Leaked source code of windows server 2003
You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
 
 
 
 
 
 

710 lines
20 KiB

/*++
Copyright (c) 1988-1999 Microsoft Corporation
Module Name:
cop.c
Abstract:
Conditional/sequential command execution
--*/
#include "cmd.h"
extern int LastRetCode;
extern int ExtCtrlc; /* @@1 */
/* M000 ends */
unsigned PipeCnt ; /* M007 - Active pipe count */
struct pipedata *PdHead = NULL; /* M007 - 1st element of pipedata list */
struct pipedata *PdTail = NULL; /* M007 - Last element of pipedata list */
HANDLE PipePid ; /* M007 - Communication with ECWork */
/*** eComSep - execute a statement containing a command separator
*
* Purpose:
* Execute the left and right hand sides of a command separator
* operator.
*
* int eComSep(struct node *n)
*
* Args:
* n - parse tree node containing the command separator node
*
* Returns:
* Whatever the right hand side returns.
*
* Notes:
* Revised to always supply both args to Dispatch().
*/
int eComSep(n)
struct node *n ;
{
Dispatch(RIO_OTHER,n->lhs) ;
if (GotoFlag) {
return SUCCESS;
} else {
return(Dispatch(RIO_OTHER,n->rhs)) ;
}
}
/*** eOr - execute an OR operation
*
* Purpose:
* Execute the left hand side of an OR operator (||). If it succeeds,
* quit. Otherwise execute the right side of the operator.
*
* int eOr(struct node *n)
*
* Args:
* n - parse tree node containing the OR operator node
*
* Returns:
* If the left hand side succeeds, return SUCCESS. Otherwise, return
* whatever the right side returns.
*
* Notes:
* Revised to always supply both args to Dispatch().
*/
int eOr(n)
struct node *n ;
{
int i ; /* Retcode from L.H. side of OR */
if ((i = Dispatch(RIO_OTHER,n->lhs)) == SUCCESS)
return(SUCCESS) ;
else {
LastRetCode = i;
return(Dispatch(RIO_OTHER,n->rhs)) ;
}
}
/*** eAnd - execute an AND operation
*
* Purpose:
* Execute the left hand side of an AND operator (&&). If it fails,
* quit. Otherwise execute the right side of the operator.
*
* int eAnd(struct node *n)
*
* Args:
* n - parse tree node containing the AND operator node
*
* Returns:
* If the left hand side fails, return its return code. Otherwise, return
* whatever the right side returns.
*
* Notes:
* Revised to always supply both args to Dispatch().
*/
int eAnd(n)
struct node *n ;
{
int i ; /* Retcode from L.H. side of AND */
if ((i = Dispatch(RIO_OTHER,n->lhs)) != SUCCESS) {
return(i) ;
} else if (GotoFlag) {
return SUCCESS;
} else {
return(Dispatch(RIO_OTHER,n->rhs)) ;
}
}
/********************* START OF SPECIFICATION **************************/
/* */
/* SUBROUTINE NAME: ePipe */
/* */
/* DESCRIPTIVE NAME: Pipe Process */
/* */
/* FUNCTION: Execute the left side of the pipe and direct its output to*/
/* the right side of the pipe. */
/* */
/* NOTES: None */
/* */
/* */
/* ENTRY POINT: ePipe */
/* LINKAGE: NEAR */
/* */
/* INPUT: n - parse tree node containing the pipe operator */
/* */
/* OUTPUT: None */
/* */
/* EXIT-NORMAL: The return code of the right side process. */
/* */
/* EXIT-ERROR: Failure if no pipe redirection can take place. */
/* */
/* EFFECTS: */
/* */
/* struct pipedata { */
/* unsigned rh ; Pipe read handle */
/* unsigned wh ; Pipe write handle */
/* unsigned shr ; Handles where the normal... */
/* unsigned shw ; ...STDIN/OUT handles are saved */
/* unsigned lPID ; Pipe lh side PID */
/* unsigned rPID ; Pipe rh side PID */
/* unsigned lstart ; Start Information of lh side @@4*/
/* unsigned rstart ; Start Information of rh side @@4*/
/* struct pipedata *prvpds ; Ptr to previous pipedata struct */
/* struct pipedata *nxtpds ; Ptr to next pipedata struct */
/* } */
/* */
/* unsigned PipePID; Pipe Process ID */
/* */
/* unsigned start_type; Start Information */
/* */
/* */
/* INTERNAL REFERENCES: */
/* ROUTINES: */
/* PutStdErr - Print an error message */
/* Abort - Terminate program with abort */
/* SetList - Set Link List for pipedata structure */
/* Cdup - Duplicate supplied handle and save the new handle*/
/* Cdup2 - Duplicate supplied handle and save the new handle*/
/* Dispatch - Execute the program */
/* PipeErr - Handle pipe error */
/* Cclose - Close the specified handle */
/* PipeWait - Wait for the all pipe process completion */
/* */
/* EXTERNAL REFERENCES: */
/* ROUTINES: */
/* DOSMAKEPIPE - Make pipe */
/* */
/********************** END OF SPECIFICATION **************************/
/*** ePipe - Create a pipeline between two processes (M000)
*
* Purpose:
* Execute the left side of the pipe and direct its output to
* the right side of the pipe.
