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/* json.c - unit test for JSON partsing into fixed-extent structures
*
* This file is Copyright (c) 2010 by the GPSD project
* BSD terms apply: see the file COPYING in the distribution root for details.
*/
#include <stdio.h>
#include <assert.h>
#include <stdlib.h>
#include <string.h>
#include <stddef.h>
#include <getopt.h>
#include "gpsd.h"
#include "gps_json.h"
static void assert_case(int num, int status)
{
if (status != 0) {
(void)fprintf(stderr, "case %d FAILED, status %d (%s).\n", num,
status, json_error_string(status));
exit(1);
}
}
static void assert_string(char *attr, char *fld, char *val)
{
if (strcmp(fld, val)) {
(void)fprintf(stderr,
"'%s' string attribute eval failed, value = %s.\n",
attr, fld);
exit(1);
}
}
static void assert_integer(char *attr, int fld, int val)
{
if (fld != val) {
(void)fprintf(stderr,
"'%s' integer attribute eval failed, value = %d.\n",
attr, fld);
exit(1);
}
}
static void assert_uinteger(char *attr, uint fld, uint val)
{
if (fld != val) {
(void)fprintf(stderr,
"'%s' integer attribute eval failed, value = %u.\n",
attr, fld);
exit(1);
}
}
static void assert_boolean(char *attr, bool fld, bool val)
{
/*@-boolcompare@*/
if (fld != val) {
(void)fprintf(stderr,
"'%s' boolean attribute eval failed, value = %s.\n",
attr, fld ? "true" : "false");
exit(1);
}
/*@+boolcompare@*/
}
/*
* Floating point comparisons are iffy, but at least if any of these fail
* the output will make it clear whether it was a precision issue
*/
static void assert_real(char *attr, double fld, double val)
{
if (fld != val) {
(void)fprintf(stderr,
"'%s' real attribute eval failed, value = %f.\n", attr,
fld);
exit(1);
}
}
/*@ -fullinitblock @*/
static struct gps_data_t gpsdata;
/* Case 1: TPV report */
/* *INDENT-OFF* */
static const char json_str1[] = "{\"class\":\"TPV\",\
\"device\":\"GPS#1\",\"tag\":\"MID2\", \
\"time\":\"2005-06-19T08:12:41.89Z\",\"lon\":46.498203637,\"lat\":7.568074350,\
\"alt\":1327.780,\"epx\":21.000,\"epy\":23.000,\"epv\":124.484,\"mode\":3}";
/* Case 2: SKY report */
static const char *json_str2 = "{\"class\":\"SKY\",\
\"tag\":\"MID4\",\"time\":\"2005-06-19T12:12:42.03Z\", \
\"satellites\":[\
{\"PRN\":10,\"el\":45,\"az\":196,\"ss\":34,\"used\":true},\
{\"PRN\":29,\"el\":67,\"az\":310,\"ss\":40,\"used\":true},\
{\"PRN\":28,\"el\":59,\"az\":108,\"ss\":42,\"used\":true},\
{\"PRN\":26,\"el\":51,\"az\":304,\"ss\":43,\"used\":true},\
{\"PRN\":8,\"el\":44,\"az\":58,\"ss\":41,\"used\":true},\
{\"PRN\":27,\"el\":16,\"az\":66,\"ss\":39,\"used\":true},\
{\"PRN\":21,\"el\":10,\"az\":301,\"ss\":0,\"used\":false}]}";
/* Case 3: String list syntax */
static const char *json_str3 = "[\"foo\",\"bar\",\"baz\"]";
static char *stringptrs[3];
static char stringstore[256];
static int stringcount;
/*@-type@*/
static const struct json_array_t json_array_3 = {
.element_type = t_string,
.arr.strings.ptrs = stringptrs,
.arr.strings.store = stringstore,
.arr.strings.storelen = sizeof(stringstore),
.count = &stringcount,
.maxlen = sizeof(stringptrs)/sizeof(stringptrs[0]),
};
/*@+type@*/
/* Case 4: test defaulting of unspecified attributes */
