/************************************************************************ Record manager (c) 1994-1996 Innobase Oy Created 5/30/1994 Heikki Tuuri *************************************************************************/ #include "mach0data.h" #include "ut0byte.h" #include "dict0dict.h" /* Compact flag ORed to the extra size returned by rec_get_offsets() */ #define REC_OFFS_COMPACT ((ulint) 1 << 31) /* SQL NULL flag in offsets returned by rec_get_offsets() */ #define REC_OFFS_SQL_NULL ((ulint) 1 << 31) /* External flag in offsets returned by rec_get_offsets() */ #define REC_OFFS_EXTERNAL ((ulint) 1 << 30) /* Mask for offsets returned by rec_get_offsets() */ #define REC_OFFS_MASK (REC_OFFS_EXTERNAL - 1) /* Offsets of the bit-fields in an old-style record. NOTE! In the table the most significant bytes and bits are written below less significant. (1) byte offset (2) bit usage within byte downward from origin -> 1 8 bits pointer to next record 2 8 bits pointer to next record 3 1 bit short flag 7 bits number of fields 4 3 bits number of fields 5 bits heap number 5 8 bits heap number 6 4 bits n_owned 4 bits info bits */ /* Offsets of the bit-fields in a new-style record. NOTE! In the table the most significant bytes and bits are written below less significant. (1) byte offset (2) bit usage within byte downward from origin -> 1 8 bits relative offset of next record 2 8 bits relative offset of next record the relative offset is an unsigned 16-bit integer: (offset_of_next_record - offset_of_this_record) mod 64Ki, where mod is the modulo as a non-negative number; we can calculate the the offset of the next record with the formula: relative_offset + offset_of_this_record mod UNIV_PAGE_SIZE 3 3 bits status: 000=conventional record 001=node pointer record (inside B-tree) 010=infimum record 011=supremum record 1xx=reserved 5 bits heap number 4 8 bits heap number 5 4 bits n_owned 4 bits info bits */ /* We list the byte offsets from the origin of the record, the mask, and the shift needed to obtain each bit-field of the record. */ #define REC_NEXT 2 #define REC_NEXT_MASK 0xFFFFUL #define REC_NEXT_SHIFT 0 #define REC_OLD_SHORT 3 /* This is single byte bit-field */ #define REC_OLD_SHORT_MASK 0x1UL #define REC_OLD_SHORT_SHIFT 0 #define REC_OLD_N_FIELDS 4 #define REC_OLD_N_FIELDS_MASK 0x7FEUL #define REC_OLD_N_FIELDS_SHIFT 1 #define REC_NEW_STATUS 3 /* This is single byte bit-field */ #define REC_NEW_STATUS_MASK 0x7UL #define REC_NEW_STATUS_SHIFT 0 #define REC_OLD_HEAP_NO 5 #define REC_NEW_HEAP_NO 4 #define REC_HEAP_NO_MASK 0xFFF8UL #define REC_HEAP_NO_SHIFT 3 #define REC_OLD_N_OWNED 6 /* This is single byte bit-field */ #define REC_NEW_N_OWNED 5 /* This is single byte bit-field */ #define REC_N_OWNED_MASK 0xFUL #define REC_N_OWNED_SHIFT 0 #define REC_OLD_INFO_BITS 6 /* This is single byte bit-field */ #define REC_NEW_INFO_BITS 5 /* This is single byte bit-field */ #define REC_INFO_BITS_MASK 0xF0UL #define REC_INFO_BITS_SHIFT 0 /* The following masks are used to filter the SQL null bit from one-byte and two-byte offsets */ #define REC_1BYTE_SQL_NULL_MASK 0x80UL #define REC_2BYTE_SQL_NULL_MASK 0x8000UL /* In a 2-byte offset the second most significant bit denotes a field stored to another page: */ #define REC_2BYTE_EXTERN_MASK 0x4000UL #if REC_OLD_SHORT_MASK << (8 * (REC_OLD_SHORT - 3)) \ ^ REC_OLD_N_FIELDS_MASK << (8 * (REC_OLD_N_FIELDS - 4)) \ ^ REC_HEAP_NO_MASK << (8 * (REC_OLD_HEAP_NO - 4)) \ ^ REC_N_OWNED_MASK << (8 * (REC_OLD_N_OWNED - 3)) \ ^ REC_INFO_BITS_MASK << (8 * (REC_OLD_INFO_BITS - 3)) \ ^ 0xFFFFFFFFUL # error "sum of old-style masks != 0xFFFFFFFFUL" #endif #if REC_NEW_STATUS_MASK << (8 * (REC_NEW_STATUS - 3)) \ ^ REC_HEAP_NO_MASK << (8 * (REC_NEW_HEAP_NO - 4)) \ ^ REC_N_OWNED_MASK << (8 * (REC_NEW_N_OWNED - 3)) \ ^ REC_INFO_BITS_MASK << (8 * (REC_NEW_INFO_BITS - 3)) \ ^ 0xFFFFFFUL # error "sum of new-style masks != 0xFFFFFFUL" #endif /*************************************************************** Sets the value of the ith field SQL null bit of an old-style record. */ void rec_set_nth_field_null_bit( /*=======================*/ rec_t* rec, /* in: record */ ulint i, /* in: ith field */ ibool val); /* in: value to set */ /*************************************************************** Sets an old-style record field to SQL null. The physical size of the field is not changed. */ void rec_set_nth_field_sql_null( /*=======================*/ rec_t* rec, /* in: record */ ulint n); /* in: index of the field */ /*************************************************************** Sets the value of the ith field extern storage bit of an old-style record. */ void rec_set_nth_field_extern_bit_old( /*=============================*/ rec_t* rec, /* in: old-style record */ ulint i, /* in: ith field */ ibool val, /* in: value to set */ mtr_t* mtr); /* in: mtr holding an X-latch to the page where rec is, or NULL; in the NULL case we do not write to log about the change */ /*************************************************************** Sets the value of the ith field extern storage bit of a new-style