*
* int ePipe(struct node *n)
*
* Args:
* n - parse tree node containing the pipe operator
*
* Returns:
* The return code of the right side process or failure if no
* pipe redirection can take place.
*
* Notes:
* M007 - This function has been completely rewritten for real pipes.
*
*/
int ePipe(n)
struct node *n ;
{
struct pipedata *Pd ; /* Pipe struct pointer */
int k = 0 ; /* RH side return code */
struct node *l ; /* Copy of left side arg */
struct node *r ; /* Copy of right side arg */
extern unsigned start_type ; /* API type used to start */
TCHAR cflags ; /* */
l = n->lhs ; /* Equate locals to... */
r = n->rhs ; /* ...L & R operations */
DEBUG((OPGRP,PILVL,"PIPES:LH = %d, RH = %d ",l->type,r->type)) ;
if (!(Pd = (struct pipedata *)mkstr(sizeof(struct pipedata)))) {
DEBUG((OPGRP,PILVL,"PIPES:Couldn't alloc structure!")) ;
return(FAILURE) ;
};
//
// Create a pipe with a read handle and a write handle
//
if (_pipe((int *)Pd, 0, O_BINARY)) {
DEBUG((OPGRP,PILVL,"PIPES:pipe failed!")) ;
PutStdErr(ERROR_NOT_ENOUGH_MEMORY, NOARGS); /* M013 */
return(FAILURE) ;
Abort() ;
};
SetList(Pd->rh) ; /* M009 */
SetList(Pd->wh) ; /* M009 */
DEBUG((OPGRP,PILVL,"PIPES:Pipe built. Handles: rd = %d wt = %d ",Pd->rh, Pd->wh)) ;
DEBUG((OPGRP,PILVL,"PIPES:Pipe (pre-index) count = %d", PipeCnt)) ;
if (!PipeCnt++) { /* Already some pipes? */
PdHead = PdTail = Pd ; /* No, set head/tail ptrs */
Pd->prvpds = NULL ; /* No previous structure */
DEBUG((OPGRP,PILVL,"PIPES:This is first pipe.")) ;
} else {
DEBUG((OPGRP,PILVL,"PIPES:This is pipe %d.", PipeCnt)) ;
PdTail->nxtpds = Pd ;
Pd->prvpds = PdTail ;
Pd->nxtpds = NULL ;
PdTail = Pd ;
} ;
//
// Set up the redirection for the left-hand side; the writing side.
// We do this by saving the current stdout, duplicating the pipe-write
// handle onto stdout, and then invoking the left-hand side of the pipe.
// When we do this, the lefthand side will fill the pipe with data.
