/*
 * Copyright 2013 MongoDB, Inc.
 *
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at
 *
 *   http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */
#ifndef BSON_TYPES_H
#define BSON_TYPES_H
#if !defined (BSON_INSIDE) && !defined (BSON_COMPILATION)
#error "Only <bson.h> can be included directly."
#endif
#include <stdlib.h>
#include <sys/types.h>
#include "bson-macros.h"
#include "bson-compat.h"
BSON_BEGIN_DECLS
/*
 *--------------------------------------------------------------------------
 *
 * bson_unichar_t --
 *
 *       bson_unichar_t provides an unsigned 32-bit type for containing
 *       unicode characters. When iterating UTF-8 sequences, this should
 *       be used to avoid losing the high-bits of non-ascii characters.
 *
 * See also:
 *       bson_string_append_unichar()
 *
 *--------------------------------------------------------------------------
 */
typedef uint32_t bson_unichar_t;
/**
 * bson_context_flags_t:
 *
 * This enumeration is used to configure a bson_context_t.
 *
 * %BSON_CONTEXT_NONE: Use default options.
 * %BSON_CONTEXT_THREAD_SAFE: Context will be called from multiple threads.
 * %BSON_CONTEXT_DISABLE_PID_CACHE: Call getpid() instead of caching the
 *   result of getpid() when initializing the context.
 * %BSON_CONTEXT_DISABLE_HOST_CACHE: Call gethostname() instead of caching the
 *   result of gethostname() when initializing the context.
 */
typedef enum
{
   BSON_CONTEXT_NONE = 0,
   BSON_CONTEXT_THREAD_SAFE = (1 << 0),
   BSON_CONTEXT_DISABLE_HOST_CACHE = (1 << 1),
   BSON_CONTEXT_DISABLE_PID_CACHE = (1 << 2),
#if defined(__linux__)
   BSON_CONTEXT_USE_TASK_ID = (1 << 3),
#endif
} bson_context_flags_t;
/**
 * bson_context_t:
 *
 * This structure manages context for the bson library. It handles
 * configuration for thread-safety and other performance related requirements.
 * Consumers will create a context and may use multiple under a variety of
 * situations.
 *
 * If your program calls fork(), you should initialize a new bson_context_t
 * using bson_context_init().
 *
 * If you are using threading, it is suggested that you use a bson_context_t
 * per thread for best performance. Alternatively, you can initialize the
 * bson_context_t with BSON_CONTEXT_THREAD_SAFE, although a performance penalty
 * will be incurred.
 *
 * Many functions will require that you provide a bson_context_t such as OID
 * generation.
 *
 * This structure is oqaque in that you cannot see the contents of the
 * structure. However, it is stack allocatable in that enough padding is
 * provided in _bson_context_t to hold the structure.
 */
typedef struct _bson_context_t bson_context_t;
/**
 * bson_t:
 *
 * This structure manages a buffer whose contents are a properly formatted
 * BSON document. You may perform various transforms on the BSON documents.
 * Additionally, it can be iterated over using bson_iter_t.
 *
 * See bson_iter_init() for iterating the contents of a bson_t.
 *
 * When building a bson_t structure using the various append functions,
 * memory allocations may occur. That is performed using power of two
 * allocations and realloc().
 *
 * See http://bsonspec.org for the BSON document spec.
 *
 * This structure is meant to fit in two sequential 64-byte cachelines.
 */
BSON_ALIGNED_BEGIN (128)
typedef struct _bson_t
{
   uint32_t flags;        /* Internal flags for the bson_t. */
   uint32_t len;          /* Length of BSON data. */
   uint8_t padding[120];  /* Padding for stack allocation. */
} bson_t
BSON_ALIGNED_END (128);
/**
 * BSON_INITIALIZER:
 *
 * This macro can be used to initialize a #bson_t structure on the stack
 * without calling bson_init().
