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60b48e3e
编写于
1月 16, 2022
作者:
dengyihao
浏览文件
操作
浏览文件
下载
电子邮件补丁
差异文件
refactor code
上级
fdb79077
变更
8
展开全部
显示空白变更内容
内联
并排
Showing
8 changed file
with
727 addition
and
456 deletion
+727
-456
source/libs/transport/inc/rpcHead.h
source/libs/transport/inc/rpcHead.h
+0
-26
source/libs/transport/inc/rpcTcp.h
source/libs/transport/inc/rpcTcp.h
+0
-4
source/libs/transport/inc/transportInt.h
source/libs/transport/inc/transportInt.h
+1
-0
source/libs/transport/src/rpcCache.c
source/libs/transport/src/rpcCache.c
+0
-4
source/libs/transport/src/rpcMain.c
source/libs/transport/src/rpcMain.c
+29
-410
source/libs/transport/src/rpcTcp.c
source/libs/transport/src/rpcTcp.c
+0
-8
source/libs/transport/src/rpcUdp.c
source/libs/transport/src/rpcUdp.c
+0
-4
source/libs/transport/src/transport.c
source/libs/transport/src/transport.c
+697
-0
未找到文件。
source/libs/transport/inc/rpcHead.h
浏览文件 @
60b48e3e
...
...
@@ -21,31 +21,6 @@
extern
"C"
{
#endif
#ifdef USE_UV
typedef
struct
{
char
version
:
4
;
// RPC version
char
comp
:
4
;
// compression algorithm, 0:no compression 1:lz4
char
resflag
:
2
;
// reserved bits
char
spi
:
3
;
// security parameter index
char
encrypt
:
3
;
// encrypt algorithm, 0: no encryption
uint16_t
tranId
;
// transcation ID
uint32_t
linkUid
;
// for unique connection ID assigned by client
uint64_t
ahandle
;
// ahandle assigned by client
uint32_t
sourceId
;
// source ID, an index for connection list
uint32_t
destId
;
// destination ID, an index for connection list
uint32_t
destIp
;
// destination IP address, for NAT scenario
char
user
[
TSDB_UNI_LEN
];
// user ID
uint16_t
port
;
// for UDP only, port may be changed
char
empty
[
1
];
// reserved
uint16_t
msgType
;
// message type
int32_t
msgLen
;
// message length including the header iteslf
uint32_t
msgVer
;
int32_t
code
;
// code in response message
uint8_t
content
[
0
];
// message body starts from here
}
SRpcHead
;
#else
#define RPC_CONN_TCP 2
extern
int
tsRpcOverhead
;
...
...
@@ -96,7 +71,6 @@ typedef struct {
}
SRpcDigest
;
#pragma pack(pop)
#endif
#ifdef __cplusplus
}
...
...
source/libs/transport/inc/rpcTcp.h
浏览文件 @
60b48e3e
...
...
@@ -21,8 +21,6 @@
extern
"C"
{
#endif
#ifdef USE_UV
#else
void
*
taosInitTcpServer
(
uint32_t
ip
,
uint16_t
port
,
char
*
label
,
int
numOfThreads
,
void
*
fp
,
void
*
shandle
);
void
taosStopTcpServer
(
void
*
param
);
void
taosCleanUpTcpServer
(
void
*
param
);
...
...
@@ -35,8 +33,6 @@ void *taosOpenTcpClientConnection(void *shandle, void *thandle, uint32_t ip, uin
void
taosCloseTcpConnection
(
void
*
chandle
);
int
taosSendTcpData
(
uint32_t
ip
,
uint16_t
port
,
void
*
data
,
int
len
,
void
*
chandle
);
#endif
#ifdef __cplusplus
}
#endif
...
...
source/libs/transport/inc/transportInt.h
浏览文件 @
60b48e3e
...
...
