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e242b4fd
编写于
4月 30, 2020
作者:
S
slguan
提交者:
GitHub
4月 30, 2020
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差异文件
Merge pull request #1759 from taosdata/feature/2.0tsdb
Feature/2.0tsdb
上级
9ffcbcc2
e86c501d
变更
18
展开全部
隐藏空白更改
内联
并排
Showing
18 changed file
with
778 addition
and
695 deletion
+778
-695
src/client/src/tscUtil.c
src/client/src/tscUtil.c
+33
-36
src/common/inc/tdataformat.h
src/common/inc/tdataformat.h
+84
-37
src/common/src/tdataformat.c
src/common/src/tdataformat.c
+243
-207
src/common/src/ttypes.c
src/common/src/ttypes.c
+23
-22
src/inc/taosdef.h
src/inc/taosdef.h
+11
-0
src/query/tests/astTest.cpp
src/query/tests/astTest.cpp
+2
-2
src/tsdb/inc/tsdbMain.h
src/tsdb/inc/tsdbMain.h
+5
-6
src/tsdb/src/tsdbCache.c
src/tsdb/src/tsdbCache.c
+4
-8
src/tsdb/src/tsdbMain.c
src/tsdb/src/tsdbMain.c
+2
-1
src/tsdb/src/tsdbMeta.c
src/tsdb/src/tsdbMeta.c
+3
-4
src/tsdb/src/tsdbRWHelper.c
src/tsdb/src/tsdbRWHelper.c
+123
-97
src/tsdb/tests/tsdbTests.cpp
src/tsdb/tests/tsdbTests.cpp
+9
-8
src/util/CMakeLists.txt
src/util/CMakeLists.txt
+3
-3
src/util/inc/tscompression.h
src/util/inc/tscompression.h
+216
-37
src/util/inc/tutil.h
src/util/inc/tutil.h
+4
-1
src/util/src/tcompression.c
src/util/src/tcompression.c
+0
-217
src/vnode/src/vnodeMain.c
src/vnode/src/vnodeMain.c
+5
-3
src/vnode/src/vnodeWrite.c
src/vnode/src/vnodeWrite.c
+8
-6
未找到文件。
src/client/src/tscUtil.c
浏览文件 @
e242b4fd
...
...
@@ -631,47 +631,44 @@ int32_t tscGetDataBlockFromList(void* pHashList, SDataBlockList* pDataBlockList,
return
TSDB_CODE_SUCCESS
;
}
static
void
trimDataBlock
(
void
*
pDataBlock
,
STableDataBlocks
*
pTableDataBlock
)
{
int32_t
firstPartLen
=
0
;
STableMeta
*
pTableMeta
=
pTableDataBlock
->
pTableMeta
;
static
int
trimDataBlock
(
void
*
pDataBlock
,
STableDataBlocks
*
pTableDataBlock
)
{
// TODO: optimize this function
int
len
=
0
;
STableMeta
*
pTableMeta
=
pTableDataBlock
->
pTableMeta
;
STableComInfo
tinfo
=
tscGetTableInfo
(
pTableMeta
);
SSchema
*
pSchema
=
tscGetTableSchema
(
pTableMeta
);
SSchema
*
pSchema
=
tscGetTableSchema
(
pTableMeta
);
SSubmitBlk
*
pBlock
=
pDataBlock
;
memcpy
(
pDataBlock
,
pTableDataBlock
->
pData
,
sizeof
(
SSubmitBlk
));
pDataBlock
+=
sizeof
(
SSubmitBlk
);
int32_t
total
=
sizeof
(
int32_t
)
*
2
;
for
(
int32_t
i
=
0
;
i
<
tinfo
.
numOfColumns
;
++
i
)
{
switch
(
pSchema
[
i
].
type
)
{
case
TSDB_DATA_TYPE_NCHAR
:
case
TSDB_DATA_TYPE_BINARY
:
{
assert
(
0
);
// not support binary yet
firstPartLen
+=
sizeof
(
int32_t
);
break
;
}
default:
firstPartLen
+=
tDataTypeDesc
[
pSchema
[
i
].
type
].
nSize
;
total
+=
tDataTypeDesc
[
pSchema
[
i
].
type
].
nSize
;
}
int32_t
flen
=
0
;
for
(
int32_t
i
=
0
;
i
<
tinfo
.
numOfColumns
;
++
i
)
{
flen
+=
TYPE_BYTES
[
pSchema
[
i
].
type
];
}
char
*
p
=
pTableDataBlock
->
pData
+
sizeof
(
SSubmitBlk
);
SSubmitBlk
*
pBlock
=
(
SSubmitBlk
*
)
pTableDataBlock
->
pData
;
int32_t
rows
=
htons
(
pBlock
->
numOfRows
)
;
for
(
int32_t
i
=
0
;
i
<
rows
;
++
i
)
{
*
(
int32_t
*
)
pDataBlock
=
total
;
pDataBlock
+=
sizeof
(
int32_t
);
*
(
int32_t
*
)
pDataBlock
=
firstPartLen
;
pDataBlock
+=
sizeof
(
int32_t
)
;
memcpy
(
pDataBlock
,
p
,
pTableDataBlock
->
rowSize
);
p
+=
pTableDataBlock
->
rowSize
;
p
DataBlock
+=
pTableDataBlock
->
rowSize
;
pBlock
->
len
=
0
;
for
(
int32_t
i
=
0
;
i
<
htons
(
pBlock
->
numOfRows
);
++
i
)
{
SDataRow
trow
=
(
SDataRow
)
pDataBlock
;
dataRowSetLen
(
trow
,
TD_DATA_ROW_HEAD_SIZE
+
flen
);
int
toffset
=
0
;
for
(
int32_t
j
=
0
;
j
<
tinfo
.
numOfColumns
;
j
++
)
{
tdAppendColVal
(
trow
,
p
,
pSchema
[
j
].
type
,
pSchema
[
j
].
bytes
,
toffset
);
toffset
+=
TYPE_BYTES
[
pSchema
[
j
].
type
]
;
p
+=
pSchema
[
j
].
bytes
;
}
// p += pTableDataBlock->rowSize;
p
DataBlock
+=
dataRowLen
(
trow
)
;
p
Block
->
len
+=
dataRowLen
(
trow
)
;
}
len
=
pBlock
->
len
;
pBlock
->
len
=
htonl
(
pBlock
->
len
);
return
len
;
}
int32_t
tscMergeTableDataBlocks
(
SSqlObj
*
pSql
,
SDataBlockList
*
pTableDataBlockList
)
{
...
...
@@ -734,7 +731,7 @@ int32_t tscMergeTableDataBlocks(SSqlObj* pSql, SDataBlockList* pTableDataBlockLi
pBlocks
->
len
=
htonl
(
len
);
// erase the empty space reserved for binary data
trimDataBlock
(
dataBuf
->
pData
+
dataBuf
->
size
,
pOneTableBlock
);
len
=
trimDataBlock
(
dataBuf
->
pData
+
dataBuf
->
size
,
pOneTableBlock
);
dataBuf
->
size
+=
(
len
+
sizeof
(
SSubmitBlk
));
dataBuf
->
numOfTables
+=
1
;
}
...
...
src/common/inc/tdataformat.h
浏览文件 @
e242b4fd
...
...
@@ -20,6 +20,7 @@
#include <string.h>
#include "taosdef.h"
#include "tutil.h"
#ifdef __cplusplus
extern
"C"
{
...
...
@@ -30,7 +31,7 @@ typedef struct {
int8_t
type
;
// Column type
int16_t
colId
;
// column ID
int32_t
bytes
;
// column bytes
int32_t
offset
;
// point offset in
a row data
int32_t
offset
;
// point offset in
SDataRow after the header part
}
STColumn
;
#define colType(col) ((col)->type)
...
...
@@ -43,26 +44,25 @@ typedef struct {
#define colSetBytes(col, b) (colBytes(col) = (b))
#define colSetOffset(col, o) (colOffset(col) = (o))
STColumn
*
tdNewCol
(
int8_t
type
,
int16_t
colId
,
int16_t
bytes
);
void
tdFreeCol
(
STColumn
*
pCol
);
void
tdColCpy
(
STColumn
*
dst
,
STColumn
*
src
);
void
tdSetCol
(
STColumn
*
pCol
,
int8_t
type
,
int16_t
colId
,
int32_t
bytes
);
// ----------------- TSDB SCHEMA DEFINITION
typedef
struct
{
int
totalCols
;
// Total columns allocated
int
numOfCols
;
// Number of columns appended
int
padding
;
// Total columns allocated
int
tlen
;
// maximum length of a SDataRow without the header part
int
flen
;
// First part length in a SDataRow after the header part
STColumn
columns
[];
}
STSchema
;
#define schemaNCols(s) ((s)->numOfCols)
#define schemaTotalCols(s) ((s)->totalCols)
#define schemaTLen(s) ((s)->tlen)
#define schemaFLen(s) ((s)->flen)
#define schemaColAt(s, i) ((s)->columns + i)
STSchema
*
tdNewSchema
(
int32_t
nCols
);
int
tdSchemaAppendCol
(
STSchema
*
pSchema
,
int8_t
type
,
int16_t
colId
,
int32_t
bytes
);
#define tdFreeSchema(s) tfree((s))
int
tdSchemaAddCol
(
STSchema
*
pSchema
,
int8_t
type
,
int16_t
colId
,
int32_t
bytes
);
STSchema
*
tdDupSchema
(
STSchema
*
pSchema
);
void
tdFreeSchema
(
STSchema
*
pSchema
);
void
tdUpdateSchema
(
STSchema
*
pSchema
);
int
tdGetSchemaEncodeSize
(
STSchema
*
pSchema
);
void
*
tdEncodeSchema
(
void
*
dst
,
STSchema
*
pSchema
);
STSchema
*
tdDecodeSchema
(
void
**
psrc
);
...
...
