uri); /* Add a fragment to the @cached object at the given @offset containing @length * bytes from the @data pointer. */ /* Returns -1 upon error, * 1 if cache entry was enlarged, * 0 if only old data were overwritten. */ int add_fragment(struct cache_entry *cached, off_t offset, const char *data, ssize_t length); /* Defragments the cache entry and returns the resulting fragment containing the * complete source of all currently downloaded fragments. Returns NULL if * validation of the fragments fails. */ struct fragment *get_cache_fragment(struct cache_entry *cached); /* Should be called when creation of a new cache has been completed. Most * importantly, it will updates cached->incomplete. */ void normalize_cache_entry(struct cache_entry *cached, off_t length); void free_entry_to(struct cache_entry *cached, off_t offset); void delete_entry_content(struct cache_entry *cached); void delete_cache_entry(struct cache_entry *cached); /* Sets up the cache entry to redirect to a new location * @location decides where to redirect to by resolving it relative to the * entry's URI. * @get controls the method should be used when handling the redirect. * @incomplete will become the new value of the incomplete member if it * is >= 0. * Returns the URI being redirected to or NULL if allocation failed. */ struct uri * redirect_cache(struct cache_entry *cached, const char *location, int get, int incomplete); /* The garbage collector trigger. If @whole is zero, remove unused cache * entries which are bigger than the cache size limit set by user. For @zero * being one, remove all unused cache entries. */ void garbage_collection(int whole); /* Used by the resource and memory info dialogs for getting information about * the cache. */ unsigned longlong get_cache_size(void); int get_cache_entry_count(void); int get_cache_entry_used_count(void); int get_cache_entry_loading_count(void); #ifdef __cplusplus } #endif #endif