************************************************************************ * * The GNO Shell Project * * Developed by: * Jawaid Bazyar * Tim Meekins * * $Id: jobs.asm,v 1.2 1998/04/24 15:38:27 gdr-ftp Exp $ * ************************************************************************** * * JOBS.ASM * By Tim Meekins * * Job control handling routines * ************************************************************************** mcopy /obj/gno/bin/gsh/jobs.mac dummy start ; ends up in .root end setcom 60 WSTOPPED gequ $7F SIGINT gequ 2 SIGKILL gequ 9 SIGTERM gequ 15 SIGSTOP gequ 17 SIGTSTP gequ 18 SIGCONT gequ 19 SIGCHLD gequ 20 SIGTTIN gequ 21 SIGTTOU gequ 22 ; ; process structure used in job control ; p_next gequ 0 ;next in global proclist p_friends gequ p_next+4 ;next in job list p_flags gequ p_friends+4 ;various job status flags p_reason gequ p_flags+2 ;reason for entering this state p_index gequ p_reason+2 ;job index p_pid gequ p_index+2 ;process id p_jobid gequ p_pid+2 ;process id of job leader p_command gequ p_jobid+2 ;command (how job invoked) p_space gequ p_command+4 ;space for structure ; ; p_flags values ; PRUNNING gequ %0000000000000001 ;running PSTOPPED gequ %0000000000000010 ;stopped PNEXITED gequ %0000000000000100 ;normally exited PAEXITED gequ %0000000000001000 ;abnormally exited PSIGNALED gequ %0000000000010000 ;terminated by signal != SIGINT PNOTIFY gequ %0000000000100000 ;notify async when done PTIME gequ %0000000001000000 ;job times should be printed PAWAITED gequ %0000000010000000 ;top level is waiting for it PFOREGND gequ %0000000100000000 ;started in shells pgrp PDUMPED gequ %0000001000000000 ;process dumped core PDIAG gequ %0000010000000000 ;diagnostic output also piped out PPOU gequ %0000100000000000 ;piped output PREPORTED gequ %0001000000000000 ;status has been reported PINTERRUPTED gequ %0010000000000000 ;job stopped via interrupt signal PPTIME gequ %0100000000000000 ;time individual process PNEEDNOTE gequ %1000000000000000 ;notify as soon as practicle ;==================================================================== ; ; pwait - wait for foreground processes to finish up. ; ;==================================================================== pwait START using pdata waitpid equ 1 oldsig equ waitpid+2 p equ oldsig+4 space equ p+4 end equ space+3 ; subroutine (0:dummy),space tsc sec sbc #space-1 tcs phd tcd getpid sta waitpid waitloop ldx #%0000000000001010 lda #%0100000000000000 sigblock @xa sta oldsig stx oldsig+2 lda pjoblist ldx pjoblist+2 loop sta p stx p+2 ora p+2 beq done ldy #p_flags lda [p],y and #PFOREGND+PRUNNING cmp #PFOREGND+PRUNNING bne loop2 ldy #p_pid lda [p],y cmp waitpid beq loop2 ; check if the process is actually running..if it is not, report to the ; user that a stale process was detected and remove it from job control. sigsetmask oldsig sigpause #0 bra waitloop loop2 ldy #p_next+2 lda [p],y tax ldy #p_next lda [p],y bra loop done sigsetmask oldsig pld tsc clc adc #end-4 tcs rtl END ;==================================================================== ; ; jobkiller - kills all jobs ; ;==================================================================== jobkiller START using pdata p equ 0 space equ p+4 subroutine (0:dummy),space