 *
 * |[
 * bson_t b = BSON_INITIALIZER;
 * ]|
 */
#define BSON_INITIALIZER { 3, 5, { 5 } }
BSON_STATIC_ASSERT (sizeof (bson_t) == 128);
/**
 * bson_oid_t:
 *
 * This structure contains the binary form of a BSON Object Id as specified
 * on http://bsonspec.org. If you would like the bson_oid_t in string form
 * see bson_oid_to_string() or bson_oid_to_string_r().
 */
typedef struct
{
   uint8_t bytes[12];
} bson_oid_t;
BSON_STATIC_ASSERT (sizeof (bson_oid_t) == 12);
/**
 * bson_validate_flags_t:
 *
 * This enumeration is used for validation of BSON documents. It allows
 * selective control on what you wish to validate.
 *
 * %BSON_VALIDATE_NONE: No additional validation occurs.
 * %BSON_VALIDATE_UTF8: Check that strings are valid UTF-8.
 * %BSON_VALIDATE_DOLLAR_KEYS: Check that keys do not start with $.
 * %BSON_VALIDATE_DOT_KEYS: Check that keys do not contain a period.
 * %BSON_VALIDATE_UTF8_ALLOW_NULL: Allow NUL bytes in UTF-8 text.
 */
typedef enum
{
   BSON_VALIDATE_NONE = 0,
   BSON_VALIDATE_UTF8 = (1 << 0),
   BSON_VALIDATE_DOLLAR_KEYS = (1 << 1),
   BSON_VALIDATE_DOT_KEYS = (1 << 2),
   BSON_VALIDATE_UTF8_ALLOW_NULL = (1 << 3),
} bson_validate_flags_t;
/**
 * bson_type_t:
 *
 * This enumeration contains all of the possible types within a BSON document.
 * Use bson_iter_type() to fetch the type of a field while iterating over it.
 */
typedef enum
{
   BSON_TYPE_EOD = 0x00,
   BSON_TYPE_DOUBLE = 0x01,
   BSON_TYPE_UTF8 = 0x02,
   BSON_TYPE_DOCUMENT = 0x03,
   BSON_TYPE_ARRAY = 0x04,
   BSON_TYPE_BINARY = 0x05,
   BSON_TYPE_UNDEFINED = 0x06,
   BSON_TYPE_OID = 0x07,
   BSON_TYPE_BOOL = 0x08,
   BSON_TYPE_DATE_TIME = 0x09,
   BSON_TYPE_NULL = 0x0A,
   BSON_TYPE_REGEX = 0x0B,
   BSON_TYPE_DBPOINTER = 0x0C,
   BSON_TYPE_CODE = 0x0D,
   BSON_TYPE_SYMBOL = 0x0E,
   BSON_TYPE_CODEWSCOPE = 0x0F,
   BSON_TYPE_INT32 = 0x10,
   BSON_TYPE_TIMESTAMP = 0x11,
   BSON_TYPE_INT64 = 0x12,
   BSON_TYPE_MAXKEY = 0x7F,
   BSON_TYPE_MINKEY = 0xFF,
} bson_type_t;
/**
 * bson_subtype_t:
 *
 * This enumeration contains the various subtypes that may be used in a binary
 * field. See http://bsonspec.org for more information.
 */
typedef enum
{
   BSON_SUBTYPE_BINARY = 0x00,
   BSON_SUBTYPE_FUNCTION = 0x01,
   BSON_SUBTYPE_BINARY_DEPRECATED = 0x02,
   BSON_SUBTYPE_UUID_DEPRECATED = 0x03,
   BSON_SUBTYPE_UUID = 0x04,
   BSON_SUBTYPE_MD5 = 0x05,
   BSON_SUBTYPE_USER = 0x80,
} bson_subtype_t;
/*
 *--------------------------------------------------------------------------
 *
 * bson_value_t --
 *
 *       A boxed type to contain various bson_type_t types.
