/* This file contains a collection of miscellaneous procedures: * panic: abort MINIX due to a fatal error * kprintf: diagnostic output for the kernel * * Changes: * simple printing to circular buffer (Jorrit N. Herder) * * This file contains the routines that take care of kernel messages, i.e., * diagnostic output within the kernel. Kernel messages are not directly * displayed on the console, because this must be done by the PRINT driver. * Instead, the kernel accumulates characters in a buffer and notifies the * output driver when a new message is ready. */ #include #include "kernel.h" #include #include #include #include #include #include "proc.h" #define END_OF_KMESS -1 FORWARD _PROTOTYPE(void kputc, (int c)); /*===========================================================================* * panic * *===========================================================================*/ PUBLIC void panic(mess,nr) _CONST char *mess; int nr; { /* The system has run aground of a fatal kernel error. Terminate execution. */ static int panicking = 0; if (panicking ++) return; /* prevent recursive panics */ if (mess != NULL) { kprintf("\nKernel panic: %s", mess); if (nr != NO_NUM) kprintf(" %d", nr); kprintf("\n",NO_NUM); } /* Abort MINIX. */ prepare_shutdown(RBT_PANIC); } /*===========================================================================* * kprintf * *===========================================================================*/ PUBLIC void kprintf(const char *fmt, ...) /* format to be printed */ { int c; /* next character in fmt */ int d; unsigned long u; /* hold number argument */ int base; /* base of number arg */ int negative = 0; /* print minus sign */ static char x2c[] = "0123456789ABCDEF"; /* nr conversion table */ char ascii[8 * sizeof(long) / 3 + 2]; /* string for ascii number */ char *s = NULL; /* string to be printed */ va_list argp; /* optional arguments */ va_start(argp, fmt); /* init variable arguments */ while((c=*fmt++) != 0) { if (c == '%') { /* expect format '%key' */ switch(c = *fmt++) { /* determine what to do */ /* Known keys are %d, %u, %x, %s, and %%. This is easily extended * with number types like %b and %o by providing a different base. * Number type keys don't set a string to 's', but use the general * conversion after the switch statement. */ case 'd': /* output decimal */ d = va_arg(argp, signed int); if (d < 0) { negative = 1; u = -d; } else { u = d; } base = 10; break; case 'u': /* output unsigned long */ u = va_arg(argp, unsigned long); base = 10; break; case 'x': /* output hexadecimal */ u = va_arg(argp, unsigned long); base = 0x10; break; case 's': /* output string */ s = va_arg(argp, char *); if (s == NULL) s = "(null)"; break; case '%': /* output percent */ s = "%"; break; /* Unrecognized key. */ default: /* echo back %key */ s = "%?"; s[1] = c; /* set unknown key */ } /* Assume a number if no string is set. Convert to ascii. */ if (s == NULL) { s = ascii + sizeof(ascii)-1; *s = 0; do { *--s = x2c[(u % base)]; } /* work backwards */ while ((u /= base) > 0); } /* This is where the actual output for format "%key" is done. */ if (negative) kputc('-'); /* print sign if negative */ while(*s != 0) { kputc(*s++); } /* print string/ number */ s = NULL; /* reset for next round */ } else { kputc(c); /* print and continue */ } } kputc(END_OF_KMESS); /* terminate output */ va_end(argp); /* end variable arguments */ } /*===========================================================================* * kputc * *===========================================================================*/ PRIVATE void kputc(c) int c; /* character to append */ { /* Accumulate a single character for a kernel message. Send a notification * the to PRINTF_PROC driver if an END_OF_KMESS is encountered. */ if (c != END_OF_KMESS) { kmess.km_buf[kmess.km_next] = c; /* put normal char in buffer */ if (kmess.km_size < KMESS_BUF_SIZE) kmess.km_size += 1; kmess.km_next = (kmess.km_next + 1) % KMESS_BUF_SIZE; } else { send_sig(PRINTF_PROC, SIGKMESS); } }