loop lda pjoblist beq done ldx pjoblist+2 beq done sta p stx p+2 ldy #p_pid lda [p],y kill (@a,#SIGKILL) bra loop done return END ;==================================================================== ; ; palloc - allocate a process structure and fill it up ; ;==================================================================== palloc START using pdata using global pp equ 1 space equ pp+4 cmd equ space+3 bg equ cmd+4 pid equ bg+2 end equ pid+2 ; subroutine (2:pid,2:bg,4:cmd),space tsc sec sbc #space-1 tcs phd tcd ldx #%0000000000001000 lda #%0000000000000000 sigblock @xa phx pha ph4 #p_space jsl ~NEW sta pp stx pp+2 ldy #p_pid ;set pid lda pid sta [pp],y ldy #p_jobid sta [pp],y lda bg ;set running flags bne bg00 lda #PRUNNING+PFOREGND bra bg01 bg00 lda #PRUNNING bg01 ldy #p_flags sta [pp],y ldy #p_next lda pjoblist sta [pp],y ldy #p_next+2 lda pjoblist+2 sta [pp],y ldx pp+2 ldy pp stx pjoblist+2 sty pjoblist lda pcurrent ora pcurrent+2 bne in01 stx pcurrent+2 sty pcurrent bra in02 in01 lda pprevious ora pprevious+2 bne in02 stx pprevious+2 sty pprevious in02 anop ldy #p_friends lda #0 sta [pp],y ldy #p_friends+2 sta [pp],y inc pmaxindex ;set job number ldy #p_index lda pmaxindex sta [pp],y pei (cmd+2) pei (cmd) jsr cstrlen inc a pea 0 pha jsl ~NEW pei (cmd+2) pei (cmd) phx pha ldy #p_command ;set command sta [pp],y txa ldy #p_command+2 sta [pp],y jsr copycstr lda bg beq noprint pei (pp+2) pei (pp) pea 1 pea 0 jsl pprint noprint anop case on jsl sigsetmask case off lda space sta end-3 lda space+1 sta end-2 pld tsc clc adc #end-4 tcs rtl END ;==================================================================== ; ; pallocpipe - allocate a process structure and fill it up and append ; to previous command pipeline. ; ;==================================================================== pallocpipe START using pdata using global p equ 1 pp equ p+4 space equ pp+4 cmd equ space+3 bg equ cmd+4 pid equ bg+2 end equ pid+2 ; subroutine (2:pid,2:bg,4:cmd),space tsc sec sbc #space-1 tcs phd tcd ldx #%0000000000001000 lda #%0000000000000000 sigblock @xa phx pha ph4 #p_space jsl ~NEW sta pp stx pp+2 ldy #p_pid ;set pid lda pid sta [pp],y ldy #p_jobid sta [pp],y lda bg ;set running flags bne bg00 lda #PRUNNING+PFOREGND bra bg01 bg00 lda #PRUNNING bg01 ldy #p_flags sta [pp],y ldy #p_next lda #0 sta [pp],y ldy #p_next+2 sta [pp],y ldy #p_friends sta [pp],y ldy #p_friends+2 sta [pp],y pei (cmd+2) pei (cmd) jsr cstrlen inc a pea 0 pha jsl ~NEW pei (cmd+2) pei (cmd) phx pha ldy #p_command ;set command sta [pp],y txa ldy #p_command+2 sta [pp],y jsr copycstr ; ; update the current pipeline to know about the last pipe. ; lda pjoblist ldx pjoblist+2 loop sta p stx p+2 ldy #p_flags lda [pp],y sta [p],y ldy #p_jobid lda [pp],y sta [p],y ldy #p_friends lda [p],y ldy #p_friends+2 ora [p],y beq addit lda [p],y tax ldy #p_friends lda [p],y bra loop addit ldy #p_friends lda pp sta [p],y ldy #p_friends+2 lda pp+2 sta [p],y case on jsl sigsetmask case off lda space sta end-3 lda space+1 sta end-2 pld tsc clc adc #end-4 tcs rtl END ;==================================================================== ; ; handle a SIGCHLD signal ; ;==================================================================== pchild