/* Automatically generated; do not edit */ #include #include #include "autoconf.h" static void autoconf_beep(struct beep_softc *, int); static void autoconf_con(struct con_softc *, int); static void autoconf_emu(struct emu_softc *, int); static void autoconf_lhd(struct lhd_softc *, int); static void autoconf_lrandom(struct lrandom_softc *, int); static void autoconf_lser(struct lser_softc *, int); static void autoconf_ltimer(struct ltimer_softc *, int); static void autoconf_ltrace(struct ltrace_softc *, int); static void autoconf_random(struct random_softc *, int); static void autoconf_rtclock(struct rtclock_softc *, int); static int nextunit_beep; static int nextunit_con; static int nextunit_emu; static int nextunit_lhd; static int nextunit_lrandom; static int nextunit_lser; static int nextunit_ltimer; static int nextunit_ltrace; static int nextunit_random; static int nextunit_rtclock; static int tryattach_emu_to_lamebus(int devunit, struct lamebus_softc *bus, int busunit) { struct emu_softc *dev; int result; dev = attach_emu_to_lamebus(devunit, bus); if (dev==NULL) { return -1; } kprintf("emu%d at lamebus%d", devunit, busunit); result = config_emu(dev, devunit); if (result != 0) { kprintf(": %s\n", strerror(result)); /* should really clean up dev */ return result; } kprintf("\n"); nextunit_emu = devunit+1; autoconf_emu(dev, devunit); return 0; } static int tryattach_ltrace_to_lamebus(int devunit, struct lamebus_softc *bus, int busunit) { struct ltrace_softc *dev; int result; dev = attach_ltrace_to_lamebus(devunit, bus); if (dev==NULL) { return -1; } kprintf("ltrace%d at lamebus%d", devunit, busunit); result = config_ltrace(dev, devunit); if (result != 0) { kprintf(": %s\n", strerror(result)); /* should really clean up dev */ return result; } kprintf("\n"); nextunit_ltrace = devunit+1; autoconf_ltrace(dev, devunit); return 0; } static int tryattach_ltimer_to_lamebus(int devunit, struct lamebus_softc *bus, int busunit) { struct ltimer_softc *dev; int result; dev = attach_ltimer_to_lamebus(devunit, bus); if (dev==NULL) { return -1; } kprintf("ltimer%d at lamebus%d", devunit, busunit); result = config_ltimer(dev, devunit); if (result != 0) { kprintf(": %s\n", strerror(result)); /* should really clean up dev */ return result; } kprintf("\n"); nextunit_ltimer = devunit+1; autoconf_ltimer(dev, devunit); return 0; } static int tryattach_lrandom_to_lamebus(int devunit, struct lamebus_softc *bus, int busunit) { struct lrandom_softc *dev; int result; dev = attach_lrandom_to_lamebus(devunit, bus); if (dev==NULL) { return -1; } kprintf("lrandom%d at lamebus%d", devunit, busunit); result = config_lrandom(dev, devunit); if (result != 0) { kprintf(": %s\n", strerror(result)); /* should really clean up dev */ return result; } kprintf("\n"); nextunit_lrandom = devunit+1; autoconf_lrandom(dev, devunit); return 0; } static int tryattach_lhd_to_lamebus(int devunit, struct lamebus_softc *bus, int busunit) { struct lhd_softc *dev; int result; dev = attach_lhd_to_lamebus(devunit, bus); if (dev==NULL) { return -1; } kprintf("lhd%d at lamebus%d", devunit, busunit); result = config_lhd(dev, devunit); if (result != 0) { kprintf(": %s\n", strerror(result)); /* should really clean up dev */ return result; } kprintf("\n"); nextunit_lhd = devunit+1; autoconf_lhd(dev, devunit); return 0; } static int tryattach_lser_to_lamebus(int devunit, struct lamebus_softc *bus, int busunit) { struct lser_softc *dev; int result; dev = attach_lser_to_lamebus(devunit, bus); if (dev==NULL) { return -1; } kprintf("lser%d at lamebus%d", devunit, busunit); result = config_lser(dev, devunit); if (result != 0) { kprintf(": %s\n", strerror(result)); /* should really clean up dev */ return result; } kprintf("\n"); nextunit_lser = devunit+1; autoconf_lser(dev, devunit); return 0; } static int tryattach_beep_to_ltimer(int devunit, struct ltimer_softc *bus, int busunit) { struct beep_softc *dev; int result; dev = attach_beep_to_ltimer(devunit, bus); if (dev==NULL) { return -1; } kprintf("beep%d at ltimer%d", devunit, busunit); result = config_beep(dev, devunit); if (result != 0) { kprintf(": %s\n", strerror(result)); /* should really clean up dev */ return result; } kprintf("\n"); nextunit_beep = devunit+1; autoconf_beep(dev, devunit); return 0; } static int tryattach_con_to_lser(int devunit, struct lser_softc *bus, int busunit) { struct con_softc *dev; int result; dev = attach_con_to_lser(devunit, bus); if (dev==NULL) { return -1; } kprintf("con%d at lser%d", devunit, busunit); result = config_con(dev, devunit); if (result != 0) { kprintf(": %s\n", strerror(result)); /* should really clean up dev */ return result; } kprintf("\n"); nextunit_con = devunit+1; autoconf_con(dev, devunit); return 0; } static int tryattach_rtclock_to_ltimer(int devunit, struct ltimer_softc *bus, int busunit) { struct rtclock_softc *dev; int result; dev = attach_rtclock_to_ltimer(devunit, bus); if (dev==NULL) { return -1; } kprintf("rtclock%d at ltimer%d", devunit, busunit); result = config_rtclock(dev, devunit); if (result != 0) { kprintf(": %s\n", strerror(result)); /* should really clean up dev */ return result; } kprintf("\n"); nextunit_rtclock = devunit+1; autoconf_rtclock(dev, devunit); return 0; } static int tryattach_random_to_lrandom(int devunit, struct lrandom_softc *bus, int busunit) { struct random_softc *dev; int result; dev = attach_random_to_lrandom(devunit, bus); if (dev==NULL) { return -1; } kprintf("random%d at lrandom%d", devunit, busunit); result = config_random(dev, devunit); if (result != 0) { kprintf(": %s\n", strerror(result)); /* should really clean up dev */ return result; } kprintf("\n"); nextunit_random = devunit+1; autoconf_random(dev, devunit); return 0; } static void autoconf_con(struct con_softc *bus, int busunit) { (void)bus; (void)busunit; } static void autoconf_lser(struct lser_softc *bus, int busunit) { (void)bus; (void)busunit; { if (nextunit_con <= 0) { tryattach_con_to_lser(0, bus, busunit); } } } static void autoconf_lhd(struct lhd_softc *bus, int busunit) { (void)bus; (void)busunit; } static void autoconf_emu(struct emu_softc *bus, int busunit) { (void)bus; (void)busunit; } static void autoconf_random(struct random_softc *bus, int busunit) { (void)bus; (void)busunit; } static void autoconf_ltimer(struct ltimer_softc *bus, int busunit) { (void)bus; (void)busunit; { if (nextunit_beep <= 0) { tryattach_beep_to_ltimer(0, bus, busunit); } } { if (nextunit_rtclock <= 0) { tryattach_rtclock_to_ltimer(0, bus, busunit); } } } void autoconf_lamebus(struct lamebus_softc *bus, int busunit) { (void)bus; (void)busunit; { int result, devunit=nextunit_emu; do { result = tryattach_emu_to_lamebus(devunit, bus, busunit); devunit++; } while (result==0); } { int result, devunit=nextunit_ltrace; do { result = tryattach_ltrace_to_lamebus(devunit, bus, busunit); devunit++; } while (result==0); } { int result, devunit=nextunit_ltimer; do { result = tryattach_ltimer_to_lamebus(devunit, bus, busunit); devunit++; } while (result==0); } { int result, devunit=nextunit_lrandom; do { result = tryattach_lrandom_to_lamebus(devunit, bus, busunit); devunit++; } while (result==0); } { int result, devunit=nextunit_lhd; do { result = tryattach_lhd_to_lamebus(devunit, bus, busunit); devunit++; } while (result==0); } { int result, devunit=nextunit_lser; do { result = tryattach_lser_to_lamebus(devunit, bus, busunit); devunit++; } while (result==0); } } static void autoconf_beep(struct beep_softc *bus, int busunit) { (void)bus; (void)busunit; } static void autoconf_lrandom(struct lrandom_softc *bus, int busunit) { (void)bus; (void)busunit; { if (nextunit_random <= 0) { tryattach_random_to_lrandom(0, bus, busunit); } } } static void autoconf_rtclock(struct rtclock_softc *bus, int busunit) { (void)bus; (void)busunit; } static void autoconf_ltrace(struct ltrace_softc *bus, int busunit) { (void)bus; (void)busunit; } void pseudoconfig(void) { }