@@ -70,53 +70,100 @@ STSchema *tdDecodeSchema(void **psrc);
// ----------------- Data row structure
/* A data row, the format is like below:
* +----------+---------+---------------------------------+---------------------------------+
* | int32_t | int32_t | | |
* +----------+---------+---------------------------------+---------------------------------+
* | len | flen | First part | Second part |
* +----------+---------+---------------------------------+---------------------------------+
* plen: first part length
* len: the length including sizeof(row) + sizeof(len)
* row: actual row data encoding
* |<------------------------------------- len ---------------------------------->|
* |<--Head ->|<--------- flen -------------->| |
* +----------+---------------------------------+---------------------------------+
* | int32_t | | |
* +----------+---------------------------------+---------------------------------+
* | len | First part | Second part |
* +----------+---------------------------------+---------------------------------+
*/
typedef
void
*
SDataRow
;
#define TD_DATA_ROW_HEAD_SIZE (2 * sizeof(int32_t))
#define TD_DATA_ROW_HEAD_SIZE sizeof(int32_t)
#define dataRowLen(r) (*(int32_t *)(r))
#define dataRowFLen(r) (*(int32_t *)((char *)(r) + sizeof(int32_t)))
#define dataRowTuple(r) ((char *)(r) + TD_DATA_ROW_HEAD_SIZE)
#define dataRowTuple(r) POINTER_DRIFT(r, TD_DATA_ROW_HEAD_SIZE)
#define dataRowKey(r) (*(TSKEY *)(dataRowTuple(r)))
#define dataRowSetLen(r, l) (dataRowLen(r) = (l))
#define dataRowSetFLen(r, l) (dataRowFLen(r) = (l))
#define dataRowIdx(r, i) ((char *)(r) + i)
#define dataRowCpy(dst, r) memcpy((dst), (r), dataRowLen(r))
#define dataRow
At(r, idx) ((char *)(r) + (idx)
)
#define dataRow
MaxBytesFromSchema(s) (schemaTLen(s) + TD_DATA_ROW_HEAD_SIZE
)
void
tdInitDataRow
(
SDataRow
row
,
STSchema
*
pSchema
);
int
tdMaxRowBytesFromSchema
(
STSchema
*
pSchema
);
SDataRow
tdNewDataRow
(
int32_t
bytes
,
STSchema
*
pSchema
);
SDataRow
tdNewDataRowFromSchema
(
STSchema
*
pSchema
);
void
tdFreeDataRow
(
SDataRow
row
);
int
tdAppendColVal
(
SDataRow
row
,
void
*
value
,
STColumn
*
pCol
);
void
tdDataRowReset
(
SDataRow
row
,
STSchema
*
pSchema
);
void
tdInitDataRow
(
SDataRow
row
,
STSchema
*
pSchema
);
int
tdAppendColVal
(
SDataRow
row
,
void
*
value
,
int8_t
type
,
int32_t
bytes
,
int32_t
offset
);
SDataRow
tdDataRowDup
(
SDataRow
row
);
// NOTE: offset here including the header size
static
FORCE_INLINE
void
*
tdGetRowDataOfCol
(
SDataRow
row
,
int8_t
type
,
int32_t
offset
)
{
switch
(
type
)
{
case
TSDB_DATA_TYPE_BINARY
:
case
TSDB_DATA_TYPE_NCHAR
:
return
POINTER_DRIFT
(
row
,
*
(
VarDataOffsetT
*
)
POINTER_DRIFT
(
row
,
offset
));
break
;
default:
return
POINTER_DRIFT
(
row
,
offset
);
break
;
}
}
// ----------------- Data column structure
typedef
struct
SDataCol
{
int8_t
type
;
int16_t
colId
;
int
bytes
;
int
len
;
int
offset
;
void
*
pData
;
// Original data
int8_t
type
;
// column type
int16_t
colId
;
// column ID
int
bytes
;
// column data bytes defined
int
offset
;
// data offset in a SDataRow (including the header size)
int
spaceSize
;
// Total space size for this column
int
len
;
// column data length
VarDataOffsetT
*
dataOff
;
// For binary and nchar data, the offset in the data column
void
*
pData
;
// Actual data pointer
}
SDataCol
;
static
FORCE_INLINE
void
dataColReset
(
SDataCol
*
pDataCol
)
{
pDataCol
->
len
=
0
;
}
void
dataColInit
(
SDataCol
*
pDataCol
,
STColumn
*
pCol
,
void
**
pBuf
,
int
maxPoints
);
void
dataColAppendVal
(
SDataCol
*
pCol
,
void
*
value
,
int
numOfPoints
,
int
maxPoints
);
void
dataColPopPoints
(
SDataCol
*
pCol
,
int
pointsToPop
,
int
numOfPoints
);
void
dataColSetOffset
(
SDataCol
*
pCol
,
int
nEle
);
bool
isNEleNull
(
SDataCol
*
pCol
,
int
nEle
);
void
dataColSetNEleNull
(
SDataCol
*
pCol
,
int
nEle
,
int
maxPoints
);
// Get the data pointer from a column-wised data
static
FORCE_INLINE
void
*
tdGetColDataOfRow
(
SDataCol
*
pCol
,
int
row
)
{
switch
(
pCol
->
type
)
{
case
TSDB_DATA_TYPE_BINARY
:
case
TSDB_DATA_TYPE_NCHAR
:
return
POINTER_DRIFT
(
pCol
->
pData
,
pCol
->
dataOff
[
row
]);
break
;
default:
return
POINTER_DRIFT
(
pCol
->
pData
,
TYPE_BYTES
[
pCol
->
type
]
*
row
);
break
;
}
}
static
FORCE_INLINE
int32_t
dataColGetNEleLen
(
SDataCol
*
pDataCol
,
int
rows
)
{
ASSERT
(
rows
>
0
);
switch
(
pDataCol
->
type
)
{
case
TSDB_DATA_TYPE_BINARY
:
case
TSDB_DATA_TYPE_NCHAR
:
return
pDataCol
->
dataOff
[
rows
-
1
]
+
varDataTLen
(
tdGetColDataOfRow
(
pDataCol
,
rows
-
1
));
break
;
default:
return
TYPE_BYTES
[
pDataCol
->
type
]
*
rows
;
}
}
typedef
struct
{
int
maxRowSize
;
int
maxCols
;
// max number of columns
int
maxPoints
;
// max number of points
int
bufSize
;
int
numOfPoints
;
int
numOfCols
;
// Total number of cols
int
sversion
;
// TODO: set sversion
...
...
@@ -125,7 +172,7 @@ typedef struct {
}
SDataCols
;
#define keyCol(pCols) (&((pCols)->cols[0])) // Key column
#define dataColsKeyAt(pCols, idx) ((
int64_t
*)(keyCol(pCols)->pData))[(idx)]
#define dataColsKeyAt(pCols, idx) ((
TSKEY
*)(keyCol(pCols)->pData))[(idx)]
#define dataColsKeyFirst(pCols) dataColsKeyAt(pCols, 0)
#define dataColsKeyLast(pCols) dataColsKeyAt(pCols, (pCols)->numOfPoints - 1)
...
...
src/common/src/tdataformat.c
浏览文件 @
e242b4fd
此差异已折叠。
点击以展开。
src/common/src/ttypes.c
浏览文件 @
e242b4fd
...
...
@@ -16,33 +16,34 @@
#include "taosdef.h"
#include "ttokendef.h"
#include "tscompression.h"
const
int32_t
TYPE_BYTES
[
11
]
=
{
-
1
,
// TSDB_DATA_TYPE_NULL
sizeof
(
int8_t
),
// TSDB_DATA_TYPE_BOOL
sizeof
(
int8_t
),
// TSDB_DATA_TYPE_TINYINT
sizeof
(
int16_t
),
// TSDB_DATA_TYPE_SMALLINT
sizeof
(
int32_t
),
// TSDB_DATA_TYPE_INT
sizeof
(
int64_t
),
// TSDB_DATA_TYPE_BIGINT
sizeof
(
float
),
// TSDB_DATA_TYPE_FLOAT
sizeof
(
double
),
// TSDB_DATA_TYPE_DOUBLE
sizeof
(
int32_t
),
// TSDB_DATA_TYPE_BINARY
sizeof
(
TSKEY
),
// TSDB_DATA_TYPE_TIMESTAMP
sizeof
(
int32_t
)
// TSDB_DATA_TYPE_NCHAR
-
1
,
// TSDB_DATA_TYPE_NULL
sizeof
(
int8_t
),
// TSDB_DATA_TYPE_BOOL
sizeof
(
int8_t
),
// TSDB_DATA_TYPE_TINYINT
sizeof
(
int16_t
),
// TSDB_DATA_TYPE_SMALLINT
sizeof
(
int32_t
),
// TSDB_DATA_TYPE_INT
sizeof
(
int64_t
),
// TSDB_DATA_TYPE_BIGINT
sizeof
(
float
),
// TSDB_DATA_TYPE_FLOAT
sizeof
(
double
),
// TSDB_DATA_TYPE_DOUBLE
sizeof
(
VarDataOffsetT
),
// TSDB_DATA_TYPE_BINARY
sizeof
(
TSKEY
),
// TSDB_DATA_TYPE_TIMESTAMP
sizeof
(
VarDataOffsetT
)
// TSDB_DATA_TYPE_NCHAR
};
tDataTypeDescriptor
tDataTypeDesc
[
11
]
=
{
{
TSDB_DATA_TYPE_NULL
,
6
,
1
,
"NOTYPE"
},
{
TSDB_DATA_TYPE_BOOL
,
4
,
CHAR_BYTES
,
"BOOL"
},
{
TSDB_DATA_TYPE_TINYINT
,
7
,
CHAR_BYTES
,
"TINYINT"
},
{
TSDB_DATA_TYPE_SMALLINT
,
8
,
SHORT_BYTES
,
"SMALLINT"
},
{
TSDB_DATA_TYPE_INT
,
3
,
INT_BYTES
,
"INT"
},
{
TSDB_DATA_TYPE_BIGINT
,
6
,
LONG_BYTES
,
"BIGINT"
},
{
TSDB_DATA_TYPE_FLOAT
,
5
,
FLOAT_BYTES
,
"FLOAT"
},
{
TSDB_DATA_TYPE_DOUBLE
,
6
,
DOUBLE_BYTES
,
"DOUBLE"
},
{
TSDB_DATA_TYPE_BINARY
,
6
,
0
,
"BINARY"
},
{
TSDB_DATA_TYPE_TIMESTAMP
,
9
,
LONG_BYTES
,
"TIMESTAMP"
},
{
TSDB_DATA_TYPE_NCHAR
,
5
,
8
,
"NCHAR"
},
{
TSDB_DATA_TYPE_NULL
,
6
,
1
,
"NOTYPE"
,
NULL
,
NULL
},
{
TSDB_DATA_TYPE_BOOL
,
4
,
CHAR_BYTES
,
"BOOL"
,
tsCompressBool
,
tsDecompressBool
},
{
TSDB_DATA_TYPE_TINYINT
,
7
,
CHAR_BYTES
,
"TINYINT"
,
tsCompressTinyint
,
tsDecompressTinyint
},
{
TSDB_DATA_TYPE_SMALLINT
,
8
,
SHORT_BYTES
,
"SMALLINT"
,
tsCompressSmallint
,
tsDecompressSmallint
},
{
TSDB_DATA_TYPE_INT
,
3
,
INT_BYTES
,
"INT"
,
tsCompressInt
,
tsDecompressInt
},
{
TSDB_DATA_TYPE_BIGINT
,
6
,
LONG_BYTES
,
"BIGINT"
,
tsCompressBigint
,
tsDecompressBigint
},
{
TSDB_DATA_TYPE_FLOAT
,
5
,
FLOAT_BYTES
,
"FLOAT"
,
tsCompressFloat
,
tsDecompressFloat
},
{
TSDB_DATA_TYPE_DOUBLE
,
6
,
DOUBLE_BYTES
,
"DOUBLE"
,
tsCompressDouble
,
tsDecompressDouble
},
{
TSDB_DATA_TYPE_BINARY
,
6
,
0
,
"BINARY"
,
tsCompressString
,
tsDecompressString
},
{
TSDB_DATA_TYPE_TIMESTAMP
,
9
,
LONG_BYTES
,
"TIMESTAMP"
,
tsCompressTimestamp
,
tsDecompressTimestamp
},
{
TSDB_DATA_TYPE_NCHAR
,
5
,
8
,
"NCHAR"
,
tsCompressString
,
tsDecompressString
},
};
char
tTokenTypeSwitcher
[
13
]
=
{
...
...
src/inc/taosdef.h
浏览文件 @
e242b4fd
...
...
@@ -32,6 +32,13 @@ extern "C" {
#define TSKEY int64_t
#endif
// ----------------- For variable data types such as TSDB_DATA_TYPE_BINARY and TSDB_DATA_TYPE_NCHAR
typedef
int32_t
VarDataOffsetT
;
typedef
int16_t
VarDataLenT
;
#define varDataLen(v) ((VarDataLenT *)(v))[0]
#define varDataTLen(v) (sizeof(VarDataLenT) + varDataLen(v))
#define varDataVal(v) ((void *)((char *)v + sizeof(VarDataLenT)))
// this data type is internally used only in 'in' query to hold the values
#define TSDB_DATA_TYPE_ARRAY (TSDB_DATA_TYPE_NCHAR + 1)
...
...
@@ -121,6 +128,10 @@ typedef struct tDataTypeDescriptor {
int16_t
nameLen
;
int32_t
nSize
;
char
*
aName
;
int
(
*
compFunc
)(
const
char
*
const
input
,
int
inputSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorithm
,
char
*
const
buffer
,
int
bufferSize
);
int
(
*
decompFunc
)(
const
char
*
const
input
,
int
compressedSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorithm
,
char
*
const
buffer
,
int
bufferSize
);
}
tDataTypeDescriptor
;
extern
tDataTypeDescriptor
tDataTypeDesc
[
11
];
...
...
src/query/tests/astTest.cpp
浏览文件 @
e242b4fd
...
...
@@ -582,7 +582,7 @@ void exprSerializeTest1() {
tExprTreeDestroy
(
&
p1
,
nullptr
);
tExprTreeDestroy
(
&
p2
,
nullptr
);
tbufClose
(
&
bw
);
//
tbufClose(&bw);
}
void
exprSerializeTest2
()
{
...
...
@@ -627,7 +627,7 @@ void exprSerializeTest2() {
tExprTreeDestroy
(
&
p1
,
nullptr
);
tExprTreeDestroy
(
&
p2
,
nullptr
);
tbufClose
(
&
bw
);
//
tbufClose(&bw);
}
}
// namespace
TEST
(
testCase
,
astTest
)
{
...
...
src/tsdb/inc/tsdbMain.h
浏览文件 @
e242b4fd
...
...