record. */ void rec_set_nth_field_extern_bit_new( /*=============================*/ rec_t* rec, /* in: record */ dict_index_t* index, /* in: record descriptor */ ulint ith, /* in: ith field */ ibool val, /* in: value to set */ mtr_t* mtr); /* in: mtr holding an X-latch to the page where rec is, or NULL; in the NULL case we do not write to log about the change */ /********************************************************** Gets a bit field from within 1 byte. */ UNIV_INLINE ulint rec_get_bit_field_1( /*================*/ rec_t* rec, /* in: pointer to record origin */ ulint offs, /* in: offset from the origin down */ ulint mask, /* in: mask used to filter bits */ ulint shift) /* in: shift right applied after masking */ { ut_ad(rec); return((mach_read_from_1(rec - offs) & mask) >> shift); } /********************************************************** Sets a bit field within 1 byte. */ UNIV_INLINE void rec_set_bit_field_1( /*================*/ rec_t* rec, /* in: pointer to record origin */ ulint val, /* in: value to set */ ulint offs, /* in: offset from the origin down */ ulint mask, /* in: mask used to filter bits */ ulint shift) /* in: shift right applied after masking */ { ut_ad(rec); ut_ad(offs <= REC_N_OLD_EXTRA_BYTES); ut_ad(mask); ut_ad(mask <= 0xFFUL); ut_ad(((mask >> shift) << shift) == mask); ut_ad(((val << shift) & mask) == (val << shift)); mach_write_to_1(rec - offs, (mach_read_from_1(rec - offs) & ~mask) | (val << shift)); } /********************************************************** Gets a bit field from within 2 bytes. */ UNIV_INLINE ulint rec_get_bit_field_2( /*================*/ rec_t* rec, /* in: pointer to record origin */ ulint offs, /* in: offset from the origin down */ ulint mask, /* in: mask used to filter bits */ ulint shift) /* in: shift right applied after masking */ { ut_ad(rec); return((mach_read_from_2(rec - offs) & mask) >> shift); } /********************************************************** Sets a bit field within 2 bytes. */ UNIV_INLINE void rec_set_bit_field_2( /*================*/ rec_t* rec, /* in: pointer to record origin */ ulint val, /* in: value to set */ ulint offs, /* in: offset from the origin down */ ulint mask, /* in: mask used to filter bits */ ulint shift) /* in: shift right applied after masking */ { ut_ad(rec); ut_ad(offs <= REC_N_OLD_EXTRA_BYTES); ut_ad(mask > 0xFFUL); ut_ad(mask <= 0xFFFFUL); ut_ad((mask >> shift) & 1); ut_ad(0 == ((mask >> shift) & ((mask >> shift) + 1))); ut_ad(((mask >> shift) << shift) == mask); ut_ad(((val << shift) & mask) == (val << shift)); mach_write_to_2(rec - offs, (mach_read_from_2(rec - offs) & ~mask) | (val << shift)); } /********************************************************** The following function is used to get the offset of the next chained record on the same page. */ UNIV_INLINE ulint rec_get_next_offs( /*==============*/ /* out: the page offset of the next chained record, or 0 if none */ rec_t* rec, /* in: physical record */ ulint comp) /* in: nonzero=compact page format */ { ulint field_value; #if REC_NEXT_MASK != 0xFFFFUL # error "REC_NEXT_MASK != 0xFFFFUL" #endif #if REC_NEXT_SHIFT # error "REC_NEXT_SHIFT != 0" #endif field_value = mach_read_from_2(rec - REC_NEXT); if (comp) { #if UNIV_PAGE_SIZE <= 32768 /* Note that for 64 KiB pages, field_value can 'wrap around' and the debug assertion is not valid */ /* In the following assertion, field_value is interpreted as signed 16-bit integer in 2's complement arithmetics. If all platforms defined int16_t in the standard headers, the expression could be written simpler as (int16_t) field_value + ut_align_offset(...) < UNIV_PAGE_SIZE */ ut_ad((field_value >= 32768 ? field_value - 65536 : field_value) + ut_align_offset(rec, UNIV_PAGE_SIZE) < UNIV_PAGE_SIZE); #endif if (field_value == 0) { return(0); } return(ut_align_offset(rec + field_value, UNIV_PAGE_SIZE)); } else { ut_ad(field_value < UNIV_PAGE_SIZE); return(field_value); } } /********************************************************** The following function is used to set the next record offset field of the record. */ UNIV_INLINE void rec_set_next_offs( /*==============*/ rec_t* rec, /* in: physical record */ ulint comp, /* in: nonzero=compact page format */ ulint next) /* in: offset of the next record, or 0 if none */ { ut_ad(rec); ut_ad(UNIV_PAGE_SIZE > next); #if REC_NEXT_MASK != 0xFFFFUL # error "REC_NEXT_MASK != 0xFFFFUL" #endif #if REC_NEXT_SHIFT # error "REC_NEXT_SHIFT != 0" #endif if (comp) { ulint field_value; if (next) { /* The following two statements calculate next - offset_of_rec mod 64Ki, where mod is the modulo as a non-negative number */ field_value = (ulint)((lint)next - (lint)ut_align_offset( rec, UNIV_PAGE_SIZE)); field_value &= REC_NEXT_MASK; } else { field_value = 0; } mach_write_to_2(rec - REC_NEXT, field_value); } else { mach_write_to_2(rec - REC_NEXT, next); } } /********************************************************** The following function is used to get the number of fields in an old-style record. */ UNIV_INLINE ulint rec_get_n_fields_old( /*=================*/ /* out: number of data fields */ rec_t* rec) /* in: physical record */ { ulint ret; ut_ad(rec); ret = rec_get_bit_field_2(rec, REC_OLD_N_FIELDS, REC_OLD_N_FIELDS_MASK, REC_OLD_N_FIELDS_SHIFT); ut_ad(ret <= REC_MAX_N_FIELDS); ut_ad(ret > 0); return(ret); } /********************************************************** The following function is used to set the number of fields in an old-style record. */ UNIV_INLINE void rec_set_n_fields_old( /*=================*/ rec_t* rec, /* in: physical record */ ulint n_fields) /* in: the number of fields */ { ut_ad(rec); ut_ad(n_fields <= REC_MAX_N_FIELDS); ut_ad(n_fields > 0); rec_set_bit_field_2(rec, n_fields, REC_OLD_N_FIELDS, REC_OLD_N_FIELDS_MASK, REC_OLD_N_FIELDS_SHIFT); } /********************************************************** The following function retrieves the status bits of a new-style record. */ UNIV_INLINE ulint rec_get_status( /*===========*/ /* out: status bits */ rec_t* rec) /* in: physical record */ { ulint ret; ut_ad(rec); ret = rec_get_bit_field_1(rec, REC_NEW_STATUS, REC_NEW_STATUS_MASK, REC_NEW_STATUS_SHIFT); ut_ad((ret & ~REC_NEW_STATUS_MASK) == 0); return(ret); } /********************************************************** The following function is used to get the number of fields in a record. */ UNIV_INLINE ulint rec_get_n_fields( /*=============*/ /* out: number of data fields */ rec_t* rec, /* in: physical record */ dict_index_t* index) /* in: record descriptor */ { ut_ad(rec); ut_ad(index); if (!dict_table_is_comp(index->table)) { return(rec_get_n_fields_old(rec)); } switch (rec_get_status(rec)) { case REC_STATUS_ORDINARY: return(dict_index_get_n_fields(index)); case REC_STATUS_NODE_PTR: return(dict_index_get_n_unique_in_tree(index) + 1); case REC_STATUS_INFIMUM: case REC_STATUS_SUPREMUM: return(1); default: ut_error; return(ULINT_UNDEFINED); } } /********************************************************** The following function is used to get the number of records owned by the previous directory record. */ UNIV_INLINE ulint rec_get_n_owned( /*============*/ /* out: number of owned records */ rec_t* rec, /* in: physical record */ ulint comp) /* in: nonzero=compact page format */ { ulint ret; ut_ad(rec); ret = rec_get_bit_field_1(rec, comp ? REC_NEW_N_OWNED : REC_OLD_N_OWNED, REC_N_OWNED_MASK, REC_N_OWNED_SHIFT); ut_ad(ret <= REC_MAX_N_OWNED); return(ret); } /********************************************************** The following function is used to set the number of owned records. */ UNIV_INLINE void rec_set_n_owned( /*============*/ rec_t* rec, /* in: physical record */ ulint comp, /* in: nonzero=compact page format */ ulint n_owned) /* in: the number of owned */ { ut_ad(rec); ut_ad(n_owned <= REC_MAX_N_OWNED); rec_set_bit_field_1(rec, n_owned, comp ? REC_NEW_N_OWNED : REC_OLD_N_OWNED, REC_N_OWNED_MASK, REC_N_OWNED_SHIFT); } /********************************************************** The following function is used to retrieve the info bits of a record. */ UNIV_INLINE ulint rec_get_info_bits( /*==============*/ /* out: info bits */ rec_t* rec, /* in: physical record */ ulint comp) /* in: nonzero=compact page format */ { ulint ret; ut_ad(rec); ret = rec_get_bit_field_1(rec, comp ? REC_NEW_INFO_BITS : REC_OLD_INFO_BITS, REC_INFO_BITS_MASK, REC_INFO_BITS_SHIFT); ut_ad((ret & ~REC_INFO_BITS_MASK) == 0); return(ret); } /********************************************************** The following function is used to set the info bits of a record. */ UNIV_INLINE void rec_set_info_bits( /*==============*/ rec_t* rec, /* in: physical record */ ulint comp, /* in: nonzero=compact page format */ ulint bits) /* in: info bits */ { ut_ad(rec); ut_ad((bits & ~REC_INFO_BITS_MASK) == 0); rec_set_bit_field_1(rec, bits, comp ? REC_NEW_INFO_BITS : REC_OLD_INFO_BITS, REC_INFO_BITS_MASK, REC_INFO_BITS_SHIFT); } /********************************************************** The following function is used to set the status bits of a new-style record. */ UNIV_INLINE void rec_set_status( /*===========*/ rec_t* rec, /* in: physical record */ ulint bits) /* in: info bits */ { ut_ad(rec); ut_ad((bits & ~REC_NEW_STATUS_MASK) == 0); rec_set_bit_field_1(rec, bits, REC_NEW_STATUS, REC_NEW_STATUS_MASK, REC_NEW_STATUS_SHIFT); } /********************************************************** The following function is used to retrieve the info and status bits of a record. (Only compact records have status bits.) */ UNIV_INLINE ulint rec_get_info_and_status_bits( /*=========================*/ /* out: info bits */ rec_t* rec, /* in: physical record */ ulint comp) /* in: nonzero=compact page format */ { ulint bits; #if (REC_NEW_STATUS_MASK >> REC_NEW_STATUS_SHIFT) \ & (REC_INFO_BITS_MASK >> REC_INFO_BITS_SHIFT) # error "REC_NEW_STATUS_MASK and REC_INFO_BITS_MASK overlap" #endif if (UNIV_EXPECT(comp, REC_OFFS_COMPACT)) { bits = rec_get_info_bits(rec, TRUE) | rec_get_status(rec); } else { bits = rec_get_info_bits(rec, FALSE); ut_ad(!