badvpn/ncd/modules/foreach.c
Ambroz Bizjak 347fa1a7a5 ncd: Store the NCDStingIndex pointer in NCDValMem.
This cuts down on the boilerplate especially with ncd_make_boolean().
2015-05-09 00:01:49 +02:00

712 lines
21 KiB
C

/**
* @file foreach.c
* @author Ambroz Bizjak <ambrop7@gmail.com>
*
* @section LICENSE
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. Neither the name of the author nor the
* names of its contributors may be used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY
* DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
* ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
* @section DESCRIPTION
*
* Synopsis:
* foreach(list/map collection, string template, list args)
*
* Description:
* Initializes a template process for each element of list, sequentially,
* obeying to the usual execution model of NCD.
* It's equivalent to (except for special variables):
*
* call(template, args);
* ...
* call(template, args); # one call() for every element of list
*
* Template process specials:
*
* _index - (lists only) index of the list element corresponding to the template,
* process, as a decimal string, starting from zero
* _elem - (lists only) element of list corresponding to the template process
* _key - (maps only) key of the current map entry
* _val - (maps only) value of the current map entry
* _caller.X - X as seen from the foreach() statement
*
* Synopsis:
* foreach_emb(list/map collection, string template, string name1 [, string name2])
*
* Description:
* Foreach for embedded templates; the desugaring process converts Foreach
* clauses into this statement. The called templates have direct access to
* objects as seen from this statement, and also some kind of access to the
* current element of the iteration, depending on the type of collection
* being iterated, and whether 'name2' is provided:
* List and one name: current element is named 'name1'.
* List and both names: current index is named 'name1', current element 'name2'.
* Map and one name: current key is named 'name1'.
* Map and both names: current key is named 'name1', current value 'name2'.
*/
#include <stdlib.h>
#include <string.h>
#include <limits.h>
#include <misc/balloc.h>
#include <misc/string_begins_with.h>
#include <misc/debug.h>
#include <misc/offset.h>
#include <system/BReactor.h>
#include <ncd/module_common.h>
#include <generated/blog_channel_ncd_foreach.h>
#define ISTATE_WORKING 1
#define ISTATE_UP 2
#define ISTATE_WAITING 3
#define ISTATE_TERMINATING 4
#define ESTATE_FORGOTTEN 1
#define ESTATE_DOWN 2
#define ESTATE_UP 3
#define ESTATE_WAITING 4
#define ESTATE_TERMINATING 5
struct element;
struct instance {
NCDModuleInst *i;
NCDValRef template_name;
NCDValRef args;
NCD_string_id_t name1;
NCD_string_id_t name2;
BTimer timer;
struct element *elems;
int type;
int num_elems;
int gp; // good pointer
int ip; // initialized pointer
int state;
};
struct element {
struct instance *inst;
union {
struct {
NCDValRef list_elem;
};
struct {
NCDValRef map_key;
NCDValRef map_val;
};
};
NCDModuleProcess process;
int i;
int state;
};
static void assert_state (struct instance *o);
static void work (struct instance *o);
static void advance (struct instance *o);
static void timer_handler (struct instance *o);
static void element_process_handler_event (NCDModuleProcess *process, int event);
