368 lines
12 KiB
C
368 lines
12 KiB
C
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/*
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* Copyright (C) 2022, Sangoma Technologies Corporation
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*
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* George Joseph <gjoseph@sangoma.com>
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*
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* See http://www.asterisk.org for more information about
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* the Asterisk project. Please do not directly contact
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* any of the maintainers of this project for assistance;
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* the project provides a web site, mailing lists and IRC
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* channels for your use.
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*
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* This program is free software, distributed under the terms of
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* the GNU General Public License Version 2. See the LICENSE file
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* at the top of the source tree.
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*/
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#include "asterisk.h"
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#include "asterisk/config.h"
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#include "asterisk/cli.h"
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#include "asterisk/res_geolocation.h"
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#include "geoloc_private.h"
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#if 1 //not used yet.
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enum geoloc_shape_attrs {
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GEOLOC_SHAPE_ATTR_POS = 0,
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GEOLOC_SHAPE_ATTR_POS3D,
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GEOLOC_SHAPE_ATTR_RADIUS,
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GEOLOC_SHAPE_ATTR_SEMI_MAJOR_AXIS,
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GEOLOC_SHAPE_ATTR_SEMI_MINOR_AXIS,
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GEOLOC_SHAPE_ATTR_VERTICAL_AXIS,
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GEOLOC_SHAPE_ATTR_HEIGHT,
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GEOLOC_SHAPE_ATTR_ORIENTATION,
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GEOLOC_SHAPE_ATTR_ORIENTATION_UOM,
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GEOLOC_SHAPE_ATTR_INNER_RADIUS,
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GEOLOC_SHAPE_ATTR_OUTER_RADIUS,
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GEOLOC_SHAPE_ATTR_STARTING_ANGLE,
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GEOLOC_SHAPE_ATTR_OPENING_ANGLE,
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GEOLOC_SHAPE_ATTR_ANGLE_UOM,
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};
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struct geoloc_gml_attr_def {
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enum geoloc_shape_attrs attr;
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const char *name;
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int (*validator)(const char *value);
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int (*transformer)(struct ast_variable *value);
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};
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struct geoloc_gml_attr_def gml_attr_defs[] = {
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{ GEOLOC_SHAPE_ATTR_POS, "pos", NULL, NULL},
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{ GEOLOC_SHAPE_ATTR_POS3D,"pos3d", NULL, NULL},
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{ GEOLOC_SHAPE_ATTR_RADIUS,"radius", NULL, NULL},
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{ GEOLOC_SHAPE_ATTR_SEMI_MAJOR_AXIS,"semiMajorAxis", NULL, NULL},
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{ GEOLOC_SHAPE_ATTR_SEMI_MINOR_AXIS,"semiMinorAxis", NULL, NULL},
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{ GEOLOC_SHAPE_ATTR_VERTICAL_AXIS,"verticalAxis", NULL, NULL},
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{ GEOLOC_SHAPE_ATTR_HEIGHT,"height", NULL, NULL},
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{ GEOLOC_SHAPE_ATTR_ORIENTATION,"orientation", NULL, NULL},
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{ GEOLOC_SHAPE_ATTR_ORIENTATION_UOM,"orientation_uom", NULL, NULL},
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{ GEOLOC_SHAPE_ATTR_INNER_RADIUS,"innerRadius", NULL, NULL},
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{ GEOLOC_SHAPE_ATTR_OUTER_RADIUS,"outerRadius", NULL, NULL},
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{ GEOLOC_SHAPE_ATTR_STARTING_ANGLE,"startingAngle", NULL, NULL},
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{ GEOLOC_SHAPE_ATTR_OPENING_ANGLE,"openingAngle", NULL, NULL},
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{ GEOLOC_SHAPE_ATTR_ANGLE_UOM,"angle_uom", NULL, NULL},
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};
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#endif //not used yet.