@@ -153,17 +153,16 @@ typedef struct {
}
SCacheMem
;
typedef
struct
{
int
maxBytes
;
int
cacheBlockSize
;
int
totalCacheBlocks
;
STsdbCachePool
pool
;
STsdbCacheBlock
*
curBlock
;
SCacheMem
*
mem
;
SCacheMem
*
imem
;
TsdbRepoT
*
pRepo
;
TsdbRepoT
*
pRepo
;
}
STsdbCache
;
STsdbCache
*
tsdbInitCache
(
int
maxBytes
,
int
cacheBlockSize
,
TsdbRepoT
*
pRepo
);
STsdbCache
*
tsdbInitCache
(
int
cacheBlockSize
,
int
totalBlocks
,
TsdbRepoT
*
pRepo
);
void
tsdbFreeCache
(
STsdbCache
*
pCache
);
void
*
tsdbAllocFromCache
(
STsdbCache
*
pCache
,
int
bytes
,
TSKEY
key
);
...
...
@@ -297,7 +296,7 @@ typedef struct {
// TODO: take pre-calculation into account
typedef
struct
{
int16_t
colId
;
// Column ID
int16_t
len
;
// Column length
int16_t
len
;
// Column length
// TODO: int16_t is not enough
int32_t
type
:
8
;
int32_t
offset
:
24
;
}
SCompCol
;
...
...
@@ -426,6 +425,8 @@ typedef struct {
SCompData
*
pCompData
;
SDataCols
*
pDataCols
[
2
];
void
*
blockBuffer
;
// Buffer to hold the whole data block
void
*
compBuffer
;
// Buffer for temperary compress/decompress purpose
}
SRWHelper
;
// --------- Helper state
...
...
@@ -445,13 +446,11 @@ typedef struct {
int
tsdbInitReadHelper
(
SRWHelper
*
pHelper
,
STsdbRepo
*
pRepo
);
int
tsdbInitWriteHelper
(
SRWHelper
*
pHelper
,
STsdbRepo
*
pRepo
);
// int tsdbInitHelper(SRWHelper *pHelper, SHelperCfg *pCfg);
void
tsdbDestroyHelper
(
SRWHelper
*
pHelper
);
void
tsdbResetHelper
(
SRWHelper
*
pHelper
);
// --------- For set operations
int
tsdbSetAndOpenHelperFile
(
SRWHelper
*
pHelper
,
SFileGroup
*
pGroup
);
// void tsdbSetHelperTable(SRWHelper *pHelper, SHelperTable *pHelperTable, STSchema *pSchema);
void
tsdbSetHelperTable
(
SRWHelper
*
pHelper
,
STable
*
pTable
,
STsdbRepo
*
pRepo
);
int
tsdbCloseHelperFile
(
SRWHelper
*
pHelper
,
bool
hasError
);
...
...
src/tsdb/src/tsdbCache.c
浏览文件 @
e242b4fd
...
...
@@ -21,29 +21,25 @@ static int tsdbAllocBlockFromPool(STsdbCache *pCache);
static
void
tsdbFreeBlockList
(
SList
*
list
);
static
void
tsdbFreeCacheMem
(
SCacheMem
*
mem
);
STsdbCache
*
tsdbInitCache
(
int
maxBytes
,
int
cacheBlockSize
,
TsdbRepoT
*
pRepo
)
{
STsdbCache
*
tsdbInitCache
(
int
cacheBlockSize
,
int
totalBlocks
,
TsdbRepoT
*
pRepo
)
{
STsdbCache
*
pCache
=
(
STsdbCache
*
)
calloc
(
1
,
sizeof
(
STsdbCache
));
if
(
pCache
==
NULL
)
return
NULL
;
if
(
cacheBlockSize
<
0
)
cacheBlockSize
=
TSDB_DEFAULT_CACHE_BLOCK_SIZE
;
cacheBlockSize
*=
(
1024
*
1024
);
if
(
maxBytes
<
0
)
maxBytes
=
cacheBlockSize
*
TSDB_DEFAULT_TOTAL_BLOCKS
;
if
(
totalBlocks
<=
1
)
totalBlocks
=
TSDB_DEFAULT_TOTAL_BLOCKS
;
pCache
->
maxBytes
=
maxBytes
;
pCache
->
cacheBlockSize
=
cacheBlockSize
;
pCache
->
totalCacheBlocks
=
totalBlocks
;
pCache
->
pRepo
=
pRepo
;
int
nBlocks
=
maxBytes
/
cacheBlockSize
+
1
;
if
(
nBlocks
<=
1
)
nBlocks
=
2
;
pCache
->
totalCacheBlocks
=
nBlocks
;
STsdbCachePool
*
pPool
=
&
(
pCache
->
pool
);
pPool
->
index
=
0
;
pPool
->
memPool
=
tdListNew
(
sizeof
(
STsdbCacheBlock
*
));
if
(
pPool
->
memPool
==
NULL
)
goto
_err
;
for
(
int
i
=
0
;
i
<
n
Blocks
;
i
++
)
{
for
(
int
i
=
0
;
i
<
total
Blocks
;
i
++
)
{
STsdbCacheBlock
*
pBlock
=
(
STsdbCacheBlock
*
)
malloc
(
sizeof
(
STsdbCacheBlock
)
+
cacheBlockSize
);
if
(
pBlock
==
NULL
)
{
goto
_err
;
...
...
src/tsdb/src/tsdbMain.c
浏览文件 @
e242b4fd
...
...
@@ -5,6 +5,7 @@
#include "tsdb.h"
#include "tsdbMain.h"
#include "tscompression.h"
#include "tchecksum.h"
#define TSDB_DEFAULT_PRECISION TSDB_PRECISION_MILLI // default precision
#define IS_VALID_PRECISION(precision) (((precision) >= TSDB_PRECISION_MILLI) && ((precision) <= TSDB_PRECISION_NANO))
...
...
@@ -202,7 +203,7 @@ TsdbRepoT *tsdbOpenRepo(char *tsdbDir, STsdbAppH *pAppH) {
return
NULL
;
}
pRepo
->
tsdbCache
=
tsdbInitCache
(
-
1
,
-
1
,
(
TsdbRepoT
*
)
pRepo
);
pRepo
->
tsdbCache
=
tsdbInitCache
(
pRepo
->
config
.
cacheBlockSize
,
pRepo
->
config
.
totalBlocks
,
(
TsdbRepoT
*
)
pRepo
);
if
(
pRepo
->
tsdbCache
==
NULL
)
{
tsdbFreeMeta
(
pRepo
->
tsdbMeta
);
free
(
pRepo
->
rootDir
);
...
...
src/tsdb/src/tsdbMeta.c
浏览文件 @
e242b4fd
...
...
@@ -242,7 +242,7 @@ int32_t tsdbGetTableTagVal(TsdbRepoT* repo, STableId id, int32_t colId, int16_t*
assert
(
pCol
!=
NULL
);
SDataRow
row
=
(
SDataRow
)
pTable
->
tagVal
;
char
*
d
=
dataRow
At
(
row
,
TD_DATA_ROW_HEAD_SIZE
);
char
*
d
=
dataRow
Tuple
(
row
);
*
val
=
d
;
*
type
=
pCol
->
type
;
...
...
@@ -451,9 +451,8 @@ static int tsdbAddTableToMeta(STsdbMeta *pMeta, STable *pTable, bool addIdx) {
// Update the pMeta->maxCols and pMeta->maxRowBytes
if
(
pTable
->
type
==
TSDB_SUPER_TABLE
||
pTable
->
type
==
TSDB_NORMAL_TABLE
)
{
if
(
schemaNCols
(
pTable
->
schema
)
>
pMeta
->
maxCols
)
pMeta
->
maxCols
=
schemaNCols
(
pTable
->
schema
);
int
bytes
=
tdMaxRow
BytesFromSchema
(
pTable
->
schema
);
int
bytes
=
dataRowMax
BytesFromSchema
(
pTable
->
schema
);
if
(
bytes
>
pMeta
->
maxRowBytes
)
pMeta
->
maxRowBytes
=
bytes
;
tdUpdateSchema
(
pTable
->
schema
);
}
return
tsdbAddTableIntoMap
(
pMeta
,
pTable
);
...
...
@@ -524,5 +523,5 @@ static int tsdbEstimateTableEncodeSize(STable *pTable) {
char
*
getTupleKey
(
const
void
*
data
)
{
SDataRow
row
=
(
SDataRow
)
data
;
return
dataRowAt
(
row
,
TD_DATA_ROW_HEAD_SIZE
);
return
POINTER_DRIFT
(
row
,
TD_DATA_ROW_HEAD_SIZE
);
}
\ No newline at end of file
src/tsdb/src/tsdbRWHelper.c
浏览文件 @
e242b4fd
...
...
@@ -131,6 +131,11 @@ static int tsdbInitHelper(SRWHelper *pHelper, STsdbRepo *pRepo, tsdb_rw_helper_t
// Init block part
if
(
tsdbInitHelperBlock
(
pHelper
)
<
0
)
goto
_err
;
pHelper
->
blockBuffer
=
tmalloc
(
sizeof
(
SCompData
)
+
(
sizeof
(
SCompCol
)
+
sizeof
(
TSCKSUM
)
+
COMP_OVERFLOW_BYTES
)
*
pHelper
->
config
.
maxCols
+
pHelper
->
config
.
maxRowSize
*
pHelper
->
config
.
maxRowsPerFileBlock
+
sizeof
(
TSCKSUM
));
if
(
pHelper
->
blockBuffer
==
NULL
)
goto
_err
;
return
0
;
_err:
...
...
@@ -149,6 +154,8 @@ int tsdbInitWriteHelper(SRWHelper *pHelper, STsdbRepo *pRepo) {
void
tsdbDestroyHelper
(
SRWHelper
*
pHelper
)
{
if
(
pHelper
)
{
tzfree
(
pHelper
->
blockBuffer
);
tzfree
(
pHelper
->
compBuffer
);
tsdbDestroyHelperFile
(
pHelper
);
tsdbDestroyHelperTable
(
pHelper
);
tsdbDestroyHelperBlock
(
pHelper
);
...
...
@@ -330,7 +337,7 @@ int tsdbWriteDataBlock(SRWHelper *pHelper, SDataCols *pDataCols) {
int
blkIdx
=
(
pCompBlock
==
NULL
)
?
(
pIdx
->
numOfBlocks
-
1
)
:
(
pCompBlock
-
pHelper
->
pCompInfo
->
blocks
);
if
(
pCompBlock
==
NULL
)
{
// No key overlap, must has last block, just merge with the last block
ASSERT
(
pIdx
->
hasLast
&&
pHelper
->
pCompInfo
->
blocks
[
pIdx
->
numOf
Super
Blocks
-
1
].
last
);
ASSERT
(
pIdx
->
hasLast
&&
pHelper
->
pCompInfo
->
blocks
[
pIdx
->
numOfBlocks
-
1
].
last
);
rowsToWrite
=
tsdbMergeDataWithBlock
(
pHelper
,
blkIdx
,
pDataCols
);
if
(
rowsToWrite
<
0
)
goto
_err
;
}
else
{
// Has key overlap
...
...
