/* * upb - a minimalist implementation of protocol buffers. * * Copyright (c) 2009 Google Inc. See LICENSE for details. * Author: Josh Haberman * * A Lua extension for upb. Exposes only the core library * (sub-libraries are exposed in other extensions). * * 64-bit woes: Lua can only represent numbers of type lua_Number (which is * double unless the user specifically overrides this). Doubles can represent * the entire range of 64-bit integers, but lose precision once the integers are * greater than 2^53. * * Lua 5.3 is adding support for integers, which will allow for 64-bit * integers (which can be interpreted as signed or unsigned). * * LuaJIT supports 64-bit signed and unsigned boxed representations * through its "cdata" mechanism, but this is not portable to regular Lua. * * Hopefully Lua 5.3 will come soon enough that we can either use Lua 5.3 * integer support or LuaJIT 64-bit cdata for users that need the entire * domain of [u]int64 values. */ #include #include #include #include #include "lauxlib.h" #include "upb/bindings/lua/upb.h" #include "upb/handlers.h" #include "upb/pb/glue.h" #include "upb/shim/shim.h" /* Lua metatable types. */ #define LUPB_MSG "lupb.msg" #define LUPB_ARRAY "lupb.array" #define LUPB_MSGDEF "lupb.msgdef" #define LUPB_ENUMDEF "lupb.enumdef" #define LUPB_FIELDDEF "lupb.fielddef" #define LUPB_SYMTAB "lupb.symtab" /* Other table constants. */ #define LUPB_OBJCACHE "lupb.objcache" static void lupb_msgdef_init(lua_State *L); static size_t lupb_msgdef_sizeof(); /* Lua compatibility code *****************************************************/ /* Lua 5.1 and Lua 5.2 have slightly incompatible APIs. A little bit of * compatibility code can help hide the difference. Not too many people still * use Lua 5.1 but LuaJIT uses the Lua 5.1 API in some ways. */ #if lua_version_num == 501 /* taken from lua 5.2's source. */ void *luaL_testudata(lua_State *L, int ud, const char *tname) { void *p = lua_touserdata(L, ud); if (p != NULL) { /* value is a userdata? */ if (lua_getmetatable(L, ud)) { /* does it have a metatable? */ luaL_getmetatable(L, tname); /* get correct metatable */ if (!lua_rawequal(L, -1, -2)) /* not the same? */ p = NULL; /* value is a userdata with wrong metatable */ lua_pop(L, 2); /* remove both metatables */ return p; } } return NULL; /* value is not a userdata with a metatable */ } static void lupb_newlib(lua_State *L, const char *name, const luaL_Reg *funcs) { luaL_register(L, name, funcs); } #define lupb_setfuncs(L, l) luaL_register(L, NULL, l) #elif LUA_VERSION_NUM == 502 int luaL_typerror(lua_State *L, int narg, const char *tname) { const char *msg = lua_pushfstring(L, "%s expected, got %s", tname, luaL_typename(L, narg)); return luaL_argerror(L, narg, msg); } static void lupb_newlib(lua_State *L, const char *name, const luaL_Reg *funcs) { /* Lua 5.2 modules are not expected to set a global variable, so "name" is * unused. */ UPB_UNUSED(name); /* Can't use luaL_newlib(), because funcs is not the actual array. * Could (micro-)optimize this a bit to count funcs for initial table size. */ lua_createtable(L, 0, 8); luaL_setfuncs(L, funcs, 0); } #define lupb_setfuncs(L, l) luaL_setfuncs(L, l, 0) #else #error Only Lua 5.1 and 5.2 are supported #endif /* Shims for upcoming Lua 5.3 functionality. */ bool lua_isinteger(lua_State *L, int argn) { UPB_UNUSED(L); UPB_UNUSED(argn); return false; } /* Utility functions **********************************************************/ /* We store our module table in the registry, keyed by ptr. * For more info about the motivation/rationale, see this thread: * http://thread.gmane.org/gmane.comp.lang.lua.general/110632 */ bool lupb_openlib(lua_State *L, void *ptr, const char *name, const luaL_Reg *funcs) { /* Lookup cached module table. */ lua_pushlightuserdata(L, ptr); lua_rawget(L, LUA_REGISTRYINDEX); if (!lua_isnil(L, -1)) { return true; } lupb_newlib(L, name, funcs); /* Save module table in cache. */ lua_pushlightuserdata(L, ptr); lua_pushvalue(L, -2); lua_rawset(L, LUA_REGISTRYINDEX); return false; } /* Pushes a new userdata with the given metatable and ensures that it has a * uservalue. */ static void *newudata_with_userval(lua_State *L, size_t size, const char *type) { void *ret = lua_newuserdata(L, size); /* Set metatable. */ luaL_getmetatable(L, type); assert(!lua_isnil(L, -1)); /* Should have been created by luaopen_upb. */ lua_setmetatable(L, -2); lua_newtable(L); lua_setuservalue(L, -2); return ret; } const char *lupb_checkname(lua_State *L, int narg) { size_t len; const char *name = luaL_checklstring(L, narg, &len); if (strlen(name) != len) luaL_error(L, "names cannot have embedded NULLs"); return name; } bool lupb_checkbool(lua_State *L, int narg) { if (!lua_isboolean(L, narg)) { luaL_error(L, "must be true or false"); } return lua_toboolean(L, narg); } /* Unlike luaL_checkstring(), this does not allow implicit conversion to * string. */ void lupb_checkstring(lua_State *L, int narg) { if (lua_type(L, narg) != LUA_TSTRING) luaL_error(L, "Expected string"); } /* Unlike luaL_checkinteger, these do not implicitly convert from string or * round an existing double value. We allow floating-point input, but only if * the actual value is integral. */ #define INTCHECK(type, ctype) \ ctype lupb_check##type(lua_State *L, int narg) { \ double n; \ ctype i; \ if (lua_isinteger(L, narg)) { \ return lua_tointeger(L, narg); \ } \ \ /* Prevent implicit conversion from string. */ \ luaL_checktype(L, narg, LUA_TNUMBER); \ n = lua_tonumber(L, narg); \ \ i = (ctype)n; \ if ((double)i != n) { \ /* double -> ctype truncated or rounded. */ \ luaL_error(L, "number %f was not an integer or out of range for " #type, \ n); \ } \ return i; \ } \ void lupb_push##type(lua_State *L, ctype val) { \ /* TODO: push integer for Lua >= 5.3, 64-bit cdata for LuaJIT. */ \ /* This is lossy for some [u]int64 values, which isn't great, but */ \ /* crashing when we encounter these values seems worse. */ \ lua_pushnumber(L, val); \ } INTCHECK(int64, int64_t) INTCHECK(int32, int32_t) INTCHECK(uint64, uint64_t) INTCHECK(uint32, uint32_t) double lupb_checkdouble(lua_State *L, int narg) { /* If we were being really hard-nosed here, we'd check whether the input was * an integer that has no precise double representation. But doubles aren't * generally expected to be exact like integers are, and worse this could * cause data-dependent runtime errors: one run of the program could work fine * because the integer calculations happened to be exactly representable in * double, while the next could crash because of subtly different input. */ luaL_checktype(L, narg, LUA_TNUMBER); /* lua_tonumber() auto-converts. */ return lua_tonumber(L, narg); } float lupb_checkfloat(lua_State *L, int narg) { /* We don't worry about checking whether the input can be exactly converted to * float -- see above. */ luaL_checktype(L, narg, LUA_TNUMBER); /* lua_tonumber() auto-converts. */ return lua_tonumber(L, narg); } void lupb_pushdouble(lua_State *L, double d) { lua_pushnumber(L, d); } void lupb_pushfloat(lua_State *L, float d) { lua_pushnumber(L, d); } static void lupb_checkval(lua_State *L, int narg, upb_fieldtype_t type) { switch(type) { case UPB_TYPE_INT32: case UPB_TYPE_ENUM: lupb_checkint32(L, narg); break; case UPB_TYPE_INT64: lupb_checkint64(L, narg); break; case UPB_TYPE_UINT32: lupb_checkuint32(L, narg); break; case UPB_TYPE_UINT64: lupb_checkuint64(L, narg); break; case UPB_TYPE_DOUBLE: lupb_checkdouble(L, narg); break; case UPB_TYPE_FLOAT: lupb_checkfloat(L, narg); break; case UPB_TYPE_BOOL: lupb_checkbool(L, narg); break; case UPB_TYPE_STRING: case UPB_TYPE_BYTES: lupb_checkstring(L, narg); break; case UPB_TYPE_MESSAGE: lupb_assert(L, false); } } void lupb_checkstatus(lua_State *L, upb_status *s) { if (!upb_ok(s)) { lua_pushstring(L, upb_status_errmsg(s)); lua_error(L); } } static upb_fieldtype_t lupb_checkfieldtype(lua_State *L, int narg) { int type = luaL_checkint(L, narg); if (!upb_fielddef_checktype(type)) luaL_argerror(L, narg, "invalid field type"); return type; } #define CHK(pred) do { \ upb_status status = UPB_STATUS_INIT; \ pred; \ lupb_checkstatus(L, &status); \ } while (0) /* lupb_refcounted ************************************************************/ /* All upb objects that use upb_refcounted have a userdata that begins with a * pointer to that object. Each type has its own metatable. Objects are cached * in a weak table indexed by the C pointer of the object they are caching. * * Note that we consistently use memcpy() to read to/from the object. This * allows the userdata to use its own struct without violating aliasing, as * long as it begins with a pointer. */ /* Checks type; if it matches, pulls the pointer out of the wrapper. */ void *lupb_refcounted_check(lua_State *L, int narg, const char *type) { void *ud = luaL_checkudata(L, narg, type); void *ret; memcpy(&ret, ud, sizeof ret); if (!ret) luaL_error(L, "called into dead object"); return ret; } bool lupb_refcounted_pushwrapper(lua_State *L, const upb_refcounted *obj, const char *type, const void *ref_donor, size_t size) { bool create; void *ud; if (obj == NULL) { lua_pushnil(L); return false; } /* Lookup our cache in the registry (we don't put our objects in the registry * directly because we need our cache to be a weak table). */ lua_getfield(L, LUA_REGISTRYINDEX, LUPB_OBJCACHE); assert(!lua_isnil(L, -1)); /* Should have been created by luaopen_upb. */ lua_pushlightuserdata(L, (void*)obj); lua_rawget(L, -2); /* Stack is now: objcache, cached value. */ create = false; if (lua_isnil(L, -1)) { create = true; } else { void *ud = lua_touserdata(L, -1); void *ud_obj; lupb_assert(L, ud); memcpy(&ud_obj, ud, sizeof(void*)); /* A corner case: it is possible for the value to be GC'd * already, in which case we should evict this entry and create * a new one. */ if (ud_obj == NULL) { create = true; } } ud = NULL; if (create) { /* Remove bad cached value and push new value. */ lua_pop(L, 1); /* All of our userdata begin with a pointer to the obj. */ ud = lua_newuserdata(L, size); memcpy(ud, &obj, sizeof(void*)); upb_refcounted_donateref(obj, ref_donor, ud); luaL_getmetatable(L, type); /* Should have been created by luaopen_upb. */ lupb_assert(L, !lua_isnil(L, -1)); lua_setmetatable(L, -2); /* Set it in the cache. */ lua_pushlightuserdata(L, (void*)obj); lua_pushvalue(L, -2); lua_rawset(L, -4); } else { /* Existing wrapper obj already has a ref. */ ud = lua_touserdata(L, -1); upb_refcounted_checkref(obj, ud); if (ref_donor) upb_refcounted_unref(obj, ref_donor); } lua_insert(L, -2); lua_pop(L, 1); return create; } void lupb_refcounted_pushnewrapper(lua_State *L, const upb_refcounted *obj, const char *type, const void *ref_donor) { bool created = lupb_refcounted_pushwrapper(L, obj, type, ref_donor, sizeof(void *)); UPB_ASSERT_VAR(created, created == true); } static int lupb_refcounted_gc(lua_State *L) { void *ud = lua_touserdata(L, 1); void *nullp; upb_refcounted *obj; memcpy(&obj, ud, sizeof(obj)); upb_refcounted_unref(obj, ud); /* Zero out pointer so we can detect a call into a GC'd object. */ nullp = NULL; memcpy(ud, &nullp, sizeof(nullp)); return 0; } static const struct luaL_Reg lupb_refcounted_mm[] = { {"__gc", lupb_refcounted_gc}, {NULL, NULL} }; /* lupb_def *******************************************************************/ static const upb_def *lupb_def_check(lua_State *L, int narg) { upb_def *ret; void *ud = luaL_testudata(L, narg, LUPB_MSGDEF); if (!ud) ud = luaL_testudata(L, narg, LUPB_ENUMDEF); if (!ud) ud = luaL_testudata(L, narg, LUPB_FIELDDEF); if (!ud) luaL_typerror(L, narg, "upb def"); memcpy(&ret, ud, sizeof ret); if (!ret) luaL_error(L, "called into dead object"); return ret; } static upb_def *lupb_def_checkmutable(lua_State *L, int narg) { const upb_def *def = lupb_def_check(L, narg); if (upb_def_isfrozen(def)) luaL_error(L, "not allowed on frozen value"); return (upb_def*)def; } bool lupb_def_pushwrapper(lua_State *L, const upb_def *def, const void *ref_donor) { const char *type = NULL; size_t size = sizeof(void*); bool created; if (def == NULL) { lua_pushnil(L); return false; } switch (upb_def_type(def)) { case UPB_DEF_MSG: { type = LUPB_MSGDEF; size = lupb_msgdef_sizeof(); break; } case UPB_DEF_ENUM: type = LUPB_ENUMDEF; break; case UPB_DEF_FIELD: type = LUPB_FIELDDEF; break; default: luaL_error(L, "unknown deftype %d", upb_def_type(def)); } created = lupb_refcounted_pushwrapper(L, upb_def_upcast(def), type, ref_donor, size); if (created && upb_def_type(def) == UPB_DEF_MSG) { lupb_msgdef_init(L); } return created; } void lupb_def_pushnewrapper(lua_State *L, const upb_def *def, const void *ref_donor) { bool created = lupb_def_pushwrapper(L, def, ref_donor); UPB_ASSERT_VAR(created, created == true); } static int lupb_def_type(lua_State *L) { const upb_def *def = lupb_def_check(L, 1); lua_pushinteger(L, upb_def_type(def)); return 1; } static int lupb_def_freeze(lua_State *L) { upb_def *def = lupb_def_checkmutable(L, 1); CHK(upb_def_freeze(&def, 1, &status)); return 0; } static int lupb_def_isfrozen(lua_State *L) { const upb_def *def = lupb_def_check(L, 1); lua_pushboolean(L, upb_def_isfrozen(def)); return 1; } static int