static int element_process_func_getspecialobj (NCDModuleProcess *process, NCD_string_id_t name, NCDObject *out_object);
static int element_caller_object_func_getobj (const NCDObject *obj, NCD_string_id_t name, NCDObject *out_object);
static int element_list_index_object_func_getvar (const NCDObject *obj, NCD_string_id_t name, NCDValMem *mem, NCDValRef *out);
static int element_list_elem_object_func_getvar (const NCDObject *obj, NCD_string_id_t name, NCDValMem *mem, NCDValRef *out);
static int element_map_key_object_func_getvar (const NCDObject *obj, NCD_string_id_t name, NCDValMem *mem, NCDValRef *out);
static int element_map_val_object_func_getvar (const NCDObject *obj, NCD_string_id_t name, NCDValMem *mem, NCDValRef *out);
static void instance_free (struct instance *o);
enum {STRING_INDEX, STRING_ELEM, STRING_KEY, STRING_VAL};
static const char *strings[] = {
"_index", "_elem", "_key", "_val", NULL
};
static void assert_state (struct instance *o)
{
ASSERT(o->num_elems >= 0)
ASSERT(o->gp >= 0)
ASSERT(o->ip >= 0)
ASSERT(o->gp <= o->num_elems)
ASSERT(o->ip <= o->num_elems)
ASSERT(o->gp <= o->ip)
#ifndef NDEBUG
// check GP
for (int i = 0; i < o->gp; i++) {
if (i == o->gp - 1) {
ASSERT(o->elems[i].state == ESTATE_UP || o->elems[i].state == ESTATE_DOWN ||
o->elems[i].state == ESTATE_WAITING)
} else {
ASSERT(o->elems[i].state == ESTATE_UP)
}
}
// check IP
int ip = o->num_elems;
while (ip > 0 && o->elems[ip - 1].state == ESTATE_FORGOTTEN) {
ip--;
}
ASSERT(o->ip == ip)
// check gap
for (int i = o->gp; i < o->ip; i++) {
if (i == o->ip - 1) {
ASSERT(o->elems[i].state == ESTATE_UP || o->elems[i].state == ESTATE_DOWN ||
o->elems[i].state == ESTATE_WAITING || o->elems[i].state == ESTATE_TERMINATING)
} else {
ASSERT(o->elems[i].state == ESTATE_UP || o->elems[i].state == ESTATE_DOWN ||
o->elems[i].state == ESTATE_WAITING)
}
}
#endif
}
static void work (struct instance *o)
{
assert_state(o);
// stop timer
BReactor_RemoveTimer(o->i->params->iparams->reactor, &o->timer);
if (o->state == ISTATE_WAITING) {
return;
}
if (o->state == ISTATE_UP && !(o->gp == o->ip && o->gp == o->num_elems && (o->gp == 0 || o->elems[o->gp - 1].state == ESTATE_UP))) {
// signal down
NCDModuleInst_Backend_Down(o->i);
// set state waiting
o->state = ISTATE_WAITING;
return;
}
if (o->gp < o->ip) {
// get last element
struct element *le = &o->elems[o->ip - 1];
ASSERT(le->state != ESTATE_FORGOTTEN)
// start terminating if not already
if (le->state != ESTATE_TERMINATING) {
// request termination
NCDModuleProcess_Terminate(&le->process);
// set element state terminating
le->state = ESTATE_TERMINATING;
}
return;
}
if (o->state == ISTATE_TERMINATING) {
// finally die
instance_free(o);
return;
}
if (o->gp == o->num_elems && (o->gp == 0 || o->elems[o->gp - 1].state == ESTATE_UP)) {
if (o->state == ISTATE_WORKING) {
// signal up
NCDModuleInst_Backend_Up(o->i);
// set state up
o->state = ISTATE_UP;
}
return;
}
if (o->gp > 0 && o->elems[o->gp - 1].state == ESTATE_WAITING) {
// get last element
struct element *le = &o->elems[o->gp - 1];
// continue process
NCDModuleProcess_Continue(&le->process);
// set state down
le->state = ESTATE_DOWN;
return;
}
if (o->gp > 0 && o->elems[o->gp - 1].state == ESTATE_DOWN) {
return;
}
ASSERT(o->gp == 0 || o->elems[o->gp - 1].state == ESTATE_UP)
advance(o);
return;
}
static void advance (struct instance *o)
{
assert_state(o);
ASSERT(o->gp == o->ip)