@@ -16,6 +16,7 @@
#ifndef _TD_TRANSPORT_INT_H_
#define _TD_TRANSPORT_INT_H_
#include "rpcHead.h"
#ifdef __cplusplus
extern
"C"
{
#endif
...
...
source/libs/transport/src/rpcCache.c
浏览文件 @
60b48e3e
...
...
@@ -22,9 +22,6 @@
#include "ttimer.h"
#include "tutil.h"
#ifdef USE_UV
#else
typedef
struct
SConnHash
{
char
fqdn
[
TSDB_FQDN_LEN
];
uint16_t
port
;
...
...
@@ -295,4 +292,3 @@ static void rpcUnlockCache(int64_t *lockedBy) {
assert
(
false
);
}
}
#endif
source/libs/transport/src/rpcMain.c
浏览文件 @
60b48e3e
...
...
@@ -13,9 +13,6 @@
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#ifdef USE_UV
#include <uv.h>
#endif
#include "lz4.h"
#include "os.h"
#include "rpcCache.h"
...
...
@@ -36,6 +33,17 @@
#include "ttimer.h"
#include "tutil.h"
static
pthread_once_t
tsRpcInitOnce
=
PTHREAD_ONCE_INIT
;
int
tsRpcMaxUdpSize
=
15000
;
// bytes
int
tsProgressTimer
=
100
;
// not configurable
int
tsRpcMaxRetry
;
int
tsRpcHeadSize
;
int
tsRpcOverhead
;
#ifndef USE_UV
typedef
struct
{
int
sessions
;
// number of sessions allowed
int
numOfThreads
;
// number of threads to process incoming messages
...
...
@@ -51,28 +59,28 @@ typedef struct {
char
secret
[
TSDB_PASSWORD_LEN
];
// secret for the link
char
ckey
[
TSDB_PASSWORD_LEN
];
// ciphering key
void
(
*
cfp
)(
void
*
parent
,
SRpcMsg
*
,
SEpSet
*
);
int
(
*
afp
)(
void
*
parent
,
char
*
user
,
char
*
spi
,
char
*
encrypt
,
char
*
secret
,
char
*
ckey
);
void
(
*
cfp
)(
void
*
parent
,
SRpcMsg
*
,
SEpSet
*
);
int
(
*
afp
)(
void
*
parent
,
char
*
user
,
char
*
spi
,
char
*
encrypt
,
char
*
secret
,
char
*
ckey
);
int32_t
refCount
;
void
*
parent
;
void
*
idPool
;
// handle to ID pool
void
*
tmrCtrl
;
// handle to timer
SHashObj
*
hash
;
// handle returned by hash utility
void
*
tcphandle
;
// returned handle from TCP initialization
void
*
udphandle
;
// returned handle from UDP initialization
void
*
pCache
;
// connection cache
void
*
parent
;
void
*
idPool
;
// handle to ID pool
void
*
tmrCtrl
;
// handle to timer
SHashObj
*
hash
;
// handle returned by hash utility
void
*
tcphandle
;
// returned handle from TCP initialization
void
*
udphandle
;
// returned handle from UDP initialization
void
*
pCache
;
// connection cache
pthread_mutex_t
mutex
;
struct
SRpcConn
*
connList
;
// connection list
struct
SRpcConn
*
connList
;
// connection list
}
SRpcInfo
;
typedef
struct
{
SRpcInfo
*
pRpc
;
// associated SRpcInfo
SRpcInfo
*
pRpc
;
// associated SRpcInfo
SEpSet
epSet
;
// ip list provided by app
void
*
ahandle
;
// handle provided by app
struct
SRpcConn
*
pConn
;
// pConn allocated
void
*
ahandle
;
// handle provided by app
struct
SRpcConn
*
pConn
;
// pConn allocated
tmsg_t
msgType
;
// message type
uint8_t
*
pCont
;
// content provided by app
uint8_t
*
pCont
;
// content provided by app
int32_t
contLen
;
// content length
int32_t
code
;
// error code
int16_t
numOfTry
;
// number of try for different servers
...
