From 36d22d82aa202bb199967e9512281e9a53db42c9 Mon Sep 17 00:00:00 2001 From: Daniel Baumann Date: Sun, 7 Apr 2024 21:33:14 +0200 Subject: Adding upstream version 115.7.0esr. Signed-off-by: Daniel Baumann --- netwerk/docs/cache2/doc.rst | 569 ++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 569 insertions(+) create mode 100644 netwerk/docs/cache2/doc.rst (limited to 'netwerk/docs/cache2') diff --git a/netwerk/docs/cache2/doc.rst b/netwerk/docs/cache2/doc.rst new file mode 100644 index 0000000000..71982be9e6 --- /dev/null +++ b/netwerk/docs/cache2/doc.rst @@ -0,0 +1,569 @@ +HTTP Cache +========== + +This document describes the **HTTP cache implementation**. + +The code resides in `/netwerk/cache2 (searchfox) +`_ + +API +--- + +Here is a detailed description of the HTTP cache v2 API, examples +included. This document only contains what cannot be found or may not +be clear directly from the `IDL files `_ comments. + +- The cache API is **completely thread-safe** and **non-blocking**. +- There is **no IPC support**. It's only accessible on the default + chrome process. +- When there is no profile the new HTTP cache works, but everything is + stored only in memory not obeying any particular limits. + +.. _nsICacheStorageService: + +nsICacheStorageService +---------------------- + +- The HTTP cache entry-point. Accessible as a service only, fully + thread-safe, scriptable. + +- `nsICacheStorageService.idl (searchfox) `_ + +- \ ``"@mozilla.org/netwerk/cache-storage-service;1"`` + +- Provides methods accessing "storage" objects – see `nsICacheStorage` below – giving further access to cache entries – see :ref:`nsICacheEntry ` more below – per specific URL. + +- Currently we have 3 types of storages, all the access methods return + an :ref:`nsICacheStorage ` object: + + - **memory-only** (``memoryCacheStorage``): stores data only in a + memory cache, data in this storage are never put to disk + + - **disk** (``diskCacheStorage``): stores data on disk, but for + existing entries also looks into the memory-only storage; when + instructed via a special argument also primarily looks into + application caches + + .. note:: + + **application cache** (``appCacheStorage``): when a consumer has a + specific ``nsIApplicationCache`` (i.e. a particular app cache + version in a group) in hands, this storage will provide read and + write access to entries in that application cache; when the app + cache is not specified, this storage will operate over all + existing app caches. **This kind of storage is deprecated and will be removed** in `bug 1694662 `_ + +- The service also provides methods to clear the whole disk and memory + cache content or purge any intermediate memory structures: + + - ``clear``– after it returns, all entries are no longer accessible + through the cache APIs; the method is fast to execute and + non-blocking in any way; the actual erase happens in background + + - ``purgeFromMemory``– removes (schedules to remove) any + intermediate cache data held in memory for faster access (more + about the :ref:`Intermediate_Memory_Caching ` below) + +.. _nsILoadContextInfo: + +nsILoadContextInfo +------------------ + +- Distinguishes the scope of the storage demanded to open. + +- Mandatory argument to ``*Storage`` methods of :ref:`nsICacheStorageService `. + +- `nsILoadContextInfo.idl (searchfox) `_ + + +- It is a helper interface wrapping following four arguments into a single one: + + - **private-browsing** boolean flag + - **anonymous load** boolean flag + - **origin attributes** js value + + .. note:: + + Helper functions to create nsILoadContextInfo objects: + + - C++ consumers: functions at ``LoadContextInfo.h`` exported + header + + - JS consumers: ``Services.loadContextInfo`` which is an instance of ``nsILoadContextInfoFactory``. + +- Two storage objects created with the same set of + ``nsILoadContextInfo``\ arguments are identical, containing the same + cache entries. + +- Two storage objects created with in any way different + ``nsILoadContextInfo``\ arguments are strictly and completely + distinct and cache entries in them do not overlap even when having + the same URIs. + +.. _nsICacheStorage: + +nsICacheStorage +--------------- + +- `nsICacheStorage.idl (searchfox) `_ + +- Obtained from call to one of the ``*Storage`` methods on + :ref:`nsICacheStorageService `. + +- Represents a distinct storage area (or scope) to put and get cache + entries mapped by URLs into and from it. + +- *Similarity with the old cache*\ : this interface may be