From: Jorrit Herder Date: Wed, 18 May 2005 10:36:23 +0000 (+0000) Subject: Fixed some comments and reorganized some code. X-Git-Tag: v3.1.0~834 X-Git-Url: http://zhaoyanbai.com/repos/%22/xml/v3/status/static/gitweb.js?a=commitdiff_plain;h=614f49b557f5d3fb0d7d32162c020588f8a5dabb;p=minix.git Fixed some comments and reorganized some code. Fixed minor bug in notify() function. --- diff --git a/kernel/Makefile b/kernel/Makefile index 05dabc70f..dc42bbcd6 100755 --- a/kernel/Makefile +++ b/kernel/Makefile @@ -22,7 +22,6 @@ HEAD = mpx.o OBJS = start.o protect.o klibc.o klib.o table.o main.o proc.o \ i8259.o exception.o system.o clock.o misc.o \ - dummy.o SYS = system/system.a @@ -135,8 +134,6 @@ table.o: proc.h table.o: sendmask.h table.o: $b/int86.h -dummy.o: $a - system/system.a: $a $h/devio.h $h/com.h system/system.a: proc.h protect.h system.h sendmask.h system/system.a: $s/ptrace.h $s/sigcontext.h diff --git a/kernel/clock.c b/kernel/clock.c index 0b7b58267..c41119bee 100755 --- a/kernel/clock.c +++ b/kernel/clock.c @@ -42,6 +42,7 @@ FORWARD _PROTOTYPE( void init_clock, (void) ); FORWARD _PROTOTYPE( int clock_handler, (irq_hook_t *hook) ); FORWARD _PROTOTYPE( int do_clocktick, (message *m_ptr) ); + /* Constant definitions. */ #define SCHED_RATE (MILLISEC*HZ/1000) /* number of ticks per schedule */ #define MILLISEC 100 /* how often to call the scheduler */ @@ -80,7 +81,8 @@ PRIVATE clock_t next_timeout; /* realtime that next timer expires */ */ PRIVATE clock_t realtime; /* real time clock */ -/* Variables changed by interrupt handler. */ +/* Variables for and changed by the CLOCK's interrupt handler. */ +PRIVATE irq_hook_t clock_hook; PRIVATE clock_t pending_ticks; /* ticks seen by low level only */ PRIVATE int sched_ticks = SCHED_RATE; /* counter: when 0, call scheduler */ PRIVATE struct proc *prev_ptr; /* last user process run by clock */ @@ -120,10 +122,13 @@ PUBLIC void clock_task() result = EBADREQUEST; } - /* Send reply, unless inhibited, e.g. by do_clocktick(). */ + /* Send reply, unless inhibited, e.g. by do_clocktick(). Use the kernel + * function lock_send() to prevent a system call trap. The destination + * is known to be blocked waiting for a message. + */ if (result != EDONTREPLY) { m.m_type = result; - send(m.m_source, &m); + lock_send(proc_addr(CLOCK), m.m_source, &m); } } } @@ -138,7 +143,6 @@ message *m_ptr; /* pointer to request message */ /* Despite its name, this routine is not called on every clock tick. It * is called on those clock ticks when a lot of work needs to be done. */ - register struct proc *rp; register int proc_nr; timer_t *tp; @@ -216,7 +220,6 @@ irq_hook_t *hook; * faster on a 5MHz 8088, and make task debugging much easier since there are * no task switches on an inactive system. */ - register struct proc *rp; register unsigned ticks; clock_t now; @@ -244,13 +247,13 @@ irq_hook_t *hook; if (next_timeout <= now || (sched_ticks == 1 && bill_ptr == prev_ptr && rdy_head[PPRI_USER] != NIL_PROC)) { - notify(CLOCK, HARD_INT); + lock_notify(CLOCK, HARD_INT); } else if (--sched_ticks == 0) { sched_ticks = SCHED_RATE; /* reset quantum */ prev_ptr = bill_ptr; /* new previous process */ } - return 1; /* reenable clock interrupts */ + return(1); /* reenable clock interrupts */ } @@ -310,9 +313,10 @@ struct timer *tp; /* pointer to timer structure */ *===========================================================================*/ PRIVATE void init_clock() { -/* Initialize channel 0 of the 8253A timer to, e.g., 60 Hz. */ - static irq_hook_t clock_hook; + /* Initialize the CLOCK's interrupt hook. */ + clock_hook.proc_nr = CLOCK; + /* Initialize channel 0 of the 8253A timer to, e.g., 60 Hz. */ outb(TIMER_MODE, SQUARE_WAVE); /* set timer to run continuously */ outb(TIMER0, TIMER_COUNT); /* load timer low byte */ outb(TIMER0, TIMER_COUNT >> 8); /* load timer high byte */ diff --git a/kernel/dummy.c b/kernel/dummy.c deleted file mode 100644 index ffb9f8e36..000000000 --- a/kernel/dummy.c +++ /dev/null @@ -1,86 +0,0 @@ -/* A dummy task. Used to safely remove old tasks, and get notices if they get - * called by accident (i.e., because of some bug...). - * - * Created: - * Jul 27, 2004 by Jorrit N. Herder - */ - -#include "kernel.h" -#include "proc.h" -#include - -/* Allocated space for the global variables. */ -message m_in; /* the input message itself */ -message m_out; /* the output message used for reply */ -int who; /* caller's proc number */ -int callnr; /* system call number */ - -/* Declare some local functions. */ -FORWARD _PROTOTYPE(void get_work, (void) ); -FORWARD _PROTOTYPE(void reply, (int whom, int result) ); - - -/*===========================================================================* - * dummy_task * - *===========================================================================*/ -PUBLIC void dummy_task() -{ -/* This is the main routine of this service. In principle this should block - * forever on getting new work - the dummy task is not supposed to be called. - * If new work is received, somehow, diagnostics are printed. - */ - int result; - - /* kprintf("DUMMY: do nothing kernel task started (proc. nr %d).\n", - proc_number(proc_ptr)); */ - - /* Main loop - get work and do it, forever. */ - while (TRUE) { - - /* Wait for incoming message, sets 'callnr' and 'who'. */ - get_work(); - - /* There is work to do! (re)set some variables first. */ - result = EINVAL; /* illegal send to dummy task */ - - /* Print diagnostics: this was not supposed to happen. */ - kprintf("Dummy task: request received from %d.\n", who); - - /* Finally send reply message, unless disabled. */ - if (result != EDONTREPLY) { - reply(who, result); - } - } -} - - -/*===========================================================================* - * get_work * - *===========================================================================*/ -PRIVATE void get_work() -{ - int status = 0; - status = receive(ANY, &m_in); /* this blocks until message arrives */ - if (OK != status) - kprintf("Dummy task failed to receive message: %d", status); - who = m_in.m_source; /* message arrived! set sender */ - callnr = m_in.m_type; /* set function call number */ -} - - -/*===========================================================================* - * reply * - *===========================================================================*/ -PRIVATE void reply(who, result) -int who; /* destination */ -int result; /* report result to replyee */ -{ - int send_status; - m_out.m_type = result; /* build reply message */ - send_status = send(who, &m_out); /* send the message */ - if (OK != send_status) - kprintf("Dummy task unable to send reply: %d", send_status); -} - - - diff --git a/kernel/exception.c b/kernel/exception.c index ee3b78173..8973ddf0f 100755 --- a/kernel/exception.c +++ b/kernel/exception.c @@ -55,7 +55,7 @@ unsigned vec_nr; return; } - if (k_reenter == 0 && isuserp(saved_proc)) { + if (k_reenter == 0 && ! istaskp(saved_proc)) { unlock(); /* this is protected like sys_call() */ cause_sig(proc_number(saved_proc), ep->signum); return; diff --git a/kernel/glo.h b/kernel/glo.h index 4e793d6da..68ba887e8 100755 --- a/kernel/glo.h +++ b/kernel/glo.h @@ -27,6 +27,7 @@ EXTERN struct memory mem[NR_MEMS]; /* base and size of chunks of memory */ EXTERN struct proc *held_head; /* head of queue of held-up interrupts */ EXTERN struct proc *held_tail; /* tail of queue of held-up interrupts */ EXTERN unsigned char k_reenter; /* kernel reentry count (entry count less 1)*/ +EXTERN unsigned char switching; /* nonzero if process switching in progress */ /* Process table. Here to stop too many things having to include proc.h. */ EXTERN struct proc *proc_ptr; /* pointer to currently running process */ diff --git a/kernel/i8259.c b/kernel/i8259.c index 9a82d55db..a752c6bd4 100755 --- a/kernel/i8259.c +++ b/kernel/i8259.c @@ -42,7 +42,6 @@ int mine; * use the BIOS locations instead. The flag "mine" is set if the 8259s are * to be programmed for Minix, or to be reset to what the BIOS