lupb_def_fullname(lua_State *L) { const upb_def *def = lupb_def_check(L, 1); lua_pushstring(L, upb_def_fullname(def)); return 1; } static int lupb_def_setfullname(lua_State *L) { const char *name = lupb_checkname(L, 2); CHK(upb_def_setfullname(lupb_def_checkmutable(L, 1), name, &status)); return 0; } #define LUPB_COMMON_DEF_METHODS \ {"def_type", lupb_def_type}, \ {"full_name", lupb_def_fullname}, \ {"freeze", lupb_def_freeze}, \ {"is_frozen", lupb_def_isfrozen}, \ {"set_full_name", lupb_def_setfullname}, \ /* lupb_fielddef **************************************************************/ const upb_fielddef *lupb_fielddef_check(lua_State *L, int narg) { return lupb_refcounted_check(L, narg, LUPB_FIELDDEF); } static upb_fielddef *lupb_fielddef_checkmutable(lua_State *L, int narg) { const upb_fielddef *f = lupb_fielddef_check(L, narg); if (upb_fielddef_isfrozen(f)) luaL_error(L, "not allowed on frozen value"); return (upb_fielddef*)f; } static int lupb_fielddef_new(lua_State *L) { upb_fielddef *f = upb_fielddef_new(&f); lupb_def_pushnewrapper(L, upb_fielddef_upcast(f), &f); return 1; } /* Getters */ static int lupb_fielddef_containingtype(lua_State *L) { const upb_fielddef *f = lupb_fielddef_check(L, 1); lupb_def_pushwrapper(L, upb_msgdef_upcast(upb_fielddef_containingtype(f)), NULL); return 1; } static int lupb_fielddef_containingtypename(lua_State *L) { upb_fielddef *f = lupb_fielddef_checkmutable(L, 1); lua_pushstring(L, upb_fielddef_containingtypename(f)); return 1; } static int lupb_fielddef_default(lua_State *L) { const upb_fielddef *f = lupb_fielddef_check(L, 1); switch (upb_fielddef_type(f)) { case UPB_TYPE_INT32: int32: lupb_pushint32(L, upb_fielddef_defaultint32(f)); break; case UPB_TYPE_INT64: lupb_pushint64(L, upb_fielddef_defaultint64(f)); break; case UPB_TYPE_UINT32: lupb_pushuint32(L, upb_fielddef_defaultuint32(f)); break; case UPB_TYPE_UINT64: lupb_pushuint64(L, upb_fielddef_defaultuint64(f)); break; case UPB_TYPE_DOUBLE: lua_pushnumber(L, upb_fielddef_defaultdouble(f)); break; case UPB_TYPE_FLOAT: lua_pushnumber(L, upb_fielddef_defaultfloat(f)); break; case UPB_TYPE_BOOL: lua_pushboolean(L, upb_fielddef_defaultbool(f)); break; case UPB_TYPE_ENUM: if (upb_fielddef_enumhasdefaultstr(f)) { goto str; } else if (upb_fielddef_enumhasdefaultint32(f)) { goto int32; } else { lua_pushnil(L); } break; case UPB_TYPE_STRING: case UPB_TYPE_BYTES: str: { size_t len; const char *data = upb_fielddef_defaultstr(f, &len); lua_pushlstring(L, data, len); break; } case UPB_TYPE_MESSAGE: return luaL_error(L, "Message fields do not have explicit defaults."); } return 1; } static int lupb_fielddef_getsel(lua_State *L) { const upb_fielddef *f = lupb_fielddef_check(L, 1); upb_selector_t sel; if (upb_handlers_getselector(f, luaL_checknumber(L, 2), &sel)) { lua_pushinteger(L, sel); return 1; } else { return 0; } } static int lupb_fielddef_hassubdef(lua_State *L) { const upb_fielddef *f = lupb_fielddef_check(L, 1); lua_pushboolean(L, upb_fielddef_hassubdef(f)); return 1; } static int lupb_fielddef_index(lua_State *L) { const upb_fielddef *f = lupb_fielddef_check(L, 1); lua_pushinteger(L, upb_fielddef_index(f)); return 1; } static int lupb_fielddef_intfmt(lua_State *L) { const upb_fielddef *f = lupb_fielddef_check(L, 1); lua_pushinteger(L, upb_fielddef_intfmt(f)); return 1; } static int lupb_fielddef_isextension(lua_State *L) { const upb_fielddef *f = lupb_fielddef_check(L, 1); lua_pushboolean(L, upb_fielddef_isextension(f)); return 1; } static int lupb_fielddef_istagdelim(lua_State *L) { const upb_fielddef *f = lupb_fielddef_check(L, 1); lua_pushboolean(L, upb_fielddef_istagdelim(f)); return 1; } static int lupb_fielddef_label(lua_State *L) { const upb_fielddef *f = lupb_fielddef_check(L, 1); lua_pushinteger(L, upb_fielddef_label(f)); return 1; } static int lupb_fielddef_lazy(lua_State *L) { const upb_fielddef *f = lupb_fielddef_check(L, 1); lua_pushboolean(L, upb_fielddef_lazy(f)); return 1; } static int lupb_fielddef_name(lua_State *L) { const upb_fielddef *f = lupb_fielddef_check(L, 1); lua_pushstring(L, upb_fielddef_name(f)); return 1; } static int lupb_fielddef_number(lua_State *L) { const upb_fielddef *f = lupb_fielddef_check(L, 1); int32_t num = upb_fielddef_number(f); if (num) lua_pushinteger(L, num); else lua_pushnil(L); return 1; } static int lupb_fielddef_packed(lua_State *L) { const upb_fielddef *f = lupb_fielddef_check(L, 1); lua_pushboolean(L, upb_fielddef_packed(f)); return 1; } static int lupb_fielddef_subdef(lua_State *L) { const upb_fielddef *f = lupb_fielddef_check(L, 1); const upb_def *def; if (!upb_fielddef_hassubdef(f)) luaL_error(L, "Tried to get subdef of non-message field"); def = upb_fielddef_subdef(f); lupb_def_pushwrapper(L, def, NULL); return 1; } static int lupb_fielddef_subdefname(lua_State *L) { upb_fielddef *f = lupb_fielddef_checkmutable(L, 1); if (!upb_fielddef_hassubdef(f)) luaL_error(L, "Tried to get subdef name of non-message field"); lua_pushstring(L, upb_fielddef_subdefname(f)); return 1; } static int lupb_fielddef_type(lua_State *L) { const upb_fielddef *f = lupb_fielddef_check(L, 1); if (upb_fielddef_typeisset(f)) lua_pushinteger(L, upb_fielddef_type(f)); else lua_pushnil(L); return 1; } /* Setters */ static int lupb_fielddef_setcontainingtypename(lua_State *L) { upb_fielddef *f = lupb_fielddef_checkmutable(L, 1); const char *name = NULL; if (!lua_isnil(L, 2)) name = lupb_checkname(L, 2); CHK(upb_fielddef_setcontainingtypename(f, name, &status)); return 0; } static int lupb_fielddef_setdefault(lua_State *L) { upb_fielddef *f = lupb_fielddef_checkmutable(L, 1); switch (upb_fielddef_type(f)) { case UPB_TYPE_INT32: upb_fielddef_setdefaultint32(f, lupb_checkint32(L, 2)); break; case UPB_TYPE_INT64: upb_fielddef_setdefaultint64(f, lupb_checkint64(L, 2)); break; case UPB_TYPE_UINT32: upb_fielddef_setdefaultuint32(f, lupb_checkuint32(L, 2)); break; case UPB_TYPE_UINT64: upb_fielddef_setdefaultuint64(f, lupb_checkuint64(L, 2)); break; case UPB_TYPE_DOUBLE: upb_fielddef_setdefaultdouble(f, lupb_checkdouble(L, 2)); break; case UPB_TYPE_FLOAT: upb_fielddef_setdefaultfloat(f, lupb_checkfloat(L, 2)); break; case UPB_TYPE_BOOL: upb_fielddef_setdefaultbool(f, lupb_checkbool(L, 2)); break; case UPB_TYPE_MESSAGE: return luaL_error(L, "Message types cannot have defaults."); case UPB_TYPE_ENUM: if (lua_type(L, 2) != LUA_TSTRING) { upb_fielddef_setdefaultint32(f, lupb_checkint32(L, 2)); break; } /* Else fall through and set string default. */ case UPB_TYPE_BYTES: case UPB_TYPE_STRING: { size_t len; const char *str = lua_tolstring(L, 