ASSERT(o->gp < o->num_elems)
ASSERT(o->gp == 0 || o->elems[o->gp - 1].state == ESTATE_UP)
ASSERT(o->elems[o->gp].state == ESTATE_FORGOTTEN)
// get next element
struct element *e = &o->elems[o->gp];
// init process
if (!NCDModuleProcess_InitValue(&e->process, o->i, o->template_name, o->args, element_process_handler_event)) {
ModuleLog(o->i, BLOG_ERROR, "NCDModuleProcess_Init failed");
goto fail;
}
// set special functions
NCDModuleProcess_SetSpecialFuncs(&e->process, element_process_func_getspecialobj);
// set element state down
e->state = ESTATE_DOWN;
// increment GP and IP
o->gp++;
o->ip++;
return;
fail:
// set timer
BReactor_SetTimer(o->i->params->iparams->reactor, &o->timer);
}
static void timer_handler (struct instance *o)
{
assert_state(o);
ASSERT(o->gp == o->ip)
ASSERT(o->gp < o->num_elems)
ASSERT(o->gp == 0 || o->elems[o->gp - 1].state == ESTATE_UP)
ASSERT(o->elems[o->gp].state == ESTATE_FORGOTTEN)
advance(o);
return;
}
static void element_process_handler_event (NCDModuleProcess *process, int event)
{
struct element *e = UPPER_OBJECT(process, struct element, process);
struct instance *o = e->inst;
assert_state(o);
ASSERT(e->i < o->ip)
ASSERT(e->state != ESTATE_FORGOTTEN)
switch (event) {
case NCDMODULEPROCESS_EVENT_UP: {
ASSERT(e->state == ESTATE_DOWN)
ASSERT(o->gp == o->ip)
ASSERT(o->gp == e->i + 1)
// set element state up
e->state = ESTATE_UP;
} break;
case NCDMODULEPROCESS_EVENT_DOWN: {
ASSERT(e->state == ESTATE_UP)
// set element state waiting
e->state = ESTATE_WAITING;
// bump down GP
if (o->gp > e->i + 1) {
o->gp = e->i + 1;
}
} break;
case NCDMODULEPROCESS_EVENT_TERMINATED: {
ASSERT(e->state == ESTATE_TERMINATING)
ASSERT(o->gp < o->ip)
ASSERT(o->ip == e->i + 1)
// free process
NCDModuleProcess_Free(&e->process);
// set element state forgotten
e->state = ESTATE_FORGOTTEN;
// decrement IP
o->ip--;
} break;
default: ASSERT(0);
}
work(o);
return;
}
static int element_process_func_getspecialobj (NCDModuleProcess *process, NCD_string_id_t name, NCDObject *out_object)
{
struct element *e = UPPER_OBJECT(process, struct element, process);
struct instance *o = e->inst;
ASSERT(e->state != ESTATE_FORGOTTEN)
switch (o->type) {
case NCDVAL_LIST: {
NCD_string_id_t index_name = (o->name2 >= 0 ? o->name1 : -1);
NCD_string_id_t elem_name = (o->name2 >= 0 ? o->name2 : o->name1);
if (index_name >= 0 && name == index_name) {
*out_object = NCDObject_Build(-1, e, element_list_index_object_func_getvar, NCDObject_no_getobj);
return 1;
}
if (name == elem_name) {
*out_object = NCDObject_Build(-1, e, element_list_elem_object_func_getvar, NCDObject_no_getobj);
return 1;
}
} break;
case NCDVAL_MAP: {
NCD_string_id_t key_name = o->name1;
NCD_string_id_t val_name = o->name2;
if (name == key_name) {
*out_object = NCDObject_Build(-1, e, element_map_key_object_func_getvar, NCDObject_no_getobj);
return 1;
}
if (val_name >= 0 && name == val_name) {
*out_object = NCDObject_Build(-1, e, element_map_val_object_func_getvar, NCDObject_no_getobj);
return 1;
}
} break;
}
if (NCDVal_IsInvalid(o->args)) {
return NCDModuleInst_Backend_GetObj(o->i, name, out_object);
}
if (name == NCD_STRING_CALLER) {
*out_object = NCDObject_Build(-1, e, NCDObject_no_getvar, element_caller_object_func_getobj);
return 1;
}
return 0;
}
static int element_caller_object_func_getobj (const NCDObject *obj, NCD_string_id_t name, NCDObject *out_object)
{