...
@@ -80,394 +88,14 @@ typedef struct {
int8_t
redirect
;
// flag to indicate redirect
int8_t
connType
;
// connection type
int64_t
rid
;
// refId returned by taosAddRef
SRpcMsg
*
pRsp
;
// for synchronous API
tsem_t
*
pSem
;
// for synchronous API
SEpSet
*
pSet
;
// for synchronous API
SRpcMsg
*
pRsp
;
// for synchronous API
tsem_t
*
pSem
;
// for synchronous API
SEpSet
*
pSet
;
// for synchronous API
char
msg
[
0
];
// RpcHead starts from here
}
SRpcReqContext
;
#ifdef USE_UV
#define container_of(ptr, type, member) ((type*)((char*)(ptr)-offsetof(type, member)))
#define RPC_RESERVE_SIZE (sizeof(SRpcReqContext))
static
const
char
*
notify
=
"a"
;
typedef
struct
SThreadObj
{
pthread_t
thread
;
uv_pipe_t
*
pipe
;
uv_loop_t
*
loop
;
uv_async_t
*
workerAsync
;
//
int
fd
;
queue
conn
;
pthread_mutex_t
connMtx
;
}
SThreadObj
;
typedef
struct
SServerObj
{
pthread_t
thread
;
uv_tcp_t
server
;
uv_loop_t
*
loop
;
int
workerIdx
;
int
numOfThread
;
SThreadObj
**
pThreadObj
;
uv_pipe_t
**
pipe
;
uint32_t
ip
;
uint32_t
port
;
}
SServerObj
;
typedef
struct
SConnBuffer
{
char
*
buf
;
int
len
;
int
cap
;
int
left
;
}
SConnBuffer
;
typedef
struct
SConnCtx
{
uv_tcp_t
*
pTcp
;
uv_write_t
*
pWriter
;
uv_timer_t
*
pTimer
;
uv_async_t
*
pWorkerAsync
;
queue
queue
;
int
ref
;
int
persist
;
// persist connection or not
SConnBuffer
connBuf
;
int
count
;
}
SConnCtx
;
static
void
uvAllocConnBufferCb
(
uv_handle_t
*
handle
,
size_t
suggested_size
,
uv_buf_t
*
buf
);
static
void
uvAllocReadBufferCb
(
uv_handle_t
*
handle
,
size_t
suggested_size
,
uv_buf_t
*
buf
);
static
void
uvOnReadCb
(
uv_stream_t
*
cli
,
ssize_t
nread
,
const
uv_buf_t
*
buf
);
static
void
uvOnTimeoutCb
(
uv_timer_t
*
handle
);
static
void
uvOnWriteCb
(
uv_write_t
*
req
,
int
status
);
static
void
uvOnAcceptCb
(
uv_stream_t
*
stream
,
int
status
);
static
void
uvOnConnectionCb
(
uv_stream_t
*
q
,
ssize_t
nread
,
const
uv_buf_t
*
buf
);
static
void
uvWorkerAsyncCb
(
uv_async_t
*
handle
);
static
SConnCtx
*
connCtxCreate
();
static
void
connCtxDestroy
(
SConnCtx
*
ctx
);
static
void
uvConnCtxDestroy
(
uv_handle_t
*
handle
);
static
void
*
workerThread
(
void
*
arg
);
static
void
*
acceptThread
(
void
*
arg
);
void
*
taosInitServer
(