static const char *json_str4 = "{\"flag1\":true,\"flag2\":false}";
static bool flag1, flag2;
static double dftreal;
static int dftinteger;
static unsigned int dftuinteger;
static const struct json_attr_t json_attrs_4[] = {
{"dftint", t_integer, .addr.integer = &dftinteger, .dflt.integer = -5},
{"dftuint", t_integer, .addr.uinteger = &dftuinteger, .dflt.uinteger = 10},
{"dftreal", t_real, .addr.real = &dftreal, .dflt.real = 23.17},
{"flag1", t_boolean, .addr.boolean = &flag1,},
{"flag2", t_boolean, .addr.boolean = &flag2,},
{NULL},
};
/* Case 5: test DEVICE parsing */
static const char *json_str5 = "{\"class\":\"DEVICE\",\
\"path\":\"/dev/ttyUSB0\",\
\"flags\":5,\
\"driver\":\"Foonly\",\"subtype\":\"Foonly Frob\"\
}";
/* Case 6: test parsing of subobject list into array of structures */
static const char *json_str6 = "{\"parts\":[\
{\"name\":\"Urgle\", \"flag\":true, \"count\":3},\
{\"name\":\"Burgle\",\"flag\":false,\"count\":1},\
{\"name\":\"Witter\",\"flag\":true, \"count\":4},\
{\"name\":\"Thud\", \"flag\":false,\"count\":1}]}";
struct dumbstruct_t {
char name[64];
bool flag;
int count;
};
static struct dumbstruct_t dumbstruck[5];
static int dumbcount;
/*@-type@*/
static const struct json_attr_t json_attrs_6_subtype[] = {
{"name", t_string, .addr.offset = offsetof(struct dumbstruct_t, name),
.len = 64},
{"flag", t_boolean, .addr.offset = offsetof(struct dumbstruct_t, flag),},
{"count", t_integer, .addr.offset = offsetof(struct dumbstruct_t, count),},
{NULL},
};
static const struct json_attr_t json_attrs_6[] = {
{"parts", t_array, .addr.array.element_type = t_structobject,
.addr.array.arr.objects.base = (char*)&dumbstruck,
.addr.array.arr.objects.stride = sizeof(struct dumbstruct_t),
.addr.array.arr.objects.subtype = json_attrs_6_subtype,
.addr.array.count = &dumbcount,
.addr.array.maxlen = sizeof(dumbstruck)/sizeof(dumbstruck[0])},
{NULL},
};
/*@+type@*/
/* Case 7: test parsing of version response */
static const char *json_str7 = "{\"class\":\"VERSION\",\
\"release\":\"2.40dev\",\"rev\":\"dummy-revision\",\
\"proto_major\":3,\"proto_minor\":1}";
/* Case 8: test parsing arrays of enumerated types */
static const char *json_str8 = "{\"fee\":\"FOO\",\"fie\":\"BAR\",\"foe\":\"BAZ\"}";
static const struct json_enum_t enum_table[] = {
{"BAR", 6}, {"FOO", 3}, {"BAZ", 14}, {NULL}
};
static int fee, fie, foe;
static const struct json_attr_t json_attrs_8[] = {
{"fee", t_integer, .addr.integer = &fee, .map=enum_table},
{"fie", t_integer, .addr.integer = &fie, .map=enum_table},
{"foe", t_integer, .addr.integer = &foe, .map=enum_table},
{NULL},
};
/*@ +fullinitblock @*/
/* *INDENT-ON* */
int main(int argc UNUSED, char *argv[]UNUSED)
{
int status = 0;
int option;
while ((option = getopt(argc, argv, "hD:?")) != -1) {
switch (option) {
case 'D':
gps_enable_debug(atoi(optarg), stdout);
break;
case '?':
case 'h':
default:
(void)fputs("usage: test_json [-D lvl]\n", stderr);
exit(1);
}
}
(void)fprintf(stderr, "JSON unit test ");
status = libgps_json_unpack(json_str1, &gpsdata, NULL);
assert_case(1, status);
assert_string("device", gpsdata.dev.path, "GPS#1");
assert_string("tag", gpsdata.tag, "MID2");
assert_integer("mode", gpsdata.fix.mode, 3);