@@ -552,61 +559,97 @@ int tsdbLoadBlockDataCols(SRWHelper *pHelper, SDataCols *pDataCols, int blkIdx,
return
0
;
}
static
int
tsdbCheckAndDecodeColumnData
(
SDataCol
*
pDataCol
,
char
*
content
,
int32_t
len
,
int8_t
comp
,
int
numOfPoints
,
int
maxPoints
,
char
*
buffer
,
int
bufferSize
)
{
// Verify by checksum
if
(
!
taosCheckChecksumWhole
((
uint8_t
*
)
content
,
len
))
return
-
1
;
// Decode the data
if
(
comp
)
{
// // Need to decompress
pDataCol
->
len
=
(
*
(
tDataTypeDesc
[
pDataCol
->
type
].
decompFunc
))(
content
,
len
-
sizeof
(
TSCKSUM
),
numOfPoints
,
pDataCol
->
pData
,
pDataCol
->
spaceSize
,
comp
,
buffer
,
bufferSize
);
if
(
pDataCol
->
type
==
TSDB_DATA_TYPE_BINARY
||
pDataCol
->
type
==
TSDB_DATA_TYPE_NCHAR
)
{
pDataCol
->
len
+=
(
sizeof
(
int32_t
)
*
maxPoints
);
dataColSetOffset
(
pDataCol
,
numOfPoints
);
}
}
else
{
// No need to decompress, just memcpy it
switch
(
pDataCol
->
type
)
{
case
TSDB_DATA_TYPE_BINARY
:
case
TSDB_DATA_TYPE_NCHAR
:
pDataCol
->
len
=
sizeof
(
int32_t
)
*
maxPoints
;
memcpy
((
char
*
)
pDataCol
->
pData
+
pDataCol
->
len
,
content
,
len
-
sizeof
(
TSCKSUM
));
pDataCol
->
len
+=
(
len
-
sizeof
(
TSCKSUM
));
dataColSetOffset
(
pDataCol
,
numOfPoints
);
break
;
default:
pDataCol
->
len
=
len
-
sizeof
(
TSCKSUM
);
memcpy
(
pDataCol
->
pData
,
content
,
pDataCol
->
len
);
break
;
}
}
return
0
;
}
/**
* Interface to read the data of a sub-block OR the data of a super-block of which (numOfSubBlocks == 1)
*/
static
int
tsdbLoadBlockDataImpl
(
SRWHelper
*
pHelper
,
SCompBlock
*
pCompBlock
,
SDataCols
*
pDataCols
)
{
ASSERT
(
pCompBlock
->
numOfSubBlocks
<=
1
);
SCompData
*
pCompData
=
(
SCompData
*
)
malloc
(
pCompBlock
->
len
);
if
(
pCompData
==
NULL
)
return
-
1
;
ASSERT
(
tsizeof
(
pHelper
->
blockBuffer
)
>=
pCompBlock
->
len
);
SCompData
*
pCompData
=
(
SCompData
*
)
pHelper
->
blockBuffer
;
int
fd
=
(
pCompBlock
->
last
)
?
pHelper
->
files
.
lastF
.
fd
:
pHelper
->
files
.
dataF
.
fd
;
if
(
lseek
(
fd
,
pCompBlock
->
offset
,
SEEK_SET
)
<
0
)
goto
_err
;
if
(
tread
(
fd
,
(
void
*
)
pCompData
,
pCompBlock
->
len
)
<
pCompBlock
->
len
)
goto
_err
;
ASSERT
(
pCompData
->
numOfCols
==
pCompBlock
->
numOfCols
);
// TODO : check the checksum
size_t
tsize
=
sizeof
(
SCompData
)
+
sizeof
(
SCompCol
)
*
pCompBlock
->
numOfCols
+
sizeof
(
TSCKSUM
);
int32_t
tsize
=
sizeof
(
SCompData
)
+
sizeof
(
SCompCol
)
*
pCompBlock
->
numOfCols
+
sizeof
(
TSCKSUM
);
if
(
!
taosCheckChecksumWhole
((
uint8_t
*
)
pCompData
,
tsize
))
goto
_err
;
for
(
int
i
=
0
;
i
<
pCompData
->
numOfCols
;
i
++
)
{
// TODO: check the data checksum
// if (!taosCheckChecksumWhole())
}
ASSERT
(
pCompBlock
->
numOfCols
==
pCompData
->
numOfCols
);
pDataCols
->
numOfPoints
=
pCompBlock
->
numOfPoints
;
int
ccol
=
0
,
dcol
=
0
;
while
(
true
)
{
if
(
ccol
>=
pDataCols
->
numOfCols
)
{
// TODO: Fill rest NULL
break
;
// Recover the data
int
ccol
=
0
;
int
dcol
=
0
;
while
(
dcol
<
pDataCols
->
numOfCols
)
{
SDataCol
*
pDataCol
=
&
(
pDataCols
->
cols
[
dcol
]);
if
(
ccol
>=
pCompData
->
numOfCols
)
{
// Set current column as NULL and forward
dataColSetNEleNull
(
pDataCol
,
pCompBlock
->
numOfPoints
,
pDataCols
->
maxPoints
);
dcol
++
;
continue
;
}
if
(
dcol
>=
pCompData
->
numOfCols
)
break
;
SCompCol
*
pCompCol
=
&
(
pCompData
->
cols
[
ccol
]);
SDataCol
*
pDataCol
=
&
(
pDataCols
->
cols
[
dcol
]);
if
(
pCompCol
->
colId
==
pDataCol
->
colId
)
{
// TODO: uncompress
memcpy
(
pDataCol
->
pData
,
(
void
*
)(((
char
*
)
pCompData
)
+
tsize
+
pCompCol
->
offset
),
pCompCol
->
len
);
ccol
++
;
dcol
++
;
}
else
if
(
pCompCol
->
colId
>
pDataCol
->
colId
)
{
// TODO: Fill NULL
if
(
pCompBlock
->
algorithm
==
TWO_STAGE_COMP
)
{
pHelper
->
compBuffer
=
trealloc
(
pHelper
->
compBuffer
,
pCompCol
->
len
+
COMP_OVERFLOW_BYTES
);
if
(
pHelper
->
compBuffer
==
NULL
)
goto
_err
;
}
if
(
tsdbCheckAndDecodeColumnData
(
pDataCol
,
(
char
*
)
pCompData
+
tsize
+
pCompCol
->
offset
,
pCompCol
->
len
,
pCompBlock
->
algorithm
,
pCompBlock
->
numOfPoints
,
pDataCols
->
maxPoints
,
pHelper
->
compBuffer
,
tsizeof
(
pHelper
->
compBuffer
))
<
0
)
goto
_err
;
dcol
++
;
}
else
{
ccol
++
;
}
else
if
(
pCompCol
->
colId
<
pDataCol
->
colId
)
{
ccol
++
;
}
else
{
// Set current column as NULL and forward
dataColSetNEleNull
(
pDataCol
,
pCompBlock
->
numOfPoints
,
pDataCols
->
maxPoints
);
dcol
++
;
}
}
tfree
(
pCompData
);
return
0
;
_err:
tfree
(
pCompData
);
return
-
1
;
}
...
...
@@ -634,36 +677,6 @@ _err:
return
-
1
;
}
// static int tsdbCheckHelperCfg(SHelperCfg *pCfg) {
// // TODO
// return 0;
// }
// static void tsdbClearHelperFile(SHelperFile *pHFile) {
// pHFile->fid = -1;
// if (pHFile->headF.fd > 0) {
// close(pHFile->headF.fd);
// pHFile->headF.fd = -1;
// }
// if (pHFile->dataF.fd > 0) {
// close(pHFile->dataF.fd);
// pHFile->dataF.fd = -1;
// }
// if (pHFile->lastF.fd > 0) {
// close(pHFile->lastF.fd);
// pHFile->lastF.fd = -1;
// }
// if (pHFile->nHeadF.fd > 0) {
// close(pHFile->nHeadF.fd);
// pHFile->nHeadF.fd = -1;
// }
// if (pHFile->nLastF.fd > 0) {
// close(pHFile->nLastF.fd);
// pHFile->nLastF.fd = -1;
// }
// }
static
bool
tsdbShouldCreateNewLast
(
SRWHelper
*
pHelper
)
{
ASSERT
(
pHelper
->
files
.
lastF
.
fd
>
0
);
struct
stat
st
;
...
...
@@ -677,81 +690,94 @@ static int tsdbWriteBlockToFile(SRWHelper *pHelper, SFile *pFile, SDataCols *pDa
ASSERT
(
rowsToWrite
>
0
&&
rowsToWrite
<=
pDataCols
->
numOfPoints
&&
rowsToWrite
<=
pHelper
->
config
.
maxRowsPerFileBlock
);
SCompData
*
pCompData
=
NULL
;
SCompData
*
pCompData
=
(
SCompData
*
)(
pHelper
->
blockBuffer
)
;
int64_t
offset
=
0
;
offset
=
lseek
(
pFile
->
fd
,
0
,
SEEK_END
);
if
(
offset
<
0
)
goto
_err
;
pCompData
=
(
SCompData
*
)
malloc
(
sizeof
(
SCompData
)
+
sizeof
(
SCompCol
)
*
pDataCols
->
numOfCols
+
sizeof
(
TSCKSUM
));
if
(
pCompData
==
NULL
)
goto
_err
;
int
nColsNotAllNull
=
0
;
int32_t
toffset
=
0
;
for
(
int
ncol
=
0
;
ncol
<
pDataCols
->
numOfCols
;
ncol
++
)
{
SDataCol
*
pDataCol
=
pDataCols
->
cols
+
ncol
;
SCompCol
*
pCompCol
=
pCompData
->
cols
+
nColsNotAllNull
;
if
(
0
)
{
//
TODO: all data to commit are NULL
if
(
isNEleNull
(
pDataCol
,
rowsToWrite
)
)
{
//
all data to commit are NULL, just ignore it
continue
;
}
// Compress the data here
{
// TODO
}
pCompCol
->
colId
=
pDataCol
->
colId
;
pCompCol
->
type
=
pDataCol
->
type
;
pCompCol
->
len
=
TYPE_BYTES
[
pCompCol
->
type
]
*
rowsToWrite
;
// TODO: change it
pCompCol
->
offset
=
toffset
;
nColsNotAllNull
++
;
toffset
+=
pCompCol
->
len
;
}
ASSERT
(
nColsNotAllNull
>
0
&&
nColsNotAllNull
<=
pDataCols
->
numOfCols
);
pCompData
->
delimiter
=
TSDB_FILE_DELIMITER
;
pCompData
->
uid
=
pHelper
->
tableInfo
.
uid
;
pCompData
->
numOfCols
=
nColsNotAllNull
;
// Write SCompData + SCompCol part
size_t
tsize
=
sizeof
(
SCompData
)
+
sizeof
(
SCompCol
)
*
nColsNotAllNull
+
sizeof
(
TSCKSUM
);
taosCalcChecksumAppend
(
0
,
(
uint8_t
*
)
pCompData
,
tsize
);
if
(
twrite
(
pFile
->
fd
,
(
void
*
)
pCompData
,
tsize
)
<
tsize
)
goto
_err
;
// Write true data part
int
nCompCol
=
0
;
// Compress the data if neccessary
int
tcol
=
0
;
int32_t
toffset
=
0
;
int32_t
tsize
=
sizeof
(
SCompData
)
+
sizeof
(
SCompCol
)
*
nColsNotAllNull
+
sizeof
(
TSCKSUM
);
int32_t
lsize
=
tsize
;
for
(
int
ncol
=
0
;
ncol
<
pDataCols
->
numOfCols
;
ncol
++
)
{
ASSERT
(
nCompCol
<
nColsNotAllNull
)
;
if
(
tcol
>=
nColsNotAllNull
)
break
;
SDataCol
*
pDataCol
=
pDataCols
->
cols
+
ncol
;
SCompCol
*
pCompCol
=
pCompData
->
cols
+
nCompC
ol
;
SCompCol
*
pCompCol
=
pCompData
->
cols
+
tc
ol
;
if
(
pDataCol
->
colId
==
pCompCol
->
colId
)
{
if
(
twrite
(
pFile
->
fd
,
(
void
*
)(
pDataCol
->
pData
),
pCompCol
->
len
)
<
pCompCol
->
len
)
goto
_err
;
tsize
+=
pCompCol
->
len
;
nCompCol
++
;
if
(
pDataCol
->
colId
!=
pCompCol
->
colId
)
continue
;
void
*
tptr
=
(
void
*
)((
char
*
)
pCompData
+
lsize
);
pCompCol
->
offset
=
toffset
;
int32_t
tlen
=
dataColGetNEleLen
(
pDataCol
,
rowsToWrite
);
if
(
pHelper
->
config
.
compress
)
{
if
(
pHelper
->
config
.
compress
==
TWO_STAGE_COMP
)
{
pHelper
->
compBuffer
=
trealloc
(
pHelper
->
compBuffer
,
tlen
+
COMP_OVERFLOW_BYTES
);
if
(
pHelper
->
compBuffer
==
NULL
)
goto
_err
;
}
pCompCol
->
len
=
(
*
(
tDataTypeDesc
[
pDataCol
->
type
].
compFunc
))(
(
char
*
)
pDataCol
->
pData
,
tlen
,
rowsToWrite
,
tptr
,
tsizeof
(
pHelper
->
blockBuffer
)
-
lsize
,
pHelper
->
config
.
compress
,
pHelper
->
compBuffer
,
tsizeof
(
pHelper
->
compBuffer
));
}
else
{
pCompCol
->
len
=
tlen
;
memcpy
(
tptr
,
pDataCol
->
pData
,
pCompCol
->
len
);
}
// Add checksum
pCompCol
->
len
+=
sizeof
(
TSCKSUM
);
taosCalcChecksumAppend
(
0
,
(
uint8_t
*
)
tptr
,
pCompCol
->
len
);
toffset
+=
pCompCol
->
len
;
lsize
+=
pCompCol
->
len
;
tcol
++
;
}
pCompData
->
delimiter
=
TSDB_FILE_DELIMITER
;
pCompData
->
uid
=
pHelper
->
tableInfo
.
uid
;
pCompData
->
numOfCols
=
nColsNotAllNull
;
taosCalcChecksumAppend
(
0
,
(
uint8_t
*
)
pCompData
,
tsize
);
// Write the whole block to file
if
(
twrite
(
pFile
->
fd
,
(
void
*
)
pCompData
,
lsize
)
<
lsize
)
goto
_err
;
// Update pCompBlock membership vairables
pCompBlock
->
last
=
isLast
;
pCompBlock
->
offset
=
offset
;
pCompBlock
->
algorithm
=
pHelper
->
config
.
compress
;
pCompBlock
->
numOfPoints
=
rowsToWrite
;
pCompBlock
->
sversion
=
pHelper
->
tableInfo
.
sversion
;
pCompBlock
->
len
=
(
int32_t
)
t
size
;
pCompBlock
->
len
=
(
int32_t
)
l
size
;
pCompBlock
->
numOfSubBlocks
=
isSuperBlock
?