uint32_t
ip
,
uint32_t
port
,
char
*
label
,
int
numOfThreads
,
void
*
fp
,
void
*
shandle
);
int32_t
rpcInit
()
{
return
-
1
;
}
void
rpcCleanup
()
{
return
;
};
void
*
taosInitClient
(
uint32_t
ip
,
uint32_t
port
,
char
*
label
,
int
numOfThreads
,
void
*
fp
,
void
*
shandle
)
{
// opte
}
void
*
taosInitServer
(
uint32_t
ip
,
uint32_t
port
,
char
*
label
,
int
numOfThreads
,
void
*
fp
,
void
*
shandle
)
{
SServerObj
*
srv
=
calloc
(
1
,
sizeof
(
SServerObj
));
srv
->
loop
=
(
uv_loop_t
*
)
malloc
(
sizeof
(
uv_loop_t
));
srv
->
numOfThread
=
numOfThreads
;
srv
->
workerIdx
=
0
;
srv
->
pThreadObj
=
(
SThreadObj
**
)
calloc
(
srv
->
numOfThread
,
sizeof
(
SThreadObj
*
));
srv
->
pipe
=
(
uv_pipe_t
**
)
calloc
(
srv
->
numOfThread
,
sizeof
(
uv_pipe_t
*
));
srv
->
ip
=
ip
;
srv
->
port
=
port
;
uv_loop_init
(
srv
->
loop
);
for
(
int
i
=
0
;
i
<
srv
->
numOfThread
;
i
++
)
{
SThreadObj
*
thrd
=
(
SThreadObj
*
)
calloc
(
1
,
sizeof
(
SThreadObj
));
srv
->
pipe
[
i
]
=
(
uv_pipe_t
*
)
calloc
(
2
,
sizeof
(
uv_pipe_t
));
int
fds
[
2
];
if
(
uv_socketpair
(
AF_UNIX
,
SOCK_STREAM
,
fds
,
UV_NONBLOCK_PIPE
,
UV_NONBLOCK_PIPE
)
!=
0
)
{
return
NULL
;
}
uv_pipe_init
(
srv
->
loop
,
&
(
srv
->
pipe
[
i
][
0
]),
1
);
uv_pipe_open
(
&
(
srv
->
pipe
[
i
][
0
]),
fds
[
1
]);
// init write
thrd
->
fd
=
fds
[
0
];
thrd
->
pipe
=
&
(
srv
->
pipe
[
i
][
1
]);
// init read
int
err
=
pthread_create
(
&
(
thrd
->
thread
),
NULL
,
workerThread
,
(
void
*
)(
thrd
));
if
(
err
==
0
)
{
tDebug
(
"sucess to create worker-thread %d"
,
i
);
// printf("thread %d create\n", i);
}
else
{
// TODO: clear all other resource later
tError
(
"failed to create worker-thread %d"
,
i
);
}
srv
->
pThreadObj
[
i
]
=
thrd
;
}
int
err
=
pthread_create
(
&
srv
->
thread
,
NULL
,
acceptThread
,
(
void
*
)
srv
);
if
(
err
==
0
)
{
tDebug
(
"success to create accept-thread"
);
}
else
{
// clear all resource later
}
return
srv
;
}
void
*
rpcOpen
(
const
SRpcInit
*
pInit
)
{
SRpcInfo
*
pRpc
=
calloc
(
1
,
sizeof
(
SRpcInfo
));
if
(
pRpc
==
NULL
)
{
return
NULL
;
}
if
(
pInit
->
label
)
{
tstrncpy
(
pRpc
->
label
,
pInit
->
label
,
strlen
(
pInit
->
label
));
}
pRpc
->
numOfThreads
=
pInit
->
numOfThreads
>
TSDB_MAX_RPC_THREADS
?