with some + limitations considered as a mirror to ``nsICacheSession``, but less + generic and not inclining to abuse. + +nsICacheEntryOpenCallback +------------------------- + +- `nsICacheEntryOpenCallback.idl (searchfox) `_ + +- The result of ``nsICacheStorage.asyncOpenURI`` is always and only + sent to callbacks on this interface. + +- These callbacks are ensured to be invoked when ``asyncOpenURI`` + returns ``NS_OK``. + +- + + .. note:: + + When the + cache entry object is already present in memory or open as + "force-new" (a.k.a "open-truncate") this callback is invoked + sooner then the ``asyncOpenURI``\ method returns (i.e. + immediately); there is currently no way to opt out of this feature + (see `bug + 938186 `__). + +.. _nsICacheEntry: + +nsICacheEntry +------------- + +- `nsICacheEntry.idl (searchfox) `_ + +- Obtained asynchronously or pseudo-asynchronously by a call to + ``nsICacheStorage.asyncOpenURI``. + +- Provides access to a cached entry data and meta data for reading or + writing or in some cases both, see below. + +Lifetime of a new entry +----------------------- + +- Such entry is initially empty (no data or meta data is stored in it). + +- The ``aNew``\ argument in ``onCacheEntryAvailable`` is ``true`` for + and only for new entries. + +- Only one consumer (the so called "*writer*") may have such an entry + available (obtained via ``onCacheEntryAvailable``). + +- Other parallel openers of the same cache entry are blocked (wait) for + invocation of their ``onCacheEntryAvailable`` until one of the + following occurs: + + - The *writer* simply throws the entry away: other waiting opener in + line gets the entry again as "*new*", the cycle repeats. + + .. note:: + + This applies in general, writers throwing away the cache entry + means a failure to write the cache entry and a new writer is + being looked for again, the cache entry remains empty (a.k.a. + "new"). + + - The *writer* stored all necessary meta data in the cache entry and + called ``metaDataReady`` on it: other consumers now get the entry + and may examine and potentially modify the meta data and read the + data (if any) of the cache entry. + - When the *writer* has data (i.e. the response payload) to write to + the cache entry, it **must** open the output stream on it + **before** it calls ``metaDataReady``. + +- When the *writer* still keeps the cache entry and has open and keeps + open the output stream on it, other consumers may open input streams + on the entry. The data will be available as the *writer* writes data + to the cache entry's output stream immediately, even before the + output stream is closed. This is called :ref:`concurrent + read/write `. + +.. _Concurrent_read_and_write: + +Concurrent read and write +------------------------- + +The cache supports reading a cache entry data while it is still being +written by the first consumer - the *writer*. +This can only be engaged for resumable responses that (`bug +960902 `__) +don't need revalidation. Reason is that when the writer is interrupted +(by e.g. external canceling of the loading channel) concurrent readers +would not be able to reach the remaining unread content. + +.. note:: + + This could be improved by keeping the network load running and being + stored to the cache entry even after the writing channel has been + canceled. + +When the *writer* is interrupted, the first concurrent *reader* in line +does a range request for the rest of the data - and becomes that way a +new *writer*. The rest of the *readers* are still concurrently reading +the content since output stream for the cache entry is again open and +kept by the current *writer*. + +Lifetime of an existing entry with only a partial content +--------------------------------------------------------- + +- Such a cache entry is first examined in the + ``nsICacheEntryOpenCallback.onCacheEntryCheck`` callback, where it + has to be checked for completeness. +- In this case, the ``Content-Length`` (or different indicator) header + doesn't equal to the data size reported by the cache entry. +- The consumer then indicates the cache entry needs to be revalidated + by returning ``ENTRY_NEEDS_REVALIDATION``\ from + ``onCacheEntryCheck``. +- This consumer, from the point of view the cache, takes a role of the + *writer*. +- Other parallel consumers, if any, are blocked until the *writer* + calls ``setValid`` on the cache entry. +- The consumer is then responsible to validate the partial content + cache entry with the network server and attempt to