typedef char my_bool; typedef void * MYSQL_PLUGIN; extern struct base64_service_st { int (*base64_needed_encoded_length_ptr)(int length_of_data); int (*base64_encode_max_arg_length_ptr)(void); int (*base64_needed_decoded_length_ptr)(int length_of_encoded_data); int (*base64_decode_max_arg_length_ptr)(); int (*base64_encode_ptr)(const void *src, size_t src_len, char *dst); int (*base64_decode_ptr)(const char *src, size_t src_len, void *dst, const char **end_ptr, int flags); } *base64_service; int base64_needed_encoded_length(int length_of_data); int base64_encode_max_arg_length(void); int base64_needed_decoded_length(int length_of_encoded_data); int base64_decode_max_arg_length(); int base64_encode(const void *src, size_t src_len, char *dst); int base64_decode(const char *src, size_t src_len, void *dst, const char **end_ptr, int flags); extern void (*debug_sync_C_callback_ptr)(void*, const char *, size_t); struct encryption_service_st { unsigned int (*encryption_key_get_latest_version_func)(unsigned int key_id); unsigned int (*encryption_key_get_func)(unsigned int key_id, unsigned int key_version, unsigned char* buffer, unsigned int* length); unsigned int (*encryption_ctx_size_func)(unsigned int key_id, unsigned int key_version); int (*encryption_ctx_init_func)(void *ctx, const unsigned char* key, unsigned int klen, const unsigned char* iv, unsigned int ivlen, int flags, unsigned int key_id, unsigned int key_version); int (*encryption_ctx_update_func)(void *ctx, const unsigned char* src, unsigned int slen, unsigned char* dst, unsigned int* dlen); int (*encryption_ctx_finish_func)(void *ctx, unsigned char* dst, unsigned int* dlen); unsigned int (*encryption_encrypted_length_func)(unsigned int slen, unsigned int key_id, unsigned int key_version); }; extern struct encryption_service_st encryption_handler; static inline unsigned int encryption_key_id_exists(unsigned int id) { return encryption_handler.encryption_key_get_latest_version_func(id) != (~(unsigned int)0); } static inline unsigned int encryption_key_version_exists(unsigned int id, unsigned int version) { unsigned int unused; return encryption_handler.encryption_key_get_func((id),(version),(NULL),(&unused)) != (~(unsigned int)0); } static inline int encryption_crypt(const unsigned char* src, unsigned int slen, unsigned char* dst, unsigned int* dlen, const unsigned char* key, unsigned int klen, const unsigned char* iv, unsigned int ivlen, int flags, unsigned int key_id, unsigned int key_version) { void *ctx= alloca(encryption_handler.encryption_ctx_size_func((key_id),(key_version))); int res1, res2; unsigned int d1, d2; if ((res1= encryption_handler.encryption_ctx_init_func((ctx),(key),(klen),(iv),(ivlen),(flags),(key_id),(key_version)))) return res1; res1= encryption_handler.encryption_ctx_update_func((ctx),(src),(slen),(dst),(&d1)); res2= encryption_handler.encryption_ctx_finish_func((ctx),(dst + d1),(&d2)); *dlen= d1 + d2; return res1 ? res1 : res2; } struct st_encryption_scheme_key { unsigned int version; unsigned char key[16]; }; struct st_encryption_scheme { unsigned char iv[16]; struct st_encryption_scheme_key key[3]; unsigned int keyserver_requests; unsigned int key_id; unsigned int type; void (*locker)(struct st_encryption_scheme *self, int release); }; extern struct encryption_scheme_service_st { int (*encryption_scheme_encrypt_func) (const unsigned char* src, unsigned int slen, unsigned char* dst, unsigned int* dlen, struct st_encryption_scheme *scheme, unsigned int key_version, unsigned int i32_1, unsigned int i32_2, unsigned long long i64); int (*encryption_scheme_decrypt_func) (const unsigned char* src, unsigned int slen, unsigned char* dst, unsigned int* dlen, struct st_encryption_scheme *scheme, unsigned int key_version, unsigned int i32_1, unsigned int i32_2, unsigned long long i64); } *encryption_scheme_service; int encryption_scheme_encrypt(const unsigned char* src, unsigned int slen, unsigned char* dst, unsigned int* dlen, struct st_encryption_scheme *scheme, unsigned int key_version, unsigned int i32_1, unsigned int i32_2, unsigned long long i64); int encryption_scheme_decrypt(const unsigned char* src, unsigned int slen, unsigned char* dst, unsigned int* dlen, struct st_encryption_scheme *scheme, unsigned int key_version, unsigned int i32_1, unsigned int i32_2, unsigned long long i64); enum thd_kill_levels { THD_IS_NOT_KILLED=0, THD_ABORT_SOFTLY=50, THD_ABORT_ASAP=100, }; extern struct kill_statement_service_st { enum thd_kill_levels (*thd_kill_level_func)(const void*); } *thd_kill_statement_service; enum thd_kill_levels thd_kill_level(const void*); typedef struct logger_handle_st LOGGER_HANDLE; extern struct logger_service_st { void (*logger_init_mutexes)(); LOGGER_HANDLE* (*open)(const char *path, unsigned long long size_limit, unsigned int rotations); int (*close)(LOGGER_HANDLE *log); int (*vprintf)(LOGGER_HANDLE *log, const char *fmt, va_list argptr); int (*printf)(LOGGER_HANDLE *log, const char *fmt, ...); int (*write)(LOGGER_HANDLE *log, const char *buffer, size_t size); int (*rotate)(LOGGER_HANDLE *log); } *logger_service; void logger_init_mutexes(); LOGGER_HANDLE *logger_open(const char *path, unsigned long long size_limit, unsigned int rotations); int logger_close(LOGGER_HANDLE *log); int logger_vprintf(LOGGER_HANDLE *log, const char *fmt, va_list argptr); int logger_printf(LOGGER_HANDLE *log, const char *fmt, ...); int logger_write(LOGGER_HANDLE *log, const char *buffer, size_t size); int logger_rotate(LOGGER_HANDLE *log); extern struct my_md5_service_st { void (*my_md5_type)(unsigned char*, const char*, size_t); void (*my_md5_multi_type)(unsigned char*, ...); size_t (*my_md5_context_size_type)(); void (*my_md5_init_type)(void *); void (*my_md5_input_type)(void *, const unsigned char *, size_t); void (*my_md5_result_type)(void *, unsigned char *); } *my_md5_service; void my_md5(unsigned char*, const char*, size_t); void my_md5_multi(unsigned char*, ...); size_t my_md5_context_size(); void my_md5_init(void *context); void my_md5_input(void *context, const unsigned char *buf, size_t len); void my_md5_result(void *context, unsigned char *digest); enum my_aes_mode { MY_AES_ECB, MY_AES_CBC }; extern struct my_crypt_service_st { int (*my_aes_crypt_init)(void *ctx, enum my_aes_mode mode, int flags, const unsigned char* key, unsigned int klen, const unsigned char* iv, unsigned int ivlen); int (*my_aes_crypt_update)(void *ctx, const unsigned char *src, unsigned int slen, unsigned char *dst, unsigned int *dlen); int (*my_aes_crypt_finish)(void *ctx, unsigned char *dst, unsigned int *dlen); int (*my_aes_crypt)(enum my_aes_mode mode, int flags, const unsigned char *src, unsigned int slen, unsigned char *dst, unsigned int *dlen, const unsigned char *key, unsigned int klen, const unsigned char *iv, unsigned int ivlen); unsigned int (*my_aes_get_size)(enum my_aes_mode mode, unsigned int source_length); unsigned int (*my_aes_ctx_size)(enum my_aes_mode mode); int (*my_random_bytes)(unsigned char* buf, int num); } *my_crypt_service; int my_aes_crypt_init(void *ctx, enum my_aes_mode mode, int flags, const unsigned char* key, unsigned int klen, const unsigned char* iv, unsigned int ivlen); int