(bits & ~(REC_INFO_BITS_MASK >> REC_INFO_BITS_SHIFT))); } return(bits); } /********************************************************** The following function is used to set the info and status bits of a record. (Only compact records have status bits.) */ UNIV_INLINE void rec_set_info_and_status_bits( /*=========================*/ rec_t* rec, /* in: physical record */ ulint comp, /* in: nonzero=compact page format */ ulint bits) /* in: info bits */ { #if (REC_NEW_STATUS_MASK >> REC_NEW_STATUS_SHIFT) \ & (REC_INFO_BITS_MASK >> REC_INFO_BITS_SHIFT) # error "REC_NEW_STATUS_MASK and REC_INFO_BITS_MASK overlap" #endif if (comp) { rec_set_status(rec, bits & REC_NEW_STATUS_MASK); } else { ut_ad(!(bits & ~(REC_INFO_BITS_MASK >> REC_INFO_BITS_SHIFT))); } rec_set_info_bits(rec, comp, bits & ~REC_NEW_STATUS_MASK); } /********************************************************** The following function tells if record is delete marked. */ UNIV_INLINE ulint rec_get_deleted_flag( /*=================*/ /* out: nonzero if delete marked */ rec_t* rec, /* in: physical record */ ulint comp) /* in: nonzero=compact page format */ { if (UNIV_EXPECT(comp, REC_OFFS_COMPACT)) { return(UNIV_UNLIKELY( rec_get_bit_field_1(rec, REC_NEW_INFO_BITS, REC_INFO_DELETED_FLAG, REC_INFO_BITS_SHIFT))); } else { return(UNIV_UNLIKELY( rec_get_bit_field_1(rec, REC_OLD_INFO_BITS, REC_INFO_DELETED_FLAG, REC_INFO_BITS_SHIFT))); } } /********************************************************** The following function is used to set the deleted bit. */ UNIV_INLINE void rec_set_deleted_flag( /*=================*/ rec_t* rec, /* in: physical record */ ulint comp, /* in: nonzero=compact page format */ ulint flag) /* in: nonzero if delete marked */ { ulint val; val = rec_get_info_bits(rec, comp); if (flag) { val |= REC_INFO_DELETED_FLAG; } else { val &= ~REC_INFO_DELETED_FLAG; } rec_set_info_bits(rec, comp, val); } /********************************************************** The following function tells if a new-style record is a node pointer. */ UNIV_INLINE ibool rec_get_node_ptr_flag( /*==================*/ /* out: TRUE if node pointer */ rec_t* rec) /* in: physical record */ { return(REC_STATUS_NODE_PTR == rec_get_status(rec)); } /********************************************************** The following function is used to get the order number of the record in the heap of the index page. */ UNIV_INLINE ulint rec_get_heap_no( /*============*/ /* out: heap order number */ rec_t* rec, /* in: physical record */ ulint comp) /* in: nonzero=compact page format */ { ulint ret; ut_ad(rec); ret = rec_get_bit_field_2(rec, comp ? REC_NEW_HEAP_NO : REC_OLD_HEAP_NO, REC_HEAP_NO_MASK, REC_HEAP_NO_SHIFT); ut_ad(ret <= REC_MAX_HEAP_NO); return(ret); } /********************************************************** The following function is used to set the heap number field in the record. */ UNIV_INLINE void rec_set_heap_no( /*============*/ rec_t* rec, /* in: physical record */ ulint comp, /* in: nonzero=compact page format */ ulint heap_no)/* in: the heap number */ { ut_ad(heap_no <= REC_MAX_HEAP_NO); rec_set_bit_field_2(rec, heap_no, comp ? REC_NEW_HEAP_NO : REC_OLD_HEAP_NO, REC_HEAP_NO_MASK, REC_HEAP_NO_SHIFT); } /********************************************************** The following function is used to test whether the data offsets in the record are stored in one-byte or two-byte format. */ UNIV_INLINE ibool rec_get_1byte_offs_flag( /*====================*/ /* out: TRUE if 1-byte form */ rec_t* rec) /* in: physical record */ { #if TRUE != 1 #error "TRUE != 1" #endif return(rec_get_bit_field_1(rec, REC_OLD_SHORT, REC_OLD_SHORT_MASK, REC_OLD_SHORT_SHIFT)); } /********************************************************** The following function is used to set the 1-byte offsets flag. */ UNIV_INLINE void rec_set_1byte_offs_flag( /*====================*/ rec_t* rec, /* in: physical record */ ibool flag) /* in: TRUE if 1byte form */ { #if TRUE != 1 #error "TRUE != 1" #endif ut_ad(flag <= TRUE); rec_set_bit_field_1(rec, flag, REC_OLD_SHORT, REC_OLD_SHORT_MASK, REC_OLD_SHORT_SHIFT); } /********************************************************** Returns the offset of nth field end if the record is stored in the 1-byte offsets form. If the field is SQL null, the flag is ORed in the returned value. */ UNIV_INLINE ulint rec_1_get_field_end_info( /*=====================*/ /* out: offset of the start of the field, SQL null flag ORed */ rec_t* rec, /* in: record */ ulint n) /* in: field index */ { ut_ad(rec_get_1byte_offs_flag(rec)); ut_ad(n < rec_get_n_fields_old(rec)); return(mach_read_from_1(rec - (REC_N_OLD_EXTRA_BYTES + n + 1))); } /********************************************************** Returns the offset of nth field end if the record is stored in the 2-byte offsets form. If the field is SQL null, the flag is ORed in the returned value. */ UNIV_INLINE ulint rec_2_get_field_end_info( /*=====================*/ /* out: offset of the start of the field, SQL null flag and extern storage flag ORed */ rec_t* rec, /* in: record */ ulint n) /* in: field index */ { ut_ad(!rec_get_1byte_offs_flag(rec)); ut_ad(n < rec_get_n_fields_old(rec)); return(mach_read_from_2(rec - (REC_N_OLD_EXTRA_BYTES + 2 * n + 2))); } #ifdef UNIV_DEBUG /* Length of the rec_get_offsets() header */ # define REC_OFFS_HEADER_SIZE 4 #else /* UNIV_DEBUG */ /* Length of the rec_get_offsets() header */ # define REC_OFFS_HEADER_SIZE 2 #endif /* UNIV_DEBUG */ /* Get the base address of offsets. The extra_size is stored at this position, and following positions hold the end offsets of the fields. */ #define rec_offs_base(offsets) (offsets + REC_OFFS_HEADER_SIZE) /************************************************************** The following function returns the number of allocated elements for an array of offsets. */ UNIV_INLINE ulint rec_offs_get_n_alloc( /*=================*/ /* out: number of elements */ const ulint* offsets)/* in: array for rec_get_offsets() */ { ulint n_alloc; ut_ad(offsets); n_alloc = offsets[0]; ut_ad(n_alloc > 0); return(n_alloc); } /************************************************************** The following function sets the number of allocated elements for an array of offsets. */ UNIV_INLINE void rec_offs_set_n_alloc( /*=================*/ ulint* offsets, /* out: array for rec_get_offsets(), must be allocated */ ulint n_alloc) /* in: number of elements */ { ut_ad(offsets); ut_ad(n_alloc > 0); UNIV_MEM_ASSERT_AND_ALLOC(offsets, n_alloc * sizeof *offsets); offsets[0] = n_alloc; } /************************************************************** The following function returns the number of fields in a record. */ UNIV_INLINE ulint rec_offs_n_fields( /*==============*/ /* out: number of fields */ const ulint* offsets)/* in: array returned by rec_get_offsets() */ { ulint n_fields; ut_ad(offsets); n_fields = offsets[1]; ut_ad(n_fields > 0); ut_ad(n_fields <= REC_MAX_N_FIELDS); ut_ad(n_fields + REC_OFFS_HEADER_SIZE <= rec_offs_get_n_alloc(offsets)); return(n_fields); } /**************************************************************** Validates offsets returned by rec_get_offsets(). */ UNIV_INLINE ibool rec_offs_validate( /*==============*/ /* out: TRUE if valid */ rec_t* rec, /* in: record or NULL */ dict_index_t* index, /* in: record descriptor or NULL */ const ulint* offsets)/* in: array returned by rec_get_offsets() */ { ulint i = rec_offs_n_fields(offsets); ulint last = ULINT_MAX; ulint comp = *rec_offs_base(offsets) & REC_OFFS_COMPACT; if (rec) { ut_ad((ulint) rec == offsets[2]); if (!comp) { ut_a(rec_get_n_fields_old(rec) >= i); } } if (index) { ulint max_n_fields; ut_ad((ulint) index == offsets[3]); max_n_fields = ut_max( dict_index_get_n_fields(index), dict_index_get_n_unique_in_tree(index) + 1); if (comp && rec) { switch (rec_get_status(rec)) { case REC_STATUS_ORDINARY: break; case REC_STATUS_NODE_PTR: max_n_fields = dict_index_get_n_unique_in_tree( index) + 1; break; case REC_STATUS_INFIMUM: case REC_STATUS_SUPREMUM: max_n_fields = 1; break; default: ut_error; } } /* index->n_def == 0 for dummy indexes if !comp */ ut_a(!comp || index->n_def); ut_a(!index->n_def || i <= max_n_fields); } while (i--) { ulint curr = rec_offs_base(offsets)[1 + i] & REC_OFFS_MASK; ut_a(curr <= last); last = curr; } return(TRUE); } /**************************************************************** Updates debug data in offsets, in order to avoid bogus rec_offs_validate() failures. */ UNIV_INLINE void rec_offs_make_valid( /*================*/ rec_t* rec __attribute__((unused)), /* in: record */ dict_index_t* index __attribute__((unused)), /* in: record descriptor */ ulint* offsets __attribute__((unused))) /* in: array returned by rec_get_offsets() */ { #ifdef UNIV_DEBUG ut_ad(rec_get_n_fields(rec, index) >= rec_offs_n_fields(offsets)); offsets[2] = (ulint) rec; offsets[3] = (ulint) index; #endif /* UNIV_DEBUG */ } /**************************************************************** The following function is used to get a pointer to the nth data field in a record. */ UNIV_INLINE byte* rec_get_nth_field( /*==============*/ /* out: pointer to the field */ rec_t* rec, /* in: record */ const ulint* offsets,/* in: array returned by rec_get_offsets() */ ulint n, /* in: index of the field */ ulint* len) /* out: length of the field; UNIV_SQL_NULL if SQL null */ { byte* field; ulint length; ut_ad(rec); ut_ad(rec_offs_validate(rec, NULL, offsets)); ut_ad(n < rec_offs_n_fields(offsets)); ut_ad(len); if (UNIV_UNLIKELY(n == 0)) { field = rec; } else { field = rec + (rec_offs_base(offsets)[n] & REC_OFFS_MASK); } length = rec_offs_base(offsets)[1 + n]; if (length & REC_OFFS_SQL_NULL) { length = UNIV_SQL_NULL; } else { length &= REC_OFFS_MASK; length -= field - rec; } *len = length; return(field); } /********************************************************** Determine if the offsets are for a record in the new compact format. */ UNIV_INLINE ulint rec_offs_comp( /*==========*/ /* out: nonzero if compact format */ const ulint* offsets)/* in: array returned by rec_get_offsets() */ { ut_ad(rec_offs_validate(NULL, NULL, offsets)); return(*rec_offs_base(offsets) & REC_OFFS_COMPACT); } /********************************************************** Returns nonzero if the extern bit is set in nth field of rec. */ UNIV_INLINE