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+/*! \file use_count.h
+ * Generic object usage counter API (get, put and deallocate on zero count).
+ */
+/*
+ * (C) 2019 by sysmocom s.f.m.c. GmbH <info@sysmocom.de>
+ *
+ * All Rights Reserved
+ *
+ * Author: Neels Hofmeyr <neels@hofmeyr.de>
+ *
+ * SPDX-License-Identifier: GPL-2.0+
+ *
+ * This program 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.
+ *
+ * This program 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 this program; if not, write to the Free Software Foundation, Inc.,
+ * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
+ */
+
+#pragma once
+
+#include <stdint.h>
+#include <stdlib.h>
+
+#include <osmocom/core/linuxlist.h>
+
+/*! \defgroup use_count Use Counter
+ * @{
+ * \file use_count.h
+ */
+
+struct osmo_use_count_entry;
+
+/*! Invoked when a use count changes.
+ *
+ * The implementation is free to trigger actions on arbitrary use count changes, typically to free the
+ * use_count->talloc_object when the total use count reaches zero.
+ *
+ * The implementation may modify use_count_entry->count, for example for handling of get()/put() bugs, to clamp specific use
+ * tokens to specific counts, or to prevent the caller from put()ting into negative counts. When returning an error,
+ * there is no implicit undo -- if errors need to be corrected, this function is responsible for that.
+ *
+ * Be aware: use token strings are not copied, and use count entries usually remain listed also when they reach a zero
+ * count. This is trivially perfectly ok when using string literals as use tokens. It is also possible to use
+ * dynamically allocated string tokens, but should a use token string become invalid memory when reaching zero count, it
+ * is the responsibility of this function to set the use_count_entry->use = NULL; this is required to avoid subsequent
+ * osmo_use_count_get_put() invocations from calling strcmp() on invalid memory. (Setting use = NULL cannot be done
+ * implicitly after this callback invocation, because callback implementations are allowed to completely deallocate the
+ * talloc_object and the use_count list entries, and setting use = NULL after that would be a use-after-free.)
+ *
+ * \param[in] use_count_entry Use count entry that is being modified.
+ * \param[in] old_use_count Use count the item had before the change in use count.
+ * \param[in] file Source file string, passed in as __FILE__ from macro osmo_use_count_get_put().
+ * \param[in] line Source file line, passed in as __LINE__ from macro osmo_use_count_get_put().
+ * \return 0 on success, negative if any undesired use count is reached; this rc will be returned by
+ * osmo_use_count_get_put().
+ */
+typedef int (* osmo_use_count_cb_t )(struct osmo_use_count_entry *use_count_entry, int32_t old_use_count,
+ const char *file, int line);
+
+/*! Use counter state for one used object, managing N distinct named counters.
+ *
+ * Manage any number of uses of an object, with name tokens given to each use.
+ *
+ * A typical use tracking done by a single instance of this struct may look like:
+ * "VLR subscr MSISDN-23 + SMS-receiver: now used by 6 (attached,2*SMS-receiver,SMS-pending,SMS,Paging)"
+ * (This is a DREF log statement from an osmo-msc run delivering an SMS.)
+ *
+ * Use tokens are given as const char* strings. Typically string literals like "foo", __func__, or also NULL. Tokens may
+ * be dynamically allocated or static char[] buffers as long as they are guaranteed to remain unchanged while referenced
+ * by an osmo_use_count_entry. (Breakage occurs if one token magically changes to equal another listed token.)
+ *
+ * Instead of using string literals in the code directly, callers should use a #define, so that typos are caught at
+ * compile time rather than introducing obscure failures that are hard to spot for humans -- don't use foo_get("bar")
+ * and foo_put("bar"), but '#define FOO_USE_BAR "bar"' for foo_get(FOO_USE_BAR) and foo_put(FOO_USE_BAR).
+ *
+ * Counts are int32_t values, a separate count per use token string. Counts can be negative, though in the typical use
+ * case are only positive or 0. Enforcing a range is entirely up to the osmo_use_count_cb_t() implementation.
+ *
+ * The talloc_object must be a pointer eligible to be a talloc context, i.e. either obtained from a function like
+ * talloc_zero() or NULL. talloc_object is typically a pointer to the object that this struct is a member of. Use count
+ * entries may be allocated as talloc children of this (see also "Avoiding dynamic allocation" below).
+ *
+ * The use_cb() implementation allows to trigger actions when reaching specific use counts, e.g. deallocate when
+ * reaching a total sum across all use tokens of zero.
+ *
+ * On initialization, this struct can be left fully zero initialized (the llist_head use_counts is implicitly
+ * initialized upon the first osmo_use_count_get_put()). Usually, set only a talloc_object and a use_cb, though neither
+ * is strictly required.
+ *
+ * Avoiding dynamic allocation: dynamic allocation can be avoided completely by providing sufficient static use count
+ * entries with osmo_use_count_make_static_entries(). Otherwise, each new use token will dynamically allocate a new
+ * osmo_use_count_entry; note that once allocated, these entries stay around even if they reached an entry count of
+ * zero, and will be re-used for subsequent use count tokens. So even if not using osmo_use_count_make_static_entries(),
+ * each osmo_use_count will keep dynamic allocations at a minimum. See also the documentation for osmo_use_count_cb_t.
+ *
+ * List traversal considerations: your typical use count list would max at about six entries in practice. Traversing six
+ * llist->next pointers is less effort than doing a common strlen().
+ *
+ * Obtaining the total use count: osmo_use_count_total() traverses all use token entries and forms a sum. It is trivial
+ * to keep a separate total count that completely avoids the need for calling this function, which is entirely up to the
+ * individual osmo_use_count_cb_t() implementation. The optimization gained is usually not worth it, though.