START using pdata using global waitstatus equ 1 pid equ waitstatus+4 ;just in case p equ pid+2 space equ p+4 signum equ space+3 code equ signum+2 end equ code+2 ; subroutine (2:code,2:signum),space tsc sec sbc #space-1 tcs phd tcd phb phk plb stz signum ; ; get status for the process that just died ; ldx #0 clc tdc adc #waitstatus wait @xa sta pid ; ; search for the job that has finished. ; search lda pjoblist ldx pjoblist+2 lookloop sta p stx p+2 ora p+2 jeq done ldy #p_jobid lda [p],y cmp pid beq lookfound ldy #p_next+2 lda [p],y tax ldy #p_next lda [p],y bra lookloop ; ; see how wait was signaled. ; lookfound anop lda waitstatus and #$FF cmp #WSTOPPED jne kill lda waitstatus xba and #$FF ;<- signal number sta signum cmp #SIGTSTP beq stop cmp #SIGTERM jeq zap cmp #SIGINT beq zap cmp #SIGSTOP beq stop cmp #SIGTTIN beq stop cmp #SIGTTOU bne zap stop ldy #p_flags lda [p],y eor #PRUNNING ora #PSTOPPED sta [p],y pei (p+2) pei (p) jsr mkjobcur ldy #p_flags lda [p],y bit #PFOREGND beq stop2 tctpgrp (gshtty,gshpid) stop2 pei (p+2) pei (p) pea 0 pei (signum) jsl pprint bra done kill ldy #p_flags lda [p],y bit #PFOREGND ;only set status variable if in beq zap0 ; foreground lda waitstatus jsr setstatus bra zap zap0 inc signalled zap ldy #p_index lda [p],y pha jsl removejob ldy #p_flags lda [p],y bit #PFOREGND beq done tctpgrp (gshtty,gshpid) done anop plb lda space sta end-3 lda space+1 sta end-2 pld tsc clc adc #end-4 tcs rtl ; ; set status return variable ; setstatus ENTRY xba and #$FF cmp #100 bcc set1 Int2Dec (@a,#valstat1+1,#3,#0) lda #valstat1 ldx #^valstat1 bra set0 set1 cmp #10 bcc set2 Int2Dec (@a,#valstat2+1,#2,#0) lda #valstat2 ldx #^valstat2 bra set0 set2 Int2Dec (@a,#valstat3+1,#1,#0) lda #valstat3 ldx #^valstat3 set0 sta SetParm+4 stx SetParm+6 Set_Variable SetParm rts SetParm dc a4'name' ds 4 name str 'status' valstat1 str '000' valstat2 str '00' valstat3 str '0' END ;==================================================================== ; ; remove a job ; ;==================================================================== removejob START using pdata p equ 1 prev equ p+4 space equ prev+4 jobnum equ space+3 end equ jobnum+2 ; subroutine (2:jobnum),space tsc sec sbc #space-1 tcs phd tcd stz prev stz prev+2 lda pjoblist ldx pjoblist+2 loop sta p stx p+2 ora p+2 jeq done ldy #p_index lda [p],y cmp jobnum beq gotit lda p sta prev stx prev+2 ldy #p_next+2 lda [p],y tax ldy #p_next lda [p],y bra loop ; ; adjust linked list pointers ; gotit ora2 prev,prev+2,@a beq gotit2 ldy #p_next lda [p],y sta [prev],y ldy #p_next+2 lda [p],y sta [prev],y bra gotit3 gotit2 ldy #p_next lda [p],y sta pjoblist ldy #p_next+2 lda [p],y sta pjoblist+2 ; ; free the node (may want to check currjob and prevjob pointers) ; gotit3 anop ldy #p_flags lda [p],y and #PFOREGND bne gotit3c jsr newline ldy #p_flags lda #0 sta [p],y pei (p+2) pei (p) pea 0 pea 0 jsl pprint gotit3c anop ldy #p_command+2 lda [p],y pha dey2 lda [p],y pha jsl nullfree lda pcurrent eor pcurrent+2 eor p eor p+2 bne gotit3a mv4 pprevious,pcurrent stz pprevious stz pprevious+2 lda prev eor prev+2 eor pcurrent eor pcurrent+2 beq gotit3a mv4 prev,pprevious gotit3a lda pprevious eor pprevious+2 eor p eor p+2 bne gotit3b stz pprevious