expects. */ - int i; lock(); diff --git a/kernel/klibc.c b/kernel/klibc.c index 745f171e8..609bff7d5 100644 --- a/kernel/klibc.c +++ b/kernel/klibc.c @@ -160,7 +160,7 @@ int c; /* character to append */ kmess.km_size += 1; kmess.km_next = (kmess.km_next + 1) % KMESS_BUF_SIZE; } else { - notify(TTY, NEW_KMESS); /* let TTY display the message */ + lock_notify(TTY, NEW_KMESS); /* let TTY display the message */ } } diff --git a/kernel/main.c b/kernel/main.c index 3ff905b7f..1ed071979 100755 --- a/kernel/main.c +++ b/kernel/main.c @@ -234,7 +234,7 @@ int how; /* 0 = halt, 1 = reboot, 2 = panic!, ... */ /* The TTY expects two HARD_STOP notifications. One to switch to the * primary console for stop sequence output, and one to actually exit. */ - notify(TTY, HARD_STOP); /* let TTY switch to console 0 */ + lock_notify(TTY, HARD_STOP); /* let TTY switch to console 0 */ /* Run the stop sequence. The timer argument passes the shutdown status. * The stop sequence is skipped for fatal CPU exceptions. @@ -289,7 +289,7 @@ timer_t *tp; kprintf("- Stopping %s ", karg(p->p_name)); kprintf("%s ... ", karg(types[p->p_type])); shutdown_process = p; /* directly continue if exited */ - notify(proc_number(p), HARD_STOP); + lock_notify(proc_number(p), HARD_STOP); set_timer(tp, get_uptime()+STOP_TICKS, stop_sequence); return; /* allow the process to shut down */ } diff --git a/kernel/mpx386.s b/kernel/mpx386.s index ef5d5caad..efebfbfad 100755 --- a/kernel/mpx386.s +++ b/kernel/mpx386.s @@ -1,24 +1,19 @@ # ! This file, mpx386.s, is included by mpx.s when Minix is compiled for ! 32-bit Intel CPUs. The alternative mpx88.s is compiled for 16-bit CPUs. -! -! This contains the assembler startup code for Minix and the 32-bit -! interrupt handlers. It cooperates with start.c to set up a good -! environment for main(). -! This file is part of the lowest layer of the MINIX kernel. The other part -! is "proc.c". The lowest layer does process switching and message handling. +! This file is part of the lowest layer of the MINIX kernel. (The other part +! is "proc.c".) The lowest layer does process switching and message handling. +! Furthermore it contains the assembler startup code for Minix and the 32-bit +! interrupt handlers. It cooperates with the code in "start.c" to set up a +! good environment for main(). -! Every transition to the kernel goes through this file. Transitions are -! caused by sending/receiving messages and by most interrupts. (RS232 -! interrupts may be handled in the file "rs2.s" and then they rarely enter -! the kernel.) - -! Transitions to the kernel may be nested. The initial entry may be with a -! system call, exception or hardware interrupt; reentries may only be made -! by hardware interrupts. The count of reentries is kept in "k_reenter". -! It is important for deciding whether to switch to the kernel stack and -! for protecting the message passing code in "proc.c". +! Every transition to the kernel goes through this file. Transitions to the +! kernel may be nested. The initial entry may be with a system call (i.e., +! send or receive a message), an exception or a hardware interrupt; kernel +! reentries may only be made by hardware interrupts. The count of reentries +! is kept in "k_reenter". It is important for deciding whether to switch to +! the kernel stack and for protecting the message passing code in "proc.c". ! For the message passing trap, most of the machine state is saved in the ! proc table. (Some of the registers need not be saved.) Then the stack is @@ -226,7 +221,7 @@ csinit: outb INT_CTL /* reenable master 8259 */;\ push (_irq_handlers+4*irq) /* irq_handlers[irq] */;\ sti /* enable interrupts */;\ - call _intr_handle /* intr_handle(irq_handlers[irq]) */;\ + call _intr_handle /* intr_handle(irq_handlers[irq]) */;\ cli /* disable interrupts */;\ pop ecx ;\ cmp (_irq_actids+4*irq), 0 /* interrupt still active? */;\ @@ -397,13 +392,15 @@ _p_s_call: !