struct element *e = NCDObject_DataPtr(obj);
struct instance *o = e->inst;
ASSERT(e->state != ESTATE_FORGOTTEN)
ASSERT(!NCDVal_IsInvalid(o->args))
return NCDModuleInst_Backend_GetObj(o->i, name, out_object);
}
static int element_list_index_object_func_getvar (const NCDObject *obj, NCD_string_id_t name, NCDValMem *mem, NCDValRef *out)
{
struct element *e = NCDObject_DataPtr(obj);
struct instance *o = e->inst;
B_USE(o)
ASSERT(e->state != ESTATE_FORGOTTEN)
ASSERT(o->type == NCDVAL_LIST)
if (name != NCD_STRING_EMPTY) {
return 0;
}
*out = ncd_make_uintmax(mem, e->i);
return 1;
}
static int element_list_elem_object_func_getvar (const NCDObject *obj, NCD_string_id_t name, NCDValMem *mem, NCDValRef *out)
{
struct element *e = NCDObject_DataPtr(obj);
struct instance *o = e->inst;
B_USE(o)
ASSERT(e->state != ESTATE_FORGOTTEN)
ASSERT(o->type == NCDVAL_LIST)
if (name != NCD_STRING_EMPTY) {
return 0;
}
*out = NCDVal_NewCopy(mem, e->list_elem);
return 1;
}
static int element_map_key_object_func_getvar (const NCDObject *obj, NCD_string_id_t name, NCDValMem *mem, NCDValRef *out)
{
struct element *e = NCDObject_DataPtr(obj);
struct instance *o = e->inst;
B_USE(o)
ASSERT(e->state != ESTATE_FORGOTTEN)
ASSERT(o->type == NCDVAL_MAP)
if (name != NCD_STRING_EMPTY) {
return 0;
}
*out = NCDVal_NewCopy(mem, e->map_key);
return 1;
}
static int element_map_val_object_func_getvar (const NCDObject *obj, NCD_string_id_t name, NCDValMem *mem, NCDValRef *out)
{
struct element *e = NCDObject_DataPtr(obj);
struct instance *o = e->inst;
B_USE(o)
ASSERT(e->state != ESTATE_FORGOTTEN)
ASSERT(o->type == NCDVAL_MAP)
if (name != NCD_STRING_EMPTY) {
return 0;
}
*out = NCDVal_NewCopy(mem, e->map_val);
return 1;
}
static void func_new_common (void *vo, NCDModuleInst *i, NCDValRef collection, NCDValRef template_name, NCDValRef args, NCD_string_id_t name1, NCD_string_id_t name2)
{
ASSERT(!NCDVal_IsInvalid(collection))
ASSERT(NCDVal_IsString(template_name))
ASSERT(NCDVal_IsInvalid(args) || NCDVal_IsList(args))
ASSERT(name1 >= 0)
struct instance *o = vo;
o->i = i;
o->type = NCDVal_Type(collection);
o->template_name = template_name;
o->args = args;
o->name1 = name1;
o->name2 = name2;
// init timer
btime_t retry_time = NCDModuleInst_Backend_InterpGetRetryTime(i);
BTimer_Init(&o->timer, retry_time, (BTimer_handler)timer_handler, o);
size_t num_elems;
NCDValMapElem cur_map_elem;
switch (o->type) {
case NCDVAL_LIST: {
num_elems = NCDVal_ListCount(collection);
} break;
case NCDVAL_MAP: {
num_elems = NCDVal_MapCount(collection);
cur_map_elem = NCDVal_MapOrderedFirst(collection);
} break;
default:
ModuleLog(i, BLOG_ERROR, "invalid collection type");
goto fail0;
}
if (num_elems > INT_MAX) {
ModuleLog(i, BLOG_ERROR, "too many elements");
goto fail0;
}
o->num_elems = num_elems;
// allocate elements
if (!(o->elems = BAllocArray(o->num_elems, sizeof(o->elems[0])))) {
ModuleLog(i, BLOG_ERROR, "BAllocArray failed");
goto fail0;
}
for (int j = 0; j < o->num_elems; j++) {
struct element *e = &o->elems[j];
// set instance
e->inst = o;
// set index
e->i = j;
// set state forgotten
e->state = ESTATE_FORGOTTEN;
// set values
switch (o->type) {
case NCDVAL_LIST: {
e->list_elem = NCDVal_ListGet(collection, j);
} break;
case NCDVAL_MAP: {
e->map_key = NCDVal_MapElemKey(collection, cur_map_elem);
e->map_val = NCDVal_MapElemVal(collection, cur_map_elem);