TSDB_MAX_RPC_THREADS
:
pInit
->
numOfThreads
;
pRpc
->
tcphandle
=
taosInitServer
(
0
,
pInit
->
localPort
,
pRpc
->
label
,
pRpc
->
numOfThreads
,
NULL
,
pRpc
);
return
pRpc
;
}
void
uvAllocReadBufferCb
(
uv_handle_t
*
handle
,
size_t
suggested_size
,
uv_buf_t
*
buf
)
{
static
const
int
CAPACITY
=
1024
;
/*
* formate of data buffer:
* |<-------SRpcReqContext------->|<------------data read from socket----------->|
*/
SConnCtx
*
ctx
=
handle
->
data
;
SConnBuffer
*
pBuf
=
&
ctx
->
connBuf
;
if
(
pBuf
->
cap
==
0
)
{
pBuf
->
buf
=
(
char
*
)
calloc
(
CAPACITY
+
RPC_RESERVE_SIZE
,
sizeof
(
char
));
pBuf
->
len
=
0
;
pBuf
->
cap
=
CAPACITY
;
pBuf
->
left
=
-
1
;
buf
->
base
=
pBuf
->
buf
+
RPC_RESERVE_SIZE
;
buf
->
len
=
CAPACITY
;
}
else
{
if
(
pBuf
->
len
>=
pBuf
->
cap
)
{
if
(
pBuf
->
left
==
-
1
)
{
pBuf
->
cap
*=
2
;
pBuf
->
buf
=
realloc
(
pBuf
->
buf
,
pBuf
->
cap
+
RPC_RESERVE_SIZE
);
}
else
if
(
pBuf
->
len
+
pBuf
->
left
>
pBuf
->
cap
)
{
pBuf
->
cap
=
pBuf
->
len
+
pBuf
->
left
;
pBuf
->
buf
=
realloc
(
pBuf
->
buf
,
pBuf
->
len
+
pBuf
->
left
+
RPC_RESERVE_SIZE
);
}
}
buf
->
base
=
pBuf
->
buf
+
pBuf
->
len
+
RPC_RESERVE_SIZE
;
buf
->
len
=
pBuf
->
cap
-
pBuf
->
len
;
}
}
// check data read from socket completely or not
//
static
bool
isReadAll
(
SConnBuffer
*
data
)
{
// TODO(yihao): handle pipeline later
SRpcHead
rpcHead
;
int32_t
headLen
=
sizeof
(
rpcHead
);
if
(
data
->
len
>=
headLen
)
{
memcpy
((
char
*
)
&
rpcHead
,
data
->
buf
,
headLen
);
int32_t
msgLen
=
(
int32_t
)
htonl
((
uint32_t
)
rpcHead
.
msgLen
);
if
(
msgLen
>
data
->
len
)
{
data
->
left
=
msgLen
-
data
->
len
;
return
false
;
}
else
{
return
true
;
}
}
else
{
return
false
;
}
}
void
uvOnReadCb
(
uv_stream_t
*
cli
,
ssize_t
nread
,
const
uv_buf_t
*
buf
)
{
// opt
SConnCtx
*
ctx
=
cli
->
data
;
SConnBuffer
*
pBuf
=
&
ctx
->
connBuf
;
if
(
nread
>
0
)
{
pBuf
->
len
+=
nread
;
if
(
isReadAll
(
pBuf
))
{
tDebug
(
"alread read complete packet"
);
}
else
{
tDebug
(
"read half packet, continue to read"
);
}
return
;
}
if
(
nread
!=
UV_EOF
)
{
tDebug
(
"Read error %s
\n
"
,
uv_err_name
(
nread
));
}
uv_close
((
uv_handle_t
*
)
cli
,
uvConnCtxDestroy
);
}
void
uvAllocConnBufferCb
(
uv_handle_t
*
handle
,
size_t
suggested_size
,
uv_buf_t
*
buf
)
{
buf
->
base
=
malloc
(
sizeof
(
char
));
buf
->
len
=
2
;
}
void
uvOnTimeoutCb
(
uv_timer_t
*
handle
)
{
// opt
tDebug
(
"time out"
);
}
void
uvOnWriteCb
(
uv_write_t
*
req
,
int
status
)
{
SConnCtx
*
ctx
=
req
->
data
;
if
(
status
==
0
)
{
tDebug
(
"data already was written on stream"
);
}
else
{
connCtxDestroy
(
ctx
);
}
// opt
}
void
uvWorkerAsyncCb
(
uv_async_t
*
handle
)
{
SThreadObj
*
pObj
=
container_of
(
handle
,
SThreadObj
,
workerAsync
);
SConnCtx
*
conn
=
NULL
;
// opt later
pthread_mutex_lock
(
&
pObj
->
connMtx
);
if
(
!