+ *
+ * Use token comparison considerations: strcmp() to compare use tokens is a fairly good tradeoff:
+ * - when the strings differ, strcmp() usually exits on the first or second character.
+ * - when the strings are identical, they are usually the exact same char* address (from compile-time string constant),
+ * meaning that strcmp() is completely skipped.
+ * (quote: "if (e->use == use || (use && e->use && !strcmp(e->use, use)))")
+ * - if we specified compile-time string constant use as requirement, we wouldn't need strcmp() at all, but this
+ * minuscule overhead has the benefit of complete correctness for any kinds of use token strings.
+ *
+ * Example:
+ *
+ * struct foo {
+ * struct osmo_use_count use_count;
+ * };
+ *
+ * // Convenience macros for struct foo instances. These are strict about use count errors.
+ * #define foo_get(FOO, USE) OSMO_ASSERT( osmo_use_count_get_put(&(FOO)->use_count, USE, 1) == 0 );
+ * #define foo_put(FOO, USE) OSMO_ASSERT( osmo_use_count_get_put(&(FOO)->use_count, USE, -1) == 0 );
+ *
+ * int foo_use_cb(struct osmo_use_count_entry *use_count_entry, int32_t old_use_count, const char *file, int line)
+ * {
+ * struct foo *foo = use_count_entry->use_count->talloc_object;
+ * if (osmo_use_count_total(&use_count_entry->use_count) == 0)
+ * talloc_free(foo);
+ * }
+ *
+ * // The function name is a convenient use token:
+ * void rx_stop_baz_request(struct foo *foo)
+ * {
+ * foo_get(foo, __func__);
+ *
+ * foo_put(foo, "baz");
+ * printf("Stopped Bazing (%p)\n", foo);
+ *
+ * foo_put(foo, __func__);
+ * }
+ *
+ * void use_count_example()
+ * {
+ * struct foo *foo = talloc_zero(ctx, struct foo);
+ * *foo = (struct foo){
+ * .use_count = {
+ * .talloc_object = foo,
+ * .use_cb = foo_use_cb,
+ * },
+ * };
+ *
+ * foo_get(foo, "bar"); // one osmo_use_count_entry was allocated
+ * foo_get(foo, "baz"); // a second osmo_use_count_entry was allocated
+ * foo_get(foo, "baz"); // still two entries
+ *
+ * printf("use: %s\n", osmo_use_count_name_buf(namebuf, sizeof(namebuf), &foo->use_count));
+ * // "use: 3 (bar,2*baz)"
+ *
+ * foo_put(foo, "bar"); // still two entries, one entry is idle ("bar"=0)
+ * foo_put(foo, "baz");
+ * rx_stop_baz_request(foo);
+ * // Final "baz" was put(), foo_use_cb() deallocated object foo, as well as all use count entries.
+ * };
+ */
+struct osmo_use_count {
+ /*! Context to talloc-allocate use count entries from (if at all necessary); back-pointer to the owning object
+ * for osmo_use_count_cb_t implementations. */
+ void *talloc_object;
+ /*! If not NULL, this is invoked for each use count change. */
+ osmo_use_count_cb_t use_cb;
+ /*! List of use tokens. No need to touch this, the llist is initialized implicitly. */
+ struct llist_head use_counts;
+};
+
+/*! One named counter in the list managed by osmo_use_count.
+ * Gets created as necessary by osmo_use_count_get_put(). The total current use count of an object is the sum of all
+ * individual osmo_use_count_entry->count.
+ *
+ * object <--backpointer-+
+ * t| .osmo_use_count |
+ * a| .talloc_object ------------+
+ * l| .use_counts llist: use count
+ * l|-> - osmo_use_count_entry: "foo" 1
+ * o|-> - osmo_use_count_entry: "bar" 3
+ * c|-> - osmo_use_count_entry: "baz" 0 (currently unused entry)
+ */
+struct osmo_use_count_entry {
+ /*! Entry in osmo_use_count->use_counts. */
+ struct llist_head entry;
+ /*! Parent use count and backpointer to the talloc_object. */
+ struct osmo_use_count *use_count;
+ /*! Use token string that was passed to osmo_use_count_get_put(). */
+ const char *use;
+ /*! Current use count amount for only this use token string.
+ * If zero, this entry is currently unused and kept around to avoid frequent de-/allocation. */
+ int32_t count;
+};
+
+/*! Change the use count for a given use token.
+ * \param USE_LIST A struct osmo_use_count*, e.g. &my_obj->use_count.
+ * \param USE A use token: arbitrary string (const char*). This must remain valid memory, e.g. string constants.
+ * \param CHANGE Signed integer value to add to the use count: positive means get(), negative means put().
+ * \return Negative on range violations or USE_LIST == NULL, the use_cb()'s return value, or 0 on success.
+ */
+#define osmo_use_count_get_put(USE_LIST, USE, CHANGE) \
+ _osmo_use_count_get_put(USE_LIST, USE, CHANGE, __FILE__, __LINE__)
+
+int _osmo_use_count_get_put(struct osmo_use_count *uc, const char *use, int32_t change,
+ const char *file, int line);
+
+const char *osmo_use_count_name_buf(char *buf, size_t buf_len, const struct osmo_use_count *uc);
+
+int32_t osmo_use_count_total(const struct osmo_use_count *uc);
+int32_t osmo_use_count_by(const struct osmo_use_count *uc, const char *use);
+
+struct osmo_use_count_entry *osmo_use_count_find(const struct osmo_use_count *uc, const char *use);
+void osmo_use_count_free(struct osmo_use_count_entry *use_count_entry);
+
+void osmo_use_count_make_static_entries(struct osmo_use_count *uc, struct osmo_use_count_entry *buf,
+ size_t buf_n_entries);
+
+/*! @} */