1
:
0
;
pCompBlock
->
numOfCols
=
nColsNotAllNull
;
pCompBlock
->
keyFirst
=
dataColsKeyFirst
(
pDataCols
);
pCompBlock
->
keyLast
=
dataColsKeyAt
(
pDataCols
,
rowsToWrite
-
1
);
tfree
(
pCompData
);
return
0
;
_err:
tfree
(
pCompData
);
return
-
1
;
}
...
...
@@ -782,7 +808,7 @@ static int tsdbMergeDataWithBlock(SRWHelper *pHelper, int blkIdx, SDataCols *pDa
TSKEY
keyFirst
=
dataColsKeyFirst
(
pDataCols
);
SCompIdx
*
pIdx
=
pHelper
->
pCompIdx
+
pHelper
->
tableInfo
.
tid
;
ASSERT
(
blkIdx
<
pIdx
->
numOf
Super
Blocks
);
ASSERT
(
blkIdx
<
pIdx
->
numOfBlocks
);
// SCompBlock *pCompBlock = pHelper->pCompInfo->blocks + blkIdx;
ASSERT
(
blockAtIdx
(
pHelper
,
blkIdx
)
->
numOfSubBlocks
>=
1
);
...
...
@@ -790,7 +816,7 @@ static int tsdbMergeDataWithBlock(SRWHelper *pHelper, int blkIdx, SDataCols *pDa
// ASSERT(compareKeyBlock((void *)&keyFirst, (void *)pCompBlock) == 0);
if
(
keyFirst
>
blockAtIdx
(
pHelper
,
blkIdx
)
->
keyLast
)
{
// Merge with the last block by append
ASSERT
(
blockAtIdx
(
pHelper
,
blkIdx
)
->
numOfPoints
<
pHelper
->
config
.
minRowsPerFileBlock
&&
blkIdx
==
pIdx
->
numOf
Super
Blocks
-
1
);
ASSERT
(
blockAtIdx
(
pHelper
,
blkIdx
)
->
numOfPoints
<
pHelper
->
config
.
minRowsPerFileBlock
&&
blkIdx
==
pIdx
->
numOfBlocks
-
1
);
int
defaultRowsToWrite
=
pHelper
->
config
.
maxRowsPerFileBlock
*
4
/
5
;
// TODO: make a interface
rowsWritten
=
MIN
((
defaultRowsToWrite
-
blockAtIdx
(
pHelper
,
blkIdx
)
->
numOfPoints
),
pDataCols
->
numOfPoints
);
...
...
@@ -961,7 +987,7 @@ static int tsdbAdjustInfoSizeIfNeeded(SRWHelper *pHelper, size_t esize) {
static
int
tsdbInsertSuperBlock
(
SRWHelper
*
pHelper
,
SCompBlock
*
pCompBlock
,
int
blkIdx
)
{
SCompIdx
*
pIdx
=
pHelper
->
pCompIdx
+
pHelper
->
tableInfo
.
tid
;
ASSERT
(
blkIdx
>=
0
&&
blkIdx
<=
pIdx
->
numOf
Super
Blocks
);
ASSERT
(
blkIdx
>=
0
&&
blkIdx
<=
pIdx
->
numOfBlocks
);
ASSERT
(
pCompBlock
->
numOfSubBlocks
==
1
);
// Adjust memory if no more room
...
...
@@ -1004,7 +1030,7 @@ static int tsdbAddSubBlock(SRWHelper *pHelper, SCompBlock *pCompBlock, int blkId
ASSERT
(
pCompBlock
->
numOfSubBlocks
==
0
);
SCompIdx
*
pIdx
=
pHelper
->
pCompIdx
+
pHelper
->
tableInfo
.
tid
;
ASSERT
(
blkIdx
>=
0
&&
blkIdx
<
pIdx
->
numOf
Super
Blocks
);
ASSERT
(
blkIdx
>=
0
&&
blkIdx
<
pIdx
->
numOfBlocks
);
SCompBlock
*
pSCompBlock
=
pHelper
->
pCompInfo
->
blocks
+
blkIdx
;
ASSERT
(
pSCompBlock
->
numOfSubBlocks
>=
1
&&
pSCompBlock
->
numOfSubBlocks
<
TSDB_MAX_SUBBLOCKS
);
...
...
@@ -1088,7 +1114,7 @@ static int tsdbUpdateSuperBlock(SRWHelper *pHelper, SCompBlock *pCompBlock, int
SCompIdx
*
pIdx
=
pHelper
->
pCompIdx
+
pHelper
->
tableInfo
.
tid
;
ASSERT
(
blkIdx
>=
0
&&
blkIdx
<
pIdx
->
numOf
Super
Blocks
);
ASSERT
(
blkIdx
>=
0
&&
blkIdx
<
pIdx
->
numOfBlocks
);
SCompBlock
*
pSCompBlock
=
pHelper
->
pCompInfo
->
blocks
+
blkIdx
;
...
...
src/tsdb/tests/tsdbTests.cpp
浏览文件 @
e242b4fd
...
...
@@ -27,7 +27,7 @@ typedef struct {
static
int
insertData
(
SInsertInfo
*
pInfo
)
{
SSubmitMsg
*
pMsg
=
(
SSubmitMsg
*
)
malloc
(
sizeof
(
SSubmitMsg
)
+
sizeof
(
SSubmitBlk
)
+
tdMaxRow
BytesFromSchema
(
pInfo
->
pSchema
)
*
pInfo
->
rowsPerSubmit
);
(
SSubmitMsg
*
)
malloc
(
sizeof
(
SSubmitMsg
)
+
sizeof
(
SSubmitBlk
)
+
dataRowMax
BytesFromSchema
(
pInfo
->
pSchema
)
*
pInfo
->
rowsPerSubmit
);
if
(
pMsg
==
NULL
)
return
-
1
;
TSKEY
start_time
=
pInfo
->
startTime
;
...
...
@@ -52,11 +52,12 @@ static int insertData(SInsertInfo *pInfo) {
tdInitDataRow
(
row
,
pInfo
->
pSchema
);
for
(
int
j
=
0
;
j
<
schemaNCols
(
pInfo
->
pSchema
);
j
++
)
{
STColumn
*
pTCol
=
schemaColAt
(
pInfo
->
pSchema
,
j
);
if
(
j
==
0
)
{
// Just for timestamp
tdAppendColVal
(
row
,
(
void
*
)(
&
start_time
),
schemaColAt
(
pInfo
->
pSchema
,
j
)
);
tdAppendColVal
(
row
,
(
void
*
)(
&
start_time
),
pTCol
->
type
,
pTCol
->
bytes
,
pTCol
->
offset
);
}
else
{
// For int
int
val
=
10
;
tdAppendColVal
(
row
,
(
void
*
)(
&
val
),
schemaColAt
(
pInfo
->
pSchema
,
j
)
);
tdAppendColVal
(
row
,
(
void
*
)(
&
val
),
pTCol
->
type
,
pTCol
->
bytes
,
pTCol
->
offset
);
}
}
pBlock
->
len
+=
dataRowLen
(
row
);
...
...
@@ -105,9 +106,9 @@ TEST(TsdbTest, DISABLED_tableEncodeDecode) {
for
(
int
i
=
0
;
i
<
nCols
;
i
++
)
{
if
(
i
==
0
)
{
tdSchemaA
ppen
dCol
(
schema
,
TSDB_DATA_TYPE_TIMESTAMP
,
i
,
-
1
);
tdSchemaA
d
dCol
(
schema
,
TSDB_DATA_TYPE_TIMESTAMP
,
i
,
-
1
);
}
else
{
tdSchemaA
ppen
dCol
(
schema
,
TSDB_DATA_TYPE_INT
,
i
,
-
1
);
tdSchemaA
d
dCol
(
schema
,
TSDB_DATA_TYPE_INT
,
i
,
-
1
);
}
}
...
...
@@ -149,9 +150,9 @@ TEST(TsdbTest, createRepo) {
for
(
int
i
=
0
;
i
<
nCols
;
i
++
)
{
if
(
i
==
0
)
{
tdSchemaA
ppen
dCol
(
schema
,
TSDB_DATA_TYPE_TIMESTAMP
,
i
,
-
1
);
tdSchemaA
d
dCol
(
schema
,
TSDB_DATA_TYPE_TIMESTAMP
,
i
,
-
1
);
}
else
{
tdSchemaA
ppen
dCol
(
schema
,
TSDB_DATA_TYPE_INT
,
i
,
-
1
);
tdSchemaA
d
dCol
(
schema
,
TSDB_DATA_TYPE_INT
,
i
,
-
1
);
}
}
...
...
@@ -244,7 +245,7 @@ TEST(TsdbTest, DISABLED_openRepo) {
// tsdbLoadCompCols(&pGroup->files[TSDB_FILE_TYPE_DATA], pBlock, (void *)pCompData);
// STable *pTable = tsdbGetTableByUid(pRepo->tsdbMeta, pCompData->uid);
// SDataCols *pDataCols = tdNewDataCols(tdMaxRowBytesFromSchema(tsdbGetTableSchema(pRepo->tsdbMeta, pTable)), 5
, 10
);
// SDataCols *pDataCols = tdNewDataCols(tdMaxRowBytesFromSchema(tsdbGetTableSchema(pRepo->tsdbMeta, pTable)), 5);
// tdInitDataCols(pDataCols, tsdbGetTableSchema(pRepo->tsdbMeta, pTable));
// tsdbLoadDataBlock(&pGroup->files[TSDB_FILE_TYPE_DATA], pBlock, 1, pDataCols, pCompData);
...
...
src/util/CMakeLists.txt
浏览文件 @
e242b4fd
...
...
@@ -11,7 +11,7 @@ IF ((TD_LINUX_64) OR (TD_LINUX_32 AND TD_ARM))
INCLUDE_DIRECTORIES
(
${
TD_COMMUNITY_DIR
}
/deps/lz4/inc
)
AUX_SOURCE_DIRECTORY
(
src SRC
)
ADD_LIBRARY
(
tutil
${
SRC
}
)
TARGET_LINK_LIBRARIES
(
tutil pthread os m rt
)
TARGET_LINK_LIBRARIES
(
tutil pthread os m rt
lz4
)
FIND_PATH
(
ICONV_INCLUDE_EXIST iconv.h /usr/include/ /usr/local/include/
)
IF
(
ICONV_INCLUDE_EXIST
)
ADD_DEFINITIONS
(
-DUSE_LIBICONV
)
...
...
@@ -68,7 +68,7 @@ ELSEIF (TD_WINDOWS_64)
LIST
(
APPEND SRC ./src/tutil.c
)
LIST
(
APPEND SRC ./src/version.c
)
ADD_LIBRARY
(
tutil
${
SRC
}
)
TARGET_LINK_LIBRARIES
(
tutil iconv regex pthread os winmm IPHLPAPI ws2_32
)
TARGET_LINK_LIBRARIES
(
tutil iconv regex pthread os winmm IPHLPAPI ws2_32
lz4
)
ELSEIF
(
TD_DARWIN_64
)
ADD_DEFINITIONS
(
-DUSE_LIBICONV
)
LIST
(
APPEND SRC ./src/hash.c
)
...
...