2, &len); CHK(upb_fielddef_setdefaultstr(f, str, len, &status)); } } return 0; } static int lupb_fielddef_setisextension(lua_State *L) { upb_fielddef *f = lupb_fielddef_checkmutable(L, 1); CHK(upb_fielddef_setisextension(f, lupb_checkbool(L, 2))); return 0; } static int lupb_fielddef_setlabel(lua_State *L) { upb_fielddef *f = lupb_fielddef_checkmutable(L, 1); int label = luaL_checkint(L, 2); if (!upb_fielddef_checklabel(label)) luaL_argerror(L, 2, "invalid field label"); upb_fielddef_setlabel(f, label); return 0; } static int lupb_fielddef_setlazy(lua_State *L) { upb_fielddef *f = lupb_fielddef_checkmutable(L, 1); upb_fielddef_setlazy(f, lupb_checkbool(L, 2)); return 0; } static int lupb_fielddef_setname(lua_State *L) { upb_fielddef *f = lupb_fielddef_checkmutable(L, 1); CHK(upb_fielddef_setname(f, lupb_checkname(L, 2), &status)); return 0; } static int lupb_fielddef_setnumber(lua_State *L) { upb_fielddef *f = lupb_fielddef_checkmutable(L, 1); CHK(upb_fielddef_setnumber(f, luaL_checkint(L, 2), &status)); return 0; } static int lupb_fielddef_setpacked(lua_State *L) { upb_fielddef *f = lupb_fielddef_checkmutable(L, 1); upb_fielddef_setpacked(f, lupb_checkbool(L, 2)); return 0; } static int lupb_fielddef_setsubdef(lua_State *L) { upb_fielddef *f = lupb_fielddef_checkmutable(L, 1); const upb_def *def = NULL; if (!lua_isnil(L, 2)) def = lupb_def_check(L, 2); CHK(upb_fielddef_setsubdef(f, def, &status)); return 0; } static int lupb_fielddef_setsubdefname(lua_State *L) { upb_fielddef *f = lupb_fielddef_checkmutable(L, 1); const char *name = NULL; if (!lua_isnil(L, 2)) name = lupb_checkname(L, 2); CHK(upb_fielddef_setsubdefname(f, name, &status)); return 0; } static int lupb_fielddef_settype(lua_State *L) { upb_fielddef *f = lupb_fielddef_checkmutable(L, 1); upb_fielddef_settype(f, lupb_checkfieldtype(L, 2)); return 0; } static int lupb_fielddef_setintfmt(lua_State *L) { upb_fielddef *f = lupb_fielddef_checkmutable(L, 1); int32_t intfmt = luaL_checknumber(L, 2); if (!upb_fielddef_checkintfmt(intfmt)) luaL_argerror(L, 2, "invalid intfmt"); upb_fielddef_setintfmt(f, intfmt); return 0; } static int lupb_fielddef_settagdelim(lua_State *L) { upb_fielddef *f = lupb_fielddef_checkmutable(L, 1); bool is_tag_delim = lupb_checkbool(L, 2); CHK(upb_fielddef_settagdelim(f, is_tag_delim)); return 0; } static const struct luaL_Reg lupb_fielddef_m[] = { LUPB_COMMON_DEF_METHODS {"containing_type", lupb_fielddef_containingtype}, {"containing_type_name", lupb_fielddef_containingtypename}, {"default", lupb_fielddef_default}, {"getsel", lupb_fielddef_getsel}, {"has_subdef", lupb_fielddef_hassubdef}, {"index", lupb_fielddef_index}, {"intfmt", lupb_fielddef_intfmt}, {"is_extension", lupb_fielddef_isextension}, {"istagdelim", lupb_fielddef_istagdelim}, {"label", lupb_fielddef_label}, {"lazy", lupb_fielddef_lazy}, {"name", lupb_fielddef_name}, {"number", lupb_fielddef_number}, {"packed", lupb_fielddef_packed}, {"subdef", lupb_fielddef_subdef}, {"subdef_name", lupb_fielddef_subdefname}, {"type", lupb_fielddef_type}, {"set_containing_type_name", lupb_fielddef_setcontainingtypename}, {"set_default", lupb_fielddef_setdefault}, {"set_is_extension", lupb_fielddef_setisextension}, {"set_label", lupb_fielddef_setlabel}, {"set_lazy", lupb_fielddef_setlazy}, {"set_name", lupb_fielddef_setname}, {"set_number", lupb_fielddef_setnumber}, {"set_packed", lupb_fielddef_setpacked}, {"set_subdef", lupb_fielddef_setsubdef}, {"set_subdef_name", lupb_fielddef_setsubdefname}, {"set_type", lupb_fielddef_settype}, {"set_intfmt", lupb_fielddef_setintfmt}, {"set_tagdelim", lupb_fielddef_settagdelim}, {NULL, NULL} }; /* lupb_msgdef ****************************************************************/ typedef struct { const upb_msgdef *md; /* These members are initialized lazily the first time a message is created * for this def. */ uint16_t *field_offsets; size_t msg_size; size_t hasbits_size; lua_State *L; } lupb_msgdef; static size_t lupb_msgdef_sizeof() { return sizeof(lupb_msgdef); } const upb_msgdef *lupb_msgdef_check(lua_State *L, int narg) { return lupb_refcounted_check(L, narg, LUPB_MSGDEF); } lupb_msgdef *lupb_msgdef_check2(lua_State *L, int narg) { return luaL_checkudata(L, narg, LUPB_MSGDEF); } static upb_msgdef *lupb_msgdef_checkmutable(lua_State *L, int narg) { const upb_msgdef *m = lupb_msgdef_check(L, narg); if (upb_msgdef_isfrozen(m)) luaL_error(L, "not allowed on frozen value"); return (upb_msgdef*)m; } static int lupb_msgdef_new(lua_State *L) { upb_msgdef *md = upb_msgdef_new(&md); lupb_def_pushnewrapper(L, upb_msgdef_upcast(md), &md); return 1; } /* Unlike other refcounted types we need a custom __gc so that we free our field * offsets. */ static int lupb_msgdef_gc(lua_State *L) { lupb_msgdef *lmd = luaL_checkudata(L, 1, LUPB_MSGDEF); free(lmd->field_offsets); lupb_refcounted_gc(L); return 0; } static void lupb_msgdef_init(lua_State *L) { lupb_msgdef *lmd = luaL_checkudata(L, -1, LUPB_MSGDEF); lmd->L = L; lmd->field_offsets = NULL; } static int lupb_msgdef_add(lua_State *L) { upb_msgdef *m = lupb_msgdef_checkmutable(L, 1); upb_fielddef *f = lupb_fielddef_checkmutable(L, 2); CHK(upb_msgdef_addfield(m, f, NULL, &status)); return 0; } static int lupb_msgdef_len(lua_State *L) { const upb_msgdef *m = lupb_msgdef_check(L, 1); lua_pushinteger(L, upb_msgdef_numfields(m)); return 1; } static int lupb_msgdef_field(lua_State *L) { const upb_msgdef *m = lupb_msgdef_check(L, 1); int type = lua_type(L, 2); const upb_fielddef *f; if (type == LUA_TNUMBER) { f = upb_msgdef_itof(m, lua_tointeger(L, 2)); } else if (type == LUA_TSTRING) { f = upb_msgdef_ntofz(m, lua_tostring(L, 2)); } else { const char *msg = lua_pushfstring(L, "number or string expected, got %s", luaL_typename(L, 2)); return luaL_argerror(L, 2, msg); } lupb_def_pushwrapper(L, upb_fielddef_upcast(f), NULL); return 1; } static int lupb_msgiter_next(lua_State *L) { upb_msg_field_iter *i = lua_touserdata(L, lua_upvalueindex(1)); if (upb_msg_field_done(i)) return 0; lupb_def_pushwrapper(L, upb_fielddef_upcast(upb_msg_iter_field(i)), NULL); upb_msg_field_next(i); return 1; } static int lupb_msgdef_fields(lua_State *L) { const upb_msgdef *m = lupb_msgdef_check(L, 1); upb_msg_field_iter *i = lua_newuserdata(L, sizeof(upb_msg_field_iter)); upb_msg_field_begin(i, m); /* Need to guarantee that the msgdef outlives the iter. */ lua_pushvalue(L, 1); lua_pushcclosure(L, &lupb_msgiter_next, 2); return 1; } static const struct luaL_Reg lupb_msgdef_mm[] = { {"__gc", lupb_msgdef_gc}, {"__len", lupb_msgdef_len}, {NULL, NULL} }; static const struct luaL_Reg lupb_msgdef_m[] = { LUPB_COMMON_DEF_METHODS {"add", lupb_msgdef_add}, {"field", lupb_msgdef_field}, {"fields", lupb_msgdef_fields}, {NULL, NULL} }; /* lupb_enumdef ***************************************************************/ const upb_enumdef *lupb_enumdef_check(lua_State *L, int narg) { return lupb_refcounted_check(L, narg, LUPB_ENUMDEF); } static upb_enumdef *lupb_enumdef_checkmutable(lua_State *L, int narg) { const upb_enumdef *f = lupb_enumdef_check(L, narg); if (upb_enumdef_isfrozen(f)) luaL_error(L, "not allowed on frozen value"); return (upb_enumdef*)f; } static int lupb_enumdef_new(lua_State *L) { upb_enumdef *e = upb_enumdef_new(&e); lupb_def_pushnewrapper(L, upb_enumdef_upcast(e), &e); return 1; } static int lupb_enumdef_add(lua_State *L) { upb_enumdef *e = lupb_enumdef_checkmutable(L, 1); const char *name = lupb_checkname(L, 2); int32_t val = lupb_checkint32(L, 3); CHK(upb_enumdef_addval(e, name, val, &status)); return 0; } static int lupb_enumdef_len(lua_State *L) { const upb_enumdef *e = lupb_enumdef_check(L, 1); lua_pushinteger(L, upb_enumdef_numvals(e)); return 1; } static int lupb_enumdef_value(lua_State *L) { const upb_enumdef *e = lupb_enumdef_check(L, 1); int type = lua_type(L, 2); if (type == LUA_TNUMBER) { /* Pushes "nil" for a NULL pointer. */ int32_t key = lupb_checkint32(L, 2); lua_pushstring(L, upb_enumdef_iton(e, key)); } else if (type == LUA_TSTRING) { const char *key = lua_tostring(L, 2); int32_t num; if (upb_enumdef_ntoiz(e, key, &num)) { lua_pushinteger(L, num); } else { lua_pushnil(L); } } else { const char *msg = lua_pushfstring(L, "number or string expected, got %s", luaL_typename(L, 2)); return luaL_argerror(L, 2, msg); } return 1; } static int lupb_enumiter_next(lua_State *L) { upb_enum_iter *i = lua_touserdata(L, lua_upvalueindex(1)); if (upb_enum_done(i)) return 0; lua_pushstring(L, upb_enum_iter_name(i)); lua_pushinteger(L, upb_enum_iter_number(i)); upb_enum_next(i); return 2; } static int lupb_enumdef_values(lua_State *L) { const upb_enumdef *e = lupb_enumdef_check(L, 1); upb_enum_iter *i = lua_newuserdata(L, sizeof(upb_enum_iter)); upb_enum_begin(i, e); /* Need to guarantee that the enumdef outlives the iter. */ lua_pushvalue(L, 1); lua_pushcclosure(L, &lupb_enumiter_next, 2); return 1; } static const struct luaL_Reg lupb_enumdef_mm[] = { {"__len", lupb_enumdef_len}, {NULL, NULL} }; static const struct luaL_Reg lupb_enumdef_m[] = { LUPB_COMMON_DEF_METHODS {"add", lupb_enumdef_add}, {"value", lupb_enumdef_value}, {"values", lupb_enumdef_values}, {NULL, NULL} }; /* lupb_symtab ****************************************************************/ /* Inherits a ref on the symtab. * Checks that narg is a proper lupb_symtab object. If it is, leaves its * metatable on the stack for cache lookups/updates. */ const upb_symtab *lupb_symtab_check(lua_State *L, int narg) { return lupb_refcounted_check(L, narg, LUPB_SYMTAB); } static upb_symtab *lupb_symtab_checkmutable(lua_State *L, int narg) { const upb_symtab *s = lupb_symtab_check(L, narg); if (upb_symtab_isfrozen(s)) luaL_error(L, "not allowed on frozen value"); return (upb_symtab*)s; } void lupb_symtab_pushwrapper(lua_State *L, const upb_symtab *s, const void *ref_donor) { lupb_refcounted_pushwrapper(L, upb_symtab_upcast(s), LUPB_SYMTAB, ref_donor, sizeof(void *)); } void lupb_symtab_pushnewrapper(lua_State *L, const upb_symtab *s, const void *ref_donor) { lupb_refcounted_pushnewrapper(L, upb_symtab_upcast(s), LUPB_SYMTAB, ref_donor); } static int lupb_symtab_new(lua_State *L) { upb_symtab *s = upb_symtab_new(&s); lupb_symtab_pushnewrapper(L, s, &s); return 1; } static int lupb_symtab_freeze(lua_State *L) { upb_symtab_freeze(lupb_symtab_checkmutable(L, 1)); return 0; } static int lupb_symtab_isfrozen(lua_State *L) { lua_pushboolean(L, upb_symtab_isfrozen(lupb_symtab_check(L, 1))); return 1; } static int lupb_symtab_add(lua_State *L) { upb_symtab *s = lupb_symtab_checkmutable(L, 1); int n; upb_def **defs; luaL_checktype(L, 2, LUA_TTABLE); /* Iterate over table twice. First iteration to count entries and * check constraints. */ n = 0; for (lua_pushnil(L); lua_next(L, 2); lua_pop(L, 1)) { lupb_def_checkmutable(L, -1); ++n; } /* Second iteration to build deflist. * Allocate list with lua_newuserdata() so it is anchored as a GC root in * case any Lua functions longjmp(). */ defs = lua_newuserdata(L, n * sizeof(*defs)); n = 0; for (lua_pushnil(L); lua_next(L, 2); lua_pop(L, 1)) { upb_def *def = lupb_def_checkmutable(L, -1); defs[n++] = def; } CHK(upb_symtab_add(s, defs, n, NULL, &status)); return 0; } static int lupb_symtab_lookup(lua_State *L) { const upb_symtab *s = lupb_symtab_check(L, 1); int i; for (i = 2; i <= lua_gettop(L); i++) { const upb_def *def = upb_symtab_lookup(s, luaL_checkstring(L, i)); lupb_def_pushwrapper(L, def, NULL); lua_replace(L, i); } return lua_gettop(L) - 1; } static int lupb_symtabiter_next(lua_State *L) { upb_symtab_iter *i = lua_touserdata(L, lua_upvalueindex(1)); if (upb_symtab_done(i)) return 0; lupb_def_pushwrapper(L, upb_symtab_iter_def(i), NULL); upb_symtab_next(i); return 1; } static int lupb_symtab_defs(lua_State *L) { const upb_symtab *s = lupb_symtab_check(L, 1); upb_deftype_t type = lua_gettop(L) > 1 ? luaL_checkint(L, 2) : UPB_DEF_ANY; upb_symtab_iter *i = lua_newuserdata(L, sizeof(upb_symtab_iter)); upb_symtab_begin(i, s, type); /* Need to guarantee that the symtab outlives the iter. */ lua_pushvalue(L, 1); lua_pushcclosure(L, &lupb_symtabiter_next, 2); return 1; } /* This is a *temporary* API that will be removed once pending refactorings are * complete (it does not belong here in core because it depends on both * the descriptor.proto schema and the protobuf binary format. */ static int lupb_symtab_load_descriptor(lua_State *L) { size_t len; upb_symtab *s = lupb_symtab_checkmutable(L, 1); const char *str = luaL_checklstring(L, 2, &len); CHK(upb_load_descriptor_into_symtab(s, str, len, &status)); return 0; } static const struct luaL_Reg lupb_symtab_m[] = { {"add", lupb_symtab_add}, {"defs", lupb_symtab_defs}, {"freeze", lupb_symtab_freeze}, {"is_frozen", lupb_symtab_isfrozen}, {"lookup", lupb_symtab_lookup}, {"load_descriptor", lupb_symtab_load_descriptor}, {NULL, NULL} }; /* lupb_array *****************************************************************/ /* A lupb_array provides a strongly-typed array. * * For the moment we store all values in the userdata's environment table / * userval, for simplicity. Later we may wish to move the data into raw * memory as both a space and time optimization * * Compared to regular Lua tables: * * - we only allow integer indices. * - all entries must match