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/*
* Copyright (c) 2010-2011 Florian Forster <ff at octo.it>
*
* Permission to use, copy, modify, and/or distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*/
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <errno.h>
#include <assert.h>
#include "api/yajl_tree.h"
#include "api/yajl_parse.h"
#include "yajl_parser.h"
#ifdef WIN32
#define snprintf sprintf_s
#endif
#define STATUS_CONTINUE 1
#define STATUS_ABORT 0
struct stack_elem_s;
typedef struct stack_elem_s stack_elem_t;
struct stack_elem_s
{
char * key;
yajl_val value;
stack_elem_t *next;
};
struct context_s
{
stack_elem_t *stack;
yajl_val root;
char *errbuf;
size_t errbuf_size;
};
typedef struct context_s context_t;
#define RETURN_ERROR(ctx,retval,...) { \
if ((ctx)->errbuf != NULL) \
snprintf ((ctx)->errbuf, (ctx)->errbuf_size, __VA_ARGS__); \
return (retval); \
}
static yajl_val value_alloc (yajl_type type)
{
yajl_val v;
v = malloc (sizeof (*v));
if (v == NULL) return (NULL);
memset (v, 0, sizeof (*v));
v->type = type;
return (v);
}
static void yajl_object_free (yajl_val v)
{
size_t i;
if (!YAJL_IS_OBJECT(v)) return;
for (i = 0; i < v->u.object.len; i++)
{
free((char *) v->u.object.keys[i]);
v->u.object.keys[i] = NULL;
yajl_tree_free (v->u.object.values[i]);
v->u.object.values[i] = NULL;
}
free((void*) v->u.object.keys);
free(v->u.object.values);
free(v);
}
static void yajl_array_free (yajl_val v)
{
size_t i;
if (!YAJL_IS_ARRAY(v)) return;
for (i = 0; i < v->u.array.len; i++)
{
yajl_tree_free (v->u.array.values[i]);
v->u.array.values[i] = NULL;
}
free(v->u.array.values);
free(v);
}
/*
* Parsing nested objects and arrays is implemented using a stack. When a new
* object or array starts (a curly or a square opening bracket is read), an
* appropriate value is pushed on the stack. When the end of the object is
* reached (an appropriate closing bracket has been read), the value is popped
* off the stack and added to the enclosing object using "context_add_value".
*/
static int context_push(context_t *ctx, yajl_val v)
{
stack_elem_t *stack;
stack = malloc (sizeof (*stack));
if (stack == NULL)
RETURN_ERROR (ctx, ENOMEM, "Out of memory");
memset (stack, 0, sizeof (*stack));
assert ((ctx->stack == NULL)
|| YAJL_IS_OBJECT (v)
|| YAJL_IS_ARRAY (v));
stack->value = v;
stack->next = ctx->stack;
ctx->stack = stack;
return (0);
}
static yajl_val context_pop(context_t *ctx)
{
stack_elem_t *stack;
yajl_val v;
if (ctx->stack == NULL)
RETURN_ERROR (ctx, NULL, "context_pop: "
"Bottom of stack reached prematurely");
stack = ctx->stack;
ctx->stack = stack->next;
v = stack->value;
free (stack);
return (v);
}
static int object_add_keyval(context_t *ctx,
yajl_val obj, char *key, yajl_val value)
{
const char **tmpk;
yajl_val *tmpv;
/* We're checking for NULL in "context_add_value" or its callers. */
assert (ctx != NULL);
assert (obj != NULL);
assert (key != NULL);
assert (value != NULL);
/* We're assuring that "obj" is an object in "context_add_value". */
assert(YAJL_IS_OBJECT(obj));
tmpk = realloc((void *) obj->u.object.keys, sizeof(*(obj->u.object.keys)) * (obj->u.object.len + 1));
if (tmpk == NULL)
RETURN_ERROR(ctx, ENOMEM, "Out of memory");
obj->u.object.keys = tmpk;
tmpv = realloc(obj->u.object.values, sizeof (*obj->u.object.values) * (obj->u.object.len + 1));
if (tmpv == NULL)
RETURN_ERROR(ctx, ENOMEM, "Out of memory");
obj->u.object.values = tmpv;
obj->u.object.keys[obj->u.object.len] = key;
obj->u.object.values[obj->u.object.len] = value;
obj->u.object.len++;
return (0);
}
static int array_add_value (context_t *ctx,
yajl_val array, yajl_val value)
{
yajl_val *tmp;
/* We're checking for NULL pointers in "context_add_value" or its
* callers. */
assert (ctx != NULL);
assert (array != NULL);
assert (value != NULL);
/* "context_add_value" will only call us with array values. */
assert(YAJL_IS_ARRAY(array));
tmp = realloc(array->u.array.values,
sizeof(*(array->u.array.values)) * (array->u.array.len + 1));
if (tmp == NULL)
RETURN_ERROR(ctx, ENOMEM, "Out of memory");
array->u.array.values = tmp;
array->u.array.values[array->u.array.len] = value;
array->u.array.len++;
return 0;
}
/*
* Add a value to the value on top of the stack or the "root" member in the
* context if the end of the parsing process is reached.