*===========================================================================* _restart: -! Flush any held-up interrupts. +! Flush any held-up notifications. ! This reenables interrupts, so the current interrupt handler may reenter. ! This does not matter, because the current handler is about to exit and no ! other handlers can reenter since flushing is only done when k_reenter == 0. cmp (_held_head), 0 ! do fast test to usually avoid function call jz over_call_unhold + cmp (_switching), 0 ! do fast test to usually avoid function call + jnz over_call_unhold call _unhold ! this is rare so overhead acceptable over_call_unhold: mov esp, (_proc_ptr) ! will assume P_STACKBASE == 0 diff --git a/kernel/proc.c b/kernel/proc.c index 00da3cc48..64d65c164 100755 --- a/kernel/proc.c +++ b/kernel/proc.c @@ -1,11 +1,12 @@ /* This file contains essentially all of the process and message handling. * It has two main entry points from the outside: * - * sys_call: a system call, that is, the kernel is trapped with an INT - * notify: notify process of a system event (notifications aren't queued) + * sys_call: a system call, that is, the kernel is trapped with an INT + * lock_notify: send a notification to inform a process of a system event * - * It also has several minor entry points: + * It also has several minor entry points to be used from the task level: * + * lock_send: send a message to a process * lock_ready: put a process on one of the ready queues so it can be run * lock_unready: remove a process from the ready queues * lock_sched: a process has run too long; schedule another one @@ -31,12 +32,13 @@ #include "proc.h" #include "sendmask.h" -PRIVATE unsigned char switching; /* nonzero to inhibit notify() */ FORWARD _PROTOTYPE( int mini_send, (struct proc *caller_ptr, int dest, message *m_ptr, int may_block) ); FORWARD _PROTOTYPE( int mini_rec, (struct proc *caller_ptr, int src, message *m_ptr, int may_block) ); +FORWARD _PROTOTYPE( int mini_notify, (struct proc *caller_ptr, int dest, + message *m_ptr ) ); FORWARD _PROTOTYPE( void ready, (struct proc *rp) ); FORWARD _PROTOTYPE( void sched, (void) ); FORWARD _PROTOTYPE( void unready, (struct proc *rp) ); @@ -66,9 +68,9 @@ FORWARD _PROTOTYPE( void cp_mess, (int src, struct proc *src_p, message *src_m, /*===========================================================================* - * notify * + * lock_notify * *===========================================================================*/ -PUBLIC void notify(proc_nr, notify_type) +PUBLIC void lock_notify(proc_nr, notify_type) int proc_nr; /* number of process to be started */ int notify_type; /* notification to be sent */ { @@ -104,8 +106,19 @@ int notify_type; /* notification to be sent */ * handler might call notify() and pass the 'k_reenter' test. */ if (k_reenter != 0 || switching) { - lock(); - if (! rp->p_ntf_held) { /* already on held queue? */ + kinfo.notify_held ++; + if (switching) kinfo.notify_switching ++; + if (k_reenter > 0) kinfo.notify_reenter ++; + switch(notify_type) { + case HARD_INT: kinfo.notify_int ++; break; + case HARD_STOP: kinfo.notify_stop ++; break; + case SYN_ALARM: kinfo.notify_alarm ++; break; + case KSIG_PENDING: kinfo.notify_sig ++; break; + case NEW_KMESS: kinfo.notify_kmess ++; break; + } + lock(); + /* already on held queue? */ + if (! isset_bit(rp->p_ntf_held, notify_bit)) { if (held_head != NIL_PROC) held_tail->p_ntf_nextheld = rp; else @@ -117,32 +130,35 @@ int notify_type; /* notification to be sent */ unlock(); return; } + + /* If process is not waiting for a notification, record the blockage. Else, + * send it a message with source HARDWARE and type 'notify_type'. No more + * information can be reliably provided since notifications are not queued. + */ switching = TRUE; - /* If process is not waiting for a notification, record the blockage. */ if ( (rp->p_flags & (RECEIVING | SENDING)) != RECEIVING || !isrxhardware(rp->p_getfrom)) { - set_bit(rp->p_ntf_blocked, notify_bit); /* add bit to blocked mask */ - switching = FALSE; - return; - } + kinfo.notify_blocked ++; + set_bit(rp->p_ntf_blocked, notify_bit); /* update blocked mask */ + } else { - /* Destination is waiting for a notification. Send it a message with source - * HARDWARE and type 'notify_type'. No more information can be reliably - * provided since notifications are not queued. - */ - m.m_source = HARDWARE; /* direct copy does not work for servers */ - m.m_type = notify_type; - CopyMess(HARDWARE, proc_addr(HARDWARE), &m, rp, rp->p_messbuf); - rp->p_flags &= ~RECEIVING; - clear_bit(rp->p_ntf_blocked, notify_bit); - - /* Announce the process ready and select a fresh process to run. */ - ready(rp); - pick_proc(); + /* Assemble notification message and send it. */ + m.m_source = HARDWARE; + m.m_type = notify_type; + CopyMess(HARDWARE, proc_addr(HARDWARE), &m, rp, rp->p_messbuf); + clear_bit(rp->p_ntf_blocked, notify_bit); + rp->p_flags &= ~RECEIVING; + kinfo.notify_ok ++; + + /* Announce the process ready and select a fresh process to run. */ + ready(rp); + pick_proc(); + } switching = FALSE; } + /*===========================================================================* * sys_call * *===========================================================================*/ @@ -203,6 +219,9 @@ message *m_ptr; /* pointer to message in the caller's space */ case RECEIVE: result = mini_rec(caller_ptr, src_dst, m_ptr, may_block); break; + case NOTIFY: + result = mini_notify(caller_ptr, src_dst, m_ptr); + break; default: result = EBADCALL; /* illegal system call */ } @@ -366,6 +385,20 @@ int may_block; /* (dis)allow blocking */ } } +/*===========================================================================* + * mini_notify * + *===========================================================================*/ +PRIVATE int mini_notify(caller_ptr, dst, m_ptr) +register struct proc *caller_ptr; /* process trying to get message */ +int dst; /* which process to notify */ +message *m_ptr; /* pointer to message buffer */ +{ + kprintf("Kernel notify from %d", caller_ptr->p_nr); + kprintf("for %d\n", dst); + return(OK); +} + + /*===========================================================================* * pick_proc * *===========================================================================*/ @@ -496,6 +529,24 @@ PUBLIC void lock_pick_proc() switching = FALSE; } + +/*==========================================================================* + * lock_send * + *==========================================================================*/ +PUBLIC int lock_send(caller_ptr, dest, m_ptr) +register struct proc *caller_ptr; /* who is trying to send a message? */ +int dest; /* to whom is message being sent? */ +message *m_ptr; /* pointer to message buffer */ +{ +/* Safe gateway to mini_send() for tasks. */ + int result; + switching = TRUE; + result = mini_send(caller_ptr, dest, m_ptr, FALSE); + switching = FALSE; + return(result); +} + + /*==========================================================================* * lock_ready * *==========================================================================*/ @@ -543,6 +594,8 @@ PUBLIC void unhold() register struct proc *rp; /* current head of held queue */ int i; + kinfo.notify_unhold ++; + if (switching) return; rp = held_head; do { @@ -552,9 +605,13 @@ PUBLIC void unhold() if (! rp->p_ntf_held) /* proceed to next in queue? */ if ( (held_head = rp->p_ntf_nextheld) == NIL_PROC) held_tail = NIL_PROC; +#if DEAD_CODE unlock(); /* reduce latency; held queue may change! */ - notify(proc_number(rp), NOTIFICATION + i); +#endif + lock_notify(proc_number(rp), NOTIFICATION + i); +#if DEAD_CODE lock(); /* protect the held queue again */ +#endif } } } diff --git a/kernel/proto.h b/kernel/proto.h index a36489720..733f3c9fb 100755 --- a/kernel/proto.h +++ b/kernel/proto.h @@ -5,12 +5,8 @@ /* Struct declarations. */ struct proc; -struct time_info; struct timer; -/* dummy.c */ -_PROTOTYPE( void dummy_task, (void) ); - /* clock.c */ _PROTOTYPE( void clock_task, (void) ); _PROTOTYPE( void clock_stop, (void) ); @@ -37,20 +33,21 @@ _PROTOTYPE( void