stz pprevious+2 gotit3b anop gotit4 ldy #p_friends lda [p],y pha ldy #p_friends+2 lda [p],y pha pei (p+2) pei (p) jsl nullfree pla sta P+2 pla sta p ora p+2 beq gotit5 ldy #p_command+2 lda [p],y pha ldy #p_command lda [p],y pha jsl nullfree bra gotit4 gotit5 anop ; ; find maximum job number ; stz prev lda pjoblist ldx pjoblist+2 fmaxloop sta p stx p+2 ora p+2 beq gotmax ldy #p_index lda [p],y cmp prev bcc skipmax sta prev skipmax ldy #p_next+2 lda [p],y tax ldy #p_next lda [p],y bra fmaxloop gotmax mv2 prev,pmaxindex done anop lda space+1 sta end-2 lda space sta end-3 pld tsc clc adc #end-4 tcs rtl END ;==================================================================== ; ; mkjobcur ; ;==================================================================== mkjobcur START using pdata space equ 1 p equ space+2 end equ p+4 ; subroutine (4:p),space lda p,s eor p+2,s eor pcurrent eor pcurrent+2 beq done mv4 pcurrent,pprevious lda p,s sta pcurrent lda p+2,s sta pcurrent+2 done lda space,s sta end-2,s tsc clc adc #end-3 tcs rts END ************************************************************************** * * JOBS: builtin command * syntax: exit * * displays jobs * ************************************************************************** jobs START using pdata pidflag equ 0 pp equ pidflag+2 count equ pp+4 space equ count+2 subroutine (4:argv,2:argc),space stz pidflag lda argc dec a beq cont dec a beq grab shit ldx #^Usage lda #Usage jsr errputs jmp done grab ldy #4 lda [argv],y sta pp ldy #4+2 lda [argv],y sta pp+2 lda [pp] and #$FF if2 @a,ne,#'-',shit ldy #1 lda [pp],y if2 @a,ne,#'l',shit inc pidflag cont ld2 1,count loop lda pjoblist ldx pjoblist+2 loop2 sta pp stx pp+2 ora pp+2 beq next ldy #p_index lda [pp],y cmp count beq gotit ldy #p_next+2 lda [pp],y tax ldy #p_next lda [pp],y bra loop2 gotit pei (pp+2) pei (pp) pei (pidflag) pea 0 jsl pprint next inc count lda count cmp pmaxindex beq loop bcc loop done return Usage dc c'Usage: jobs [-l]',h'0d00' END ************************************************************************** * * KILL: builtin command * syntax: kill [-sig] [pid ...] * * sends a [kill] signal to a process * ************************************************************************** kill START ptr equ 1 arg equ ptr+4 signum equ arg+4 pid equ signum+2 space equ pid+2 argc equ space+3 argv equ argc+2 end equ argv+4 ; subroutine (4:argv,2:argc),space tsc sec sbc #space-1 tcs phd tcd lda argc dec a bne init ldx #^Usage lda #Usage jsr errputs jmp done init stz pid ld2 SIGTERM,signum dec argc jeq dokill add2 argv,#4,argv ldy #2 lda [argv] sta arg lda [argv],y sta arg+2 lda [arg] and #$FF cmp #'-' jne getpid inc arg lda [arg] and #$FF cmp #'0' bcc getname cmp #'9'+1 bcs getname pei (arg+2) pei (arg) jsr cstrlen tax Dec2Int (arg,@x,#0),signum lda signum ;yeah, yeah, I know... bmi ohshitnum cmp #1 bcc ohshitnum cmp #25 bcc next cmp #30 beq next cmp #31 beq next ohshitnum ldx #^err1 lda #err1 jsr errputs jmp done getname lda [arg] cmp #'l' beq lister pei (arg+2) pei (arg) jsr lowercstr ld2 1,signum ld4 names,ptr nameloop pei (arg+2) pei (arg) pei (ptr+2) pei (ptr) jsr cmpcstr cmp #0 beq next inc signum add2 ptr,#8,ptr lda signum cmp #32 bcc nameloop ldx #^err3 lda #err3 