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struct geoloc_gml_attr {
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const char *attribute;
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int min_required;
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int max_allowed;
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int (*validator)(const char *value);
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};
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struct geoloc_gml_shape_def {
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const char *shape_type;
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struct geoloc_gml_attr required_attributes[8];
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};
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static int pos_validator(const char *value)
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{
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float lat;
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float lon;
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return (sscanf(value, "%f %f", &lat, &lon) == 2);
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}
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static int pos3d_validator(const char *value)
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{
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float lat;
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float lon;
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float alt;
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return (sscanf(value, "%f %f %f", &lat, &lon, &alt) == 3);
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}
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static int float_validator(const char *value)
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{
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float val;
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return (sscanf(value, "%f", &val) == 1);
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}
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static int uom_validator(const char *value)
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{
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return (ast_strings_equal(value, "degrees") || ast_strings_equal(value, "radians"));
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}
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static struct geoloc_gml_shape_def gml_shape_defs[8] = {
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{ "Point", { {"pos", 1, 1, pos_validator}, {NULL, -1, -1} }},
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{ "Polygon", { {"pos", 3, -1, pos_validator}, {NULL, -1, -1} }},
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{ "Circle", { {"pos", 1, 1, pos_validator}, {"radius", 1, 1, float_validator},{NULL, -1, -1}}},
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{ "Ellipse", { {"pos", 1, 1, pos_validator}, {"semiMajorAxis", 1, 1, float_validator},
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{"semiMinorAxis", 1, 1, float_validator}, {"orientation", 1, 1, float_validator},
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{"orientation_uom", 1, 1, uom_validator}, {NULL, -1, -1} }},
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{ "ArcBand", { {"pos", 1, 1, pos_validator}, {"innerRadius", 1, 1, float_validator},
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{"outerRadius", 1, 1, float_validator}, {"startAngle", 1, 1, float_validator},
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{"startAngle_uom", 1, 1, uom_validator}, {"openingAngle", 1, 1, float_validator},
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{"openingAngle_uom", 1, 1, uom_validator}, {NULL, -1, -1} }},
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{ "Sphere", { {"pos3d", 1, 1, pos3d_validator}, {"radius", 1, 1, float_validator}, {NULL, -1, -1} }},
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{ "Ellipse", { {"pos3d", 1, 1, pos3d_validator}, {"semiMajorAxis", 1, 1, float_validator},
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{"semiMinorAxis", 1, 1, float_validator}, {"verticalAxis", 1, 1, float_validator},
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{"orientation", 1, 1, float_validator}, {"orientation_uom", 1, 1, uom_validator}, {NULL, -1, -1} }},
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{ "Prism", { {"pos3d", 3, -1, pos_validator}, {"height", 1, 1, float_validator}, {NULL, -1, -1} }},
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};
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enum ast_geoloc_validate_result ast_geoloc_gml_validate_varlist(const struct ast_variable *varlist,
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const char **result)
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{
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int def_index = -1;
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const struct ast_variable *var;
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int i;
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const char *shape_type = ast_variable_find_in_list(varlist, "shape");
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if (!shape_type) {
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return AST_GEOLOC_VALIDATE_MISSING_SHAPE;
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}
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for (i = 0; i < ARRAY_LEN(gml_shape_defs); i++) {
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if (ast_strings_equal(gml_shape_defs[i].shape_type, shape_type)) {
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def_index = i;
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}
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}
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if (def_index < 0) {
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return AST_GEOLOC_VALIDATE_INVALID_SHAPE;
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}
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for (var = varlist; var; var = var->next) {
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int vname_index = -1;
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if (ast_strings_equal("shape", var->name)) {
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continue;
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}
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for (i = 0; i < ARRAY_LEN(gml_shape_defs[def_index].required_attributes); i++) {
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if (gml_shape_defs[def_index].required_attributes[i].attribute == NULL) {
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break;
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}
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if (ast_strings_equal(gml_shape_defs[def_index].required_attributes[i].attribute, var->name)) {
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vname_index = i;
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break;
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}
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}
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if (vname_index < 0) {
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*result = var->name;
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return AST_GEOLOC_VALIDATE_INVALID_VARNAME;
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}
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if (!gml_shape_defs[def_index].required_attributes[vname_index].validator(var->value)) {
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*result = var->name;
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return AST_GEOLOC_VALIDATE_INVALID_VALUE;
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}
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}
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for (i = 0; i < ARRAY_LEN(gml_shape_defs[def_index].required_attributes); i++) {
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int count = 0;
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if (gml_shape_defs[def_index].required_attributes[i].attribute == NULL) {
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break;
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}
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for (var = varlist; var; var = var->next) {
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if (ast_strings_equal(gml_shape_defs[def_index].required_attributes[i].attribute, var->name)) {
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count++;
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}
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}
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if (count < gml_shape_defs[def_index].required_attributes[i].min_required) {