the type of the table. * - we do not allow "holes" in the array; you can only assign to an existing * index or one past the end (which will grow the array by one). */ typedef struct { uint32_t size; upb_fieldtype_t type; const upb_msgdef *msgdef; /* Only when type == UPB_TYPE_MESSAGE */ } lupb_array; static lupb_array *lupb_array_check(lua_State *L, int narg) { return luaL_checkudata(L, narg, LUPB_ARRAY); } static uint32_t lupb_array_checkindex(lua_State *L, int narg, uint32_t max) { uint32_t n = lupb_checkuint32(L, narg); if (n == 0 || n > max) { /* Lua uses 1-based indexing. :( */ luaL_error(L, "Invalid array index."); } return n; } static int lupb_array_new(lua_State *L) { lupb_array *array = newudata_with_userval(L, sizeof(*array), LUPB_ARRAY); array->size = 0; if (lua_type(L, 1) == LUA_TNUMBER) { array->type = lupb_checkfieldtype(L, 1); if (array->type == UPB_TYPE_MESSAGE) { return luaL_error( L, "For message arrays construct with the specific message type."); } } else { array->type = UPB_TYPE_MESSAGE; array->msgdef = lupb_msgdef_check(L, 1); /* Store a reference to this msgdef in the environment table to ensure it * outlives this array. */ lua_getuservalue(L, -1); lua_pushvalue(L, 1); lua_rawseti(L, -2, 0); lua_pop(L, 1); /* Pop userval. */ } return 1; } static int lupb_array_newindex(lua_State *L) { lupb_array *array = lupb_array_check(L, 1); uint32_t n = lupb_array_checkindex(L, 2, array->size + 1); if (n == array->size + 1) { array->size++; } if (array->type == UPB_TYPE_MESSAGE) { if (array->msgdef != lupb_msg_checkdef(L, 3)) { return luaL_error(L, "Tried to assign wrong message type."); } } else { lupb_checkval(L, 3, array->type); } /* Write value to userval table. */ lua_getuservalue(L, 1); lua_pushvalue(L, 3); lua_rawseti(L, -2, n); return 0; /* 1 for chained assignments? */ } static int lupb_array_index(lua_State *L) { lupb_array *array = lupb_array_check(L, 1); uint32_t n = lupb_array_checkindex(L, 2, array->size); lua_getuservalue(L, 1); lua_rawgeti(L, -1, n); return 1; } static int lupb_array_len(lua_State *L) { lupb_array *array = lupb_array_check(L, 1); lua_pushnumber(L, array->size); return 1; } static const struct luaL_Reg lupb_array_mm[] = { {"__index", lupb_array_index}, {"__len", lupb_array_len}, {"__newindex", lupb_array_newindex}, {NULL, NULL} }; /* lupb_msg **************************************************************/ /* A lupb_msg is a userdata where: * * - the userdata's memory contains hasbits and primitive fields. * - the userdata's environment table / uservalue contains references to string * fields, submessage fields, and array fields. */ typedef struct { const lupb_msgdef *lmd; /* Data follows, in a flat buffer. */ } lupb_msg; #define MSGDEF_INDEX 0 static bool in_userval(const upb_fielddef *f) { return upb_fielddef_isseq(f) || upb_fielddef_issubmsg(f) || upb_fielddef_isstring(f); } static size_t lupb_sizeof(lua_State *L, const upb_fielddef *f) { switch (upb_fielddef_type(f)) { case UPB_TYPE_BOOL: return 1; case UPB_TYPE_INT32: case UPB_TYPE_UINT32: case UPB_TYPE_ENUM: case UPB_TYPE_FLOAT: return 4; case UPB_TYPE_INT64: case UPB_TYPE_UINT64: case UPB_TYPE_DOUBLE: return 8; case UPB_TYPE_STRING: case UPB_TYPE_BYTES: case UPB_TYPE_MESSAGE: break; } lupb_assert(L, false); return 0; } static int div_round_up(size_t n, size_t d) { int ret = n / d; /* If there was a positive remainder, then the result was rounded down and we * need to compensate by adding one. */ if (n % d > 0) ++ret; return ret; } static size_t align_up(size_t val, size_t align) { return val % align == 0 ? val : val + align - (val % align); } /* If we always read/write as a consistent type to each value, this shouldn't * violate aliasing. * * Note that the slightly prettier option of: * * *(type*)(&msg->data[ofs]) * * ...is potentially more questionable wrt the C standard and aliasing. * Does the expression &msg->data[ofs] "access the stored value"? If so, * this would violate aliasing. So instead we use the expression: * * (char*)msg + sizeof(lupb_msg) + ofs * * ...which unambigiously is doing nothing but calculating a pointer address. */ #define CHARPTR_AT(msg, ofs) ((char*)msg + sizeof(lupb_msg) + ofs) #define DEREF(msg, ofs, type) *(type*)CHARPTR_AT(msg, ofs) lupb_msg *lupb_msg_check(lua_State *L, int narg) { lupb_msg *msg = luaL_checkudata(L, narg, LUPB_MSG); if (!msg->lmd) luaL_error(L, "called into dead msg"); return msg; } const upb_msgdef *lupb_msg_checkdef(lua_State *L, int narg) { return lupb_msg_check(L, narg)->lmd->md; } static const upb_fielddef *lupb_msg_checkfield(lua_State *L, const lupb_msgdef *lmd, int fieldarg) { size_t len; const char *fieldname = luaL_checklstring(L, fieldarg, &len); const upb_fielddef *f = upb_msgdef_ntof(lmd->md, fieldname, len); if (!f) { const char *msg = lua_pushfstring(L, "no such field: %s", fieldname); luaL_argerror(L, fieldarg, msg); return NULL; /* Never reached. */ } return f; } /* Assigns offsets for storing data in instances of messages for this type, if * they have not already been assigned. "narg" should be the stack location of * a Lua msgdef object. It should be frozen (if it is not, we will throw an * error). It should not throw errors in any other case, since we may have * values on our stack that would leak if we longjmp'd across them. * * TODO(haberman): (if we want to avoid this and be robust against even lua * errors due to OOM, we should stop using upb_handlers_newfrozen() and * implement it ourselves with a Lua table as cache, since that would get * cleaned up properly on error). */ static lupb_msgdef *lupb_msg_assignoffsets(lua_State *L, int narg) { int idx; upb_msg_field_iter i; lupb_msgdef *lmd = lupb_msgdef_check2(L, narg); if (!upb_msgdef_isfrozen(lmd->md)) luaL_error(L, "msgdef must be frozen"); if (lmd->field_offsets) { /* Already assigned. */ return lmd; } { int n = upb_msgdef_numfields(lmd->md); uint16_t *offsets = malloc(sizeof(*offsets) * n); /* Offset with the raw data part; starts with hasbits. */ size_t hasbits_size = div_round_up(n, 8); size_t data_ofs = hasbits_size; /* Index within the userval. * Starts at one to not collide with MSGDEF_INDEX. */ size_t userval_idx = 1; /* Assign offsets. */ for (upb_msg_field_begin(&i, lmd->md); !upb_msg_field_done(&i); upb_msg_field_next(&i)) { upb_fielddef *f = upb_msg_iter_field(&i); if (in_userval(f)) { offsets[upb_fielddef_index(f)] = userval_idx++; } else { size_t size = lupb_sizeof(L, f); data_ofs = align_up(data_ofs, size); offsets[upb_fielddef_index(f)] = data_ofs; data_ofs += size; } } lmd->field_offsets = offsets; lmd->msg_size = sizeof(lupb_msg) + data_ofs; lmd->hasbits_size = hasbits_size; } /* Now recursively assign offsets for all submessages, and also add them to * the uservalue to ensure that all the lupb_msgdef objects for our * submessages outlive us. This is particularly important if/when we build * handlers to populate this msgdef. */ lua_pushvalue(L, narg); lua_newtable(L); /* This will be our userval. */ idx = 1; for (upb_msg_field_begin(&i, lmd->md); !upb_msg_field_done(&i); upb_msg_field_next(&i)) { upb_fielddef *f = upb_msg_iter_field(&i); if (upb_fielddef_type(f) == UPB_TYPE_MESSAGE) { bool created = lupb_def_pushwrapper(L, upb_fielddef_subdef(f), NULL); UPB_ASSERT_VAR(created, !created); lupb_msg_assignoffsets(L, -1); lua_rawseti(L, -2, idx++); /* Append to uservalue. */ } } lua_setuservalue(L, -2); lua_pop(L, 1); /* copy of msgdef */ return lmd; } void lupb_msg_pushnew(lua_State *L, int narg) { lupb_msgdef *lmd = lupb_msg_assignoffsets(L, narg); lupb_msg *msg; /* Add passed-in MessageDef to a table which will become the msg's userval. */ lua_pushvalue(L, narg); lua_newtable(L); lua_pushvalue(L, narg); lua_rawseti(L, -2, MSGDEF_INDEX); msg = newudata_with_userval(L, lmd->msg_size, LUPB_MSG); memset(msg, 0, lmd->msg_size); /* Create a msg->msgdef reference, both: * 1. a pointer in the userdata itself (for easy access) and */ msg->lmd = lmd; /* 2. a reference in Lua-space from the msg's uservalue to the messagedef * wrapper object (so the msgdef wrapper object will always outlive us, * GC-wise). */ lua_pushvalue(L, -2); /* Push the table from before. */ lua_setuservalue(L, -2); /* Pop table, now msg is at top again. */ lua_remove(L, -2); /* Remove table, so new message is only new val. */ } static int lupb_msg_new(lua_State *L) { lupb_msg_pushnew(L, 1); return 1; } static bool lupb_msg_has(const lupb_msg *msg, const upb_fielddef *f) { uint16_t idx = upb_fielddef_index(f); return *CHARPTR_AT(msg, idx / 8) & (1 << (idx % 8)); } static void lupb_msg_set(lupb_msg *msg, const upb_fielddef *f) { uint16_t idx = upb_fielddef_index(f); *CHARPTR_AT(msg, idx / 8) |= (1 << (idx % 8)); } static int lupb_msg_index(lua_State *L) { lupb_msg *msg = lupb_msg_check(L, 1); const upb_fielddef *f = lupb_msg_checkfield(L, msg->lmd, 2); int ofs; if (!upb_fielddef_isseq(f) && !lupb_msg_has(msg, f)) { lua_pushnil(L); return 1; } ofs = msg->lmd->field_offsets[upb_fielddef_index(f)]; if (in_userval(f)) { lua_getuservalue(L, 1); lua_pushinteger(L, ofs); lua_rawget(L, -2); } else { switch (upb_fielddef_type(f)) { case UPB_TYPE_FLOAT: lupb_pushfloat(L, DEREF(msg, ofs, float)); break; case UPB_TYPE_DOUBLE: lupb_pushdouble(L, DEREF(msg, ofs, double)); break; case UPB_TYPE_BOOL: lua_pushboolean(L, DEREF(msg, ofs, bool)); break; case UPB_TYPE_ENUM: case UPB_TYPE_INT32: lupb_pushint32(L, DEREF(msg, ofs, int32_t)); break; case UPB_TYPE_UINT32: lupb_pushuint32(L, DEREF(msg, ofs, uint32_t)); break; case UPB_TYPE_INT64: if (LUA_VERSION_NUM < 503) { /* Check value? Lua < 5.3.0 has no native integer support, lua_Number * is probably double which can't exactly represent large int64s. */ } lupb_pushint64(L, DEREF(msg, ofs, int64_t)); break; case UPB_TYPE_UINT64: if (LUA_VERSION_NUM < 503) { /* Check value? Lua < 5.3.0 has no native integer support, lua_Number * is probably double which can't exactly represent large uint64s. */ } lupb_pushuint64(L, DEREF(msg, ofs, uint64_t)); break; case UPB_TYPE_STRING: case UPB_TYPE_BYTES: case UPB_TYPE_MESSAGE: lupb_assert(L, false); break; } } return 1; } int lupb_msg_newindex(lua_State *L) { lupb_msg *msg = lupb_msg_check(L, 1); const upb_fielddef *f = lupb_msg_checkfield(L, msg->lmd, 2); int ofs; lupb_msg_set(msg, f); ofs = msg->lmd->field_offsets[upb_fielddef_index(f)]; if (in_userval(f)) { /* Type-check and then store in the userval. */ if (upb_fielddef_isseq(f)) { lupb_array *array = lupb_array_check(L, 3); if (array->type != upb_fielddef_type(f) || (array->type == UPB_TYPE_MESSAGE && array->msgdef != upb_fielddef_msgsubdef(f))) { return luaL_error(L, "Array type mismatch"); } } else if (upb_fielddef_isstring(f)) { lupb_checkstring(L, 3); } else { if (lupb_msg_checkdef(L, 3) != upb_fielddef_msgsubdef(f)) { return luaL_error(L, "Message type mismatch"); } } lua_getuservalue(L, 1); lua_pushvalue(L, 3); lua_rawseti(L, -2, ofs); } else { switch (upb_fielddef_type(f)) { case UPB_TYPE_FLOAT: DEREF(msg, ofs, float) = lupb_checkfloat(L, 3); break; case UPB_TYPE_DOUBLE: DEREF(msg, ofs, double) = lupb_checkdouble(L, 3); break; case UPB_TYPE_ENUM: case UPB_TYPE_INT32: DEREF(msg, ofs, int32_t) = lupb_checkint32(L, 3); break; case UPB_TYPE_UINT32: DEREF(msg, ofs, uint32_t) = lupb_checkuint32(L, 3); break; case UPB_TYPE_INT64: DEREF(msg, ofs, int64_t) = lupb_checkint64(L, 3); break; case UPB_TYPE_UINT64: DEREF(msg, ofs, uint64_t) = lupb_checkuint64(L, 3); break; case UPB_TYPE_BOOL: DEREF(msg, ofs, bool) = lupb_checkbool(L, 3); break; case UPB_TYPE_STRING: case UPB_TYPE_BYTES: case UPB_TYPE_MESSAGE: lupb_assert(L, false); } } return 0; /* 1 for chained assignments? */ } static const struct luaL_Reg lupb_msg_mm[] = { {"__index", lupb_msg_index}, {"__newindex", lupb_msg_newindex}, {NULL, NULL} }; /* lupb_msg populating handlers ***********************************************/ /* NOTE: doesn't support repeated or submessage fields yet. Coming soon. */ typedef struct { uint32_t ofs; uint32_t hasbit; } lupb_handlerdata; static void lupb_sethasbit(lupb_msg *msg, uint32_t hasbit) { *CHARPTR_AT(msg, hasbit / 8) |= 1 << (hasbit % 8); } static size_t strhandler(void *closure, const void *hd, const char *str, size_t len, const upb_bufhandle *handle) { lupb_msg *msg = closure; const lupb_handlerdata *data = hd; lua_State *L = msg->lmd->L; UPB_UNUSED(handle); lua_pushlstring(L, str, len); lua_rawseti(L, -2, data->ofs); lupb_sethasbit(msg, data->hasbit); return len; } const void *newhandlerdata(upb_handlers *h, uint32_t ofs, uint32_t hasbit) { lupb_handlerdata *data = malloc(sizeof(*data)); data->ofs = ofs; data->hasbit = hasbit; upb_handlers_addcleanup(h, data, free); return data; } void callback(const void *closure, upb_handlers *h) { lua_State *L = (lua_State*)closure; lupb_msgdef *lmd; upb_msg_field_iter i; lupb_def_pushwrapper(L, upb_msgdef_upcast(upb_handlers_msgdef(h)), NULL); lmd = lupb_msg_assignoffsets(L, -1); upb_msg_field_begin(&i, upb_handlers_msgdef(h)); for (; !upb_msg_field_done(&i); upb_msg_field_next(&i)) { upb_fielddef *f = upb_msg_iter_field(&i); int hasbit = upb_fielddef_index(f); uint16_t ofs = lmd->field_offsets[upb_fielddef_index(f)]; if (upb_fielddef_isseq(f)) { luaL_error(L, "Doesn't