jsr errputs bra done next dec argc jeq dokill add2 argv,#4,argv ldy #2 lda [argv] sta arg lda [argv],y sta arg+2 getpid pei (arg+2) pei (arg) jsl parsepid sta pid cmp #0 beq killnull cmp #-1 bne dokill ldx #^err2 lda #err2 jsr errputs bra done lister ldx #^liststr lda #liststr jsr puts bra done killnull ldx #^err4 lda #err4 jsr errputs bra done dokill kill (pid,signum) cmp #0 beq done ldx #^err2 lda #err2 jsr errputs done lda space sta end-3 lda space+1 sta end-2 pld tsc clc adc #end-4 tcs lda #0 rtl Usage dc c'Usage: kill [-signum | -signame] [pid | %jobid] ...',h'0d00' err1 dc c'kill: Invalid signal number.',h'0d00' err2 dc c'kill: No such job or pid.',h'0d00' err3 dc c'kill: Invalid signal name.',h'0d00' err4 dc c'kill: Killing the kernel null process isn''t such a good idea.',h'0d00' liststr dc c'sighup sigint sigquit sigill sigtrap sigabrt sigemt ' dc c'sigfpe sigkill sigbus sigsegv sigsys sigpipe sigalrm ' dc c'sigterm sigurg sigstop sigtstp sigcont sigchld sigttin ' dc c'sigttou sigio sigxcpu sigusr1 sigusr2',h'0d00' names dc c'sighup',h'0000' ;1 dc c'sigint',h'0000' ;2 dc c'sigquit',h'00' ;3 dc c'sigill',h'0000' ;4 dc c'sigtrap',h'00' ;5 dc c'sigabrt',h'00' ;6 dc c'sigemt',h'0000' ;7 dc c'sigfpe',h'0000' ;8 dc c'sigkill',h'00' ;9 dc c'sigbus',h'0000' ;10 dc c'sigsegv',h'00' ;11 dc c'sigsys',h'0000' ;12 dc c'sigpipe',h'00' ;13 dc c'sigalrm',h'00' ;14 dc c'sigterm',h'00' ;15 dc c'sigurg',h'0000' ;16 dc c'sigstop',h'00' ;17 dc c'sigtstp',h'00' ;18 dc c'sigcont',h'00' ;19 dc c'sigchld',h'00' ;20 dc c'sigttin',h'00' ;21 dc c'sigttou',h'00' ;22 dc c'sigio',h'000000' ;23 dc c'sigxcpu',h'00' ;24 dc h'0000000000000000' ;25 dc h'0000000000000000' ;26 dc h'0000000000000000' ;27 dc h'0000000000000000' ;28 dc h'0000000000000000' ;29 dc c'sigusr1',h'00' ;30 dc c'sigusr2',h'00' ;31 END ************************************************************************** * * FG: builtin command * ************************************************************************** fg START using pdata using global pid equ 0 p equ pid+2 space equ p+4 subroutine (4:argv,2:argc),space lda argc dec a bne getit ora2 pjoblist,pjoblist+2,@a jeq whoashit mv4 pjoblist,p bra dofg getit dec a beq getit2 ldx #^usage lda #usage jmp puterr getit2 ldy #4+2 lda [argv],y pha ldy #4 lda [argv],y pha jsl parsepid sta pid cmp #-1 jeq nojob mv4 pjoblist,p loop ora2 p,p+2,@a jeq nojob ldy #p_jobid lda [p],y cmp pid beq dofg ldy #p_next lda [p],y tax ldy #p_next+2 lda [p],y sta p+2 stx p bra loop dofg ldy #p_flags lda [p],y and #PFOREGND+PRUNNING cmp #PFOREGND+PRUNNING bne dofg1 ldx #^err02 lda #^err01 bra puterr dofg1 lda [p],y ora #PRUNNING+PFOREGND sta [p],y ldy #p_jobid lda [p],y tax tctpgrp (gshtty,@x) ldy #p_flags lda [p],y bit #PSTOPPED beq dofg2 ; lda [p],y eor #PSTOPPED sta [p],y pei (p+2) pei (p) pea 0 pea 0 jsl pprint ldy #p_jobid lda [p],y getpgrp @a eor #$FFFF inc a kill (@a,#SIGCONT) bra dofg3 dofg2 pei (p+2) pei (p) pea 0 pea 0 jsl pprint dofg3 jsl pwait bra done whoashit ldx #^err01 lda #err01 bra puterr nojob ldx #^err03 lda #err03 puterr jsr errputs done return usage dc c'Usage: fg [%job | pid]',h'0d00' err01 dc c'fg: No job to foreground.',h'0d00' err02 dc c'fg: Gee, this job is already in the