ulint rec_offs_nth_extern( /*================*/ /* out: nonzero if externally stored */ const ulint* offsets,/* in: array returned by rec_get_offsets() */ ulint n) /* in: nth field */ { ut_ad(rec_offs_validate(NULL, NULL, offsets)); ut_ad(n < rec_offs_n_fields(offsets)); return(UNIV_UNLIKELY(rec_offs_base(offsets)[1 + n] & REC_OFFS_EXTERNAL)); } /********************************************************** Returns nonzero if the SQL NULL bit is set in nth field of rec. */ UNIV_INLINE ulint rec_offs_nth_sql_null( /*==================*/ /* out: nonzero if SQL NULL */ const ulint* offsets,/* in: array returned by rec_get_offsets() */ ulint n) /* in: nth field */ { ut_ad(rec_offs_validate(NULL, NULL, offsets)); ut_ad(n < rec_offs_n_fields(offsets)); return(UNIV_UNLIKELY(rec_offs_base(offsets)[1 + n] & REC_OFFS_SQL_NULL)); } /********************************************************** Gets the physical size of a field. */ UNIV_INLINE ulint rec_offs_nth_size( /*==============*/ /* out: length of field */ const ulint* offsets,/* in: array returned by rec_get_offsets() */ ulint n) /* in: nth field */ { ut_ad(rec_offs_validate(NULL, NULL, offsets)); ut_ad(n < rec_offs_n_fields(offsets)); if (!n) { return(rec_offs_base(offsets)[1 + n] & REC_OFFS_MASK); } return((rec_offs_base(offsets)[1 + n] - rec_offs_base(offsets)[n]) & REC_OFFS_MASK); } /********************************************************** Returns TRUE if the extern bit is set in any of the fields of an old-style record. */ UNIV_INLINE ibool rec_offs_any_extern( /*================*/ /* out: TRUE if a field is stored externally */ const ulint* offsets)/* in: array returned by rec_get_offsets() */ { ulint i; for (i = rec_offs_n_fields(offsets); i--; ) { if (rec_offs_nth_extern(offsets, i)) { return(TRUE); } } return(FALSE); } /*************************************************************** Sets the value of the ith field extern storage bit. */ UNIV_INLINE void rec_set_nth_field_extern_bit( /*=========================*/ rec_t* rec, /* in: record */ dict_index_t* index, /* in: record descriptor */ ulint i, /* in: ith field */ ibool val, /* in: value to set */ mtr_t* mtr) /* in: mtr holding an X-latch to the page where rec is, or NULL; in the NULL case we do not write to log about the change */ { if (dict_table_is_comp(index->table)) { rec_set_nth_field_extern_bit_new(rec, index, i, val, mtr); } else { rec_set_nth_field_extern_bit_old(rec, i, val, mtr); } } /********************************************************** Returns the offset of n - 1th field end if the record is stored in the 1-byte offsets form. If the field is SQL null, the flag is ORed in the returned value. This function and the 2-byte counterpart are defined here because the C-compiler was not able to sum negative and positive constant offsets, and warned of constant arithmetic overflow within the compiler. */ UNIV_INLINE ulint rec_1_get_prev_field_end_info( /*==========================*/ /* out: offset of the start of the PREVIOUS field, SQL null flag ORed */ rec_t* rec, /* in: record */ ulint n) /* in: field index */ { ut_ad(rec_get_1byte_offs_flag(rec)); ut_ad(n <= rec_get_n_fields_old(rec)); return(mach_read_from_1(rec - (REC_N_OLD_EXTRA_BYTES + n))); } /********************************************************** Returns the offset of n - 1th field end if the record is stored in the 2-byte offsets form. If the field is SQL null, the flag is ORed in the returned value. */ UNIV_INLINE ulint rec_2_get_prev_field_end_info( /*==========================*/ /* out: offset of the start of the PREVIOUS field, SQL null flag ORed */ rec_t* rec, /* in: record */ ulint n) /* in: field index */ { ut_ad(!rec_get_1byte_offs_flag(rec)); ut_ad(n <= rec_get_n_fields_old(rec)); return(mach_read_from_2(rec - (REC_N_OLD_EXTRA_BYTES + 2 * n))); } /********************************************************** Sets the field end info for the nth field if the record is stored in the 1-byte format. */ UNIV_INLINE void rec_1_set_field_end_info( /*=====================*/ rec_t* rec, /* in: record */ ulint n, /* in: field index */ ulint info) /* in: value to set */ { ut_ad(rec_get_1byte_offs_flag(rec)); ut_ad(n < rec_get_n_fields_old(rec)); mach_write_to_1(rec - (REC_N_OLD_EXTRA_BYTES + n + 1), info); } /********************************************************** Sets the field end info for the nth field if the record is stored in the 2-byte format. */ UNIV_INLINE void rec_2_set_field_end_info( /*=====================*/ rec_t* rec, /* in: record */ ulint n, /* in: field index */ ulint info) /* in: value to set */ { ut_ad(!rec_get_1byte_offs_flag(rec)); ut_ad(n < rec_get_n_fields_old(rec)); mach_write_to_2(rec - (REC_N_OLD_EXTRA_BYTES + 2 * n + 2), info); } /********************************************************** Returns the offset of nth field start if the record is stored in the 1-byte offsets form. */ UNIV_INLINE ulint rec_1_get_field_start_offs( /*=======================*/ /* out: offset of the start of the field */ rec_t* rec, /* in: record */ ulint n) /* in: field index */ { ut_ad(rec_get_1byte_offs_flag(rec)); ut_ad(n <= rec_get_n_fields_old(rec)); if (n == 0) { return(0); } return(rec_1_get_prev_field_end_info(rec, n) & ~REC_1BYTE_SQL_NULL_MASK); } /********************************************************** Returns the offset of nth field start if the record is stored in the 2-byte offsets form. */ UNIV_INLINE ulint rec_2_get_field_start_offs( /*=======================*/ /* out: offset of the start of the field */ rec_t* rec, /* in: record */ ulint n) /* in: field index */ { ut_ad(!rec_get_1byte_offs_flag(rec)); ut_ad(n <= rec_get_n_fields_old(rec)); if (n == 0) { return(0); } return(rec_2_get_prev_field_end_info(rec, n) & ~(REC_2BYTE_SQL_NULL_MASK | REC_2BYTE_EXTERN_MASK)); } /********************************************************** The following function is used to read the offset of the start of a data field in the record. The start of an SQL null field is the end offset of the previous non-null field, or 0, if none exists. If n is the number of the last field + 1, then the end offset of the last field is returned. */ UNIV_INLINE ulint rec_get_field_start_offs( /*=====================*/ /* out: offset of the start of the field */ rec_t* rec, /* in: record */ ulint n) /* in: field index */ { ut_ad(rec); ut_ad(n <= rec_get_n_fields_old(rec)); if (n == 0) { return(0); } if (rec_get_1byte_offs_flag(rec)) { return(rec_1_get_field_start_offs(rec, n)); } return(rec_2_get_field_start_offs(rec, n)); } /**************************************************************** Gets the physical size of an old-style field. Also an SQL null may have a field of size > 0, if the data type is of a fixed size. */ UNIV_INLINE ulint rec_get_nth_field_size( /*===================*/ /* out: field size in bytes */ rec_t* rec, /* in: record */ ulint n) /* in: index of the field */ { ulint os; ulint next_os; os = rec_get_field_start_offs(rec, n); next_os = rec_get_field_start_offs(rec, n + 1); ut_ad(next_os - os < UNIV_PAGE_SIZE); return(next_os - os); } /*************************************************************** This is used to modify the value of an already existing field in a record. The previous value must have exactly the same size as the new value. If len is UNIV_SQL_NULL then the field is treated as an SQL null. For records in ROW_FORMAT=COMPACT (new-style records), len must not be UNIV_SQL_NULL unless the field already is SQL null. */ UNIV_INLINE void rec_set_nth_field( /*==============*/ rec_t* rec, /* in: record */ const ulint* offsets,/* in: array returned by rec_get_offsets() */ ulint n, /* in: index number of the field */ const void* data, /* in: pointer to the data if not SQL null */ ulint len) /* in: length of the data or UNIV_SQL_NULL */ { byte* data2; ulint len2; ut_ad(rec); ut_ad(rec_offs_validate(rec, NULL, offsets)); if (UNIV_UNLIKELY(len == UNIV_SQL_NULL)) { if (!rec_offs_nth_sql_null(offsets, n)) { ut_a(!rec_offs_comp(offsets)); rec_set_nth_field_sql_null(rec, n); } return; } data2 = rec_get_nth_field(rec, offsets, n, &len2); if (len2 == UNIV_SQL_NULL) { ut_ad(!rec_offs_comp(offsets)); rec_set_nth_field_null_bit(rec, n, FALSE); ut_ad(len == rec_get_nth_field_size(rec, n)); } else { ut_ad(len2 == len); } ut_memcpy(data2, data, len); } /************************************************************** The following function returns the data size of an old-style physical record, that is the sum of field lengths. SQL null fields are counted as length 0 fields. The value returned by the function is the distance from record origin to record end in bytes. */ UNIV_INLINE ulint rec_get_data_size_old( /*==================*/ /* out: size */ rec_t* rec) /* in: physical record */ { ut_ad(rec); return(rec_get_field_start_offs(rec, rec_get_n_fields_old(rec))); } /************************************************************** The following function sets the number of fields in offsets. */ UNIV_INLINE void rec_offs_set_n_fields( /*==================*/ ulint* offsets, /* in/out: array returned by rec_get_offsets() */ ulint n_fields) /* in: number of fields */ { ut_ad(offsets); ut_ad(n_fields > 0); ut_ad(n_fields <= REC_MAX_N_FIELDS); ut_ad(n_fields + REC_OFFS_HEADER_SIZE <= rec_offs_get_n_alloc(offsets)); offsets[1] = n_fields; } /************************************************************** The following function returns the data size of a physical record, that is the sum of field lengths. SQL null fields are counted as length 0 fields. The value returned by the function is the distance from record origin to record end in bytes. */ UNIV_INLINE ulint rec_offs_data_size( /*===============*/ /* out: size */ const ulint* offsets)/* in: array returned by rec_get_offsets() */ { ulint size; ut_ad(rec_offs_validate(NULL, NULL, offsets)); size = rec_offs_base(offsets)[rec_offs_n_fields(offsets)] & REC_OFFS_MASK; ut_ad(size < UNIV_PAGE_SIZE); return(size); } /************************************************************** Returns the total size of record minus data size of record. The value returned by the function is the distance from record start to record origin in bytes. */ UNIV_INLINE