*/
static int context_add_value (context_t *ctx, yajl_val v)
{
/* We're checking for NULL values in all the calling functions. */
assert (ctx != NULL);
assert (v != NULL);
/*
* There are three valid states in which this function may be called:
* - There is no value on the stack => This is the only value. This is the
* last step done when parsing a document. We assign the value to the
* "root" member and return.
* - The value on the stack is an object. In this case store the key on the
* stack or, if the key has already been read, add key and value to the
* object.
* - The value on the stack is an array. In this case simply add the value
* and return.
*/
if (ctx->stack == NULL)
{
assert (ctx->root == NULL);
ctx->root = v;
return (0);
}
else if (YAJL_IS_OBJECT (ctx->stack->value))
{
if (ctx->stack->key == NULL)
{
if (!YAJL_IS_STRING (v))
RETURN_ERROR (ctx, EINVAL, "context_add_value: "
"Object key is not a string (%#04x)",
v->type);
ctx->stack->key = v->u.string;
v->u.string = NULL;
free(v);
return (0);
}
else /* if (ctx->key != NULL) */
{
char * key;
key = ctx->stack->key;
ctx->stack->key = NULL;
return (object_add_keyval (ctx, ctx->stack->value, key, v));
}
}
else if (YAJL_IS_ARRAY (ctx->stack->value))
{
return (array_add_value (ctx, ctx->stack->value, v));
}
else
{
RETURN_ERROR (ctx, EINVAL, "context_add_value: Cannot add value to "
"a value of type %#04x (not a composite type)",
ctx->stack->value->type);
}
}
static int handle_string (void *ctx,
const unsigned char *string, size_t string_length)
{
yajl_val v;
v = value_alloc (yajl_t_string);
if (v == NULL)
RETURN_ERROR ((context_t *) ctx, STATUS_ABORT, "Out of memory");
v->u.string = malloc (string_length + 1);
if (v->u.string == NULL)
{
free (v);
RETURN_ERROR ((context_t *) ctx, STATUS_ABORT, "Out of memory");
}
memcpy(v->u.string, string, string_length);
v->u.string[string_length] = 0;
return ((context_add_value (ctx, v) == 0) ? STATUS_CONTINUE : STATUS_ABORT);
}
static int handle_number (void *ctx, const char *string, size_t string_length)
{
yajl_val v;
char *endptr;
v = value_alloc(yajl_t_number);
if (v == NULL)
RETURN_ERROR((context_t *) ctx, STATUS_ABORT, "Out of memory");
v->u.number.r = malloc(string_length + 1);
if (v->u.number.r == NULL)
{
free(v);
RETURN_ERROR((context_t *) ctx, STATUS_ABORT, "Out of memory");
}
memcpy(v->u.number.r, string, string_length);
v->u.number.r[string_length] = 0;
v->u.number.flags = 0;
endptr = NULL;
errno = 0;
v->u.number.i = yajl_parse_integer((const unsigned char *) v->u.number.r,
strlen(v->u.number.r));
if ((errno == 0) && (endptr != NULL) && (*endptr == 0))
v->u.number.flags |= YAJL_NUMBER_INT_VALID;
endptr = NULL;
errno = 0;
v->u.number.ui = yajl_parse_unsigned_integer((const unsigned char *) v->u.number.r,
strlen(v->u.number.r));
if ((errno == 0) && (endptr != NULL) && (*endptr == 0))
v->u.number.flags |= YAJL_NUMBER_UINT_VALID;
endptr = NULL;
errno = 0;
v->u.number.d = strtod(v->u.number.r, &endptr);
if ((errno == 0) && (endptr != NULL) && (*endptr == 0))
v->u.number.flags |= YAJL_NUMBER_DOUBLE_VALID;
return ((context_add_value(ctx, v) == 0) ? STATUS_CONTINUE : STATUS_ABORT);
}
static int handle_start_map (void *ctx)
{
yajl_val v;
v = value_alloc(yajl_t_object);
if (v == NULL)
RETURN_ERROR ((context_t *) ctx, STATUS_ABORT, "Out of memory");
v->u.object.keys = NULL;
v->u.object.values = NULL;