assert_real("time", gpsdata.fix.time, 1119168761.8900001);
assert_real("lon", gpsdata.fix.longitude, 46.498203637);
assert_real("lat", gpsdata.fix.latitude, 7.568074350);
status = libgps_json_unpack(json_str2, &gpsdata, NULL);
assert_case(2, status);
assert_string("tag", gpsdata.tag, "MID4");
assert_integer("used", gpsdata.satellites_used, 6);
assert_integer("PRN[0]", gpsdata.PRN[0], 10);
assert_integer("el[0]", gpsdata.elevation[0], 45);
assert_integer("az[0]", gpsdata.azimuth[0], 196);
assert_real("ss[0]", gpsdata.ss[0], 34);
assert_integer("used[0]", gpsdata.used[0], 10);
assert_integer("used[5]", gpsdata.used[5], 27);
assert_integer("PRN[6]", gpsdata.PRN[6], 21);
assert_integer("el[6]", gpsdata.elevation[6], 10);
assert_integer("az[6]", gpsdata.azimuth[6], 301);
assert_real("ss[6]", gpsdata.ss[6], 0);
status = json_read_array(json_str3, &json_array_3, NULL);
assert_case(3, status);
assert(stringcount == 3);
assert(strcmp(stringptrs[0], "foo") == 0);
assert(strcmp(stringptrs[1], "bar") == 0);
assert(strcmp(stringptrs[2], "baz") == 0);
status = json_read_object(json_str4, json_attrs_4, NULL);
assert_case(4, status);
assert_integer("dftint", dftinteger, -5); /* did the default work? */
assert_uinteger("dftuint", dftuinteger, 10); /* did the default work? */
assert_real("dftreal", dftreal, 23.17); /* did the default work? */
assert_boolean("flag1", flag1, true);
assert_boolean("flag2", flag2, false);
status = libgps_json_unpack(json_str5, &gpsdata, NULL);
assert_case(5, status);
assert_string("path", gpsdata.dev.path, "/dev/ttyUSB0");
assert_integer("flags", gpsdata.dev.flags, 5);
assert_string("driver", gpsdata.dev.driver, "Foonly");
status = json_read_object(json_str6, json_attrs_6, NULL);
assert_case(6, status);
assert_integer("dumbcount", dumbcount, 4);
assert_string("dumbstruck[0].name", dumbstruck[0].name, "Urgle");
assert_string("dumbstruck[1].name", dumbstruck[1].name, "Burgle");
assert_string("dumbstruck[2].name", dumbstruck[2].name, "Witter");
assert_string("dumbstruck[3].name", dumbstruck[3].name, "Thud");
assert_boolean("dumbstruck[0].flag", dumbstruck[0].flag, true);
assert_boolean("dumbstruck[1].flag", dumbstruck[1].flag, false);
assert_boolean("dumbstruck[2].flag", dumbstruck[2].flag, true);
assert_boolean("dumbstruck[3].flag", dumbstruck[3].flag, false);
assert_integer("dumbstruck[0].count", dumbstruck[0].count, 3);
assert_integer("dumbstruck[1].count", dumbstruck[1].count, 1);
assert_integer("dumbstruck[2].count", dumbstruck[2].count, 4);
assert_integer("dumbstruck[3].count", dumbstruck[3].count, 1);
status = libgps_json_unpack(json_str7, &gpsdata, NULL);
assert_case(7, status);
assert_string("release", gpsdata.version.release, "2.40dev");
assert_string("rev", gpsdata.version.rev, "dummy-revision");
assert_integer("proto_major", gpsdata.version.proto_major, 3);
assert_integer("proto_minor", gpsdata.version.proto_minor, 1);
status = json_read_object(json_str8, json_attrs_8, NULL);
assert_case(8, status);
assert_integer("fee", fee, 3);
assert_integer("fie", fie, 6);
assert_integer("foe", foe, 14);
(void)fprintf(stderr, "succeeded.\n");
exit(0);
}
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