foreground.',h'0d00' err03 dc c'fg: No such job.',h'0d00' END ************************************************************************** * * BG: builtin command * ************************************************************************** bg START using pdata using global pid equ 0 p equ pid+2 space equ p+4 subroutine (4:argv,2:argc),space lda argc dec a bne getit ora2 pjoblist,pjoblist+2,@a jeq whoashit mv4 pjoblist,p bra dofg getit dec a beq getit2 ldx #^usage lda #usage jmp puterr getit2 ldy #4+2 lda [argv],y pha ldy #4 lda [argv],y pha jsl parsepid sta pid cmp #-1 jeq nojob mv4 pjoblist,p loop ora2 p,p+2,@a jeq nojob ldy #p_jobid lda [p],y cmp pid beq dofg ldy #p_next lda [p],y tax ldy #p_next+2 lda [p],y sta p+2 stx p bra loop dofg ldy #p_flags lda [p],y bit #PRUNNING ; cmp #PRUNNING ; bne dofg1 beq dofg1 ldx #^err02 lda #err02 bra puterr dofg1 anop ; lda [p],y ora #PRUNNING sta [p],y bit #PFOREGND beq dobg0 ; lda [p],y eor #PFOREGND sta [p],y dobg0 anop ; lda [p],y bit #PSTOPPED beq dofg2 ; lda [p],y eor #PSTOPPED sta [p],y tctpgrp (gshtty,gshpid) pei (p+2) pei (p) pea 0 pea 0 jsl pprint ldy #p_jobid lda [p],y getpgrp @a eor #$FFFF inc a kill (@a,#SIGCONT) bra dofg3 dofg2 pei (p+2) pei (p) pea 0 pea 0 jsl pprint dofg3 bra done whoashit ldx #^err01 lda #err01 bra puterr nojob ldx #^err03 lda #err03 puterr jsr errputs done return usage dc c'Usage: bg [%job | pid]',h'0d00' err01 dc c'bg: No job to background.',h'0d00' err02 dc c'bg: Gee, this job is already in the background.',h'0d00' err03 dc c'bg: No such job.',h'0d00' END ************************************************************************** * * STOP: builtin command * ************************************************************************** stop START using pdata using global pid equ 0 p equ pid+2 space equ p+4 subroutine (4:argv,2:argc),space lda argc dec a bne getit ora2 pjoblist,pjoblist+2,@a jeq whoashit mv4 pjoblist,p bra dofg getit dec a beq getit2 ldx #^usage lda #usage jmp puterr getit2 ldy #4+2 lda [argv],y pha ldy #4 lda [argv],y pha jsl parsepid sta pid cmp #-1 jeq nojob mv4 pjoblist,p loop ora2 p,p+2,@a jeq nojob ldy #p_jobid lda [p],y cmp pid beq dofg ldy #p_next lda [p],y tax ldy #p_next+2 lda [p],y sta p+2 stx p bra loop dofg ldy #p_flags lda [p],y and #PSTOPPED beq dofg1 ldx #^err02 lda #err02 bra puterr dofg1 tctpgrp (gshtty,gshpid) ldy #p_jobid lda [p],y getpgrp @a eor #$FFFF inc a kill (@a,#SIGSTOP) bra done whoashit ldx #^err01 lda #err01 bra puterr nojob ldx #^err03 lda #err03 puterr jsr errputs done return usage dc c'Usage: stop [%job | pid]',h'0d00' err01 dc c'stop: No job to stop.',h'0d00' err02 dc c'stop: Gee, this job is already stopped.',h'0d00' err03 dc c'stop: No such job.',h'0d00' END ;==================================================================== ; ; print job ; ;==================================================================== pprint START using pdata p equ 0 count equ p+4 space equ count+2 subroutine (4:pp,2:idflag,2:signum),space stz count ; ; display job number ; lda #'[' jsr putchar ldy #p_index lda [pp],y cmp #10 bcs id10 adc #'0' jsr putchar lda #']' jsr putchar lda #' ' jsr putchar bra ida id10 Int2Dec (@a,#dec10,#2,#0) ldx #^dec10 lda #dec10 jsr puts ida lda #' ' jsr