my_aes_crypt_update(void *ctx, const unsigned char *src, unsigned int slen, unsigned char *dst, unsigned int *dlen); int my_aes_crypt_finish(void *ctx, unsigned char *dst, unsigned int *dlen); int my_aes_crypt(enum my_aes_mode mode, int flags, const unsigned char *src, unsigned int slen, unsigned char *dst, unsigned int *dlen, const unsigned char *key, unsigned int klen, const unsigned char *iv, unsigned int ivlen); int my_random_bytes(unsigned char* buf, int num); unsigned int my_aes_get_size(enum my_aes_mode mode, unsigned int source_length); unsigned int my_aes_ctx_size(enum my_aes_mode mode); extern struct my_print_error_service_st { void(*my_error_func)(unsigned int nr, unsigned long MyFlags, ...); void(*my_printf_error_func)(unsigned int nr, const char *fmt, unsigned long MyFlags,...); void(*my_printv_error_func)(unsigned int error, const char *format, unsigned long MyFlags, va_list ap); } *my_print_error_service; extern void my_error(unsigned int nr, unsigned long MyFlags, ...); extern void my_printf_error(unsigned int my_err, const char *format, unsigned long MyFlags, ...); extern void my_printv_error(unsigned int error, const char *format, unsigned long MyFlags,va_list ap); extern struct my_snprintf_service_st { size_t (*my_snprintf_type)(char*, size_t, const char*, ...); size_t (*my_vsnprintf_type)(char *, size_t, const char*, va_list); } *my_snprintf_service; size_t my_snprintf(char* to, size_t n, const char* fmt, ...); size_t my_vsnprintf(char *to, size_t n, const char* fmt, va_list ap); extern struct progress_report_service_st { void (*thd_progress_init_func)(void* thd, unsigned int max_stage); void (*thd_progress_report_func)(void* thd, unsigned long long progress, unsigned long long max_progress); void (*thd_progress_next_stage_func)(void* thd); void (*thd_progress_end_func)(void* thd); const char *(*set_thd_proc_info_func)(void*, const char *info, const char *func, const char *file, unsigned int line); } *progress_report_service; void thd_progress_init(void* thd, unsigned int max_stage); void thd_progress_report(void* thd, unsigned long long progress, unsigned long long max_progress); void thd_progress_next_stage(void* thd); void thd_progress_end(void* thd); const char *set_thd_proc_info(void*, const char * info, const char *func, const char *file, unsigned int line); extern struct my_sha1_service_st { void (*my_sha1_type)(unsigned char*, const char*, size_t); void (*my_sha1_multi_type)(unsigned char*, ...); size_t (*my_sha1_context_size_type)(); void (*my_sha1_init_type)(void *); void (*my_sha1_input_type)(void *, const unsigned char *, size_t); void (*my_sha1_result_type)(void *, unsigned char *); } *my_sha1_service; void my_sha1(unsigned char*, const char*, size_t); void my_sha1_multi(unsigned char*, ...); size_t my_sha1_context_size(); void my_sha1_init(void *context); void my_sha1_input(void *context, const unsigned char *buf, size_t len); void my_sha1_result(void *context, unsigned char *digest); extern struct my_sha2_service_st { void (*my_sha224_type)(unsigned char*, const char*, size_t); void (*my_sha224_multi_type)(unsigned char*, ...); size_t (*my_sha224_context_size_type)(); void (*my_sha224_init_type)(void *); void (*my_sha224_input_type)(void *, const unsigned char *, size_t); void (*my_sha224_result_type)(void *, unsigned char *); void (*my_sha256_type)(unsigned char*, const char*, size_t); void (*my_sha256_multi_type)(unsigned char*, ...); size_t (*my_sha256_context_size_type)(); void (*my_sha256_init_type)(void *); void (*my_sha256_input_type)(void *, const unsigned char *, size_t); void (*my_sha256_result_type)(void *, unsigned char *); void (*my_sha384_type)(unsigned char*, const char*, size_t); void (*my_sha384_multi_type)(unsigned char*, ...); size_t (*my_sha384_context_size_type)(); void (*my_sha384_init_type)(void *); void (*my_sha384_input_type)(void *, const unsigned char *, size_t); void (*my_sha384_result_type)(void *, unsigned char *); void (*my_sha512_type)(unsigned char*, const char*, size_t); void (*my_sha512_multi_type)(unsigned char*, ...); size_t (*my_sha512_context_size_type)(); void (*my_sha512_init_type)(void *); void (*my_sha512_input_type)(void *, const unsigned char *, size_t); void (*my_sha512_result_type)(void *, unsigned char *); } *my_sha2_service; void my_sha224(unsigned char*, const char*, size_t); void my_sha224_multi(unsigned char*, ...); size_t my_sha224_context_size(); void my_sha224_init(void *context); void my_sha224_input(void *context, const unsigned char *buf, size_t len); void my_sha224_result(void *context, unsigned char *digest); void my_sha256(unsigned char*, const char*, size_t); void my_sha256_multi(unsigned char*, ...); size_t my_sha256_context_size(); void my_sha256_init(void *context); void my_sha256_input(void *context, const unsigned char *buf, size_t len); void my_sha256_result(void *context, unsigned char *digest); void my_sha384(unsigned char*, const char*, size_t); void my_sha384_multi(unsigned char*, ...); size_t my_sha384_context_size(); void my_sha384_init(void *context); void my_sha384_input(void *context, const unsigned char *buf, size_t len); void my_sha384_result(void *context, unsigned char *digest); void my_sha512(unsigned char*, const char*, size_t); void my_sha512_multi(unsigned char*, ...); size_t my_sha512_context_size(); void my_sha512_init(void *context); void my_sha512_input(void *context, const unsigned char *buf, size_t len); void my_sha512_result(void *context, unsigned char *digest); struct st_mysql_lex_string { char *str; size_t length; }; typedef struct st_mysql_lex_string MYSQL_LEX_STRING; extern struct thd_alloc_service_st { void *(*thd_alloc_func)(void*, unsigned int); void *(*thd_calloc_func)(void*, unsigned int); char *(*thd_strdup_func)(void*, const char *); char *(*thd_strmake_func)(void*, const char *, unsigned int); void *(*thd_memdup_func)(void*, const void*, unsigned int); MYSQL_LEX_STRING *(*thd_make_lex_string_func)(void*, MYSQL_LEX_STRING *, const char *, unsigned int, int); } *thd_alloc_service; void *thd_alloc(void* thd, unsigned int size); void *thd_calloc(void* thd, unsigned int size); char *thd_strdup(void* thd, const char *str); char *thd_strmake(void* thd, const char *str, unsigned int size); void *thd_memdup(void* thd, const void* str, unsigned int size); MYSQL_LEX_STRING *thd_make_lex_string(void* thd, MYSQL_LEX_STRING *lex_str, const char *str, unsigned int size, int allocate_lex_string); extern struct thd_autoinc_service_st { void (*thd_get_autoinc_func)(const void* thd, unsigned long* off, unsigned long* inc); } *thd_autoinc_service; void thd_get_autoinc(const void* thd, unsigned long* off, unsigned long* inc); extern struct thd_error_context_service_st { const char *(*thd_get_error_message_func)(const void* thd); unsigned int (*thd_get_error_number_func)(const void* thd); unsigned long (*thd_get_error_row_func)(const void* thd); void (*thd_inc_error_row_func)(void* thd); char *(*thd_get_error_context_description_func)(void* thd, char *buffer, unsigned int length, unsigned int max_query_length); } *thd_error_context_service; const char *thd_get_error_message(const void* thd); unsigned int thd_get_error_number(const