load the rest of + the data. +- When the server responds positively (in case of an HTTP server with a + 206 response code) the *writer* (in this order) opens the output + stream on the cache entry and calls ``setValid`` to unblock other + pending openers. +- Concurrent read/write is engaged. + +Lifetime of an existing entry that doesn't pass server revalidation +------------------------------------------------------------------- + +- Such a cache entry is first examined in the + ``nsICacheEntryOpenCallback.onCacheEntryCheck`` callback, where the + consumer finds out it must be revalidated with the server before use. +- The consumer then indicates the cache entry needs to be revalidated + by returning ``ENTRY_NEEDS_REVALIDATION``\ from + ``onCacheEntryCheck``. +- This consumer, from the point of view the cache, takes a role of the + *writer*. +- Other parallel consumers, if any, are blocked until the *writer* + calls ``setValid`` on the cache entry. +- The consumer is then responsible to validate the partial content + cache entry with the network server. +- The server responses with a 200 response which means the cached + content is no longer valid and a new version must be loaded from the + network. +- The *writer* then calls ``recreate``\ on the cache entry. This + returns a new empty entry to write the meta data and data to, the + *writer* exchanges its cache entry by this new one and handles it as + a new one. +- The *writer* then (in this order) fills the necessary meta data of + the cache entry, opens the output stream on it and calls + ``metaDataReady`` on it. +- Any other pending openers, if any, are now given this new entry to + examine and read as an existing entry. + +Adding a new storage +-------------------- + +Should there be a need to add a new distinct storage for which the +current scoping model would not be sufficient - use one of the two +following ways: + +#. *[preferred]* Add a new ``Storage`` method on + :ref:`nsICacheStorageService ` and if needed give it any arguments to + specify the storage scope even more. Implementation only should need + to enhance the context key generation and parsing code and enhance + current - or create new when needed - :ref:`nsICacheStorage ` + implementations to carry any additional information down to the cache + service. +#. *[*\ **not**\ *preferred]* Add a new argument to + :ref:`nsILoadContextInfo `; **be careful + here**, since some arguments on the context may not be known during + the load time, what may lead to inter-context data leaking or + implementation problems. Adding more distinction to + :ref:`nsILoadContextInfo ` also affects all existing storages which may + not be always desirable. + +See context keying details for more information. + +Threading +--------- + +The cache API is fully thread-safe. + +The cache is using a single background thread where any IO operations +like opening, reading, writing and erasing happen. Also memory pool +management, eviction, visiting loops happen on this thread. + +The thread supports several priority levels. Dispatching to a level with +a lower number is executed sooner then dispatching to higher number +layers; also any loop on lower levels yields to higher levels so that +scheduled deletion of 1000 files will not block opening cache entries. + +#. **OPEN_PRIORITY:** except opening priority cache files also file + dooming happens here to prevent races +#. **READ_PRIORITY:** top level documents and head blocking script cache + files are open and read as the first +#. **OPEN** +#. **READ:** any normal priority content, such as images are open and + read here +#. **WRITE:** writes are processed as last, we cache data in memory in + the mean time +#. **MANAGEMENT:** level for the memory pool and CacheEntry background + operations +#. **CLOSE:** file closing level +#. **INDEX:** index is being rebuild here +#. **EVICT:** files overreaching the disk space consumption limit are + being evicted here + +NOTE: Special case for eviction - when an eviction is scheduled on the +IO thread, all operations pending on the OPEN level are first merged to +the OPEN_PRIORITY level. The eviction preparation operation - i.e. +clearing of the internal IO state - is then put to the end of the +OPEN_PRIORITY level. All this happens atomically. + +Storage and entries scopes +-------------------------- + +A *scope key* string used to map the storage scope is based on the +arguments of :ref:`nsILoadContextInfo `. The form is following (currently +pending in `bug +968593 `__): + +.. code:: + + a,b,i1009,p, + +- Regular expression: ``(.