putchar ; ; display '+' or '-' ; if2 pp,ne,pcurrent,pcur1 if2 pp+2,ne,pcurrent+2,pcur1 lda #'+' bra pcur3 pcur1 if2 pp,ne,pprevious,pcur2 if2 pp+2,ne,pprevious+2,pcur2 lda #'-' bra pcur3 pcur2 lda #' ' pcur3 jsr putchar lda #' ' jsr putchar ; ; display process id ; lda idflag beq stat ldy #p_jobid lda [pp],y Int2Dec (@a,#pidstr,#5,#0) ldx #^pidstr lda #pidstr jsr puts ld2 6,count ; ; status ; stat ldy #p_flags lda [pp],y bit #PRUNNING beq stat2 ldx #^statrun lda #statrun bra stat0 stat2 bit #PSTOPPED beq stat3 ldx #^statstop lda #statstop bra stat0 stat3 ldx #^statohshit lda #statohshit stat0 jsr puts ; ; show signal ; lda signum beq sig0 if2 @a,ne,#SIGTTIN,sig2 ldx #^sigttinstr lda #sigttinstr bra sig1 sig2 if2 @a,ne,#SIGTTOU,sig3 ldx #^sigttoustr lda #sigttoustr bra sig1 sig3 ldx #^sigotherstr lda #sigotherstr sig1 phx pha jsr puts jsr cstrlen clc adc count sta count sig0 anop ; ; display command ; showcmd ldy #p_command lda [pp],y sta p ldy #p_command+2 lda [pp],y sta p+2 ldy #0 chloop lda [p],y and #$FF beq next phy jsr putchar ply iny inc count if2 count,cc,#60,chloop showell ldx #^ellipsis lda #ellipsis jsr puts bra cmd01 next ldy #p_friends lda [pp],y pha ldy #p_friends+2 lda [pp],y ora 1,s beq donename lda [pp],y sta pp+2 plx stx pp if2 count,cs,#57,showell clc adc #3 sta count ldx #^pipestr lda #pipestr jsr puts bra showcmd donename pla ldy #p_flags lda [pp],y and #PFOREGND bne cmd01 ldx #^ampstr lda #ampstr jsr puts cmd01 anop jsr newline return dec10 dc c'00]',h'00' pidstr dc c'00000 ',h'00' statrun dc c'Running ',h'00' statstop dc c'Stopped ',h'00' statohshit dc c'Done ',h'00' ampstr dc c' &',h'00' ellipsis dc c'...',h'00' pipestr dc c' | ',h'00' sigttinstr dc c'(tty input) ',h'00' sigttoustr dc c'(tty output) ',h'00' sigotherstr dc c'(signal) ',h'00' END ;==================================================================== ; ; parse process id (if starts with '%', then parse job num and ; concert to process id). ; ;==================================================================== parsepid START using pdata p equ 0 len equ p+4 pid equ len+2 space equ pid+2 subroutine (4:str),space pei (str+2) pei (str) jsr cstrlen sta len lda [str] and #$FF cmp #'%' beq dojob cmp #'0' jcc nojob cmp #'9'+1 jcs nojob Dec2Int (str,len,#0),pid jmp done dojob ldy #1 lda [str],y and #$FF beq docurjob if2 @a,eq,#'+',docurjob if2 @a,eq,#'%',docurjob if2 @a,ne,#'-',dojobnum lda pprevious ldx pprevious+2 bra gotjob docurjob lda pcurrent ldx pcurrent+2 bra gotjob dojobnum ldy len dey ldx str+2 lda str inc a Dec2Int (@xa,@y,#0),pid lda pjoblist ldx pjoblist+2 sta p stx p+2 loop ora2 p,p+2,@a beq nojob ldy #p_index lda [p],y cmp pid beq gotjob2 ldy #p_next lda [p],y tax ldy #p_next+2 lda [p],y sta p+2 stx p bra loop gotjob sta p stx p+2 gotjob2 ora2 p,p+2,@a beq nojob ldy #p_jobid lda [p],y sta pid bra done nojob ld2 -1,pid done return 2:pid END ;==================================================================== ; ; process data ; ;==================================================================== pdata DATA pwaitsem dc i2'0' pjoblist dc i4'0' ;job list pcurrent dc i4'0' ;current job in table pprevious dc i4'0' ;previous job in table pmaxindex dc i2'0' ;current maximum job index END