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*result = gml_shape_defs[def_index].required_attributes[i].attribute;
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return AST_GEOLOC_VALIDATE_NOT_ENOUGH_VARNAMES;
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}
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if (gml_shape_defs[def_index].required_attributes[i].max_allowed > 0 &&
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count > gml_shape_defs[def_index].required_attributes[i].max_allowed) {
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*result = gml_shape_defs[def_index].required_attributes[i].attribute;
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return AST_GEOLOC_VALIDATE_TOO_MANY_VARNAMES;
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}
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}
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return AST_GEOLOC_VALIDATE_SUCCESS;
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}
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static char *handle_gml_show(struct ast_cli_entry *e, int cmd, struct ast_cli_args *a)
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{
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int i;
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switch (cmd) {
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case CLI_INIT:
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e->command = "geoloc show gml_shape_defs";
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e->usage =
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"Usage: geoloc show gml_shape_defs\n"
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" Show the GML Shape definitions.\n";
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return NULL;
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case CLI_GENERATE:
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return NULL;
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}
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ast_cli(a->fd, "%-16s %-32s\n", "Shape", "Attributes name(min,max)");
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ast_cli(a->fd, "================ ===============================\n");
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for (i = 0; i < ARRAY_LEN(gml_shape_defs); i++) {
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int j;
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ast_cli(a->fd, "%-16s", gml_shape_defs[i].shape_type);
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for (j = 0; j < ARRAY_LEN(gml_shape_defs[i].required_attributes); j++) {
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if (gml_shape_defs[i].required_attributes[j].attribute == NULL) {
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break;
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}
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if (gml_shape_defs[i].required_attributes[j].max_allowed >= 0) {
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ast_cli(a->fd, " %s(%d,%d)", gml_shape_defs[i].required_attributes[j].attribute,
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gml_shape_defs[i].required_attributes[j].min_required,
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gml_shape_defs[i].required_attributes[j].max_allowed);
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} else {
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ast_cli(a->fd, " %s(%d,unl)", gml_shape_defs[i].required_attributes[j].attribute,
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gml_shape_defs[i].required_attributes[j].min_required);
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}
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}
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ast_cli(a->fd, "\n");
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}
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ast_cli(a->fd, "\n");
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return CLI_SUCCESS;
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}
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static struct ast_cli_entry geoloc_gml_cli[] = {
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AST_CLI_DEFINE(handle_gml_show, "Show the GML Shape definitions"),
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};
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struct ast_xml_node *geoloc_gml_list_to_xml(const struct ast_variable *resolved_location,
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const char *ref_string)
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{
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const char *shape;
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char *crs;
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struct ast_variable *var;
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struct ast_xml_node *gml_node;
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struct ast_xml_node *child_node;
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int rc = 0;
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SCOPE_ENTER(3, "%s", ref_string);
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if (!resolved_location) {
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SCOPE_EXIT_LOG_RTN_VALUE(NULL, LOG_ERROR, "%s: resolved_location was NULL\n",
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ref_string);
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}
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shape = ast_variable_find_in_list(resolved_location, "shape");
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if (ast_strlen_zero(shape)) {
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SCOPE_EXIT_LOG_RTN_VALUE(NULL, LOG_ERROR, "%s: There's no 'shape' parameter\n",
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ref_string);
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}
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crs = (char *)ast_variable_find_in_list(resolved_location, "crs");
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if (ast_strlen_zero(crs)) {
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crs = "2d";
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}
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gml_node = ast_xml_new_node(shape);
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if (!gml_node) {
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SCOPE_EXIT_LOG_RTN_VALUE(NULL, LOG_ERROR, "%s: Unable to create '%s' XML node\n", shape, ref_string);
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}
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rc = ast_xml_set_attribute(gml_node, "crs", crs);
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if (rc != 0) {
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ast_xml_free_node(gml_node);
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SCOPE_EXIT_LOG_RTN_VALUE(NULL, LOG_ERROR, "%s: Unable to create 'crs' XML attribute\n", ref_string);
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}
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for (var = (struct ast_variable *)resolved_location; var; var = var->next) {
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RAII_VAR(char *, value, NULL, ast_free);
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char *uom = NULL;
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if (ast_strings_equal(var->name, "shape") || ast_strings_equal(var->name, "crs")) {
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continue;
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}
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value = ast_strdup(var->value);
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if (ast_strings_equal(var->name, "orientation") || ast_strings_equal(var->name, "startAngle")
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|| ast_strings_equal(var->name, "openingAngle")) {
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char *a = NULL;
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char *junk = NULL;
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float angle;
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uom = value;
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/* 'a' should now be the angle and 'uom' should be the uom */
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a = strsep(&uom, " ");
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angle = strtof(a, &junk);
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/*
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* strtof sets junk to the first non-valid character so if it's
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* not empty after the conversion, there were unrecognized
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* characters in the angle. It'll point to the NULL terminator
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* if angle was completely converted.