 *
 * See also:
 *       bson_value_copy()
 *       bson_value_destroy()
 *
 *--------------------------------------------------------------------------
 */
BSON_ALIGNED_BEGIN (8)
typedef struct _bson_value_t
{
   bson_type_t           value_type;
   int32_t               padding;
   union {
      bson_oid_t         v_oid;
      int64_t            v_int64;
      int32_t            v_int32;
      int8_t             v_int8;
      double             v_double;
      bool               v_bool;
      int64_t            v_datetime;
      struct {
         uint32_t        timestamp;
         uint32_t        increment;
      } v_timestamp;
      struct {
         char           *str;
         uint32_t        len;
      } v_utf8;
      struct {
         uint8_t        *data;
         uint32_t        data_len;
      } v_doc;
      struct {
         uint8_t        *data;
         uint32_t        data_len;
         bson_subtype_t  subtype;
      } v_binary;
      struct {
         char           *regex;
         char           *options;
      } v_regex;
      struct {
         char           *collection;
         uint32_t        collection_len;
         bson_oid_t      oid;
      } v_dbpointer;
      struct {
         char           *code;
         uint32_t        code_len;
      } v_code;
      struct {
         char           *code;
         uint8_t        *scope_data;
         uint32_t        code_len;
         uint32_t        scope_len;
      } v_codewscope;
      struct {
         char           *symbol;
         uint32_t        len;
      } v_symbol;
   } value;
} bson_value_t
BSON_ALIGNED_END (8);
/**
 * bson_iter_t:
 *
 * This structure manages iteration over a bson_t structure. It keeps track
 * of the location of the current key and value within the buffer. Using the
 * various functions to get the value of the iter will read from these
 * locations.
 *
 * This structure is safe to discard on the stack. No cleanup is necessary
 * after using it.
 */
BSON_ALIGNED_BEGIN (128)
typedef struct
{
   const uint8_t *raw;      /* The raw buffer being iterated. */
   uint32_t       len;      /* The length of raw. */
   uint32_t       off;      /* The offset within the buffer. */
   uint32_t       type;     /* The offset of the type byte. */
   uint32_t       key;      /* The offset of the key byte. */
   uint32_t       d1;       /* The offset of the first data byte. */
   uint32_t       d2;       /* The offset of the second data byte. */
   uint32_t       d3;       /* The offset of the third data byte. */
   uint32_t       d4;       /* The offset of the fourth data byte. */
   uint32_t       next_off; /* The offset of the next field. */
   uint32_t       err_off;  /* The offset of the error. */
   bson_value_t   value;    /* Internal value for various state. */
} bson_iter_t
BSON_ALIGNED_END (128);
/**
 * bson_reader_t:
 *
 * This structure is used to iterate over a sequence of BSON documents. It
 * allows for them to be iterated with the possibility of no additional
 * memory allocations under certain circumstances such as reading from an
 * incoming mongo packet.
 */
typedef struct
{
   uint32_t type;
   /*< private >*/
} bson_reader_t;
/**
 * bson_visitor_t:
 *
 * This structure contains a series of pointers that can be executed for
 * each field of a BSON document based on the field type.
 *
 * For example, if an int32 field is found, visit_int32 will be called.
 *
 * When visiting each field using bson_iter_visit_all(), you may provide a
 * data pointer that will be provided with each callback. This might be useful
 * if you are marshaling to another language.
 *
 * You may pre-maturely stop the visitation of fields by returning true in your
 * visitor. Returning false will continue visitation to further fields.
