/* jobs.h -- structures and stuff used by the jobs.c file. */ #include "quit.h" #include "siglist.h" /* Defines controlling the fashion in which jobs are listed. */ #define JLIST_STANDARD 0 #define JLIST_LONG 1 #define JLIST_PID_ONLY 2 #define JLIST_CHANGED_ONLY 3 /* Cadmus machines are brain-dead from the moment of fission, like all bacteria. */ #if defined (cadmus) || defined (BrainDeath) # undef HAVE_WAIT_H #endif /* BrainDeath */ /* HP/UX 6.x sys/wait.h is a complete loss when it comes to the WIF macros. Pretend we don't have a wait.h. */ #if defined (hpux) && !defined (_POSIX_VERSION) # undef HAVE_WAIT_H #endif #if defined (HAVE_WAIT_H) # include #else /* !HAVE_WAIT_H */ # include "endian.h" # if !defined (_POSIX_VERSION) # if defined (LITTLE_ENDIAN) union wait { int w_status; /* used in syscall */ /* Terminated process status. */ struct { unsigned short w_Termsig : 7, /* termination signal */ w_Coredump : 1, /* core dump indicator */ w_Retcode : 8, /* exit code if w_termsig==0 */ w_Fill1 : 16; /* high 16 bits unused */ } w_T; /* Stopped process status. Returned only for traced children unless requested with the WUNTRACED option bit. */ struct { unsigned short w_Stopval : 8, /* == W_STOPPED if stopped */ w_Stopsig : 8, /* actually zero on XENIX */ w_Fill2 : 16; /* high 16 bits unused */ } w_S; }; # else /* !LITTLE_ENDIAN */ /* This is for big-endian machines like the IBM RT, HP 9000, or Sun-3 */ union wait { int w_status; /* used in syscall */ /* Terminated process status. */ struct { unsigned short w_Fill1 : 16; /* high 16 bits unused */ unsigned w_Retcode : 8; /* exit code if w_termsig==0 */ unsigned w_Coredump : 1; /* core dump indicator */ unsigned w_Termsig : 7; /* termination signal */ } w_T; /* Stopped process status. Returned only for traced children unless requested with the WUNTRACED option bit. */ struct { unsigned short w_Fill2 : 16; /* high 16 bits unused */ unsigned w_Stopsig : 8; /* signal that stopped us */ unsigned w_Stopval : 8; /* == W_STOPPED if stopped */ } w_S; }; # endif /* !LITTLE_ENDIAN */ # define w_termsig w_T.w_Termsig # define w_coredump w_T.w_Coredump # define w_retcode w_T.w_Retcode # define w_stopval w_S.w_Stopval # define w_stopsig w_S.w_Stopsig /* Note that sys/wait.h defines these for Posix systems. */ # define WSTOPPED 0177 # define WIFSTOPPED(x) (((x) . w_stopval) == WSTOPPED) # define WIFEXITED(x) ((! (WIFSTOPPED (x))) && (((x) . w_termsig) == 0)) # define WIFSIGNALED(x) ((! (WIFSTOPPED (x))) && (((x) . w_termsig) != 0)) # endif /* !_POSIX_VERSION */ #endif /* !HAVE_WAIT_H */ /* How to get the status of a job. For Posix, this is just an int, but for other systems we have to crack the union wait. */ #if !defined (_POSIX_VERSION) # define pid_t int typedef union wait WAIT; # define WSTATUS(t) (t.w_status) #else /* _POSIX_VERSION */ typedef int WAIT; # define WSTATUS(t) (t) #endif /* _POSIX_VERSION */ /* Make sure that parameters to wait3 are defined. */ #if !defined (WNOHANG) # define WNOHANG 1 # define WUNTRACED 2 #endif /* WNOHANG */ /* More Posix P1003.1 definitions. In the POSIX versions, the parameter is passed as an `int', in the non-POSIX version, as `union wait'. */ #if defined (_POSIX_VERSION) # if !defined (WSTOPSIG) # define WSTOPSIG(s) ((s) >> 8) # endif /* !WSTOPSIG */ # if !defined (WTERMSIG) # define WTERMSIG(s) ((s) & 0177) # endif /* !WTERMSIG */ # if !defined (WEXITSTATUS) # define WEXITSTATUS(s) ((s) >> 8) # endif /* !WEXITSTATUS */ # if !defined (WIFSTOPPED) # define WIFSTOPPED(s) (((s) & 0177) == 0177) # endif /* !WIFSTOPPED */ # if !defined (WIFEXITED) # define WIFEXITED(s) (((s) & 0377) == 0) # endif /* !WIFEXITED */ # if !defined (WIFSIGNALED) # define WIFSIGNALED(s) (!WIFSTOPPED(s) && !WIFEXITED(s)) # endif /* !WIFSIGNALED */ # if !defined (WIFCORED) # define WIFCORED(s) ((s) & 0200) # endif /* !WIFCORED */ #else /* !_POSIX_VERSION */ # if !defined (WSTOPSIG) # define WSTOPSIG(s) ((s).w_stopsig) # endif /* !WSTOPSIG */ # if !defined (WTERMSIG) # define WTERMSIG(s) ((s).w_termsig) # endif /* !WTERMSIG */ # if !defined (WEXITSTATUS) # define WEXITSTATUS(s) ((s).w_retcode) # endif /* !WEXITSTATUS */ # if !defined (WIFCORED) # define WIFCORED(s) ((s).w_coredump) # endif /* !WIFCORED */ #endif /* !