void* thd); unsigned long thd_get_error_row(const void* thd); void thd_inc_error_row(void* thd); char *thd_get_error_context_description(void* thd, char *buffer, unsigned int length, unsigned int max_query_length); extern struct thd_rnd_service_st { double (*thd_rnd_ptr)(void* thd); void (*thd_c_r_p_ptr)(void* thd, char *to, size_t length); } *thd_rnd_service; double thd_rnd(void* thd); void thd_create_random_password(void* thd, char *to, size_t length); typedef int MYSQL_THD_KEY_T; extern struct thd_specifics_service_st { int (*thd_key_create_func)(MYSQL_THD_KEY_T *key); void (*thd_key_delete_func)(MYSQL_THD_KEY_T *key); void *(*thd_getspecific_func)(void* thd, MYSQL_THD_KEY_T key); int (*thd_setspecific_func)(void* thd, MYSQL_THD_KEY_T key, void *value); } *thd_specifics_service; int thd_key_create(MYSQL_THD_KEY_T *key); void thd_key_delete(MYSQL_THD_KEY_T *key); void* thd_getspecific(void* thd, MYSQL_THD_KEY_T key); int thd_setspecific(void* thd, MYSQL_THD_KEY_T key, void *value); typedef long my_time_t; enum enum_mysql_timestamp_type { MYSQL_TIMESTAMP_NONE= -2, MYSQL_TIMESTAMP_ERROR= -1, MYSQL_TIMESTAMP_DATE= 0, MYSQL_TIMESTAMP_DATETIME= 1, MYSQL_TIMESTAMP_TIME= 2 }; typedef struct st_mysql_time { unsigned int year, month, day, hour, minute, second; unsigned long second_part; my_bool neg; enum enum_mysql_timestamp_type time_type; } MYSQL_TIME; extern struct thd_timezone_service_st { my_time_t (*thd_TIME_to_gmt_sec)(void* thd, const MYSQL_TIME *ltime, unsigned int *errcode); void (*thd_gmt_sec_to_TIME)(void* thd, MYSQL_TIME *ltime, my_time_t t); } *thd_timezone_service; my_time_t thd_TIME_to_gmt_sec(void* thd, const MYSQL_TIME *ltime, unsigned int *errcode); void thd_gmt_sec_to_TIME(void* thd, MYSQL_TIME *ltime, my_time_t t); typedef enum _thd_wait_type_e { THD_WAIT_SLEEP= 1, THD_WAIT_DISKIO= 2, THD_WAIT_ROW_LOCK= 3, THD_WAIT_GLOBAL_LOCK= 4, THD_WAIT_META_DATA_LOCK= 5, THD_WAIT_TABLE_LOCK= 6, THD_WAIT_USER_LOCK= 7, THD_WAIT_BINLOG= 8, THD_WAIT_GROUP_COMMIT= 9, THD_WAIT_SYNC= 10, THD_WAIT_NET= 11, THD_WAIT_LAST= 12 } thd_wait_type; extern struct thd_wait_service_st { void (*thd_wait_begin_func)(void*, int); void (*thd_wait_end_func)(void*); } *thd_wait_service; void thd_wait_begin(void* thd, int wait_type); void thd_wait_end(void* thd); struct st_mysql_xid { long formatID; long gtrid_length; long bqual_length; char data[128]; }; typedef struct st_mysql_xid MYSQL_XID; enum enum_mysql_show_type { SHOW_UNDEF, SHOW_BOOL, SHOW_UINT, SHOW_ULONG, SHOW_ULONGLONG, SHOW_CHAR, SHOW_CHAR_PTR, SHOW_ARRAY, SHOW_FUNC, SHOW_DOUBLE, SHOW_SINT, SHOW_SLONG, SHOW_SLONGLONG, SHOW_SIMPLE_FUNC, SHOW_always_last }; enum enum_var_type { SHOW_OPT_DEFAULT= 0, SHOW_OPT_SESSION, SHOW_OPT_GLOBAL }; struct st_mysql_show_var { const char *name; void *value; enum enum_mysql_show_type type; }; struct system_status_var; typedef int (*mysql_show_var_func)(void*, struct st_mysql_show_var*, void *, struct system_status_var *status_var, enum enum_var_type); struct st_mysql_sys_var; struct st_mysql_value; typedef int (*mysql_var_check_func)(void* thd, struct st_mysql_sys_var *var, void *save, struct st_mysql_value *value); typedef void (*mysql_var_update_func)(void* thd, struct st_mysql_sys_var *var, void *var_ptr, const void *save); struct st_mysql_plugin { int type; void *info; const char *name; const char *author; const char *descr; int license; int (*init)(void *); int (*deinit)(void *); unsigned int version; struct st_mysql_show_var *status_vars; struct st_mysql_sys_var **system_vars; void * __reserved1; unsigned long flags; }; struct st_maria_plugin { int