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timeouts, retries and reconnection handling improvements

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r1660 | dcl | 2007-03-16 09:03:42 +1100 (Fri, 16 Mar 2007) | 2 lines
This commit is contained in:
Douglas Clowes
2007-03-16 09:03:42 +11:00
parent 3b7496b7ce
commit d1500ef0b4
2 changed files with 161 additions and 54 deletions
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208
multichan.c
View File

@@ -28,6 +28,8 @@ struct __mcc_command {
MCC_Transmit tx; MCC_Transmit tx;
MCC_Receive rx; MCC_Receive rx;
pMultiChan unit; pMultiChan unit;
int timeout;
int retries;
}; };
struct __MultiChan { struct __MultiChan {
@@ -35,14 +37,16 @@ struct __MultiChan {
pMultiChanController mcc; pMultiChanController mcc;
MCC_Notify notify_func; MCC_Notify notify_func;
void* notify_cntx; void* notify_cntx;
int timeout;
}; };
struct __MultiChanController { struct __MultiChanController {
pObjectDescriptor pDes; pObjectDescriptor pDes;
char* mcc_name;
char* pHost; char* pHost;
int iPort; int iPort;
int iDelay; /* intercommand delay in milliseconds */ int iDelay; /* intercommand delay in milliseconds */
int timeout;
int retries;
struct timeval tvLastCmd; /* time of completion of last command */ struct timeval tvLastCmd; /* time of completion of last command */
int unit_count; /* number of units connected */ int unit_count; /* number of units connected */
pMultiChan units; /* head of unit chain */ pMultiChan units; /* head of unit chain */
@@ -61,7 +65,7 @@ static void MC_Notify(pMultiChanController self, int event)
pMultiChan unit; pMultiChan unit;
for (unit = self->units; unit; unit = unit->next) for (unit = self->units; unit; unit = unit->next)
if (unit->notify_func != NULL) if (unit->notify_func != NULL)
unit->notify_func(unit, event); unit->notify_func(unit->notify_cntx, event);
} }
static int MC_Reconnect(pMultiChanController self) static int MC_Reconnect(pMultiChanController self)
@@ -69,18 +73,17 @@ static int MC_Reconnect(pMultiChanController self)
int iRet; int iRet;
int sock; int sock;
int flag = 1; int flag = 1;
char line[132];
iRet = NETReconnect(self->controller->pSock); iRet = NETReconnect(self->controller->pSock);
if (iRet <= 0) { if (iRet <= 0) {
snprintf(line, 132, "Disconnect on MultiChan '%s'", self->mcc_name);
SICSLogWrite(line, eStatus);
MC_Notify(self, MCC_DISCONNECT); MC_Notify(self, MCC_DISCONNECT);
return iRet; return iRet;
} }
sock = self->controller->pSock->sockid; snprintf(line, 132, "Reconnect on MultiChan '%s'", self->mcc_name);
iRet = setsockopt(sock, /* socket */ SICSLogWrite(line, eStatus);
IPPROTO_TCP, /* set option at TCP level */
TCP_NODELAY, /* name of option */
(char *) &flag, /* the cast is historical cruft */
sizeof(int)); /* length of option value */
MC_Notify(self, MCC_RECONNECT); MC_Notify(self, MCC_RECONNECT);
return 1; return 1;
} }
@@ -93,6 +96,9 @@ static int StartCommand(pMultiChanController self)
pMC_Cmd myCmd = self->command_head; pMC_Cmd myCmd = self->command_head;
mkChannel* sock = self->controller->pSock; mkChannel* sock = self->controller->pSock;
if (myCmd == NULL)
return OKOK;
/* /*
* Remove any old command timeout timer * Remove any old command timeout timer
*/ */
@@ -140,23 +146,15 @@ static int StartCommand(pMultiChanController self)
/* /*
* Add a new command timeout timer * Add a new command timeout timer
*/ */
if (myCmd->unit->timeout > 0) if (myCmd->timeout > 0)
NetWatchRegisterTimer(&self->nw_tmr, myCmd->unit->timeout, NetWatchRegisterTimer(&self->nw_tmr, myCmd->timeout,
CommandTimeout, self); CommandTimeout, self);
else else
NetWatchRegisterTimer(&self->nw_tmr, 1000, NetWatchRegisterTimer(&self->nw_tmr, 30000,
CommandTimeout, self); CommandTimeout, self);
return myCmd->tx(myCmd->cntx); return myCmd->tx(myCmd->cntx);
} }
static int CommandTimeout(void* cntx, int mode)
{