@@ -105,7 +105,7 @@ ELSEIF(TD_DARWIN_64)
LIST
(
APPEND SRC ./src/version.c
)
LIST
(
APPEND SRC ./src/hash.c
)
ADD_LIBRARY
(
tutil
${
SRC
}
)
TARGET_LINK_LIBRARIES
(
tutil iconv pthread os
)
TARGET_LINK_LIBRARIES
(
tutil iconv pthread os
lz4
)
ENDIF
()
# TARGET_LINK_LIBRARIES(tutil mstorage)
src/util/inc/tscompression.h
浏览文件 @
e242b4fd
...
...
@@ -21,7 +21,9 @@ extern "C" {
#endif
#include "taosdef.h"
#include "tutil.h"
#define COMP_OVERFLOW_BYTES 2
#define BITS_PER_BYTE 8
// Masks
#define INT64MASK(_x) ((1ul << _x) - 1)
...
...
@@ -32,43 +34,220 @@ extern "C" {
#define ONE_STAGE_COMP 1
#define TWO_STAGE_COMP 2
int
tsCompressTinyint
(
const
char
*
const
input
,
int
inputSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorithm
,
char
*
const
buffer
,
int
bufferSize
);
int
tsCompressSmallint
(
const
char
*
const
input
,
int
inputSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorith
,
char
*
const
buffer
,
int
bufferSize
);
int
tsCompressInt
(
const
char
*
const
input
,
int
inputSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorith
,
char
*
const
buffer
,
int
bufferSize
);
int
tsCompressBigint
(
const
char
*
const
input
,
int
inputSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorith
,
char
*
const
buffer
,
int
bufferSize
);
int
tsCompressBool
(
const
char
*
const
input
,
int
inputSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorithm
,
char
*
const
buffer
,
int
bufferSize
);
int
tsCompressString
(
const
char
*
const
input
,
int
inputSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorith
,
char
*
const
buffer
,
int
bufferSize
);
int
tsCompressFloat
(
const
char
*
const
input
,
int
inputSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorith
,
char
*
const
buffer
,
int
bufferSize
);
int
tsCompressDouble
(
const
char
*
const
input
,
int
inputSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorith
,
char
*
const
buffer
,
int
bufferSize
);
int
tsCompressTimestamp
(
const
char
*
const
input
,
int
inputSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorith
,
char
*
const
buffer
,
int
bufferSize
);
int
tsDecompressTinyint
(
const
char
*
const
input
,
int
compressedSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorithm
,
char
*
const
buffer
,
int
bufferSize
);
int
tsDecompressSmallint
(
const
char
*
const
input
,
int
compressedSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorithm
,
char
*
const
buffer
,
int
bufferSize
);
int
tsDecompressInt
(
const
char
*
const
input
,
int
compressedSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorithm
,
char
*
const
buffer
,
int
bufferSize
);
int
tsDecompressBigint
(
const
char
*
const
input
,
int
compressedSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorithm
,
char
*
const
buffer
,
int
bufferSize
);
int
tsDecompressBool
(
const
char
*
const
input
,
int
compressedSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorithm
,
char
*
const
buffer
,
int
bufferSize
);
int
tsDecompressString
(
const
char
*
const
input
,
int
compressedSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorithm
,
char
*
const
buffer
,
int
bufferSize
);
int
tsDecompressFloat
(
const
char
*
const
input
,
int
compressedSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorithm
,
char
*
const
buffer
,
int
bufferSize
);
int
tsDecompressDouble
(
const
char
*
const
input
,
int
compressedSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorith
,
char
*
const
buffer
,
int
bufferSize
);
int
tsDecompressTimestamp
(
const
char
*
const
input
,
int
compressedSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorithm
,
char
*
const
buffer
,
int
bufferSize
);
extern
int
tsCompressINTImp
(
const
char
*
const
input
,
const
int
nelements
,
char
*
const
output
,
const
char
type
);
extern
int
tsDecompressINTImp
(
const
char
*
const
input
,
const
int
nelements
,
char
*
const
output
,
const
char
type
);
extern
int
tsCompressBoolImp
(
const
char
*
const
input
,
const
int
nelements
,
char
*
const
output
);
extern
int
tsDecompressBoolImp
(
const
char
*
const
input
,
const
int
nelements
,
char
*
const
output
);
extern
int
tsCompressStringImp
(
const
char
*
const
input
,
int
inputSize
,
char
*
const
output
,
int
outputSize
);
extern
int
tsDecompressStringImp
(
const
char
*
const
input
,
int
compressedSize
,
char
*
const
output
,
int
outputSize
);
extern
int
tsCompressTimestampImp
(
const
char
*
const
input
,
const
int
nelements
,
char
*
const
output
);
extern
int
tsDecompressTimestampImp
(
const
char
*
const
input
,
const
int
nelements
,
char
*
const
output
);
extern
int
tsCompressDoubleImp
(
const
char
*
const
input
,
const
int
nelements
,
char
*
const
output
);
extern
int
tsDecompressDoubleImp
(
const
char
*
const
input
,
const
int
nelements
,
char
*
const
output
);
extern
int
tsCompressFloatImp
(
const
char
*
const
input
,
const
int
nelements
,
char
*
const
output
);
extern
int
tsDecompressFloatImp
(
const
char
*
const
input
,
const
int
nelements
,
char
*
const
output
);
static
FORCE_INLINE
int
tsCompressTinyint
(
const
char
*
const
input
,
int
inputSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorithm
,
char
*
const
buffer
,
int
bufferSize
)
{
if
(
algorithm
==
ONE_STAGE_COMP
)
{
return
tsCompressINTImp
(
input
,
nelements
,
output
,
TSDB_DATA_TYPE_TINYINT
);
}
else
if
(
algorithm
==
TWO_STAGE_COMP
)
{
int
len
=
tsCompressINTImp
(
input
,
nelements
,
buffer
,
TSDB_DATA_TYPE_TINYINT
);
return
tsCompressStringImp
(
buffer
,
len
,
output
,
outputSize
);
}
else
{
assert
(
0
);
}
}
static
FORCE_INLINE
int
tsDecompressTinyint
(
const
char
*
const
input
,
int
compressedSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorithm
,
char
*
const
buffer
,
int
bufferSize
)
{
if
(
algorithm
==
ONE_STAGE_COMP
)
{
return
tsDecompressINTImp
(
input
,
nelements
,
output
,
TSDB_DATA_TYPE_TINYINT
);
}
else
if
(
algorithm
==
TWO_STAGE_COMP
)
{
tsDecompressStringImp
(
input
,
compressedSize
,
buffer
,
bufferSize
);
return
tsDecompressINTImp
(
buffer
,
nelements
,
output
,
TSDB_DATA_TYPE_TINYINT
);
}
else
{
assert
(
0
);
}
}
static
FORCE_INLINE
int
tsCompressSmallint
(
const
char
*
const
input
,
int
inputSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorithm
,
char
*
const
buffer
,
int
bufferSize
)
{
if
(
algorithm
==
ONE_STAGE_COMP
)
{
return
tsCompressINTImp
(
input
,
nelements
,
output
,
TSDB_DATA_TYPE_SMALLINT
);
}
else
if
(
algorithm
==
TWO_STAGE_COMP
)
{
int
len
=
tsCompressINTImp
(
input
,
nelements
,
buffer
,
TSDB_DATA_TYPE_SMALLINT
);
return
tsCompressStringImp
(
buffer
,
len
,
output
,
outputSize
);
}
else
{
assert
(
0
);
}
}
static
FORCE_INLINE
int
tsDecompressSmallint
(
const
char
*
const
input
,
int
compressedSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorithm
,
char
*
const
buffer
,
int
bufferSize
)
{
if
(
algorithm
==
ONE_STAGE_COMP
)
{
return
tsDecompressINTImp
(
input
,
nelements
,
output
,
TSDB_DATA_TYPE_SMALLINT
);
}
else
if
(
algorithm
==
TWO_STAGE_COMP
)
{
tsDecompressStringImp
(
input
,
compressedSize
,
buffer
,
bufferSize
);
return
tsDecompressINTImp
(
buffer
,
nelements
,
output
,
TSDB_DATA_TYPE_SMALLINT
);
}
else
{
assert
(
0
);
}
}
static
FORCE_INLINE
int
tsCompressInt
(
const
char
*
const
input
,
int
inputSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorithm
,
char
*
const
buffer
,
int
bufferSize
)
{
if
(
algorithm
==
ONE_STAGE_COMP
)
{
return
tsCompressINTImp
(
input
,
nelements
,
output
,
TSDB_DATA_TYPE_INT
);
}
else
if
(
algorithm
==
TWO_STAGE_COMP
)
{
int
len
=
tsCompressINTImp
(
input
,
nelements
,
buffer
,
TSDB_DATA_TYPE_INT
);
return
tsCompressStringImp
(
buffer
,
len
,
output
,
outputSize
);
}
else
{
assert
(
0
);
}
}
static
FORCE_INLINE
int
tsDecompressInt
(
const
char
*
const
input
,
int
compressedSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorithm
,
char
*
const
buffer
,
int
bufferSize
)
{
if
(
algorithm
==
ONE_STAGE_COMP
)
{
return
tsDecompressINTImp
(
input
,
nelements
,
output
,
TSDB_DATA_TYPE_INT
);
}
else
if
(
algorithm
==
TWO_STAGE_COMP
)
{
tsDecompressStringImp
(
input
,
compressedSize
,
buffer
,
bufferSize
);
return
tsDecompressINTImp
(
buffer
,
nelements
,
output
,
TSDB_DATA_TYPE_INT
);
}
else
{
assert
(
0
);
}
}
static
FORCE_INLINE
int
tsCompressBigint
(
const
char
*
const
input
,
int
inputSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorithm
,
char
*
const
buffer
,
int
bufferSize
)
{
if
(
algorithm
==
ONE_STAGE_COMP
)
{
return
tsCompressINTImp
(
input
,
nelements
,
output
,
TSDB_DATA_TYPE_BIGINT
);
}
else
if
(
algorithm
==
TWO_STAGE_COMP
)
{
int
len
=
tsCompressINTImp
(
input
,
nelements
,
buffer
,
TSDB_DATA_TYPE_BIGINT
);
return
tsCompressStringImp
(
buffer
,
len
,
output
,
outputSize
);
}
else
{
assert
(
0
);
}
}
static
FORCE_INLINE
int
tsDecompressBigint
(
const
char
*
const
input
,
int
compressedSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorithm
,
char
*
const
buffer
,
int
bufferSize
)
{
if
(
algorithm
==
ONE_STAGE_COMP
)
{
return
tsDecompressINTImp
(
input
,
nelements
,
output
,
TSDB_DATA_TYPE_BIGINT
);
}
else
if
(
algorithm
==
TWO_STAGE_COMP
)
{
tsDecompressStringImp
(
input
,
compressedSize
,
buffer
,
bufferSize
);
return
tsDecompressINTImp
(
buffer
,
nelements
,
output
,
TSDB_DATA_TYPE_BIGINT
);
}
else
{
assert
(
0
);
}
}
static
FORCE_INLINE
int
tsCompressBool
(
const
char
*
const
input
,
int
inputSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorithm
,
char
*
const
buffer
,
int
bufferSize
)
{
if
(
algorithm
==
ONE_STAGE_COMP
)
{
return
tsCompressBoolImp
(
input
,
nelements
,
output
);
}
else
if
(
algorithm
==
TWO_STAGE_COMP