//
//
// Save stdout handle
//
if ((Pd->shw = Cdup(STDOUT)) == BADHANDLE) { /* Save STDOUT (M009) */
Pd->shw = BADHANDLE ; /* If err, go process it */
PipeErr() ; /* DOES NOT RETURN */
};
DEBUG((OPGRP,PILVL,"PIPES:STDOUT dup'd to %d.", Pd->shw)) ;
//
// Make stdout point to the write side of the pipe
//
if (Cdup2(Pd->wh, STDOUT) == BADHANDLE) /* Make wh STDOUT (M009) */
PipeErr() ; /* DOES NOT RETURN */
Cclose(Pd->wh) ; /* Close pipe hndl (M009) */
Pd->wh = 0 ; /* And zero the holder */
if (l->type <= CMDTYP) { /* @@5a */
/* @@5a */
FindAndFix( (struct cmdnode *) l, &cflags ) ; /* @@5a */
} /* @@5a */
DEBUG((OPGRP,PILVL,"PIPES:Write pipe now STDOUT")) ;
//
// Execute the left side of the pipe, fillng the pipe
//
k = Dispatch(RIO_PIPE,l) ;
//
// This closes the read handle in the left hand pipe. I don't know
// why we're doing this.
//
if (PipePid != NULL) {
DuplicateHandle( PipePid,
CRTTONT(Pd->rh),
NULL,
NULL,
0,
FALSE,
DUPLICATE_CLOSE_SOURCE);
}
//
// Restore the saved stdout
//
if (Cdup2(Pd->shw, STDOUT) == BADHANDLE)
PipeErr( );
//
// Closed the saved handle
//
Cclose(Pd->shw) ; /* M009 */
Pd->shw = 0 ;
DEBUG((OPGRP,PILVL,"PIPES:STDOUT now handle 1 again.")) ;
if (k) {
ExtCtrlc = 2; /* @@1 */
Abort() ;
}
Pd->lPID = PipePid ;
Pd->lstart = start_type ; /* Save the start_type in pipedata struct */
PipePid = 0 ;
start_type = NONEPGM ; /* Reset the start_type D64 */
DEBUG((OPGRP,PILVL,"PIPES:Dispatch LH side succeeded - LPID = %d.",Pd->lPID)) ;
//
// Start on the right hand side of the pipe. Save the current stdin,
// copy the pipe read handle to stdin and then execute the right hand side
// of the pipe
//
//
// Save stdin
//
if ((Pd->shr = Cdup(STDIN)) == BADHANDLE) { /* Save STDIN (M009) */
Pd->shr = BADHANDLE ;
PipeErr() ; /* DOES NOT RETURN */
};
DEBUG((OPGRP,PILVL,"PIPES:STDIN dup'd to %d.", Pd->shr)) ;
//
// Point stdin at the pipe read handle
//
if (Cdup2(Pd->rh, STDIN) == BADHANDLE) /* Make rh STDIN (M009) */
PipeErr() ; /* DOES NOT RETURN */
Cclose(Pd->rh) ; /* Close pipe hndl (M009) */
Pd->rh = 0 ; /* And zero the holder */
if (r->type <= CMDTYP) { /* @@5a */
/* @@5a */
FindAndFix( (struct cmdnode *) r, &cflags) ; /* @@5a */
}; /* @@5a */
DEBUG((OPGRP,PILVL,"PIPES:Read pipe now STDIN")) ;
//
// Start off the right hand side of the pipe
//
k = Dispatch(RIO_PIPE,r) ;
//
// Restore the saved stdin
//
if (Cdup2(Pd->shr, STDIN) == BADHANDLE) /* M009 */
PipeErr() ; /* DOES NOT RETURN */
//
// Get rid of the saved stdin
//
Cclose(Pd->shr) ; /* M009 */
Pd->shr = 0 ;
DEBUG((OPGRP,PILVL,"PIPES:STDIN now handle 0 again.")) ;
if (k) {
ExtCtrlc = 2; /* @@1 */
Abort() ;
}
Pd->rPID = PipePid ;
Pd->rstart = start_type ; /* Save the start_type in pipedata struct */
PipePid = 0 ;
start_type = NONEPGM ; /* Reset the start_type D64 */
DEBUG((OPGRP,PILVL,"PIPES:Dispatch RH side succeeded - RPID = %d.",Pd->rPID)) ;
if (!(--PipeCnt)) { /* Additional pipes? */
DEBUG((OPGRP,PILVL,"PIPES:Returning from top level pipe. Cnt = %d", PipeCnt)) ;
return(PipeWait()) ; /* No, return CWAIT */
};
DEBUG((OPGRP,PILVL,"PIPES:Returning from pipe. Cnt = %d", PipeCnt)) ;
return(k) ; /* Else return exec ret */
}
/*** PipeErr - Fixup and error out following pipe error
*
* Purpose:
* To provide single error out point for multiple error conditions.