v->u.object.len = 0;
return ((context_push (ctx, v) == 0) ? STATUS_CONTINUE : STATUS_ABORT);
}
static int handle_end_map (void *ctx)
{
yajl_val v;
v = context_pop (ctx);
if (v == NULL)
return (STATUS_ABORT);
return ((context_add_value (ctx, v) == 0) ? STATUS_CONTINUE : STATUS_ABORT);
}
static int handle_start_array (void *ctx)
{
yajl_val v;
v = value_alloc(yajl_t_array);
if (v == NULL)
RETURN_ERROR ((context_t *) ctx, STATUS_ABORT, "Out of memory");
v->u.array.values = NULL;
v->u.array.len = 0;
return ((context_push (ctx, v) == 0) ? STATUS_CONTINUE : STATUS_ABORT);
}
static int handle_end_array (void *ctx)
{
yajl_val v;
v = context_pop (ctx);
if (v == NULL)
return (STATUS_ABORT);
return ((context_add_value (ctx, v) == 0) ? STATUS_CONTINUE : STATUS_ABORT);
}
static int handle_boolean (void *ctx, int boolean_value)
{
yajl_val v;
v = value_alloc (boolean_value ? yajl_t_true : yajl_t_false);
if (v == NULL)
RETURN_ERROR ((context_t *) ctx, STATUS_ABORT, "Out of memory");
return ((context_add_value (ctx, v) == 0) ? STATUS_CONTINUE : STATUS_ABORT);
}
static int handle_null (void *ctx)
{
yajl_val v;
v = value_alloc (yajl_t_null);
if (v == NULL)
RETURN_ERROR ((context_t *) ctx, STATUS_ABORT, "Out of memory");
return ((context_add_value (ctx, v) == 0) ? STATUS_CONTINUE : STATUS_ABORT);
}
/*
* Public functions
*/
yajl_val yajl_tree_parse (const char *input,
char *error_buffer, size_t error_buffer_size)
{
static const yajl_callbacks callbacks =
{
/* null = */ handle_null,
/* boolean = */ handle_boolean,
/* integer = */ NULL,
/* unsigned integer = */ NULL,
/* double = */ NULL,
/* number = */ handle_number,
/* string = */ handle_string,
/* start map = */ handle_start_map,
/* map key = */ handle_string,
/* end map = */ handle_end_map,
/* start array = */ handle_start_array,
/* end array = */ handle_end_array
};
yajl_handle handle;
yajl_status status;
context_t ctx = { NULL, NULL, NULL, 0 };
ctx.errbuf = error_buffer;
ctx.errbuf_size = error_buffer_size;
if (error_buffer != NULL)
memset (error_buffer, 0, error_buffer_size);
handle = yajl_alloc (&callbacks, NULL, &ctx);
yajl_config(handle, yajl_allow_comments, 1);
status = yajl_parse(handle,
(unsigned char *) input,
strlen (input));
status = yajl_complete_parse (handle);
if (status != yajl_status_ok) {
if (error_buffer != NULL && error_buffer_size > 0) {
snprintf(
error_buffer, error_buffer_size, "%s",
(char *) yajl_get_error(handle, 1,
(const unsigned char *) input,
strlen(input)));
}
yajl_free (handle);
return NULL;
}
yajl_free (handle);
return (ctx.root);
}
yajl_val yajl_tree_get(yajl_val n, const char ** path, yajl_type type)
{
if (!path) return NULL;
while (n && *path) {
unsigned int i;
if (n->type != yajl_t_object) return NULL;
for (i = 0; i < n->u.object.len; i++) {
if (!strcmp(*path, n->u.object.keys[i])) {
n = n->u.object.values[i];
break;
}
}
if (i == n->u.object.len) return NULL;
path++;
}
if (n && type != yajl_t_any && type != n->type) n = NULL;
return n;
}
void yajl_tree_free (yajl_val v)
{
if (v == NULL) return;
if (YAJL_IS_STRING(v))
{
free(v->u.string);
free(v);
}
else if (YAJL_IS_NUMBER(v))
{
free(v->u.number.r);
free(v);
}
else if (YAJL_GET_OBJECT(v))
{
yajl_object_free(v);
}
else if (YAJL_GET_ARRAY(v))
{
yajl_array_free(v);
}
else /* if (yajl_t_true or yajl_t_false or yajl_t_null) */
{
free(v);
}
}
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