)
{
int
len
=
tsCompressBoolImp
(
input
,
nelements
,
buffer
);
return
tsCompressStringImp
(
buffer
,
len
,
output
,
outputSize
);
}
else
{
assert
(
0
);
}
}
static
FORCE_INLINE
int
tsDecompressBool
(
const
char
*
const
input
,
int
compressedSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorithm
,
char
*
const
buffer
,
int
bufferSize
)
{
if
(
algorithm
==
ONE_STAGE_COMP
)
{
return
tsDecompressBoolImp
(
input
,
nelements
,
output
);
}
else
if
(
algorithm
==
TWO_STAGE_COMP
)
{
tsDecompressStringImp
(
input
,
compressedSize
,
buffer
,
bufferSize
);
return
tsDecompressBoolImp
(
buffer
,
nelements
,
output
);
}
else
{
assert
(
0
);
}
}
static
FORCE_INLINE
int
tsCompressString
(
const
char
*
const
input
,
int
inputSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorithm
,
char
*
const
buffer
,
int
bufferSize
)
{
return
tsCompressStringImp
(
input
,
inputSize
,
output
,
outputSize
);
}
static
FORCE_INLINE
int
tsDecompressString
(
const
char
*
const
input
,
int
compressedSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorithm
,
char
*
const
buffer
,
int
bufferSize
)
{
return
tsDecompressStringImp
(
input
,
compressedSize
,
output
,
outputSize
);
}
static
FORCE_INLINE
int
tsCompressFloat
(
const
char
*
const
input
,
int
inputSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorithm
,
char
*
const
buffer
,
int
bufferSize
)
{
if
(
algorithm
==
ONE_STAGE_COMP
)
{
return
tsCompressFloatImp
(
input
,
nelements
,
output
);
}
else
if
(
algorithm
==
TWO_STAGE_COMP
)
{
int
len
=
tsCompressFloatImp
(
input
,
nelements
,
buffer
);
return
tsCompressStringImp
(
buffer
,
len
,
output
,
outputSize
);
}
else
{
assert
(
0
);
}
}
static
FORCE_INLINE
int
tsDecompressFloat
(
const
char
*
const
input
,
int
compressedSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorithm
,
char
*
const
buffer
,
int
bufferSize
)
{
if
(
algorithm
==
ONE_STAGE_COMP
)
{
return
tsDecompressFloatImp
(
input
,
nelements
,
output
);
}
else
if
(
algorithm
==
TWO_STAGE_COMP
)
{
tsDecompressStringImp
(
input
,
compressedSize
,
buffer
,
bufferSize
);
return
tsDecompressFloatImp
(
buffer
,
nelements
,
output
);
}
else
{
assert
(
0
);
}
}
static
FORCE_INLINE
int
tsCompressDouble
(
const
char
*
const
input
,
int
inputSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorithm
,
char
*
const
buffer
,
int
bufferSize
)
{
if
(
algorithm
==
ONE_STAGE_COMP
)
{
return
tsCompressDoubleImp
(
input
,
nelements
,
output
);
}
else
if
(
algorithm
==
TWO_STAGE_COMP
)
{
int
len
=
tsCompressDoubleImp
(
input
,
nelements
,
buffer
);
return
tsCompressStringImp
(
buffer
,
len
,
output
,
outputSize
);
}
else
{
assert
(
0
);
}
}
static
FORCE_INLINE
int
tsDecompressDouble
(
const
char
*
const
input
,
int
compressedSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorithm
,
char
*
const
buffer
,
int
bufferSize
)
{
if
(
algorithm
==
ONE_STAGE_COMP
)
{
return
tsDecompressDoubleImp
(
input
,
nelements
,
output
);
}
else
if
(
algorithm
==
TWO_STAGE_COMP
)
{
tsDecompressStringImp
(
input
,
compressedSize
,
buffer
,
bufferSize
);
return
tsDecompressDoubleImp
(
buffer
,
nelements
,
output
);
}
else
{
assert
(
0
);
}
}
static
FORCE_INLINE
int
tsCompressTimestamp
(
const
char
*
const
input
,
int
inputSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorithm
,
char
*
const
buffer
,
int
bufferSize
)
{
if
(
algorithm
==
ONE_STAGE_COMP
)
{
return
tsCompressTimestampImp
(
input
,
nelements
,
output
);
}
else
if
(
algorithm
==
TWO_STAGE_COMP
)
{
int
len
=
tsCompressTimestampImp
(
input
,
nelements
,
buffer
);
return
tsCompressStringImp
(
buffer
,
len
,
output
,
outputSize
);
}
else
{
assert
(
0
);
}
}
static
FORCE_INLINE
int
tsDecompressTimestamp
(
const
char
*
const
input
,
int
compressedSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorithm
,
char
*
const
buffer
,
int
bufferSize
)
{
if
(
algorithm
==
ONE_STAGE_COMP
)
{
return
tsDecompressTimestampImp
(
input
,
nelements
,
output
);
}
else
if
(
algorithm
==
TWO_STAGE_COMP
)
{
tsDecompressStringImp
(
input
,
compressedSize
,
buffer
,
bufferSize
);
return
tsDecompressTimestampImp
(
buffer
,
nelements
,
output
);
}
else
{
assert
(
0
);
}
}
#ifdef __cplusplus
}
...
...
src/util/inc/tutil.h
浏览文件 @
e242b4fd
...
...
@@ -44,7 +44,10 @@ extern "C" {
#define tclose(x) taosCloseSocket(x)
#ifdef ASSERTION
// Pointer p drift right by b bytes
#define POINTER_DRIFT(p, b) ((void *)((char *)(p) + (b)))
#ifndef NDEBUG
#define ASSERT(x) assert(x)
#else
#define ASSERT(x)
...
...
src/util/src/tcompression.c
浏览文件 @
e242b4fd
...
...
@@ -56,223 +56,6 @@ const int TEST_NUMBER = 1;
#define is_bigendian() ((*(char *)&TEST_NUMBER) == 0)
#define SIMPLE8B_MAX_INT64 ((uint64_t)2305843009213693951L)
// Function declarations
int
tsCompressINTImp
(
const
char
*
const
input
,
const
int
nelements
,
char
*
const
output
,
const
char
type
);
int
tsDecompressINTImp
(
const
char
*
const
input
,
const
int
nelements
,
char
*
const
output
,
const
char
type
);
int
tsCompressBoolImp
(
const
char
*
const
input
,
const
int
nelements
,
char
*
const
output
);
int
tsDecompressBoolImp
(
const
char
*
const
input
,
const
int
nelements
,
char
*
const
output
);
int
tsCompressStringImp
(
const
char
*
const
input
,
int
inputSize
,
char
*
const
output
,
int
outputSize
);
int
tsDecompressStringImp
(
const
char
*
const
input
,
int
compressedSize
,
char
*
const
output
,
int
outputSize
);
int
tsCompressTimestampImp
(
const
char
*
const
input
,
const
int
nelements
,
char
*
const
output
);
int
tsDecompressTimestampImp
(
const
char
*
const
input
,
const
int
nelements
,
char
*
const
output
);
int
tsCompressDoubleImp
(
const
char
*
const
input
,
const
int
nelements
,
char
*
const
output
);
int
tsDecompressDoubleImp
(
const
char
*
const
input
,
const
int
nelements
,
char
*
const
output
);
int
tsCompressFloatImp
(
const
char
*
const
input
,
const
int
nelements
,
char
*
const
output
);
int
tsDecompressFloatImp
(
const
char
*
const
input
,
const
int
nelements
,
char
*
const
output
);
/* ----------------------------------------------Compression function used by
* others ---------------------------------------------- */
int
tsCompressTinyint
(
const
char
*
const
input
,
int
inputSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorithm
,
char
*
const
buffer
,
int
bufferSize
)
{
if
(
algorithm
==
ONE_STAGE_COMP
)
{
return
tsCompressINTImp
(
input
,
nelements
,
output
,
TSDB_DATA_TYPE_TINYINT
);
}
else
if
(
algorithm
==
TWO_STAGE_COMP
)
{
int
len
=
tsCompressINTImp
(
input
,
nelements
,
buffer
,
TSDB_DATA_TYPE_TINYINT
);
return
tsCompressStringImp
(
buffer
,
len
,
output
,
outputSize
);
}
else
{
assert
(
0
);
}
}
int
tsDecompressTinyint
(
const
char
*
const
input
,
int
compressedSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorithm
,
char
*
const
buffer
,
int
bufferSize
)
{
if
(
algorithm
==
ONE_STAGE_COMP
)
{
return
tsDecompressINTImp
(
input
,
nelements
,
output
,
TSDB_DATA_TYPE_TINYINT
);
}
else
if
(
algorithm
==
TWO_STAGE_COMP
)
{
tsDecompressStringImp
(
input
,
compressedSize
,
buffer
,
bufferSize
);
return
tsDecompressINTImp
(
buffer
,
nelements
,
output
,
TSDB_DATA_TYPE_TINYINT
);
}
else
{
assert
(
0
);
}
}
int
tsCompressSmallint
(
const
char
*
const
input
,
int
inputSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorithm
,
char
*
const
buffer
,
int
bufferSize
)
{
if
(
algorithm
==
ONE_STAGE_COMP
)
{
return
tsCompressINTImp
(
input
,
nelements
,
output
,
TSDB_DATA_TYPE_SMALLINT
);
}
else
if
(
algorithm
==
TWO_STAGE_COMP
)
{
int
len
=
tsCompressINTImp
(
input
,
nelements
,
buffer
,
TSDB_DATA_TYPE_SMALLINT
);
return
tsCompressStringImp
(
buffer
,
len
,
output
,
outputSize
);
}
else
{
assert
(
0
);
}
}
int
tsDecompressSmallint
(
const
char
*
const
input
,
int
compressedSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorithm
,
char
*
const
buffer
,
int
bufferSize
)
{
if
(
algorithm
==
ONE_STAGE_COMP
)
{
return
tsDecompressINTImp
(
input
,
nelements
,
output
,
TSDB_DATA_TYPE_SMALLINT
);
}
else
if
(
algorithm
==
TWO_STAGE_COMP
)
{
tsDecompressStringImp
(
input
,
compressedSize
,
buffer
,
bufferSize
);
return
tsDecompressINTImp
(
buffer
,
nelements
,
output
,
TSDB_DATA_TYPE_SMALLINT
);
}
else
{
assert
(
0
);
}
}
int
tsCompressInt
(
const
char
*
const
input
,
int
inputSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorithm
,
char
*
const
buffer
,
int
bufferSize
)
{
if
(
algorithm
==
ONE_STAGE_COMP
)
{
return
tsCompressINTImp
(
input
,
nelements
,
output
,
TSDB_DATA_TYPE_INT
);
}
else
if
(
algorithm
==
TWO_STAGE_COMP
)
{
int
len
=
tsCompressINTImp
(
input
,
nelements
,
buffer
,
TSDB_DATA_TYPE_INT
);
return
tsCompressStringImp
(
buffer
,
len
,
output
,
outputSize
);
}
else
{
assert
(
0
);
}
}
int
tsDecompressInt
(
const
char
*
const
input
,
int
compressedSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorithm
,
char
*
const
buffer
,
int
bufferSize
)
{
if
(
algorithm
==
ONE_STAGE_COMP
)
{
return
tsDecompressINTImp
(
input
,
nelements
,
output
,
TSDB_DATA_TYPE_INT
);
}
else
if
(
algorithm
==
TWO_STAGE_COMP
)
{
tsDecompressStringImp
(
input
,
compressedSize
,
buffer
,
bufferSize
);
return
tsDecompressINTImp
(
buffer
,
nelements
,
output
,
TSDB_DATA_TYPE_INT
);
}
else
{
assert
(
0
);
}
}
int
tsCompressBigint
(
const
char
*
const
input
,
int
inputSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorithm
,
char
*
const
buffer
,
int
bufferSize
)
{
if
(
algorithm
==
ONE_STAGE_COMP
)
{
return
tsCompressINTImp
(
input
,
nelements
,
output
,
TSDB_DATA_TYPE_BIGINT
);
}
else
if
(
algorithm
==
TWO_STAGE_COMP
)
{
int
len
=
tsCompressINTImp