*
* int PipeErr()
*
* Args:
* None.
*
* Returns:
* DOES NOT RETURN TO CALLER. Instead it causes an internal Abort().
*
*/
void PipeErr()
{
PutStdErr(MSG_PIPE_FAILURE, NOARGS) ; /* M013 */
Abort() ;
}
/********************* START OF SPECIFICATION **************************/
/* */
/* SUBROUTINE NAME: PipeWait */
/* */
/* DESCRIPTIVE NAME: Wait and Collect Retcode for All Pipe Completion */
/* */
/* FUNCTION: This routine calls WaitProc or WaitTermQProc for all */
/* pipelined processes until entire pipeline is finished. */
/* The return code of right most element is returned. */
/* */
/* NOTES: If the pipelined process is started by DosExecPgm, */
/* WaitProc is called. If the pipelined process is started */
/* by DosStartSession, WaitTermQProc is called. */
/* */
/* */
/* ENTRY POINT: PipeWait */
/* LINKAGE: NEAR */
/* */
/* INPUT: None */
/* */
/* OUTPUT: None */
/* */
/* EXIT-NORMAL: No error return code */
/* */
/* EXIT-ERROR: Error return code from either WaitTermQProc or WaitProc*/
/* */
/* */
/* EFFECTS: None. */
/* */
/* INTERNAL REFERENCES: */
/* ROUTINES: */
/* WaitProc - wait for the termination of the specified process, */
/* its child process, and related pipelined */
/* processes. */
/* */
/* WaitTermQProc - wait for the termination of the specified */
/* session and related pipelined session. */
/* */
/* EXTERNAL REFERENCES: */
/* ROUTINES: */
/* WINCHANGESWITCHENTRY - Change switch list entry */
/* */
/********************** END OF SPECIFICATION **************************/
/*** PipeWait - wait and collect retcode for all pipe completion (M007)
*
* Purpose:
* To do cwaits on all pipelined processes until entire pipeline
* is finished. The retcode of the rightmost element of the pipe
* is returned.
*
* int PipeWait()
*
* Args:
* None.
*
* Returns:
* Retcode of rightmost pipe process.
*
*/
PipeWait()
{
unsigned i = SUCCESS;
DEBUG((OPGRP,PILVL,"PIPEWAIT:Entered - PipeCnt = %d", PipeCnt)) ;
while (PdHead) {
if (PdHead->lPID) {
DEBUG((OPGRP, PILVL, "PIPEWAIT: lPID %d, lstart %d", PdHead->lPID, PdHead->lstart));
if ( PdHead->lstart == EXECPGM ) {
i = WaitProc(PdHead->lPID) ; /* M012 - Wait LH */
DEBUG((OPGRP,PILVL,"PIPEWAIT:CWAIT on LH - Ret = %d, SPID = %d", i, PdHead->lPID)) ;
}
}
if (PdHead->rPID) {
DEBUG((OPGRP, PILVL, "PIPEWAIT: rPID %d, rstart %d", PdHead->rPID, PdHead->rstart));
if ( PdHead->rstart == EXECPGM ) {
i = WaitProc(PdHead->rPID) ; /* M012 - Wait RH */
DEBUG((OPGRP,PILVL,"PIPEWAIT:CWAIT on RH - Ret = %d, PID = %d", i, PdHead->rPID)) ;
}
}
PdHead = PdHead->nxtpds ;
}
DEBUG((OPGRP,PILVL,"PIPEWAIT: complete, Retcode = %d", i)) ;
PdTail = NULL ; /* Cancel linked list... */
PipeCnt = 0 ; /* ...pipe count and pipe PID */
PipePid = 0 ;
LastRetCode = i;
return(i) ;
}
/*** BreakPipes - disconnect all active pipes (M000)
*
* Purpose:
* To remove the temporary pipe files and invalidate the pipedata
* structure when pipes are to be terminated, either through the
* completion of the pipe operation or SigTerm.
*
* This routine is called directly by the signal handler and must
* not generate any additional error conditions.
*
* void BreakPipes()
*
* Args:
* None.
*
* Returns:
* Nothing.
*
* Notes:
* M007 - This function has been completely rewritten for real pipes.
