nodemcu-firmware/app/lua53/linit.c

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/*
** $Id: linit.c,v 1.39.1.1 2017/04/19 17:20:42 roberto Exp $
** Initialization of libraries for lua.c and other clients
** See Copyright Notice in lua.h
*/
#define linit_c
#define LUA_LIB
#define LUA_CORE
/*
** NodeMCU uses RO segment based static ROTable declarations for library
** tables including the index of library tables itself (the ROM table).
** These tables are moved from RAM to flash ROM on the ESPs.
**
** In the case of ESP firmware builds, explicit control of the loader
** directives "linker magic" allows the marshalling of table entries for
** the master ROM and library initialisation vectors through linker-based
** PSECTs so that the corresponding tables can be bound during the link
** process rather than being statically declared here. This avoids the
** need to reconfigure this linit.c file to reflect the subset of the total
** modules selected for a given build. This same mechanism is used to
** include the lbaselib.c functions into the master ROM table.
**
** In contrast the host-based luac.cross builds must link on a range of
** platforms where we don't have control of PSECT placement. However these
** only use a small fixed list of libraries, which can be defined in this
** linit.c. This avoids the need for linker magic on host builds and
** simplifies building luac.cross across a range of host toolchains. One
** compilation in this case is that the lbaselib.c functions must be compiled
** into a separate external ROTable which is cascaded into the ROM resolution
** using its metatable __index hook.
*/
#include "lprefix.h"
#include <stddef.h>
#include "lua.h"
#include "lualib.h"
#include "lauxlib.h"
#include "lstate.h"
#include "lnodemcu.h"
extern LROT_TABLE(strlib);
extern LROT_TABLE(tab_funcs);
extern LROT_TABLE(dblib);
extern LROT_TABLE(co_funcs);
extern LROT_TABLE(mathlib);
extern LROT_TABLE(utf8);
extern LROT_TABLE(LFS);
#define LROT_ROM_ENTRIES \
LROT_TABENTRY( string, strlib ) \
LROT_TABENTRY( table, tab_funcs ) \
LROT_TABENTRY( debug, dblib) \
LROT_TABENTRY( coroutine, co_funcs ) \
LROT_TABENTRY( math, mathlib ) \
LROT_TABENTRY( utf8, utf8 ) \
LROT_TABENTRY( LFS, LFS ) \
LROT_TABENTRY( ROM, rotables )
#define LROT_LIB_ENTRIES \
LROT_FUNCENTRY( _G, luaopen_base ) \
LROT_FUNCENTRY( package, luaopen_package ) \
LROT_FUNCENTRY( string, luaopen_string ) \
LROT_FUNCENTRY( nodemcu, luaN_init )
/*
* Note that this nodemcu entry isn't a normal library initialisaiton but
* instead is a hook to allow the loading of a new LFS. This load process
* needs base and string to be initialised but not the untrustworthy
* modules and so is slotted in here.
*/
#if defined(LUA_CROSS_COMPILER)
/* _G __index -> rotables __index -> base_func */
extern LROT_TABLE(rotables_meta);
LROT_TABLE(base_func);
LROT_BEGIN(rotables_meta, NULL, LROT_MASK_INDEX)
LROT_TABENTRY( __index, base_func)
LROT_END(rotables_meta, NULL, LROT_MASK_INDEX)
LROT_BEGIN(rotables, LROT_TABLEREF(rotables_meta), 0)
LROT_TABENTRY( _G, base_func)
LROT_ROM_ENTRIES
LROT_END(rotables, LROT_TABLEREF(rotables_meta), 0)
LROT_BEGIN(lua_libs, NULL, 0)
LROT_LIB_ENTRIES
LROT_FUNCENTRY( io, luaopen_io )
LROT_FUNCENTRY( os, luaopen_os )
LROT_END(lua_libs, NULL, 0)
#else /* LUA_USE_ESP */
/* _G __index -> rotables __index (rotables includes base_func) */
extern const ROTable_entry lua_libs_base[];
extern const ROTable_entry lua_rotable_base[];
ROTable rotables_ROTable; /* NOT const in this case */
LROT_ENTRIES_IN_SECTION(rotables, rotable)
LROT_ROM_ENTRIES
LROT_BREAK(rotables)
LROT_ENTRIES_IN_SECTION(lua_libs, libs)
LROT_LIB_ENTRIES
LROT_BREAK(lua_libs)
#endif
void luaL_openlibs (lua_State *L) {
#ifdef LUA_CROSS_COMPILER
const ROTable_entry *p = LROT_TABLEREF(lua_libs)->entry;
#else
const ROTable_entry *p = lua_libs_base;
lua_createrotable(L, LROT_TABLEREF(rotables), lua_rotable_base, NULL);
#endif
/* Now do lua opens */
for ( ; p->key; p++) {
if (ttislcf(&p->value) && fvalue(&p->value))
luaL_requiref(L, p->key, fvalue(&p->value), 1);
}
}