pMultiChanController self = (pMultiChanController) cntx;
self->nw_tmr = 0;
StartCommand(self);
return 1;
}
static int QueCommand(pMultiChanController self, pMC_Cmd cmd) static int QueCommand(pMultiChanController self, pMC_Cmd cmd)
{ {
/* /*
@@ -193,6 +191,28 @@ static int PopCommand(pMultiChanController self)
return 1; return 1;
} }
static int CommandTimeout(void* cntx, int mode)
{
pMultiChanController self = (pMultiChanController) cntx;
pMC_Cmd myCmd = self->command_head;
self->nw_tmr = 0;
if (myCmd->retries > 0) {
--myCmd->retries;
StartCommand(self);
}
else {
int iRet;
iRet = myCmd->rx(myCmd->cntx, MCC_TIMEOUT);
if (iRet == MCC_POP_CMD)
PopCommand(self); /* remove command */
else if (iRet == MCC_RETRY_CMD)
StartCommand(self); /* restart command */
else if (iRet == MCC_RECONNECT)
MC_Reconnect(self);
}
return 1;
}
static int MyCallback(void* context, int mode) static int MyCallback(void* context, int mode)
{ {
pMultiChanController self = (pMultiChanController) context; pMultiChanController self = (pMultiChanController) context;
@@ -216,10 +236,12 @@ static int MyCallback(void* context, int mode)
pMC_Cmd myCmd = self->command_head; pMC_Cmd myCmd = self->command_head;
if (myCmd) { if (myCmd) {
iRet = myCmd->rx(myCmd->cntx, reply[0]); iRet = myCmd->rx(myCmd->cntx, reply[0]);
if (iRet < 0) /* TODO: error */ if (iRet == MCC_POP_CMD) /* end of command */
; PopCommand(self);
else if (iRet == 0) /* end of command */ else if (iRet == 0) /* end of command */
PopCommand(self); PopCommand(self);
else if (iRet < 0) /* TODO: error */
;
} }
} }
} }
@@ -254,6 +276,8 @@ int MultiChanEnque(pMultiChan unit, void* context, MCC_Transmit tx, MCC_Receive
myCmd->tx = tx; myCmd->tx = tx;
myCmd->rx = rx; myCmd->rx = rx;
myCmd->unit = unit; myCmd->unit = unit;
myCmd->timeout = unit->mcc->timeout;
myCmd->retries = unit->mcc->retries;
return QueCommand(unit->mcc, myCmd); return QueCommand(unit->mcc, myCmd);
} }
@@ -299,56 +323,131 @@ int MultiChanSetDelay(pMultiChan unit, int iDelay)
int MultiChanGetTimeout(pMultiChan unit) int MultiChanGetTimeout(pMultiChan unit)
{ {
assert(unit); assert(unit);
return unit->timeout; return unit->mcc->timeout;
} }
int MultiChanSetTimeout(pMultiChan unit, int timeout) int MultiChanSetTimeout(pMultiChan unit, int timeout)
{ {
int old_timeout; int old_timeout;
assert(unit); assert(unit);
old_timeout = unit->timeout; old_timeout = unit->mcc->timeout;
unit->timeout = timeout; unit->mcc->timeout = timeout;
return old_timeout; return old_timeout;
} }
int MultiChanGetRetries(pMultiChan unit)
{
assert(unit);
return unit->mcc->retries;
}
int MultiChanSetRetries(pMultiChan unit, int retries)
{
int old_retries;
assert(unit);
old_retries = unit->mcc->retries;
unit->mcc->retries = retries;
return old_retries;
}
int MultiChanAction(SConnection *pCon, SicsInterp *pSics, int MultiChanAction(SConnection *pCon, SicsInterp *pSics,
void *pData, int argc, char *argv[]) void *pData, int argc, char *argv[])
{ {
char line[132]; char line[132];
pMultiChanController self = (pMultiChanController) pData; pMultiChanController self = (pMultiChanController) pData;
if (strcasecmp(argv[1], "delay") == 0) { if (argc > 1) {
if (argc > 2) { if (strcasecmp(argv[1], "reconnect") == 0) {
int delay; MC_Reconnect(self);
int iRet; return OKOK;
iRet = sscanf(argv[2], "%d", &delay); }
if (iRet != 1) { if (strcasecmp(argv[1], "delay") == 0) {
snprintf(line, 132, "Invalid argument: %s", argv[2]); if (argc > 2) {
SCWrite(pCon, line, eError); int delay;
return 0; int iRet;
} iRet = sscanf(argv[2], "%d", &delay);
else { if (iRet != 1) {
if (delay < 0 || delay > 30000) { snprintf(line, 132, "Invalid argument: %s", argv[2]);
snprintf(line, 132, "Value out of range: %d", delay); SCWrite(pCon, line, eError);
SCWrite(pCon, line, eError); return 0;
return 0; }
} else {
self->iDelay = delay; if (delay < 0 || delay > 30000) {