*
* *** W A R N I N G ! ***
* THIS ROUTINE IS CALLED AS A PART OF SIGNAL/ABORT RECOVERY AND
* THEREFORE MUST NOT BE ABLE TO TRIGGER ANOTHER ABORT CONDITION.
*
*/
void BreakPipes()
{
unsigned i ;
struct pipedata *pnode;
DEBUG((OPGRP,PILVL,"BRKPIPES:Entered - PipeCnt = %d", PipeCnt)) ;
/* The following two lines have been commented out */
/* because the NULL test on PdTail should be enough, */
/* and more importantly, even if PipeCnt is 0, you */
/* may still have been servicing a pipe in Pipewait */
/* if (!PipeCnt) */ /* If no active pipes... */
/* return ; */ /* ...don't do anything */
pnode = PdTail;
/* First, kill all of the processes */
while (pnode) {
if (pnode->lPID!=(HANDLE) NULL) {
/* M012 */
i = KillProc(pnode->lPID, FALSE) ; /* Kill LH */
DEBUG((OPGRP,PILVL,"BRKPIPES:LH (Pid %d) killed - Retcode = %d", PdTail->lPID, i)) ;
};
if (pnode->rPID!=(HANDLE) NULL) {
/* M012 */
i = KillProc(pnode->rPID, FALSE) ; /* Kill RH */
DEBUG((OPGRP,PILVL,"BRKPIPES:RH (Pid %d) killed - Retcode = %d", PdTail->rPID, i)) ;
};
pnode = pnode->prvpds ;
}
/* Wait for the processes to die, and clean up file handles */
while (PdTail) {
if (PdTail->lPID) {
if (PdTail->lstart == EXECPGM) {
i = WaitProc(PdTail->lPID);
// } else {
// WaitTermQProc(PdTail->lPID, &i) ;
}
};
if (PdTail->rPID) {
if (PdTail->rstart == EXECPGM) {
i = WaitProc(PdTail->rPID);
// } else {
// WaitTermQProc(PdTail->rPID, &i) ;
}
};
if (PdTail->rh) {
Cclose(PdTail->rh) ; /* M009 */
DEBUG((OPGRP,PILVL,"BRKPIPES:Pipe read handle closed")) ;
};
if (PdTail->wh) {
Cclose(PdTail->wh) ; /* M009 */
DEBUG((OPGRP,PILVL,"BRKPIPES:Pipe write handle closed")) ;
};
if (PdTail->shr) {
FlushFileBuffers(CRTTONT(PdTail->shr));
Cdup2(PdTail->shr, STDIN) ; /* M009 */
Cclose(PdTail->shr) ; /* M009 */
DEBUG((OPGRP,PILVL,"BRKPIPES:STDIN restored.")) ;
};
if (PdTail->shw) {
Cdup2(PdTail->shw, STDOUT) ; /* M009 */
Cclose(PdTail->shw) ; /* M009 */
DEBUG((OPGRP,PILVL,"BRKPIPES:STDOUT restored.")) ;
};
PdTail = PdTail->prvpds ;
} ;
PdHead = NULL ; /* Cancel linked list... */
PipeCnt = 0 ; /* ...pipe count and pipe PID */
PipePid = 0;
DEBUG((OPGRP,PILVL,"BRKPIPES:Action complete, returning")) ;
}
/*** eParen - execute a parenthesized statement group
*
* Purpose:
* Execute the group of statements enclosed by a statement grouping
* operator; parenthesis().
*
* int eParen(struct node *n)
*
* Args:
* n - parse tree node containing the PAREN operator node
*
* Returns:
* Whatever the statement group returns.
*
* Notes:
* M000 - Altered to always supply both args to Dispatch().
* M004 - Debug statements were added for SILTYP operator.
* ** WARNING **
* BOTH THE LEFT PAREN AND THE SILENT OPERATOR (@) USE eParen
* WHEN DISPATCHED. CHANGING ONE WILL AFFECT THE OTHER !!
*/
int eParen(n)
struct node *n ;
{
DEBUG((OPGRP,PNLVL,"ePAREN: Operator is %s", (n->type == PARTYP) ? "Paren" : "Silent")) ;
return(Dispatch(RIO_OTHER,n->lhs)) ;
}