QUEUE_IS_EMPTY
(
&
pObj
->
conn
))
{
queue
*
head
=
QUEUE_HEAD
(
&
pObj
->
conn
);
conn
=
QUEUE_DATA
(
head
,
SConnCtx
,
queue
);
QUEUE_REMOVE
(
&
conn
->
queue
);
}
pthread_mutex_unlock
(
&
pObj
->
connMtx
);
if
(
conn
==
NULL
)
{
tError
(
"except occurred, do nothing"
);
return
;
}
}
void
uvOnAcceptCb
(
uv_stream_t
*
stream
,
int
status
)
{
if
(
status
==
-
1
)
{
return
;
}
SServerObj
*
pObj
=
container_of
(
stream
,
SServerObj
,
server
);
uv_tcp_t
*
cli
=
(
uv_tcp_t
*
)
malloc
(
sizeof
(
uv_tcp_t
));
uv_tcp_init
(
pObj
->
loop
,
cli
);
if
(
uv_accept
(
stream
,
(
uv_stream_t
*
)
cli
)
==
0
)
{
uv_write_t
*
wr
=
(
uv_write_t
*
)
malloc
(
sizeof
(
uv_write_t
));
uv_buf_t
buf
=
uv_buf_init
((
char
*
)
notify
,
strlen
(
notify
));
pObj
->
workerIdx
=
(
pObj
->
workerIdx
+
1
)
%
pObj
->
numOfThread
;
tDebug
(
"new conntion accepted by main server, dispatch to %dth worker-thread"
,
pObj
->
workerIdx
);
uv_write2
(
wr
,
(
uv_stream_t
*
)
&
(
pObj
->
pipe
[
pObj
->
workerIdx
][
0
]),
&
buf
,
1
,
(
uv_stream_t
*
)
cli
,
uvOnWriteCb
);
}
else
{
uv_close
((
uv_handle_t
*
)
cli
,
NULL
);
}
}
void
uvOnConnectionCb
(
uv_stream_t
*
q
,
ssize_t
nread
,
const
uv_buf_t
*
buf
)
{
tDebug
(
"connection coming"
);
if
(
nread
<
0
)
{
if
(
nread
!=
UV_EOF
)
{
tError
(
"read error %s"
,
uv_err_name
(
nread
));
}
// TODO(log other failure reason)
uv_close
((
uv_handle_t
*
)
q
,
NULL
);
return
;
}
// free memory allocated by
assert
(
nread
==
strlen
(
notify
));
assert
(
buf
->
base
[
0
]
==
notify
[
0
]);
free
(
buf
->
base
);
SThreadObj
*
pObj
=
(
SThreadObj
*
)
container_of
(
q
,
struct
SThreadObj
,
pipe
);
uv_pipe_t
*
pipe
=
(
uv_pipe_t
*
)
q
;
if
(
!