return OKOK; snprintf(line, 132, "Value out of range: %d", delay);
} SCWrite(pCon, line, eError);
} return 0;
else { }
snprintf(line, 132, "%s.delay = %d", argv[0], self->iDelay); self->iDelay = delay;
SCWrite(pCon, line, eStatus); return OKOK;
}
}
else {
snprintf(line, 132, "%s.delay = %d", argv[0], self->iDelay);
SCWrite(pCon, line, eStatus);
return OKOK;
}
return OKOK;
}
if (strcasecmp(argv[1], "timeout") == 0) {
if (argc > 2) {
int timeout;
int iRet;
iRet = sscanf(argv[2], "%d", &timeout);
if (iRet != 1) {
snprintf(line, 132, "Invalid argument: %s", argv[2]);
SCWrite(pCon, line, eError);
return 0;
}
else {
if (timeout < 0 || timeout > 30000) {
snprintf(line, 132, "Value out of range: %d", timeout);
SCWrite(pCon, line, eError);
return 0;
}
self->timeout = timeout;
return OKOK;
}
}
else {
snprintf(line, 132, "%s.timeout = %d", argv[0], self->timeout);
SCWrite(pCon, line, eStatus);
return OKOK;
}
return OKOK;
}
if (strcasecmp(argv[1], "retries") == 0) {
if (argc > 2) {
int retries;
int iRet;
iRet = sscanf(argv[2], "%d", &retries);
if (iRet != 1) {
snprintf(line, 132, "Invalid argument: %s", argv[2]);
SCWrite(pCon, line, eError);
return 0;
}
else {
if (retries < 0 || retries > 30000) {
snprintf(line, 132, "Value out of range: %d", retries);
SCWrite(pCon, line, eError);
return 0;
}
self->retries = retries;
return OKOK;
}
}
else {
snprintf(line, 132, "%s.retries = %d", argv[0], self->retries);
SCWrite(pCon, line, eStatus);
return OKOK;
}
return OKOK; return OKOK;
} }
return OKOK;
} }
snprintf(line, 132, "%s does not understand %s", argv[0], argv[1]); snprintf(line, 132, "%s does not understand %s", argv[0], argv[1]);
SCWrite(pCon, line, eError); SCWrite(pCon, line, eError);
return 0; return 0;
} }
static pMultiChanController MC_Create(const char* host, int port) static pMultiChanController MC_Create(const char* host)
{ {
int i; int i;
pMultiChanController self = NULL; pMultiChanController self = NULL;
@@ -410,6 +509,8 @@ static void MC_Kill(void* pData)
NetWatchRemoveCallback(self->nw_ctx); NetWatchRemoveCallback(self->nw_ctx);
if (self->nw_tmr) if (self->nw_tmr)
NetWatchRemoveTimer(self->nw_tmr); NetWatchRemoveTimer(self->nw_tmr);
if (self->mcc_name)
free(self->mcc_name);
free(self); free(self);
return; return;
} }
@@ -422,7 +523,7 @@ int MultiChanFactory(SConnection *pCon, SicsInterp *pSics,
int iRet, status; int iRet, status;
char pError[256]; char pError[256];
if(argc < 4) if(argc < 3)
{ {
SCWrite(pCon,"ERROR: insufficient no of arguments to MultiChanFactory", SCWrite(pCon,"ERROR: insufficient no of arguments to MultiChanFactory",
eError); eError);
@@ -432,13 +533,16 @@ int MultiChanFactory(SConnection *pCon, SicsInterp *pSics,
/* /*
create data structure and open port create data structure and open port
*/ */
pNew = MC_Create(argv[2], atoi(argv[3])); pNew = MC_Create(argv[2]);
if(!pNew) if(!pNew)
{ {
SCWrite(pCon,"ERROR: failed to create MultiChan in MultiChanFactory",eError); SCWrite(pCon,"ERROR: failed to create MultiChan in MultiChanFactory",eError);
return 0; return 0;
} }
if (pNew->mcc_name)
free(pNew->mcc_name);
pNew->mcc_name = strdup(argv[1]);
status = MC_Init(pNew); status = MC_Init(pNew);
if(status != 1) if(status != 1)
@@ -470,7 +574,7 @@ int MultiChanCreate(const char* name, pMultiChan* handle)
*handle = NULL; *handle = NULL;
self = MC_Create(name, 0); self = MC_Create(name);
if (self == NULL) if (self == NULL)
return 0; return 0;
status = MC_Init(self); status = MC_Init(self);

7
multichan.h
View File

@@ -12,8 +12,11 @@
#ifndef SICSMULTICHAN #ifndef SICSMULTICHAN
#define SICSMULTICHAN #define SICSMULTICHAN
#define MCC_DISCONNECT 101 #define MCC_TIMEOUT -1
#define MCC_RECONNECT 102 #define MCC_DISCONNECT -2
#define MCC_RECONNECT -3
#define MCC_RETRY_CMD -4
#define MCC_POP_CMD -5
typedef struct __MultiChan MultiChan, *pMultiChan; typedef struct __MultiChan MultiChan, *pMultiChan;