support repeated fields yet."); } else { switch (upb_fielddef_type(f)) { case UPB_TYPE_BOOL: case UPB_TYPE_INT32: case UPB_TYPE_UINT32: case UPB_TYPE_ENUM: case UPB_TYPE_FLOAT: case UPB_TYPE_INT64: case UPB_TYPE_UINT64: case UPB_TYPE_DOUBLE: hasbit += sizeof(lupb_msg) * 8; ofs += sizeof(lupb_msg); upb_shim_set(h, f, ofs, hasbit); break; case UPB_TYPE_STRING: case UPB_TYPE_BYTES: { upb_handlerattr attr = UPB_HANDLERATTR_INITIALIZER; upb_handlerattr_sethandlerdata(&attr, newhandlerdata(h, ofs, hasbit)); /* XXX: does't currently handle split buffers. */ upb_handlers_setstring(h, f, strhandler, &attr); upb_handlerattr_uninit(&attr); break; } case UPB_TYPE_MESSAGE: luaL_error(L, "Doesn't support submessages yet."); break; } } } lua_pop(L, 1); /* msgdef wrapper */ } const upb_handlers *lupb_msg_newwritehandlers(lua_State *L, int narg, const void *owner) { lupb_msgdef *lmd = lupb_msg_assignoffsets(L, narg); return upb_handlers_newfrozen(lmd->md, owner, callback, L); } /* lupb toplevel **************************************************************/ static int lupb_freeze(lua_State *L) { int n = lua_gettop(L); int i; /* Scratch memory; lua_newuserdata() anchors it as a GC root in case any Lua * functions fail. */ upb_def **defs = lua_newuserdata(L, n * sizeof(upb_def*)); for (i = 0; i < n; i++) { /* Could allow an array of defs here also. */ defs[i] = lupb_def_checkmutable(L, i + 1); } CHK(upb_def_freeze(defs, n, &status)); return 0; } static const struct luaL_Reg lupb_toplevel_m[] = { {"Array", lupb_array_new}, {"EnumDef", lupb_enumdef_new}, {"FieldDef", lupb_fielddef_new}, {"Message", lupb_msg_new}, {"MessageDef", lupb_msgdef_new}, {"SymbolTable", lupb_symtab_new}, {"freeze", lupb_freeze}, {NULL, NULL} }; void lupb_register_type(lua_State *L, const char *name, const luaL_Reg *m, const luaL_Reg *mm, bool refcount_gc) { luaL_newmetatable(L, name); if (mm) { lupb_setfuncs(L, mm); } if (refcount_gc) { lupb_setfuncs(L, lupb_refcounted_mm); } if (m) { /* Methods go in the mt's __index method. This implies that you can' * implement __index and also have methods. */ lua_getfield(L, -1, "__index"); lupb_assert(L, lua_isnil(L, -1)); lua_pop(L, 1); lua_createtable(L, 0, 0); lupb_setfuncs(L, m); lua_setfield(L, -2, "__index"); } lua_pop(L, 1); /* The mt. */ } static void lupb_setfieldi(lua_State *L, const char *field, int i) { lua_pushinteger(L, i); lua_setfield(L, -2, field); } int luaopen_upb_c(lua_State *L) { static char module_key; if (lupb_openlib(L, &module_key, "upb_c", lupb_toplevel_m)) { return 1; } /* Non-refcounted types. */ lupb_register_type(L, LUPB_ARRAY, NULL, lupb_array_mm, false); lupb_register_type(L, LUPB_MSG, NULL, lupb_msg_mm, false); /* Refcounted types. */ lupb_register_type(L, LUPB_ENUMDEF, lupb_enumdef_m, lupb_enumdef_mm, true); lupb_register_type(L, LUPB_FIELDDEF, lupb_fielddef_m, NULL, true); lupb_register_type(L, LUPB_SYMTAB, lupb_symtab_m, NULL, true); /* Refcounted but with custom __gc. */ lupb_register_type(L, LUPB_MSGDEF, lupb_msgdef_m, lupb_msgdef_mm, false); /* Create our object cache. */ lua_newtable(L); lua_createtable(L, 0, 1); /* Cache metatable. */ lua_pushstring(L, "v"); /* Values are weak. */ lua_setfield(L, -2, "__mode"); lua_setmetatable(L, -2); lua_setfield(L, LUA_REGISTRYINDEX, LUPB_OBJCACHE); /* Register constants. */ lupb_setfieldi(L, "LABEL_OPTIONAL", UPB_LABEL_OPTIONAL); lupb_setfieldi(L, "LABEL_REQUIRED", UPB_LABEL_REQUIRED); lupb_setfieldi(L, "LABEL_REPEATED", UPB_LABEL_REPEATED); lupb_setfieldi(L, "TYPE_DOUBLE", UPB_TYPE_DOUBLE); lupb_setfieldi(L, "TYPE_FLOAT", UPB_TYPE_FLOAT); lupb_setfieldi(L, "TYPE_INT64", UPB_TYPE_INT64); lupb_setfieldi(L, "TYPE_UINT64", UPB_TYPE_UINT64); lupb_setfieldi(L, "TYPE_INT32", UPB_TYPE_INT32); lupb_setfieldi(L, "TYPE_BOOL", UPB_TYPE_BOOL); lupb_setfieldi(L, "TYPE_STRING", UPB_TYPE_STRING); lupb_setfieldi(L, "TYPE_MESSAGE", UPB_TYPE_MESSAGE); lupb_setfieldi(L, "TYPE_BYTES", UPB_TYPE_BYTES); lupb_setfieldi(L, "TYPE_UINT32", UPB_TYPE_UINT32); lupb_setfieldi(L, "TYPE_ENUM", UPB_TYPE_ENUM); lupb_setfieldi(L, "INTFMT_VARIABLE", UPB_INTFMT_VARIABLE); lupb_setfieldi(L, "INTFMT_FIXED", UPB_INTFMT_FIXED); lupb_setfieldi(L, "INTFMT_ZIGZAG", UPB_INTFMT_ZIGZAG); lupb_setfieldi(L, "DESCRIPTOR_TYPE_DOUBLE", UPB_DESCRIPTOR_TYPE_DOUBLE); lupb_setfieldi(L, "DESCRIPTOR_TYPE_FLOAT", UPB_DESCRIPTOR_TYPE_FLOAT); lupb_setfieldi(L, "DESCRIPTOR_TYPE_INT64", UPB_DESCRIPTOR_TYPE_INT64); lupb_setfieldi(L, "DESCRIPTOR_TYPE_UINT64", UPB_DESCRIPTOR_TYPE_UINT64); lupb_setfieldi(L, "DESCRIPTOR_TYPE_INT32", UPB_DESCRIPTOR_TYPE_INT32); lupb_setfieldi(L, "DESCRIPTOR_TYPE_FIXED64", UPB_DESCRIPTOR_TYPE_FIXED64); lupb_setfieldi(L, "DESCRIPTOR_TYPE_FIXED32", UPB_DESCRIPTOR_TYPE_FIXED32); lupb_setfieldi(L, "DESCRIPTOR_TYPE_BOOL", UPB_DESCRIPTOR_TYPE_BOOL); lupb_setfieldi(L, "DESCRIPTOR_TYPE_STRING", UPB_DESCRIPTOR_TYPE_STRING); lupb_setfieldi(L, "DESCRIPTOR_TYPE_GROUP", UPB_DESCRIPTOR_TYPE_GROUP); lupb_setfieldi(L, "DESCRIPTOR_TYPE_MESSAGE", UPB_DESCRIPTOR_TYPE_MESSAGE); lupb_setfieldi(L, "DESCRIPTOR_TYPE_BYTES", UPB_DESCRIPTOR_TYPE_BYTES); lupb_setfieldi(L, "DESCRIPTOR_TYPE_UINT32", UPB_DESCRIPTOR_TYPE_UINT32); lupb_setfieldi(L, "DESCRIPTOR_TYPE_ENUM", UPB_DESCRIPTOR_TYPE_ENUM); lupb_setfieldi(L, "DESCRIPTOR_TYPE_SFIXED32", UPB_DESCRIPTOR_TYPE_SFIXED32); lupb_setfieldi(L, "DESCRIPTOR_TYPE_SFIXED64", UPB_DESCRIPTOR_TYPE_SFIXED64); lupb_setfieldi(L, "DESCRIPTOR_TYPE_SINT32", UPB_DESCRIPTOR_TYPE_SINT32); lupb_setfieldi(L, "DESCRIPTOR_TYPE_SINT64", UPB_DESCRIPTOR_TYPE_SINT64); lupb_setfieldi(L, "DEF_MSG", UPB_DEF_MSG); lupb_setfieldi(L, "DEF_FIELD", UPB_DEF_FIELD); lupb_setfieldi(L, "DEF_ENUM", UPB_DEF_ENUM); lupb_setfieldi(L, "DEF_SERVICE", UPB_DEF_SERVICE); lupb_setfieldi(L, "DEF_ANY", UPB_DEF_ANY); lupb_setfieldi(L, "HANDLER_INT32", UPB_HANDLER_INT32); lupb_setfieldi(L, "HANDLER_INT64", UPB_HANDLER_INT64); lupb_setfieldi(L, "HANDLER_UINT32", UPB_HANDLER_UINT32); lupb_setfieldi(L, "HANDLER_UINT64", UPB_HANDLER_UINT64); lupb_setfieldi(L, "HANDLER_FLOAT", UPB_HANDLER_FLOAT); lupb_setfieldi(L, "HANDLER_DOUBLE", UPB_HANDLER_DOUBLE); lupb_setfieldi(L, "HANDLER_BOOL", UPB_HANDLER_BOOL); lupb_setfieldi(L, "HANDLER_STARTSTR", UPB_HANDLER_STARTSTR); lupb_setfieldi(L, "HANDLER_STRING", UPB_HANDLER_STRING); lupb_setfieldi(L, "HANDLER_ENDSTR", UPB_HANDLER_ENDSTR); lupb_setfieldi(L, "HANDLER_STARTSUBMSG", UPB_HANDLER_STARTSUBMSG); lupb_setfieldi(L, "HANDLER_ENDSUBMSG", UPB_HANDLER_ENDSUBMSG); lupb_setfieldi(L, "HANDLER_STARTSEQ", UPB_HANDLER_STARTSEQ); lupb_setfieldi(L, "HANDLER_ENDSEQ", UPB_HANDLER_ENDSEQ); return 1; /* Return package table. */ }