uv_pipe_pending_count
(
pipe
))
{
tError
(
"No pending count"
);
return
;
}
uv_handle_type
pending
=
uv_pipe_pending_type
(
pipe
);
assert
(
pending
==
UV_TCP
);
SConnCtx
*
pConn
=
connCtxCreate
();
/* init conn timer*/
pConn
->
pTimer
=
malloc
(
sizeof
(
uv_timer_t
));
uv_timer_init
(
pObj
->
loop
,
pConn
->
pTimer
);
pConn
->
pWorkerAsync
=
pObj
->
workerAsync
;
// thread safty
// init client handle
pConn
->
pTcp
=
(
uv_tcp_t
*
)
malloc
(
sizeof
(
uv_tcp_t
));
uv_tcp_init
(
pObj
->
loop
,
pConn
->
pTcp
);
pConn
->
pTcp
->
data
=
pConn
;
// init write request, just
pConn
->
pWriter
=
calloc
(
1
,
sizeof
(
uv_write_t
));
pConn
->
pWriter
->
data
=
pConn
;
if
(
uv_accept
(
q
,
(
uv_stream_t
*
)(
pConn
->
pTcp
))
==
0
)
{
uv_os_fd_t
fd
;
uv_fileno
((
const
uv_handle_t
*
)
pConn
->
pTcp
,
&
fd
);
tDebug
(
"new connection created: %d"
,
fd
);
uv_read_start
((
uv_stream_t
*
)(
pConn
->
pTcp
),
uvAllocReadBufferCb
,
uvOnReadCb
);
}
else
{
connCtxDestroy
(
pConn
);
}
}
void
*
acceptThread
(
void
*
arg
)
{
// opt
SServerObj
*
srv
=
(
SServerObj
*
)
arg
;
uv_tcp_init
(
srv
->
loop
,
&
srv
->
server
);
struct
sockaddr_in
bind_addr
;
uv_ip4_addr
(
"0.0.0.0"
,
srv
->
port
,
&
bind_addr
);
uv_tcp_bind
(
&
srv
->
server
,
(
const
struct
sockaddr
*
)
&
bind_addr
,
0
);
int
err
=
0
;
if
((
err
=
uv_listen
((
uv_stream_t
*
)
&
srv
->
server
,
128
,
uvOnAcceptCb
))
!=
0
)
{
tError
(
"Listen error %s
\n
"
,
uv_err_name
(
err
));
return
NULL
;
}
uv_run
(
srv
->
loop
,
UV_RUN_DEFAULT
);
}
void
*
workerThread
(
void
*
arg
)
{
SThreadObj
*
pObj
=
(
SThreadObj
*
)
arg
;
pObj
->
loop
=
(
uv_loop_t
*
)
malloc
(
sizeof
(
uv_loop_t
));
uv_loop_init
(
pObj
->
loop
);
uv_pipe_init
(
pObj
->
loop
,
pObj
->
pipe
,
1
);
uv_pipe_open
(
pObj
->
pipe
,
pObj
->
fd
);
QUEUE_INIT
(
&
pObj
->
conn
);
pObj
->
workerAsync
=
malloc
(
sizeof
(
uv_async_t
));
uv_async_init
(
pObj
->
loop
,
pObj
->
workerAsync
,
uvWorkerAsyncCb
);
uv_read_start
((
uv_stream_t
*
)
pObj
->
pipe
,
uvAllocConnBufferCb
,
uvOnConnectionCb
);
uv_run
(
pObj
->
loop
,
UV_RUN_DEFAULT
);
}
static
SConnCtx
*
connCtxCreate
()
{
SConnCtx
*
pConn
=
(
SConnCtx
*
)
calloc
(
1
,
sizeof
(
SConnCtx
));
return
pConn
;
}
static
void
connCtxDestroy
(
SConnCtx
*
ctx
)
{
if
(
ctx
==
NULL
)
{
return
;
}
uv_timer_stop
(
ctx
->
pTimer
);
free
(
ctx
->
pTimer
);
uv_close
((
uv_handle_t
*
)
ctx
->
pTcp
,
NULL
);
free
(
ctx
->
pTcp
);
free
(
ctx
->
pWriter
);
free
(
ctx
);
// handle
}
static
void
uvConnCtxDestroy
(
uv_handle_t
*
handle
)
{
SConnCtx
*
ctx
=
handle
->
data
;
connCtxDestroy
(
ctx
);
}
void
rpcClose
(