cur_map_elem = NCDVal_MapOrderedNext(collection, cur_map_elem);
} break;
}
}
// set GP and IP zero
o->gp = 0;
o->ip = 0;
// set state working
o->state = ISTATE_WORKING;
work(o);
return;
fail0:
NCDModuleInst_Backend_DeadError(i);
}
static void func_new_foreach (void *vo, NCDModuleInst *i, const struct NCDModuleInst_new_params *params)
{
// read arguments
NCDValRef arg_collection;
NCDValRef arg_template;
NCDValRef arg_args;
if (!NCDVal_ListRead(params->args, 3, &arg_collection, &arg_template, &arg_args)) {
ModuleLog(i, BLOG_ERROR, "wrong arity");
goto fail0;
}
if (!NCDVal_IsString(arg_template) || !NCDVal_IsList(arg_args)) {
ModuleLog(i, BLOG_ERROR, "wrong type");
goto fail0;
}
NCD_string_id_t name1;
NCD_string_id_t name2;
switch (NCDVal_Type(arg_collection)) {
case NCDVAL_LIST: {
name1 = ModuleString(i, STRING_INDEX);
name2 = ModuleString(i, STRING_ELEM);
} break;
case NCDVAL_MAP: {
name1 = ModuleString(i, STRING_KEY);
name2 = ModuleString(i, STRING_VAL);
} break;
default:
ModuleLog(i, BLOG_ERROR, "invalid collection type");
goto fail0;
}
func_new_common(vo, i, arg_collection, arg_template, arg_args, name1, name2);
return;
fail0:
NCDModuleInst_Backend_DeadError(i);
}
static void func_new_foreach_emb (void *vo, NCDModuleInst *i, const struct NCDModuleInst_new_params *params)
{
// read arguments
NCDValRef arg_collection;
NCDValRef arg_template;
NCDValRef arg_name1;
NCDValRef arg_name2 = NCDVal_NewInvalid();
if (!NCDVal_ListRead(params->args, 3, &arg_collection, &arg_template, &arg_name1) && !NCDVal_ListRead(params->args, 4, &arg_collection, &arg_template, &arg_name1, &arg_name2)) {
ModuleLog(i, BLOG_ERROR, "wrong arity");
goto fail0;
}
if (!NCDVal_IsString(arg_template) || !NCDVal_IsString(arg_name1) || (!NCDVal_IsInvalid(arg_name2) && !NCDVal_IsString(arg_name2))) {
ModuleLog(i, BLOG_ERROR, "wrong type");
goto fail0;
}
NCD_string_id_t name1 = ncd_get_string_id(arg_name1);
if (name1 < 0) {
ModuleLog(i, BLOG_ERROR, "ncd_get_string_id failed");
goto fail0;
}
NCD_string_id_t name2 = -1;
if (!NCDVal_IsInvalid(arg_name2)) {
name2 = ncd_get_string_id(arg_name2);
if (name2 < 0) {
ModuleLog(i, BLOG_ERROR, "ncd_get_string_id failed");
goto fail0;
}
}
func_new_common(vo, i, arg_collection, arg_template, NCDVal_NewInvalid(), name1, name2);
return;
fail0:
NCDModuleInst_Backend_DeadError(i);
}
static void instance_free (struct instance *o)
{
ASSERT(o->gp == 0)
ASSERT(o->ip == 0)
// free elements
BFree(o->elems);
// free timer
BReactor_RemoveTimer(o->i->params->iparams->reactor, &o->timer);
NCDModuleInst_Backend_Dead(o->i);
}
static void func_die (void *vo)
{
struct instance *o = vo;
assert_state(o);
ASSERT(o->state != ISTATE_TERMINATING)
// set GP zero
o->gp = 0;
// set state terminating
o->state = ISTATE_TERMINATING;
work(o);
return;
}
static void func_clean (void *vo)
{
struct instance *o = vo;
if (o->state != ISTATE_WAITING) {
return;
}
// set state working
o->state = ISTATE_WORKING;
work(o);
return;
}
static struct NCDModule modules[] = {
{
.type = "foreach",
.func_new2 = func_new_foreach,
.func_die = func_die,
.func_clean = func_clean,
.alloc_size = sizeof(struct instance)
}, {
.type = "foreach_emb",
.func_new2 = func_new_foreach_emb,
.func_die = func_die,
.func_clean = func_clean,
.alloc_size = sizeof(struct instance)
}, {
.type = NULL
}
};
const struct NCDModuleGroup ncdmodule_foreach = {
.modules = modules,
.strings = strings
};