([-,]+)?,)*`` +- The first letter is an identifier, identifiers are to be + alphabetically sorted and always terminate with ',' +- a - when present the scope is belonging to an **anonymous** load +- b - when present the scope is **in browser element** load +- i - when present must have a decimal integer value that represents an + app ID the scope belongs to, otherwise there is no app (app ID is + considered ``0``) +- p - when present the scope is of a **private browsing** load, this + never persists + +``CacheStorageService``\ keeps a global hashtable mapped by the *scope +key*. Elements in this global hashtable are hashtables of cache entries. +The cache entries are mapped by concantation of Enhance ID and URI +passed to ``nsICacheStorage.asyncOpenURI``. So that when an entry is +being looked up, first the global hashtable is searched using the +*scope key*. An entries hashtable is found. Then this entries hashtable +is searched using string. The elements in this +hashtable are CacheEntry classes, see below. + +The hash tables keep a strong reference to ``CacheEntry`` objects. The +only way to remove ``CacheEntry`` objects from memory is by exhausting a +memory limit for :ref:`Intermediate_Memory_Caching `, what triggers a background +process of purging expired and then least used entries from memory. +Another way is to directly call the +``nsICacheStorageService.purge``\ method. That method is also called +automatically on the ``"memory-pressure"`` indication. + +Access to the hashtables is protected by a global lock. We also - in a +thread-safe manner - count the number of consumers keeping a reference +on each entry. The open callback actually doesn't give the consumer +directly the ``CacheEntry`` object but a small wrapper class that +manages the 'consumer reference counter' on its cache entry. This both +mechanisms ensure thread-safe access and also inability to have more +then a single instance of a ``CacheEntry`` for a single + key. + +``CacheStorage``, implementing the :ref:`nsICacheStorage ` interface, is +forwarding all calls to internal methods of ``CacheStorageService`` +passing itself as an argument. ``CacheStorageService`` then generates +the *scope key* using the ``nsILoadContextInfo`` of the storage. Note: +CacheStorage keeps a thread-safe copy of ``nsILoadContextInfo`` passed +to a ``*Storage`` method on ``nsICacheStorageService``. + +Invoking open callbacks +----------------------- + +``CacheEntry``, implementing the ``nsICacheEntry`` interface, is +responsible for managing the cache entry internal state and to properly +invoke ``onCacheEntryCheck`` and ``onCacheEntryAvaiable`` callbacks to +all callers of ``nsICacheStorage.asyncOpenURI``. + +- Keeps a FIFO of all openers. +- Keeps its internal state like NOTLOADED, LOADING, EMPTY, WRITING, + READY, REVALIDATING. +- Keeps the number of consumers keeping a reference to it. +- Refers a ``CacheFile`` object that holds actual data and meta data + and, when told to, persists it to the disk. + +The openers FIFO is an array of ``CacheEntry::Callback`` objects. +``CacheEntry::Callback`` keeps a strong reference to the opener plus the +opening flags. ``nsICacheStorage.asyncOpenURI`` forwards to +``CacheEntry::AsyncOpen`` and triggers the following pseudo-code: + +**CacheStorage::AsyncOpenURI** - the API entry point: + +- globally atomic: + + - look a given ``CacheEntry`` in ``CacheStorageService`` hash tables + up + - if not found: create a new one, add it to the proper hash table + and set its state to NOTLOADED + - consumer reference ++ + +- call to `CacheEntry::AsyncOpen` +- consumer reference -- + +**CacheEntry::AsyncOpen** (entry atomic): + +- the opener is added to FIFO, consumer reference ++ (dropped back + after an opener is removed from the FIFO) +- state == NOTLOADED: + + - state = LOADING + - when OPEN_TRUNCATE flag was used: + + - ``CacheFile`` is created as 'new', state = EMPTY + + - otherwise: + + - ``CacheFile`` is created and load on it started + - ``CacheEntry::OnFileReady`` notification is now expected + +- state == LOADING: just do nothing and exit +- call to `CacheEntry::InvokeCallbacks` + +**CacheEntry::InvokeCallbacks** (entry atomic): + +- called on: + + - a new opener has been added to the FIFO via an ``AsyncOpen`` call + - asynchronous result of CacheFile open ``CacheEntry::OnFileReady>`` + - the writer throws the entry away - ``CacheEntry::OnHandleClosed`` + - the **output stream** of the entry