(
input
,
nelements
,
buffer
,
TSDB_DATA_TYPE_BIGINT
);
return
tsCompressStringImp
(
buffer
,
len
,
output
,
outputSize
);
}
else
{
assert
(
0
);
}
}
int
tsDecompressBigint
(
const
char
*
const
input
,
int
compressedSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorithm
,
char
*
const
buffer
,
int
bufferSize
)
{
if
(
algorithm
==
ONE_STAGE_COMP
)
{
return
tsDecompressINTImp
(
input
,
nelements
,
output
,
TSDB_DATA_TYPE_BIGINT
);
}
else
if
(
algorithm
==
TWO_STAGE_COMP
)
{
tsDecompressStringImp
(
input
,
compressedSize
,
buffer
,
bufferSize
);
return
tsDecompressINTImp
(
buffer
,
nelements
,
output
,
TSDB_DATA_TYPE_BIGINT
);
}
else
{
assert
(
0
);
}
}
int
tsCompressBool
(
const
char
*
const
input
,
int
inputSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorithm
,
char
*
const
buffer
,
int
bufferSize
)
{
if
(
algorithm
==
ONE_STAGE_COMP
)
{
return
tsCompressBoolImp
(
input
,
nelements
,
output
);
}
else
if
(
algorithm
==
TWO_STAGE_COMP
)
{
int
len
=
tsCompressBoolImp
(
input
,
nelements
,
buffer
);
return
tsCompressStringImp
(
buffer
,
len
,
output
,
outputSize
);
}
else
{
assert
(
0
);
}
}
int
tsDecompressBool
(
const
char
*
const
input
,
int
compressedSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorithm
,
char
*
const
buffer
,
int
bufferSize
)
{
if
(
algorithm
==
ONE_STAGE_COMP
)
{
return
tsDecompressBoolImp
(
input
,
nelements
,
output
);
}
else
if
(
algorithm
==
TWO_STAGE_COMP
)
{
tsDecompressStringImp
(
input
,
compressedSize
,
buffer
,
bufferSize
);
return
tsDecompressBoolImp
(
buffer
,
nelements
,
output
);
}
else
{
assert
(
0
);
}
}
int
tsCompressString
(
const
char
*
const
input
,
int
inputSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorithm
,
char
*
const
buffer
,
int
bufferSize
)
{
return
tsCompressStringImp
(
input
,
inputSize
,
output
,
outputSize
);
}
int
tsDecompressString
(
const
char
*
const
input
,
int
compressedSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorithm
,
char
*
const
buffer
,
int
bufferSize
)
{
return
tsDecompressStringImp
(
input
,
compressedSize
,
output
,
outputSize
);
}
int
tsCompressFloat
(
const
char
*
const
input
,
int
inputSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorithm
,
char
*
const
buffer
,
int
bufferSize
)
{
if
(
algorithm
==
ONE_STAGE_COMP
)
{
return
tsCompressFloatImp
(
input
,
nelements
,
output
);
}
else
if
(
algorithm
==
TWO_STAGE_COMP
)
{
int
len
=
tsCompressFloatImp
(
input
,
nelements
,
buffer
);
return
tsCompressStringImp
(
buffer
,
len
,
output
,
outputSize
);
}
else
{
assert
(
0
);
}
}
int
tsDecompressFloat
(
const
char
*
const
input
,
int
compressedSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorithm
,
char
*
const
buffer
,
int
bufferSize
)
{
if
(
algorithm
==
ONE_STAGE_COMP
)
{
return
tsDecompressFloatImp
(
input
,
nelements
,
output
);
}
else
if
(
algorithm
==
TWO_STAGE_COMP
)
{
tsDecompressStringImp
(
input
,
compressedSize
,
buffer
,
bufferSize
);
return
tsDecompressFloatImp
(
buffer
,
nelements
,
output
);
}
else
{
assert
(
0
);
}
}
int
tsCompressDouble
(
const
char
*
const
input
,
int
inputSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorithm
,
char
*
const
buffer
,
int
bufferSize
)
{
if
(
algorithm
==
ONE_STAGE_COMP
)
{
return
tsCompressDoubleImp
(
input
,
nelements
,
output
);
}
else
if
(
algorithm
==
TWO_STAGE_COMP
)
{
int
len
=
tsCompressDoubleImp
(
input
,
nelements
,
buffer
);
return
tsCompressStringImp
(
buffer
,
len
,
output
,
outputSize
);
}
else
{
assert
(
0
);
}
}
int
tsDecompressDouble
(
const
char
*
const
input
,
int
compressedSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorithm
,
char
*
const
buffer
,
int
bufferSize
)
{
if
(
algorithm
==
ONE_STAGE_COMP
)
{
return
tsDecompressDoubleImp
(
input
,
nelements
,
output
);
}
else
if
(
algorithm
==
TWO_STAGE_COMP
)
{
tsDecompressStringImp
(
input
,
compressedSize
,
buffer
,
bufferSize
);
return
tsDecompressDoubleImp
(
buffer
,
nelements
,
output
);
}
else
{
assert
(
0
);
}
}
int
tsCompressTimestamp
(
const
char
*
const
input
,
int
inputSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorithm
,
char
*
const
buffer
,
int
bufferSize
)
{
if
(
algorithm
==
ONE_STAGE_COMP
)
{
return
tsCompressTimestampImp
(
input
,
nelements
,
output
);
}
else
if
(
algorithm
==
TWO_STAGE_COMP
)
{
int
len
=
tsCompressTimestampImp
(
input
,
nelements
,
buffer
);
return
tsCompressStringImp
(
buffer
,
len
,
output
,
outputSize
);
}
else
{
assert
(
0
);
}
}
int
tsDecompressTimestamp
(
const
char
*
const
input
,
int
compressedSize
,
const
int
nelements
,
char
*
const
output
,
int
outputSize
,
char
algorithm
,
char
*
const
buffer
,
int
bufferSize
)
{
if
(
algorithm
==
ONE_STAGE_COMP
)
{
return
tsDecompressTimestampImp
(
input
,
nelements
,
output
);
}
else
if
(
algorithm
==
TWO_STAGE_COMP
)
{
tsDecompressStringImp
(
input
,
compressedSize
,
buffer
,
bufferSize
);
return
tsDecompressTimestampImp
(
buffer
,
nelements
,
output
);
}
else
{
assert
(
0
);
}
}
bool
safeInt64Add
(
int64_t
a
,
int64_t
b
)
{
if
((
a
>
0
&&
b
>
INT64_MAX
-
a
)
||
(
a
<
0
&&
b
<
INT64_MIN
-
a
))
return
false
;
return
true
;
...
...
src/vnode/src/vnodeMain.c
浏览文件 @
e242b4fd
...
...
@@ -96,14 +96,16 @@ int32_t vnodeCreate(SMDCreateVnodeMsg *pVnodeCfg) {
}
STsdbCfg
tsdbCfg
=
{
0
};
tsdbCfg
.
precision
=
pVnodeCfg
->
cfg
.
precision
;
tsdbCfg
.
compression
=
pVnodeCfg
->
cfg
.
compression
;;
tsdbCfg
.
tsdbId
=
pVnodeCfg
->
cfg
.
vgId
;
tsdbCfg
.
cacheBlockSize
=
pVnodeCfg
->
cfg
.
cacheBlockSize
;
tsdbCfg
.
totalBlocks
=
pVnodeCfg
->
cfg
.
totalBlocks
;
tsdbCfg
.
maxTables
=
pVnodeCfg
->
cfg
.
maxTables
;
tsdbCfg
.
daysPerFile
=
pVnodeCfg
->
cfg
.
daysPerFile
;
tsdbCfg
.
keep
=
pVnodeCfg
->
cfg
.
daysToKeep
;
tsdbCfg
.
minRowsPerFileBlock
=
pVnodeCfg
->
cfg
.
minRowsPerFileBlock
;
tsdbCfg
.
maxRowsPerFileBlock
=
pVnodeCfg
->
cfg
.
maxRowsPerFileBlock
;
tsdbCfg
.
keep
=
pVnodeCfg
->
cfg
.
daysToKeep
;
tsdbCfg
.
precision
=
pVnodeCfg
->
cfg
.
precision
;
tsdbCfg
.
compression
=
pVnodeCfg
->
cfg
.
compression
;;
char
tsdbDir
[
TSDB_FILENAME_LEN
]
=
{
0
};
sprintf
(
tsdbDir
,
"%s/vnode%d/tsdb"
,
tsVnodeDir
,
pVnodeCfg
->
cfg
.
vgId
);
...
...
src/vnode/src/vnodeWrite.c
浏览文件 @
e242b4fd
...
...
@@ -123,7 +123,7 @@ static int32_t vnodeProcessCreateTableMsg(SVnodeObj *pVnode, void *pCont, SRspRe
STSchema
*
pDestSchema
=
tdNewSchema
(
numOfColumns
);
for
(
int
i
=
0
;
i
<
numOfColumns
;
i
++
)
{
tdSchemaA
ppen
dCol
(
pDestSchema
,
pSchema
[
i
].
type
,
htons
(
pSchema
[
i
].
colId
),
htons
(
pSchema
[
i
].
bytes
));
tdSchemaA
d
dCol
(
pDestSchema
,
pSchema
[
i
].
type
,
htons
(
pSchema
[
i
].
colId
),
htons
(
pSchema
[
i
].
bytes
));
}
tsdbTableSetSchema
(
&
tCfg
,
pDestSchema
,
false
);
tsdbTableSetName
(
&
tCfg
,
pTable
->
tableId
,
false
);
...
...
@@ -131,7 +131,7 @@ static int32_t vnodeProcessCreateTableMsg(SVnodeObj *pVnode, void *pCont, SRspRe
if
(
numOfTags
!=
0
)
{
STSchema
*
pDestTagSchema
=
tdNewSchema
(
numOfTags
);
for
(
int
i
=
numOfColumns
;
i
<
totalCols
;
i
++
)
{
tdSchemaA
ppen
dCol
(
pDestTagSchema
,
pSchema
[
i
].
type
,
htons
(
pSchema
[
i
].
colId
),
htons
(
pSchema
[
i
].
bytes
));
tdSchemaA
d
dCol
(
pDestTagSchema
,
pSchema
[
i
].
type
,
htons
(
pSchema
[
i
].
colId
),
htons
(
pSchema
[
i
].
bytes
));
}
tsdbTableSetTagSchema
(
&
tCfg
,
pDestTagSchema
,
false
);
tsdbTableSetSName
(
&
tCfg
,
pTable
->
superTableId
,
false
);
...
...
@@ -141,7 +141,8 @@ static int32_t vnodeProcessCreateTableMsg(SVnodeObj *pVnode, void *pCont, SRspRe
SDataRow
dataRow
=
tdNewDataRowFromSchema
(
pDestTagSchema
);
for
(
int
i
=
0
;
i
<
numOfTags
;
i
++
)
{
tdAppendColVal
(
dataRow
,
pTagData
+
accumBytes
,
pDestTagSchema
->
columns
+
i
);
STColumn
*
pTCol
=
schemaColAt
(
pDestSchema
,
i
);
tdAppendColVal
(
dataRow
,
pTagData
+
accumBytes
,
pTCol
->
type
,
pTCol
->
bytes
,
pTCol
->
offset
);
accumBytes
+=
htons
(
pSchema
[
i
+
numOfColumns
].
bytes
);
}
tsdbTableSetTagValue
(
&
tCfg
,
dataRow
,
false
);
...
...
@@ -188,14 +189,14 @@ static int32_t vnodeProcessAlterTableMsg(SVnodeObj *pVnode, void *pCont, SRspRet
STSchema
*
pDestSchema
=
tdNewSchema
(
numOfColumns
);
for
(
int
i
=
0
;
i
<
numOfColumns
;
i
++
)
{
tdSchemaA
ppen
dCol
(
pDestSchema
,
pSchema
[
i
].
type
,
htons
(
pSchema
[
i
].
colId
),
htons
(
pSchema
[
i
].
bytes
));
tdSchemaA
d
dCol
(
pDestSchema
,
pSchema
[
i
].
type
,
htons
(
pSchema
[
i
].
colId
),
htons
(
pSchema
[
i
].
bytes
));
}
tsdbTableSetSchema
(
&
tCfg
,
pDestSchema
,
false
);
if
(
numOfTags
!=
0
)
{
STSchema
*
pDestTagSchema
=
tdNewSchema
(
numOfTags
);
for
(
int
i
=
numOfColumns
;
i
<
totalCols
;
i
++
)
{
tdSchemaA
ppen
dCol
(
pDestTagSchema
,
pSchema
[
i
].
type
,
htons
(
pSchema
[
i
].
colId
),
htons
(
pSchema
[
i
].
bytes
));
tdSchemaA
d
dCol
(
pDestTagSchema
,
pSchema
[
i
].
type
,
htons
(
pSchema
[
i
].
colId
),
htons
(
pSchema
[
i
].
bytes
));
}
tsdbTableSetTagSchema
(
&
tCfg
,
pDestTagSchema
,
false
);
...
...
@@ -204,7 +205,8 @@ static int32_t vnodeProcessAlterTableMsg(SVnodeObj *pVnode, void *pCont, SRspRet
SDataRow
dataRow
=
tdNewDataRowFromSchema
(
pDestTagSchema
);
for
(
int
i
=
0
;
i
<
numOfTags
;
i
++
)
{
tdAppendColVal
(
dataRow
,
pTagData
+
accumBytes
,
pDestTagSchema
->
columns
+
i
);
STColumn
*
pTCol
=
schemaColAt
(
pDestTagSchema
,
i
);
tdAppendColVal
(
dataRow
,
pTagData
+
accumBytes
,
pTCol
->
type
,
pTCol
->
bytes
,
pTCol
->
offset
);
accumBytes
+=
htons
(
pSchema
[
i
+
numOfColumns
].
bytes
);
}
tsdbTableSetTagValue
(
&
tCfg
,
dataRow
,
false
);
...
...
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