 */
BSON_ALIGNED_BEGIN (8)
typedef struct
{
   bool (*visit_before)     (const bson_iter_t *iter,
                             const char        *key,
                             void              *data);
   bool (*visit_after)      (const bson_iter_t *iter,
                             const char        *key,
                             void              *data);
   void (*visit_corrupt)    (const bson_iter_t *iter,
                             void              *data);
   bool (*visit_double)     (const bson_iter_t *iter,
                             const char        *key,
                             double             v_double,
                             void              *data);
   bool (*visit_utf8)       (const bson_iter_t *iter,
                             const char        *key,
                             size_t             v_utf8_len,
                             const char        *v_utf8,
                             void              *data);
   bool (*visit_document)   (const bson_iter_t *iter,
                             const char        *key,
                             const bson_t      *v_document,
                             void              *data);
   bool (*visit_array)      (const bson_iter_t *iter,
                             const char        *key,
                             const bson_t      *v_array,
                             void              *data);
   bool (*visit_binary)     (const bson_iter_t *iter,
                             const char        *key,
                             bson_subtype_t     v_subtype,
                             size_t             v_binary_len,
                             const uint8_t     *v_binary,
                             void              *data);
   bool (*visit_undefined)  (const bson_iter_t *iter,
                             const char        *key,
                             void              *data);
   bool (*visit_oid)        (const bson_iter_t *iter,
                             const char        *key,
                             const bson_oid_t  *v_oid,
                             void              *data);
   bool (*visit_bool)       (const bson_iter_t *iter,
                             const char        *key,
                             bool               v_bool,
                             void              *data);
   bool (*visit_date_time)  (const bson_iter_t *iter,
                             const char        *key,
                             int64_t            msec_since_epoch,
                             void              *data);
   bool (*visit_null)       (const bson_iter_t *iter,
                             const char        *key,
                             void              *data);
   bool (*visit_regex)      (const bson_iter_t *iter,
                             const char        *key,
                             const char        *v_regex,
                             const char        *v_options,
                             void              *data);
   bool (*visit_dbpointer)  (const bson_iter_t *iter,
                             const char        *key,
                             size_t             v_collection_len,
                             const char        *v_collection,
                             const bson_oid_t  *v_oid,
                             void              *data);
   bool (*visit_code)       (const bson_iter_t *iter,
                             const char        *key,
                             size_t             v_code_len,
                             const char        *v_code,
                             void              *data);
   bool (*visit_symbol)     (const bson_iter_t *iter,
                             const char        *key,
                             size_t             v_symbol_len,
                             const char        *v_symbol,
                             void              *data);
   bool (*visit_codewscope) (const bson_iter_t *iter,
                             const char        *key,
                             size_t             v_code_len,
                             const char        *v_code,
                             const bson_t      *v_scope,
                             void              *data);
   bool (*visit_int32)      (const bson_iter_t *iter,
                             const char        *key,
                             int32_t            v_int32,
                             void              *data);
   bool (*visit_timestamp)  (const bson_iter_t *iter,
                             const char        *key,
                             uint32_t           v_timestamp,
                             uint32_t           v_increment,
                             void              *data);
   bool (*visit_int64)      (const bson_iter_t *iter,
                             const char        *key,
                             int64_t            v_int64,
                             void              *data);
   bool (*visit_maxkey)     (const bson_iter_t *iter,
                             const char        *key,
                             void              *data);
   bool (*visit_minkey)     (const bson_iter_t *iter,
                             const char        *key,
                             void              *data);
   void *padding[9];
} bson_visitor_t
BSON_ALIGNED_END (8);
BSON_ALIGNED_BEGIN (8)
typedef struct _bson_error_t
{
   uint32_t domain;
   uint32_t code;
   char     message[504];
} bson_error_t
BSON_ALIGNED_END (8);
BSON_STATIC_ASSERT (sizeof (bson_error_t) == 512);
/**
 * bson_next_power_of_two:
 * @v: A 32-bit unsigned integer of required bytes.
 *
 * Determines the next larger power of two for the value of @v
 * in a constant number of operations.
 *
 * It is up to the caller to guarantee this will not overflow.
 *
 * Returns: The next power of 2 from @v.
 */
static BSON_INLINE size_t
bson_next_power_of_two (size_t v)
{
   v--;
   v |= v >> 1;
   v |= v >> 2;
   v |= v >> 4;
   v |= v >> 8;
   v |= v >> 16;
#if BSON_WORD_SIZE == 64
   v |= v >> 32;
#endif
   v++;
   return v;
}
static BSON_INLINE bool
bson_is_power_of_two (uint32_t v)
{
   return ((v != 0) && ((v & (v - 1)) == 0));
}
BSON_END_DECLS
#endif /* BSON_TYPES_H */