void
*
arg
)
{
return
;
}
void
*
rpcMallocCont
(
int
contLen
)
{
return
NULL
;
}
void
rpcFreeCont
(
void
*
cont
)
{
return
;
}
void
*
rpcReallocCont
(
void
*
ptr
,
int
contLen
)
{
return
NULL
;
}
void
rpcSendRequest
(
void
*
thandle
,
const
SEpSet
*
pEpSet
,
SRpcMsg
*
pMsg
,
int64_t
*
rid
)
{
return
;
}
void
rpcSendResponse
(
const
SRpcMsg
*
pMsg
)
{}
void
rpcSendRedirectRsp
(
void
*
pConn
,
const
SEpSet
*
pEpSet
)
{}
int
rpcGetConnInfo
(
void
*
thandle
,
SRpcConnInfo
*
pInfo
)
{
return
-
1
;
}
void
rpcSendRecv
(
void
*
shandle
,
SEpSet
*
pEpSet
,
SRpcMsg
*
pReq
,
SRpcMsg
*
pRsp
)
{
return
;
}
int
rpcReportProgress
(
void
*
pConn
,
char
*
pCont
,
int
contLen
)
{
return
-
1
;
}
void
rpcCancelRequest
(
int64_t
rid
)
{
return
;
}
#else
#define RPC_MSG_OVERHEAD (sizeof(SRpcReqContext) + sizeof(SRpcHead) + sizeof(SRpcDigest))
#define rpcHeadFromCont(cont) ((SRpcHead
*)((char
*)cont - sizeof(SRpcHead)))
#define rpcHeadFromCont(cont) ((SRpcHead
*)((char
*)cont - sizeof(SRpcHead)))
#define rpcContFromHead(msg) (msg + sizeof(SRpcHead))
#define rpcMsgLenFromCont(contLen) (contLen + sizeof(SRpcHead))
#define rpcContLenFromMsg(msgLen) (msgLen - sizeof(SRpcHead))
...
...
@@ -510,15 +138,6 @@ typedef struct SRpcConn {
SRpcReqContext
*
pContext
;
// request context
}
SRpcConn
;
static
pthread_once_t
tsRpcInitOnce
=
PTHREAD_ONCE_INIT
;
int
tsRpcMaxUdpSize
=
15000
;
// bytes
int
tsProgressTimer
=
100
;
// not configurable
int
tsRpcMaxRetry
;
int
tsRpcHeadSize
;
int
tsRpcOverhead
;
static
int
tsRpcRefId
=
-
1
;
static
int32_t
tsRpcNum
=
0
;
// static pthread_once_t tsRpcInit = PTHREAD_ONCE_INIT;
...
...
source/libs/transport/src/rpcTcp.c
浏览文件 @
60b48e3e
...
...
@@ -14,9 +14,6 @@
*/
#include "rpcTcp.h"
#ifdef USE_UV
#include <uv.h>
#endif
#include "os.h"
#include "rpcHead.h"
#include "rpcLog.h"
...
...
@@ -24,9 +21,6 @@
#include "taoserror.h"
#include "tutil.h"
#ifdef USE_UV
#else
typedef
struct
SFdObj
{
void
*
signature
;
SOCKET
fd
;
// TCP socket FD
...
...
@@ -662,5 +656,3 @@ static void taosFreeFdObj(SFdObj *pFdObj) {
tfree
(
pFdObj
);
}
#endif
source/libs/transport/src/rpcUdp.c
浏览文件 @
60b48e3e
...
...
@@ -22,9 +22,6 @@
#include "ttimer.h"
#include "tutil.h"
#ifdef USE_UV
// no support upd currently
#else
#define RPC_MAX_UDP_CONNS 256
#define RPC_MAX_UDP_PKTS 1000
#define RPC_UDP_BUF_TIME 5 // mseconds
...
...
@@ -260,4 +257,3 @@ int taosSendUdpData(uint32_t ip, uint16_t port, void *data, int dataLen, void *c
return
ret
;
}
#endif
source/libs/transport/src/transport.c
浏览文件 @
60b48e3e
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