kprintf, (const char *fmt, karg_t arg) ); /* main.c */ _PROTOTYPE( void main, (void) ); -_PROTOTYPE( void prepare_shutdown, (int) ); -_PROTOTYPE( void stop_sequence, (struct timer *tp) ); +_PROTOTYPE( void prepare_shutdown, (int) ); +_PROTOTYPE( void stop_sequence, (struct timer *tp) ); /* misc.c */ _PROTOTYPE( void panic, (_CONST char *s, int n) ); /* proc.c */ _PROTOTYPE( int sys_call, (int function, int src_dest, message *m_ptr) ); -_PROTOTYPE( void notify, (int proc_nr, int notify_type) ); _PROTOTYPE( void unhold, (void) ); _PROTOTYPE( void lock_pick_proc, (void) ); _PROTOTYPE( void lock_ready, (struct proc *rp) ); _PROTOTYPE( void lock_sched, (void) ); _PROTOTYPE( void lock_unready, (struct proc *rp) ); +_PROTOTYPE( void lock_notify, (int proc_nr, int notify_type) ); +_PROTOTYPE( int lock_send, (struct proc *rp, int to, message *m_ptr) ); /* start.c */ _PROTOTYPE( void cstart, (U16_t cs, U16_t ds, U16_t mds, diff --git a/kernel/start.c b/kernel/start.c index bfc2ff83e..9f6172b10 100755 --- a/kernel/start.c +++ b/kernel/start.c @@ -57,6 +57,8 @@ U16_t parmoff, parmsize; /* boot parameters offset and length */ phys_copy(kinfo.params_base, vir2phys(k_environ), kinfo.params_size); /* Record miscellaneous information for user-space servers. */ + kinfo.nr_procs = NR_PROCS; + kinfo.nr_tasks = NR_TASKS; kstrncpy(kinfo.version, OS_RELEASE "." OS_VERSION, 6); kinfo.proc_addr = (vir_bytes) proc; kinfo.kmem_base = vir2phys(0); diff --git a/kernel/system.c b/kernel/system.c index 6a43bbf26..0d93e7fb8 100755 --- a/kernel/system.c +++ b/kernel/system.c @@ -83,10 +83,13 @@ PUBLIC void sys_task() result = EBADREQUEST; /* illegal message type */ } - /* Send a reply, unless inhibited by a handler function. */ + /* Send a reply, unless inhibited by a handler function. Use the kernel + * function lock_send() to prevent a system call trap. The destination + * is known to be blocked waiting for a message. + */ if (result != EDONTREPLY) { m.m_type = result; /* report status of call */ - send(m.m_source, &m); /* send reply to caller */ + lock_send(proc_addr(SYSTASK), m.m_source, &m); } } } @@ -240,7 +243,7 @@ irq_hook_t *hook; * interrupts are transformed into messages to a driver. The IRQ line will be * reenabled if the policy says so. */ - notify(hook->proc_nr, HARD_INT); + lock_notify(hook->proc_nr, HARD_INT); return(hook->policy & IRQ_REENABLE); } @@ -275,7 +278,7 @@ int sig_nr; /* signal to be sent, 1 to _NSIG */ return; /* another signal already pending */ if (rp->p_flags == 0) lock_unready(rp); rp->p_flags |= PENDING | SIG_PENDING; - notify(PM_PROC_NR, KSIG_PENDING); + lock_notify(PM_PROC_NR, KSIG_PENDING); } diff --git a/kernel/system/clock.c b/kernel/system/clock.c index fcc735040..55b18073d 100644 --- a/kernel/system/clock.c +++ b/kernel/system/clock.c @@ -164,7 +164,7 @@ timer_t *tp; * alarm. The process number is stored in timer argument 'ta_int'. Notify that * process given with a SYN_ALARM message. */ - notify(tmr_arg(tp)->ta_int, SYN_ALARM); + lock_notify(tmr_arg(tp)->ta_int, SYN_ALARM); } diff --git a/kernel/system/sysctl.c b/kernel/system/sysctl.c index 158befdc7..8d1781714 100644 --- a/kernel/system/sysctl.c +++ b/kernel/system/sysctl.c @@ -236,6 +236,8 @@ register message *m_ptr; /* pointer to request message */ /* Request a (DMA) buffer to be allocated in one of the memory chunks. */ phys_clicks tot_clicks; struct memory *memp; + + kprintf("SYS_KMALLOC called by %d\n", m_ptr->m_source); tot_clicks = (m_ptr->MEM_CHUNK_SIZE + CLICK_SIZE-1) >> CLICK_SHIFT; memp = &mem[NR_MEMS]; diff --git a/kernel/table.c b/kernel/table.c index 1233f86da..de1720a38 100755 --- a/kernel/table.c +++ b/kernel/table.c @@ -49,7 +49,7 @@ #define CLOCK_STACK SMALL_STACK /* Stack space for all the task stacks. Declared as (char *) to align it. */ -#define TOT_STACK_SPACE (IDLE_STACK+HARDWARE_STACK+CLOCK_STACK+SYS_STACK ) +#define TOT_STACK_SPACE (IDLE_STACK+HARDWARE_STACK+CLOCK_STACK+SYS_STACK) PUBLIC char *t_stack[TOT_STACK_SPACE / sizeof(char *)];