type; void *info; const char *name; const char *author; const char *descr; int license; int (*init)(void *); int (*deinit)(void *); unsigned int version; struct st_mysql_show_var *status_vars; struct st_mysql_sys_var **system_vars; const char *version_info; unsigned int maturity; }; enum enum_ftparser_mode { MYSQL_FTPARSER_SIMPLE_MODE= 0, MYSQL_FTPARSER_WITH_STOPWORDS= 1, MYSQL_FTPARSER_FULL_BOOLEAN_INFO= 2 }; enum enum_ft_token_type { FT_TOKEN_EOF= 0, FT_TOKEN_WORD= 1, FT_TOKEN_LEFT_PAREN= 2, FT_TOKEN_RIGHT_PAREN= 3, FT_TOKEN_STOPWORD= 4 }; typedef struct st_mysql_ftparser_boolean_info { enum enum_ft_token_type type; int yesno; int weight_adjust; char wasign; char trunc; char prev; char *quot; } MYSQL_FTPARSER_BOOLEAN_INFO; typedef struct st_mysql_ftparser_param { int (*mysql_parse)(struct st_mysql_ftparser_param *, const char *doc, int doc_len); int (*mysql_add_word)(struct st_mysql_ftparser_param *, const char *word, int word_len, MYSQL_FTPARSER_BOOLEAN_INFO *boolean_info); void *ftparser_state; void *mysql_ftparam; const struct charset_info_st *cs; const char *doc; int length; unsigned int flags; enum enum_ftparser_mode mode; } MYSQL_FTPARSER_PARAM; struct st_mysql_ftparser { int interface_version; int (*parse)(MYSQL_FTPARSER_PARAM *param); int (*init)(MYSQL_FTPARSER_PARAM *param); int (*deinit)(MYSQL_FTPARSER_PARAM *param); }; struct st_mysql_daemon { int interface_version; }; struct st_mysql_information_schema { int interface_version; }; struct st_mysql_storage_engine { int interface_version; }; struct handlerton; struct Mysql_replication { int interface_version; }; struct st_mysql_value { int (*value_type)(struct st_mysql_value *); const char *(*val_str)(struct st_mysql_value *, char *buffer, int *length); int (*val_real)(struct st_mysql_value *, double *realbuf); int (*val_int)(struct st_mysql_value *, long long *intbuf); int (*is_unsigned)(struct st_mysql_value *); }; int thd_in_lock_tables(const void* thd); int thd_tablespace_op(const void* thd); long long thd_test_options(const void* thd, long long test_options); int thd_sql_command(const void* thd); void **thd_ha_data(const void* thd, const struct handlerton *hton); void thd_storage_lock_wait(void* thd, long long value); int thd_tx_isolation(const void* thd); int thd_tx_is_read_only(const void* thd); int thd_rpl_is_parallel(const void* thd); int mysql_tmpfile(const char *prefix); unsigned long thd_get_thread_id(const void* thd); void thd_get_xid(const void* thd, MYSQL_XID *xid); void mysql_query_cache_invalidate4(void* thd, const char *key, unsigned int key_length, int using_trx); void *thd_get_ha_data(const void* thd, const struct handlerton *hton); void thd_set_ha_data(void* thd, const struct handlerton *hton, const void *ha_data); void thd_wakeup_subsequent_commits(void* thd, int wakeup_error); struct st_mariadb_encryption { int interface_version; unsigned int (*get_latest_key_version)(unsigned int key_id); unsigned int (*get_key)(unsigned int key_id, unsigned int version, unsigned char *key, unsigned int *key_length); unsigned int (*crypt_ctx_size)(unsigned int key_id, unsigned int key_version); int (*crypt_ctx_init)(void *ctx, const unsigned char* key, unsigned int klen, const unsigned char* iv, unsigned int ivlen, int flags, unsigned int key_id, unsigned int key_version); int (*crypt_ctx_update)(void *ctx, const unsigned char* src, unsigned int slen, unsigned char* dst, unsigned int* dlen); int (*crypt_ctx_finish)(void *ctx, unsigned char* dst, unsigned int* dlen); unsigned int (*encrypted_length)(unsigned int slen, unsigned int key_id, unsigned int key_version); };