has been **opened** or + **closed** + - ``metaDataReady``\ or ``setValid``\ on the entry has been called + - the entry has been **doomed** + +- state == EMPTY: + + - on OPER_READONLY flag use: onCacheEntryAvailable with + ``null``\ for the cache entry + - otherwise: + + - state = WRITING + - opener is removed from the FIFO and remembered as the current + '*writer*' + - onCacheEntryAvailable with ``aNew = true``\ and this entry is + invoked (on the caller thread) for the *writer* + +- state == READY: + + - onCacheEntryCheck with the entry is invoked on the first opener in + FIFO - on the caller thread if demanded + - result == RECHECK_AFTER_WRITE_FINISHED: + + - opener is left in the FIFO with a flag ``RecheckAfterWrite`` + - such openers are skipped until the output stream on the entry + is closed, then ``onCacheEntryCheck`` is re-invoked on them + - Note: here is a potential for endless looping when + RECHECK_AFTER_WRITE_FINISHED is abused + + - result == ENTRY_NEEDS_REVALIDATION: + + - state = REVALIDATING, this prevents invocation of any callback + until ``CacheEntry::SetValid`` is called + - continue as in state ENTRY_WANTED (just below) + + - result == ENTRY_WANTED: + + - consumer reference ++ (dropped back when the consumer releases + the entry) + - onCacheEntryAvailable is invoked on the opener with + ``aNew = false``\ and the entry + - opener is removed from the FIFO + + - result == ENTRY_NOT_WANTED: + + - ``onCacheEntryAvailable`` is invoked on the opener with + ``null``\ for the entry + - opener is removed from the FIFO + +- state == WRITING or REVALIDATING: + + - do nothing and exit + +- any other value of state is unexpected here (assertion failure) +- loop this process while there are openers in the FIFO + +**CacheEntry::OnFileReady** (entry atomic): + +- load result == failure or the file has not been found on disk (is + new): state = EMPTY +- otherwise: state = READY since the cache file has been found and is + usable containing meta data and data of the entry +- call to ``CacheEntry::InvokeCallbacks`` + +**CacheEntry::OnHandleClosed** (entry atomic): + +- Called when any consumer throws the cache entry away +- If the handle is not the handle given to the current *writer*, then + exit +- state == WRITING: the writer failed to call ``metaDataReady`` on the + entry - state = EMPTY +- state == REVALIDATING: the writer failed the re-validation process + and failed to call ``setValid`` on the entry - state = READY +- call to ``CacheEntry::InvokeCallbacks`` + +**All consumers release the reference:** + +- the entry may now be purged (removed) from memory when found expired + or least used on overrun of the :ref:`memory + pool ` limit +- when this is a disk cache entry, its cached data chunks are released + from memory and only meta data is kept + +.. _Intermediate_Memory_Caching: + +Intermediate memory caching +--------------------------- + +Intermediate memory caching of frequently used metadata (a.k.a. disk cache memory pool). + +For the disk cache entries we keep some of the most recent and most used +cache entries' meta data in memory for immediate zero-thread-loop +opening. The default size of this meta data memory pool is only 250kB +and is controlled by a new ``browser.cache.disk.metadata_memory_limit`` +preference. When the limit is exceeded, we purge (throw away) first +**expired** and then **least used** entries to free up memory again. + +Only ``CacheEntry`` objects that are already loaded and filled with data +and having the 'consumer reference == 0' (`bug +942835 `__) can +be purged. + +The 'least used' entries are recognized by the lowest value of +`frecency `__ +we re-compute for each entry on its every access. The decay time is +controlled by the ``browser.cache.frecency_half_life_hours`` preference +and defaults to 6 hours. The best decay time will be based on results of +`an experiment `__. + +The memory pool is represented by two lists (strong referring ordered +arrays) of ``CacheEntry`` objects: + +#. Sorted by expiration time (that default to 0xFFFFFFFF) +#. Sorted by frecency (defaults to 0) + +We have two such pools, one for memory-only entries actually +representing the memory-only cache and one for disk cache entries for +which we only keep the meta data. Each pool has a different limit +checking - the memory cache pool is controlled by +``browser.cache.memory.capacity``, the disk entries pool is already +described above. The pool can be accessed and modified only on the cache +background thread. -- cgit v1.2.3