prosody
6b84d11aa09b
util-src/managed_pointer.h

Find changesets by keywords by author, files, the commit message, revision number or hash, or revset expression.

Software / code / prosody

File

util-src/managed_pointer.h @ 13633:6b84d11aa09b

mod_storage_sql: Detect SQLite3 without UPSERT (or SQLCipher 3.x) SQLCipher v3.4.1 (the version in Debian 12) is based on SQLite3 v3.15.2, while UPSERT support was introduced in SQLite3 v3.24.0 This check was not needed before because we v3.24.0 has not been in a version of Debian we support for a long, long time. Note however that SQLCipher databases are not compatible across major versions, upgrading from v3.x to v4.x requires executing a migration. Attempts at making `prosodyctl mod_storage_sql upgrade` perform such a migration has not been successful. Executing the following in the `sqlcipher` tool should do the migration: PRAGMA key = '<key material>'; PRAGMA cipher_migrate;
author Kim Alvefur <zash@zash.se>
date Thu, 23 Jan 2025 19:33:05 +0100
parent 12692:b001b0f42512
line wrap: on
line source

/* managed_pointer.h

These macros allow wrapping an allocator/deallocator into an object that is
owned and managed by the Lua garbage collector.

Why? It is too easy to leak objects that need to be manually released, especially
when dealing with the Lua API which can throw errors from many operations.

USAGE
-----

For example, given an object that can be created or released with the following
functions:

  fancy_buffer* new_buffer();
  void free_buffer(fancy_buffer* p_buffer)

You could declare a managed version like so:

  MANAGED_POINTER_ALLOCATOR(new_managed_buffer, fancy_buffer*, new_buffer, free_buffer)

And then, when you need to create a new fancy_buffer in your code:

  fancy_buffer *my_buffer = new_managed_buffer(L);

NOTES
-----

Managed objects MUST NOT be freed manually. They will automatically be
freed during the next GC sweep after your function exits (even if via an error).

The managed object is pushed onto the stack, but should generally be ignored,
but you'll need to bear this in mind when creating managed pointers in the
middle of a sequence of stack operations.
*/

#define MANAGED_POINTER_MT(wrapped_type) #wrapped_type "_managedptr_mt"

#define MANAGED_POINTER_ALLOCATOR(name, wrapped_type, wrapped_alloc, wrapped_free) \
  static int _release_ ## name(lua_State *L) {                                \
  	wrapped_type *p = (wrapped_type*)lua_topointer(L, 1);                 \
  	if(*p != NULL) {                                                      \
	  	wrapped_free(*p);                                             \
	}                                                                     \
  	return 0;                                                             \
  }                                                                           \
  static wrapped_type name(lua_State *L) {                                    \
  	wrapped_type *p = (wrapped_type*)lua_newuserdata(L, sizeof(wrapped_type)); \
  	if(luaL_newmetatable(L, MANAGED_POINTER_MT(wrapped_type)) != 0) {     \
  		lua_pushcfunction(L, _release_ ## name);                      \
  		lua_setfield(L, -2, "__gc");                                  \
  	}                                                                     \
  	lua_setmetatable(L, -2);                                              \
  	*p = wrapped_alloc();                                                 \
  	if(*p == NULL) {                                                      \
  		lua_pushliteral(L, "not enough memory");                      \
  		lua_error(L);                                                 \
  	}                                                                     \
  	return *p;                                                            \
  }