_POSIX_VERSION */ /* I looked it up. For pretty_print_job (). The real answer is 24. */ #define LONGEST_SIGNAL_DESC 24 /* We keep an array of jobs. Each entry in the array is a linked list of processes that are piped together. The first process encountered is the group leader. */ /* Each child of the shell is remembered in a STRUCT PROCESS. A chain of such structures is a pipeline. The chain is circular. */ typedef struct process { struct process *next; /* Next process in the pipeline. A circular chain. */ pid_t pid; /* Process ID. */ WAIT status; /* The status of this command as returned by wait. */ int running; /* Non-zero if this process is running. */ char *command; /* The particular program that is running. */ } PROCESS; /* A description of a pipeline's state. */ typedef enum { JRUNNING, JSTOPPED, JDEAD, JMIXED } JOB_STATE; #define JOBSTATE(job) (jobs[(job)]->state) /* Values for the FLAGS field in the JOB struct below. */ #define J_FOREGROUND 0x01 /* Non-zero if this is running in the foreground. */ #define J_NOTIFIED 0x02 /* Non-zero if already notified about job state. */ #define J_JOBCONTROL 0x04 /* Non-zero if this job started under job control. */ typedef struct job { char *wd; /* The working directory at time of invocation. */ PROCESS *pipe; /* The pipeline of processes that make up this job. */ pid_t pgrp; /* The process ID of the process group (necessary). */ JOB_STATE state; /* The state that this job is in. */ int flags; /* Flags word: J_NOTIFIED, J_FOREGROUND, or J_JOBCONTROL. */ #if defined (JOB_CONTROL) COMMAND *deferred; /* Commands that will execute when this job is done. */ #endif /* JOB_CONTROL */ } JOB; #define NO_JOB -1 /* An impossible job array index. */ #define DUP_JOB -2 /* A possible return value for get_job_spec (). */ /* A value which cannot be a process ID. */ #define NO_PID (pid_t)-1 #if !defined (_POSIX_VERSION) && !defined (sigmask) # define sigmask(x) (1 << ((x)-1)) #endif /* !POSIX && !sigmask */ #if !defined (SIGABRT) # define SIGABRT SIGIOT #endif /* !SIGABRT */ #if !defined (SIGCHLD) # define SIGCHLD SIGCLD #endif /* !SIGCHLD */ #if !defined (_POSIX_VERSION) # if !defined (SIG_BLOCK) # define SIG_BLOCK 2 # define SIG_SETMASK 3 # endif /* SIG_BLOCK */ /* Type of a signal set. */ # define sigset_t int /* Make sure there is nothing inside the signal set. */ # define sigemptyset(set) (*(set) = 0) /* Initialize the signal set to hold all signals. */ # define sigfillset(set) (*set) = sigmask (NSIG) - 1 /* Add SIG to the contents of SET. */ # define sigaddset(set, sig) *(set) |= sigmask (sig) /* Delete SIG from signal set SET. */ # define sigdelset(set, sig) *(set) &= ~sigmask (sig) /* Is SIG a member of the signal set SET? */ # define sigismember(set, sig) ((*(set) & sigmask (sig)) != 0) /* Suspend the process until the reception of one of the signals not present in SET. */ # define sigsuspend(set) sigpause (*(set)) #endif /* !_POSIX_VERSION */ /* These definitions are used both in POSIX and non-POSIX implementations. */ #define BLOCK_SIGNAL(sig, nvar, ovar) \ sigemptyset (&nvar); \ sigaddset (&nvar, sig); \ sigemptyset (&ovar); \ sigprocmask (SIG_BLOCK, &nvar, &ovar) #if defined (_POSIX_VERSION) # define BLOCK_CHILD(nvar, ovar) \ BLOCK_SIGNAL (SIGCHLD, nvar, ovar) # define UNBLOCK_CHILD(ovar) \ sigprocmask (SIG_SETMASK, &ovar, (sigset_t *) NULL) #else /* !_POSIX_VERSION */ # define BLOCK_CHILD(nvar, ovar) ovar = sigblock (sigmask (SIGCHLD)) # define UNBLOCK_CHILD(ovar) sigsetmask (ovar) #endif /* !_POSIX_VERSION */ /* System calls. */ #if !defined (Solaris) && !defined (USGr4_2) extern pid_t fork (), getpid (), getpgrp (); #endif /* !Solaris && !USGr4_2 */ /* Stuff from the jobs.c file. */ extern pid_t original_pgrp, shell_pgrp, pipeline_pgrp; extern pid_t last_made_pid, last_asynchronous_pid, make_child (); extern int current_job, previous_job; extern int asynchronous_notification; extern JOB **jobs; extern int job_slots; extern void restart_job_control (), end_job_control (); extern void wait_for_background_pids (); extern int wait_for_single_pid ();