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*/
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if (!ast_strlen_zero(junk)) {
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ast_xml_free_node(gml_node);
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SCOPE_EXIT_LOG_RTN_VALUE(NULL, LOG_ERROR, "%s: The angle portion of parameter '%s' ('%s') is malformed\n",
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ref_string, var->name, var->value);
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}
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if (ast_strlen_zero(uom)) {
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uom = "degrees";
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}
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if (ast_begins_with(uom, "deg")) {
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if (angle > 360.0) {
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ast_xml_free_node(gml_node);
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SCOPE_EXIT_LOG_RTN_VALUE(NULL, LOG_ERROR, "%s: Parameter '%s': '%s' is malformed. "
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"Degrees can't be > 360.0\n",
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ref_string, var->name, var->value);
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}
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} else if (ast_begins_with(uom, "rad")) {
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if(angle > 100.0) {
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ast_xml_free_node(gml_node);
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SCOPE_EXIT_LOG_RTN_VALUE(NULL, LOG_ERROR, "%s: Parameter '%s': '%s' is malformed. "
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"Radians can't be > 100.0\n",
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ref_string, var->name, var->value);
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}
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} else {
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ast_xml_free_node(gml_node);
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SCOPE_EXIT_LOG_RTN_VALUE(NULL, LOG_ERROR, "%s: Parameter '%s': '%s' is malformed. "
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"The unit of measure must be 'deg[rees]' or 'rad[ians]'\n",
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ref_string, var->name, var->value);
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}
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}
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child_node = ast_xml_new_child(gml_node, var->name);
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if (!child_node) {
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ast_xml_free_node(gml_node);
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SCOPE_EXIT_LOG_RTN_VALUE(NULL, LOG_ERROR, "%s: Unable to create '%s' XML node\n", var->name, ref_string);
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}
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if (!ast_strlen_zero(uom)) {
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rc = ast_xml_set_attribute(child_node, "uom", uom);
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if (rc != 0) {
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ast_xml_free_node(gml_node);
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SCOPE_EXIT_LOG_RTN_VALUE(NULL, LOG_ERROR, "%s: Unable to create 'uom' XML attribute\n", ref_string);
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}
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}
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ast_xml_set_text(child_node, value);
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}
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SCOPE_EXIT_RTN_VALUE(gml_node, "%s: Done\n", ref_string);
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}
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int geoloc_gml_unload(void)
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{
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ast_cli_unregister_multiple(geoloc_gml_cli, ARRAY_LEN(geoloc_gml_cli));
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return AST_MODULE_LOAD_SUCCESS;
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}
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int geoloc_gml_load(void)
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{
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ast_cli_register_multiple(geoloc_gml_cli, ARRAY_LEN(geoloc_gml_cli));
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return AST_MODULE_LOAD_SUCCESS;
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}
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int geoloc_gml_reload(void)
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{
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return AST_MODULE_LOAD_SUCCESS;
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}
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