/* Licensed under BSD-MIT - see LICENSE file for details */ #ifndef CCAN_TAL_H #define CCAN_TAL_H #include "config.h" #include "compiler.h" #include "likely.h" #include "typesafe_cb.h" #include "str.h" #include "take.h" #include #include #include /** * tal_t - convenient alias for void to mark tal pointers. * * Since any pointer can be a tal-allocated pointer, it's often * useful to use this typedef to mark them explicitly. */ typedef void tal_t; /** * tal - basic allocator function * @ctx: NULL, or tal allocated object to be parent. * @type: the type to allocate. * * Allocates a specific type, with a given parent context. The name * of the object is a string of the type, but if CCAN_TAL_DEBUG is * defined it also contains the file and line which allocated it. * * tal_count() of the return will be 1. * * Example: * int *p = tal(NULL, int); * *p = 1; */ #define tal(ctx, type) \ tal_label(ctx, type, TAL_LABEL(type, "")) /** * talz - zeroing allocator function * @ctx: NULL, or tal allocated object to be parent. * @type: the type to allocate. * * Equivalent to tal() followed by memset() to zero. * * Example: * p = talz(NULL, int); * assert(*p == 0); */ #define talz(ctx, type) \ talz_label(ctx, type, TAL_LABEL(type, "")) /** * tal_free - free a tal-allocated pointer. * @p: NULL, or tal allocated object to free. * * This calls the destructors for p (if any), then does the same for all its * children (recursively) before finally freeing the memory. It returns * NULL, for convenience. * * Note: errno is preserved by this call, and also saved and restored * for any destructors or notifiers. * * Example: * p = tal_free(p); */ void *tal_free(const tal_t *p); /** * tal_arr - allocate an array of objects. * @ctx: NULL, or tal allocated object to be parent. * @type: the type to allocate. * @count: the number to allocate. * * tal_count() of the returned pointer will be @count. * * Example: * p = tal_arr(NULL, int, 2); * p[0] = 0; * p[1] = 1; */ #define tal_arr(ctx, type, count) \ tal_arr_label(ctx, type, count, TAL_LABEL(type, "[]")) /** * tal_arrz - allocate an array of zeroed objects. * @ctx: NULL, or tal allocated object to be parent. * @type: the type to allocate. * @count: the number to allocate. * * Equivalent to tal_arr() followed by memset() to zero. * * Example: * p = tal_arrz(NULL, int, 2); * assert(p[0] == 0 && p[1] == 0); */ #define tal_arrz(ctx, type, count) \ tal_arrz_label(ctx, type, count, TAL_LABEL(type, "[]")) /** * tal_resize - enlarge or reduce a tal object. * @p: A pointer to the tal allocated array to resize. * @count: the number to allocate. * * This returns true on success (and may move *@p), or false on failure. * On success, tal_count() of *@p will be @count. * * Note: if *p is take(), it will still be take() upon return, even if it * has been moved. * * Example: * tal_resize(&p, 100); */ #define tal_resize(p, count) \ tal_resize_((void **)(p), sizeof**(p), (count), false) /** * tal_resizez - enlarge or reduce a tal object; zero out extra. * @p: A pointer to the tal allocated array to resize. * @count: the number to allocate. * * This returns true on success (and may move *@p), or false on failure. * * Example: * tal_resizez(&p, 200); */ #define tal_resizez(p, count) \ tal_resize_((void **)(p), sizeof**(p), (count), true) /** * tal_steal - change the parent of a tal-allocated pointer. * @ctx: The new parent. * @ptr: The tal allocated object to move, or NULL. * * This may need to perform an allocation, in which case it may fail; thus * it can return NULL, otherwise returns @ptr. If @ptr is NULL, this function does * nothing. */ #if HAVE_STATEMENT_EXPR /* Weird macro avoids gcc's 'warning: value computed is not used'. */ #define tal_steal(ctx, ptr) \ ({ (tal_typeof(ptr) tal_steal_((ctx),(ptr))); }) #else #define tal_steal(ctx, ptr) \ (tal_typeof(ptr) tal_steal_((ctx),(ptr))) #endif /** * tal_add_destructor - add a callback function when this context is destroyed. * @ptr: The tal allocated object. * @function: the function to call before it's freed. * * This is a more convenient form of tal_add_notifier(@ptr, * TAL_NOTIFY_FREE, ...), in that the function prototype takes only @ptr. * * Note that this can only fail if your allocfn fails and your errorfn returns. */ #define tal_add_destructor(ptr, function) \ tal_add_destructor_((ptr), typesafe_cb(void, void *, (function), (ptr))) /** * tal_del_destructor - remove a destructor callback function. * @ptr: The tal allocated object. * @function: the function to call before it's freed. * * If @function has not been successfully added as a destructor, this returns * false. Note that if we're inside the destructor call itself, this will * return false. */ #define tal_del_destructor(ptr, function) \ tal_del_destructor_((ptr), typesafe_cb(void, void *, (function), (ptr))) /** * tal_add_destructor2 - add a 2-arg callback function when context is destroyed. * @ptr: The tal allocated object. * @function: the function to call before it's freed. * @arg: the extra argument to the function. * * Sometimes an extra argument is required for a destructor; this * saves the extra argument internally to avoid the caller having to * do an extra allocation. * * Note that this can only fail if your allocfn fails and your errorfn returns. */ #define tal_add_destructor2(ptr, function, arg) \ tal_add_destructor2_((ptr), \ typesafe_cb_cast(void (*)(tal_t *, void *), \ void (*)(__typeof__(ptr), \ __typeof__(arg)), \ (function)), \ (arg)) /** * tal_del_destructor - remove a destructor callback function. * @ptr: The tal allocated object. * @function: the function to call before it's freed. * * If @function has not been successfully added as a destructor, this returns * false. Note that if we're inside the destructor call itself, this will * return false. */ #define tal_del_destructor(ptr, function) \ tal_del_destructor_((ptr), typesafe_cb(void, void *, (function), (ptr))) /** * tal_del_destructor2 - remove 2-arg callback function. * @ptr: The tal allocated object. * @function: the function to call before it's freed. * @arg: the extra argument to the function. * * If @function has not been successfully added as a destructor with * @arg, this returns false. */ #define tal_del_destructor2(ptr, function, arg) \ tal_del_destructor2_((ptr), \ typesafe_cb_cast(void (*)(tal_t *, void *), \ void (*)(__typeof__(ptr), \ __typeof__(arg)), \ (function)), \ (arg)) enum tal_notify_type { TAL_NOTIFY_FREE = 1, TAL_NOTIFY_STEAL = 2, TAL_NOTIFY_MOVE = 4, TAL_NOTIFY_RESIZE = 8, TAL_NOTIFY_RENAME = 16, TAL_NOTIFY_ADD_CHILD = 32, TAL_NOTIFY_DEL_CHILD = 64, TAL_NOTIFY_ADD_NOTIFIER = 128, TAL_NOTIFY_DEL_NOTIFIER = 256 }; /** * tal_add_notifier - add a callback function when this context changes. * @ptr: The tal allocated object, or NULL. * @types: Bitwise OR of the types the callback is interested in. * @callback: the function to call. * * Note that this can only fail if your allocfn fails and your errorfn * returns. Also note that notifiers are not reliable in the case * where an allocation fails, as they may be called before any * allocation is actually done. * * TAL_NOTIFY_FREE is called when @ptr is freed, either directly or * because an ancestor is freed: @info is the argument to tal_free(). * It is exactly equivalent to a destructor, with more information. * errno is set to the value it was at the call of tal_free(). * * TAL_NOTIFY_STEAL is called when @ptr's parent changes: @info is the * new parent. * * TAL_NOTIFY_MOVE is called when @ptr is realloced (via tal_resize) * and moved. In this case, @ptr arg here is the new memory, and * @info is the old pointer. * * TAL_NOTIFY_RESIZE is called when @ptr is realloced via tal_resize: * @info is the new size, in bytes. If the pointer has moved, * TAL_NOTIFY_MOVE callbacks are called first. * * TAL_NOTIFY_ADD_CHILD/TAL_NOTIFY_DEL_CHILD are called when @ptr is * the context for a tal() allocating call, or a direct child is * tal_free()d: @info is the child. Note that TAL_NOTIFY_DEL_CHILD is * not called when this context is tal_free()d: TAL_NOTIFY_FREE is * considered sufficient for that case. * * TAL_NOTIFY_ADD_NOTIFIER/TAL_NOTIFIER_DEL_NOTIFIER are called when a * notifier is added or removed (not for this notifier): @info is the * callback. This is also called for tal_add_destructor and * tal_del_destructor. */ #define tal_add_notifier(ptr, types, callback) \ tal_add_notifier_((ptr), (types), \ typesafe_cb_postargs(void, tal_t *, (callback), \ (ptr), \ enum tal_notify_type, void *)) /** * tal_del_notifier - remove a notifier callback function. * @ptr: The tal allocated object. * @callback: the function to call. */ #define tal_del_notifier(ptr, callback) \ tal_del_notifier_((ptr), \ typesafe_cb_postargs(void, void *, (callback), \ (ptr), \ enum tal_notify_type, void *), \ false, NULL) /** * tal_set_name - attach a name to a tal pointer. * @ptr: The tal allocated object. * @name: The name to use. * * The name is copied, unless we're certain it's a string literal. */ #define tal_set_name(ptr, name) \ tal_set_name_((ptr), (name), TAL_IS_LITERAL(name)) /** * tal_name - get the name for a tal pointer. * @ptr: The tal allocated object. * * Returns NULL if no name has been set. */ const char *tal_name(const tal_t *ptr); /** * tal_count - get the count of objects in a tal object. * @ptr: The tal allocated object (or NULL) * * Returns 0 if @ptr is NULL. Note that if the allocation was done as a * different type to @ptr, the result may not match the @count argument * (or implied 1) of that allocation! */ #define tal_count(p) (tal_bytelen(p) / sizeof(*p)) /** * tal_bytelen - get the count of bytes in a tal object. * @ptr: The tal allocated object (or NULL) * * Returns 0 if @ptr is NULL. */ size_t tal_bytelen(const tal_t *ptr); /** * tal_first - get the first immediate tal object child. * @root: The tal allocated object to start with, or NULL. * * Returns NULL if there are no children. */ tal_t *tal_first(const tal_t *root); /** * tal_next - get the next immediate tal object child. * @prev: The return value from tal_first or tal_next. * * Returns NULL if there are no more immediate children. This should be safe to * call on an altering tree unless @prev is no longer valid. */ tal_t *tal_next(const tal_t *prev); /** * tal_parent - get the parent of a tal object. * @ctx: The tal allocated object. * * Returns the parent, which may be NULL. Returns NULL if @ctx is NULL. */ tal_t *tal_parent(const tal_t *ctx); /** * tal_dup - duplicate an object. * @ctx: The tal allocated object to be parent of the result (may be NULL). * @type: the type (should match type of @p!) * @p: the object to copy (or reparented if take()). Must not be NULL. */ #define tal_dup(ctx, type, p) \ tal_dup_label(ctx, type, p, TAL_LABEL(type, ""), false) /** * tal_dup_or_null - duplicate an object, or just pass NULL. * @ctx: The tal allocated object to be parent of the result (may be NULL). * @type: the type (should match type of @p!) * @p: the object to copy (or reparented if take()) * * if @p is NULL, just return NULL, otherwise to tal_dup(). */ #define tal_dup_or_null(ctx, type, p) \ tal_dup_label(ctx, type, p, TAL_LABEL(type, ""), true) /** * tal_dup_arr - duplicate an array. * @ctx: The tal allocated object to be parent of the result (may be NULL). * @type: the type (should match type of @p!) * @p: the array to copy (or resized & reparented if take()) * @n: the number of sizeof(type) entries to copy. * @extra: the number of extra sizeof(type) entries to allocate. */ #define tal_dup_arr(ctx, type, p, n, extra) \ tal_dup_arr_label(ctx, type, p, n, extra, TAL_LABEL(type, "[]")) /** * tal_dup_arr - duplicate a tal array. * @ctx: The tal allocated object to be parent of the result (may be NULL). * @type: the type (should match type of @p!) * @p: the tal array to copy (or resized & reparented if take()) * * The comon case of duplicating an entire tal array. */ #define tal_dup_talarr(ctx, type, p) \ ((type *)tal_dup_talarr_((ctx), tal_typechk_(p, type *), \ TAL_LABEL(type, "[]"))) /* Lower-level interfaces, where you want to supply your own label string. */ #define tal_label(ctx, type, label) \ ((type *)tal_alloc_((ctx), sizeof(type), false, label)) #define talz_label(ctx, type, label) \ ((type *)tal_alloc_((ctx), sizeof(type), true, label)) #define tal_arr_label(ctx, type, count, label) \ ((type *)tal_alloc_arr_((ctx), sizeof(type), (count), false, label)) #define tal_arrz_label(ctx, type, count, label) \ ((type *)tal_alloc_arr_((ctx), sizeof(type), (count), true, label)) #define tal_dup_label(ctx, type, p, label, nullok) \ ((type *)tal_dup_((ctx), tal_typechk_(p, type *), \ sizeof(type), 1, 0, nullok, \ label)) #define tal_dup_arr_label(ctx, type, p, n, extra, label) \ ((type *)tal_dup_((ctx), tal_typechk_(p, type *), \ sizeof(type), (n), (extra), false, \ label)) /** * tal_set_backend - set the allocation or error functions to use * @alloc_fn: allocator or NULL (default is malloc) * @resize_fn: re-allocator or NULL (default is realloc) * @free_fn: free function or NULL (default is free) * @error_fn: called on errors or NULL (default is abort) * * The defaults are set up so tal functions never return NULL, but you * can override erorr_fn to change that. error_fn can return, and is * called if alloc_fn or resize_fn fail. * * If any parameter is NULL, that function is unchanged. */ void tal_set_backend(void *(*alloc_fn)(size_t size), void *(*resize_fn)(void *, size_t size), void (*free_fn)(void *), void (*error_fn)(const char *msg)); /** * tal_expand - expand a tal array with contents. * @a1p: a pointer to the tal array to expand. * @a2: the second array (can be take()). * @num2: the number of elements in the second array. * * Note that *@a1 and @a2 should be the same type. tal_count(@a1) will * be increased by @num2. * * Example: * int *arr1 = tal_arrz(NULL, int, 2); * int arr2[2] = { 1, 3 }; * * tal_expand(&arr1, arr2, 2); * assert(tal_count(arr1) == 4); * assert(arr1[2] == 1); * assert(arr1[3] == 3); */ #define tal_expand(a1p, a2, num2) \ tal_expand_((void **)(a1p), (a2), sizeof**(a1p), \ (num2) + 0*sizeof(*(a1p) == (a2))) /** * tal_cleanup - remove pointers from NULL node * * Internally, tal keeps a list of nodes allocated from @ctx NULL; this * prevents valgrind from noticing memory leaks. This re-initializes * that list to empty. * * It also calls take_cleanup() for you. */ void tal_cleanup(void); /** * tal_check - sanity check a tal context and its children. * @ctx: a tal context, or NULL. * @errorstr: a string to prepend calls to error_fn, or NULL. * * This sanity-checks a tal tree (unless NDEBUG is defined, in which case * it simply returns true). If errorstr is not null, error_fn is called * when a problem is found, otherwise it is not. * * See also: * tal_set_backend() */ bool tal_check(const tal_t *ctx, const char *errorstr); #ifdef CCAN_TAL_DEBUG /** * tal_dump - dump entire tal tree to stderr. * * This is a helper for debugging tal itself, which dumps all the tal internal * state. */ void tal_dump(void); #endif /* Internal support functions */ #ifndef TAL_LABEL #ifdef CCAN_TAL_NO_LABELS #define TAL_LABEL(type, arr) NULL #else #ifdef CCAN_TAL_DEBUG #define TAL_LABEL(type, arr) \ __FILE__ ":" stringify(__LINE__) ":" stringify(type) arr #else #define TAL_LABEL(type, arr) stringify(type) arr #endif /* CCAN_TAL_DEBUG */ #endif #endif #if HAVE_BUILTIN_CONSTANT_P #define TAL_IS_LITERAL(str) __builtin_constant_p(str) #else #define TAL_IS_LITERAL(str) (sizeof(&*(str)) != sizeof(char *)) #endif bool tal_set_name_(tal_t *ctx, const char *name, bool literal); #if HAVE_TYPEOF #define tal_typeof(ptr) (__typeof__(ptr)) #if HAVE_STATEMENT_EXPR /* Careful: ptr can be const foo *, ptype is foo *. Also, ptr could * be an array, eg "hello". */ #define tal_typechk_(ptr, ptype) ({ __typeof__((ptr)+0) _p = (ptype)(ptr); _p; }) #else #define tal_typechk_(ptr, ptype) (ptr) #endif #else /* !HAVE_TYPEOF */ #define tal_typeof(ptr) #define tal_typechk_(ptr, ptype) (ptr) #endif void *tal_alloc_(const tal_t *ctx, size_t bytes, bool clear, const char *label); void *tal_alloc_arr_(const tal_t *ctx, size_t bytes, size_t count, bool clear, const char *label); void *tal_dup_(const tal_t *ctx, const void *p TAKES, size_t size, size_t n, size_t extra, bool nullok, const char *label); void *tal_dup_talarr_(const tal_t *ctx, const tal_t *src TAKES, const char *label); tal_t *tal_steal_(const tal_t *new_parent, const tal_t *t); bool tal_resize_(tal_t **ctxp, size_t size, size_t count, bool clear); bool tal_expand_(tal_t **ctxp, const void *src TAKES, size_t size, size_t count); bool tal_add_destructor_(const tal_t *ctx, void (*destroy)(void *me)); bool tal_add_destructor2_(const tal_t *ctx, void (*destroy)(void *me, void *arg), void *arg); bool tal_del_destructor_(const tal_t *ctx, void (*destroy)(void *me)); bool tal_del_destructor2_(const tal_t *ctx, void (*destroy)(void *me, void *arg), void *arg); bool tal_add_notifier_(const tal_t *ctx, enum tal_notify_type types, void (*notify)(tal_t *ctx, enum tal_notify_type, void *info)); bool tal_del_notifier_(const tal_t *ctx, void (*notify)(tal_t *ctx, enum tal_notify_type, void *info), bool match_extra_arg, void *arg); #endif /* CCAN_TAL_H */