/*
* lws-api-test-lws_struct-json
*
* Written in 2010-2020 by Andy Green <andy@warmcat.com>
*
* This file is made available under the Creative Commons CC0 1.0
* Universal Public Domain Dedication.
*
* lws_struct apis are used to serialize and deserialize your C structs and
* linked-lists in a standardized way that's very modest on memory but
* convenient and easy to maintain.
*
* This second test file shows a worked example for how to express a schema
* and both consume JSON -> struct and struct -> JSON for it.
*/
#include <libwebsockets.h>
static const char * const test2_json =
"{"
"\"config\":["
"{"
"\"id1\":" "null,"
"\"creds\":{"
"\"key1\":" "\"\\\"xxxxxxxxx\\\"\","
"\"key2\":" "null"
"},"
"\"frequency\":" "0,"
"\"arg1\":" "\"val1\","
"\"arg2\":" "0,"
"\"priority\":" "1,"
"\"ssid\":" "\"\\\"nw2\\\"\""
"}, {"
"\"id2\":" "null,"
"\"creds\": {"
"\"key1\":" "\"\\\"xxxxxxxxxxxxx\\\"\","
"\"key2\":" "null"
"},"
"\"frequency\":" "11,"
"\"arg1\":" "\"val2\","
"\"arg2\":" "1420887242594,"
"\"priority\":" "3,"
"\"ssid\":" "\"\\\"nw1\\\"\""
"}"
"]"
"}";
static const char * const test2_json_expected =
"{\"config\":[{\"creds\":{\"key1\":\"\\u0022xxxxxxxxx\\u0022\"},"
"\"arg1\":\"val1\",\"ssid\":\"\\u0022nw2\\u0022\","
"\"frequency\":0,\"arg2\":0,\"priority\":1},"
"{\"creds\":{\"key1\":\"\\u0022xxxxxxxxxxxxx\\u0022\"},"
"\"arg1\":\"val2\",\"ssid\":\"\\u0022nw1\\u0022\","
"\"frequency\":11,\"arg2\":1420887242594,\"priority\":3}]}"
;
/*
* level 3: Credentials object
*/
typedef struct t2_cred {
const char *key1;
const char *key2;
} t2_cred_t;
static const lws_struct_map_t lsm_t2_cred[] = {
LSM_STRING_PTR (t2_cred_t, key1, "key1"),
LSM_STRING_PTR (t2_cred_t, key2, "key2"),
};
/*
* level 2: Configuration object, containing a child credentials object
*/
typedef struct t2_config {
lws_dll2_t list;
t2_cred_t *creds;
const char *id1;
const char *arg1;
const char *ssid;
unsigned int frequency;
unsigned long arg2;
unsigned int priority;
} t2_config_t;
static const lws_struct_map_t lsm_t2_config[] = {
LSM_CHILD_PTR (t2_config_t,
creds, /* the child pointer member */
t2_cred_t, /* the child type */
NULL, lsm_t2_cred, /* map object for item type */
"creds"), /* outer json object name */
LSM_STRING_PTR (t2_config_t, id1, "id1"),
LSM_STRING_PTR (t2_config_t, arg1, "arg1"),
LSM_STRING_PTR (t2_config_t, ssid, "ssid"),
LSM_UNSIGNED (t2_config_t, frequency, "frequency"),
LSM_UNSIGNED (t2_config_t, arg2, "arg2"),
LSM_UNSIGNED (t2_config_t, priority, "priority"),
};
/*
* level 1: list-of-configurations object
*/
typedef struct t2_configs {
lws_dll2_owner_t configs;
} t2_configs_t;
static const lws_struct_map_t lsm_t2_configs[] = {
LSM_LIST (t2_configs_t, configs, /* the list owner type/member */
t2_config_t, list, /* the list item type/member */
NULL, lsm_t2_config, /* map object for item type */
"config"), /* outer json object name */
};
/*
* For parsing, this lists the kind of object we expect to parse so the struct
* can be allocated polymorphically.
*
* Lws uses an explicit "schema" member so the type is known unambiguously. If
* in the incoming JSON the first member is not "schema", it will scan the
* maps listed here and instantiate the first object that has a member of that
* name.
*/
static const lws_struct_map_t lsm_schema[] = {
LSM_SCHEMA (t2_configs_t, NULL, lsm_t2_configs, "t2"),
/* other schemata that might need parsing... */
};
static int
t2_config_dump(struct lws_dll2 *d, void *user)
{
t2_config_t *c = lws_container_of(d, t2_config_t, list);
lwsl_notice("%s: id1 '%s'\n", __func__, c->id1);
lwsl_notice("%s: arg1 '%s'\n", __func__, c->arg1);
lwsl_notice("%s: ssid '%s'\n", __func__, c->ssid);
lwsl_notice("%s: freq %d\n", __func__, c->frequency);
lwsl_notice("%s: arg2 %lu\n", __func__, c->arg2);
lwsl_notice("%s: priority %d\n", __func__, c->priority);
lwsl_notice("%s: key1: %s, key2: %s\n", __func__,
c->creds->key1, c->creds->key2);
return 0;
}
static int
t2_configs_dump(t2_configs_t *t2cs)
{
lwsl_notice("%s: number of configs: %d\n", __func__,
t2cs->configs.count);
lws_dll2_foreach_safe(&t2cs->configs, NULL, t2_config_dump);
return 0;
}
int
test2(void)
{
lws_struct_serialize_t *ser;
struct lejp_ctx ctx;
lws_struct_args_t a;
t2_configs_t *top;
uint8_t buf[4096];
size_t written;
int n, bad = 1;
lwsl_notice("%s: start \n", __func__);
memset(&a, 0, sizeof(a));
a.map_st[0] = lsm_schema;
a.map_entries_st[0] = LWS_ARRAY_SIZE(lsm_schema);
a.ac_block_size = 512;
lws_struct_json_init_parse(&ctx, NULL, &a);
n = lejp_parse(&ctx, (uint8_t *)test2_json, (int)strlen(test2_json));
lwsl_notice("%s: lejp_parse %d\n", __func__, n);
if (n < 0) {
lwsl_err("%s: test2 JSON decode failed '%s'\n",
__func__, lejp_error_to_string(n));
goto bail;
}
lwsac_info(a.ac);
top = (t2_configs_t *)a.dest; /* the top level object */
if (!top) {
lwsl_err("%s: no top level object\n", __func__);
goto bail;
}
t2_configs_dump(top);
/* 2. Let's reserialize the top level object and see what comes out */
ser = lws_struct_json_serialize_create(&lsm_schema[0], 1,
LSSERJ_FLAG_OMIT_SCHEMA, top);
if (!ser) {
lwsl_err("%s: unable to init serialization\n", __func__);
goto bail;
}
do {
n = lws_struct_json_serialize(ser, buf, sizeof(buf), &written);
switch (n) {
case LSJS_RESULT_FINISH:
puts((const char *)buf);
break;
case LSJS_RESULT_CONTINUE:
case LSJS_RESULT_ERROR:
goto bail;
}
} while (n == LSJS_RESULT_CONTINUE);
if (strcmp(test2_json_expected, (char *)buf)) {
lwsl_err("%s: expected %s\n", __func__, test2_json_expected);
goto bail;
}
lws_struct_json_serialize_destroy(&ser);
bad = 0;
bail:
lwsac_free(&a.ac);
return bad;
}