ulint rec_offs_extra_size( /*================*/ /* out: size */ const ulint* offsets)/* in: array returned by rec_get_offsets() */ { ulint size; ut_ad(rec_offs_validate(NULL, NULL, offsets)); size = *rec_offs_base(offsets) & ~REC_OFFS_COMPACT; ut_ad(size < UNIV_PAGE_SIZE); return(size); } /************************************************************** Returns the total size of a physical record. */ UNIV_INLINE ulint rec_offs_size( /*==========*/ /* out: size */ const ulint* offsets)/* in: array returned by rec_get_offsets() */ { return(rec_offs_data_size(offsets) + rec_offs_extra_size(offsets)); } /************************************************************** Returns a pointer to the end of the record. */ UNIV_INLINE byte* rec_get_end( /*========*/ /* out: pointer to end */ rec_t* rec, /* in: pointer to record */ const ulint* offsets)/* in: array returned by rec_get_offsets() */ { return(rec + rec_offs_data_size(offsets)); } /************************************************************** Returns a pointer to the start of the record. */ UNIV_INLINE byte* rec_get_start( /*==========*/ /* out: pointer to start */ rec_t* rec, /* in: pointer to record */ const ulint* offsets)/* in: array returned by rec_get_offsets() */ { return(rec - rec_offs_extra_size(offsets)); } /******************************************************************* Copies a physical record to a buffer. */ UNIV_INLINE rec_t* rec_copy( /*=====*/ /* out: pointer to the origin of the copy */ void* buf, /* in: buffer */ const rec_t* rec, /* in: physical record */ const ulint* offsets)/* in: array returned by rec_get_offsets() */ { ulint extra_len; ulint data_len; ut_ad(rec && buf); ut_ad(rec_offs_validate((rec_t*) rec, NULL, offsets)); ut_ad(rec_validate((rec_t*) rec, offsets)); extra_len = rec_offs_extra_size(offsets); data_len = rec_offs_data_size(offsets); ut_memcpy(buf, rec - extra_len, extra_len + data_len); return((byte*)buf + extra_len); } /************************************************************** Returns the extra size of an old-style physical record if we know its data size and number of fields. */ UNIV_INLINE ulint rec_get_converted_extra_size( /*=========================*/ /* out: extra size */ ulint data_size, /* in: data size */ ulint n_fields) /* in: number of fields */ { if (data_size <= REC_1BYTE_OFFS_LIMIT) { return(REC_N_OLD_EXTRA_BYTES + n_fields); } return(REC_N_OLD_EXTRA_BYTES + 2 * n_fields); } /************************************************************** The following function returns the size of a data tuple when converted to a new-style physical record. */ ulint rec_get_converted_size_new( /*=======================*/ /* out: size */ dict_index_t* index, /* in: record descriptor */ dtuple_t* dtuple);/* in: data tuple */ /************************************************************** The following function returns the size of a data tuple when converted to a physical record. */ UNIV_INLINE ulint rec_get_converted_size( /*===================*/ /* out: size */ dict_index_t* index, /* in: record descriptor */ dtuple_t* dtuple) /* in: data tuple */ { ulint data_size; ulint extra_size; ut_ad(index); ut_ad(dtuple); ut_ad(dtuple_check_typed(dtuple)); ut_ad(index->type & DICT_UNIVERSAL || dtuple_get_n_fields(dtuple) == (((dtuple_get_info_bits(dtuple) & REC_NEW_STATUS_MASK) == REC_STATUS_NODE_PTR) ? dict_index_get_n_unique_in_tree(index) + 1 : dict_index_get_n_fields(index))); if (dict_table_is_comp(index->table)) { return(rec_get_converted_size_new(index, dtuple)); } data_size = dtuple_get_data_size(dtuple); extra_size = rec_get_converted_extra_size( data_size, dtuple_get_n_fields(dtuple)); return(data_size + extra_size); } /**************************************************************** Folds a prefix of a physical record to a ulint. Folds only existing fields, that is, checks that we do not run out of the record. */ UNIV_INLINE ulint rec_fold( /*=====*/ /* out: the folded value */ rec_t* rec, /* in: the physical record */ const ulint* offsets, /* in: array returned by rec_get_offsets() */ ulint n_fields, /* in: number of complete fields to fold */ ulint n_bytes, /* in: number of bytes to fold in an incomplete last field */ dulint tree_id) /* in: index tree id */ { ulint i; byte* data; ulint len; ulint fold; ulint n_fields_rec; ut_ad(rec_offs_validate(rec, NULL, offsets)); ut_ad(rec_validate((rec_t*) rec, offsets)); ut_ad(n_fields + n_bytes > 0); n_fields_rec = rec_offs_n_fields(offsets); ut_ad(n_fields <= n_fields_rec); ut_ad(n_fields < n_fields_rec || n_bytes == 0); if (n_fields > n_fields_rec) { n_fields = n_fields_rec; } if (n_fields == n_fields_rec) { n_bytes = 0; } fold = ut_fold_dulint(tree_id); for (i = 0; i < n_fields; i++) { data = rec_get_nth_field(rec, offsets, i, &len); if (len != UNIV_SQL_NULL) { fold = ut_fold_ulint_pair(fold, ut_fold_binary(data, len)); } } if (n_bytes > 0) { data = rec_get_nth_field(rec, offsets, i, &len); if (len != UNIV_SQL_NULL) { if (len > n_bytes) { len = n_bytes; } fold = ut_fold_ulint_pair(fold, ut_fold_binary(data, len)); } } return(fold); }