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FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //sys/amd64/compile/hs32/modules/usr/src/sys/modules/filemon/@/i386/i386/elan-mmcr.c |
/*- * ---------------------------------------------------------------------------- * "THE BEER-WARE LICENSE" (Revision 42): * <phk@FreeBSD.org> wrote this file. As long as you retain this notice you * can do whatever you want with this stuff. If we meet some day, and you think * this stuff is worth it, you can buy me a beer in return. Poul-Henning Kamp * ---------------------------------------------------------------------------- * * * The AMD Elan sc520 is a system-on-chip gadget which is used in embedded * kind of things, see www.soekris.com for instance, and it has a few quirks * we need to deal with. * Unfortunately we cannot identify the gadget by CPUID output because it * depends on strapping options and only the stepping field may be useful * and those are undocumented from AMDs side. * * So instead we recognize the on-chip host-PCI bridge and call back from * sys/i386/pci/pci_bus.c to here if we find it. * * #ifdef CPU_ELAN_PPS * The Elan has three general purpose counters, and when two of these * are used just right they can hardware timestamp external events with * approx 125 nsec resolution and +/- 125 nsec precision. * * Connect the signal to TMR1IN and a GPIO pin, and configure the GPIO pin * with a 'P' in sysctl machdep.elan_gpio_config. * * The rising edge of the signal will start timer 1 counting up from * zero, and when the timecounter polls for PPS, both counter 1 & 2 is * read, as well as the GPIO bit. If a rising edge has happened, the * contents of timer 1 which is how long time ago the edge happened, * is subtracted from timer 2 to give us a "true time stamp". * * Echoing the PPS signal on any GPIO pin is supported (set it to 'e' * or 'E' (inverted) in the sysctl) The echo signal should only be * used as a visual indication, not for calibration since it suffers * from 1/hz (or more) jitter which the timestamps are compensated for. * #endif CPU_ELAN_PPS */ #include <sys/cdefs.h> __FBSDID("$FreeBSD: release/9.1.0/sys/i386/i386/elan-mmcr.c 214346 2010-10-25 15:28:03Z jhb $"); #include "opt_cpu.h" #include <sys/param.h> #include <sys/systm.h> #include <sys/kernel.h> #include <sys/conf.h> #include <sys/sysctl.h> #include <sys/syslog.h> #include <sys/timetc.h> #include <sys/proc.h> #include <sys/uio.h> #include <sys/lock.h> #include <sys/mutex.h> #include <sys/malloc.h> #include <sys/sysctl.h> #include <sys/timepps.h> #include <sys/watchdog.h> #include <dev/led/led.h> #include <machine/md_var.h> #include <machine/elan_mmcr.h> #include <machine/pc/bios.h> #include <vm/vm.h> #include <vm/pmap.h> static char gpio_config[33]; static volatile uint16_t *mmcrptr; volatile struct elan_mmcr *elan_mmcr; #ifdef CPU_ELAN_PPS static struct pps_state elan_pps; static volatile uint16_t *pps_ap[3]; static u_int pps_a, pps_d; static u_int echo_a, echo_d; #endif /* CPU_ELAN_PPS */ #ifdef CPU_SOEKRIS static struct bios_oem bios_soekris = { { 0xf0000, 0xf1000 }, { { "Soekris", 0, 8 }, /* Soekris Engineering. */ { "net4", 0, 8 }, /* net45xx */ { "comBIOS", 0, 54 }, /* comBIOS ver. 1.26a 20040819 ... */ { NULL, 0, 0 }, } }; #endif static u_int led_cookie[32]; static struct cdev *led_dev[32]; static void gpio_led(void *cookie, int state) { u_int u, v; u = *(int *)cookie; v = u & 0xffff; u >>= 16; if (!state) v ^= 0xc; mmcrptr[v / 2] = u; } static int sysctl_machdep_elan_gpio_config(SYSCTL_HANDLER_ARGS) { u_int u, v; int i, np, ne; int error; char buf[32]; char tmp[10]; error = SYSCTL_OUT(req, gpio_config, 33); if (error != 0 || req->newptr == NULL) return (error); if (req->newlen != 32) return (EINVAL); error = SYSCTL_IN(req, buf, 32); if (error != 0) return (error); /* Disallow any disabled pins and count pps and echo */ np = ne = 0; for (i = 0; i < 32; i++) { if (gpio_config[i] == '-' && buf[i] == '.') buf[i] = gpio_config[i]; if (gpio_config[i] == '-' && buf[i] != '-') return (EPERM); if (buf[i] == 'P') { np++; if (np > 1) return (EINVAL); } if (buf[i] == 'e' || buf[i] == 'E') { ne++; if (ne > 1) return (EINVAL); } if (buf[i] != 'L' && buf[i] != 'l' #ifdef CPU_ELAN_PPS && buf[i] != 'P' && buf[i] != 'E' && buf[i] != 'e' #endif /* CPU_ELAN_PPS */ && buf[i] != '.' && buf[i] != '-') return (EINVAL); } #ifdef CPU_ELAN_PPS if (np == 0) pps_a = pps_d = 0; if (ne == 0) echo_a = echo_d = 0; #endif for (i = 0; i < 32; i++) { u = 1 << (i & 0xf); if (i >= 16) v = 2; else v = 0; #ifdef CPU_SOEKRIS if (i == 9) ; else #endif if (buf[i] != 'l' && buf[i] != 'L' && led_dev[i] != NULL) { led_destroy(led_dev[i]); led_dev[i] = NULL; mmcrptr[(0xc2a + v) / 2] &= ~u; } switch (buf[i]) { #ifdef CPU_ELAN_PPS case 'P': pps_d = u; pps_a = 0xc30 + v; pps_ap[0] = &mmcrptr[pps_a / 2]; pps_ap[1] = &elan_mmcr->GPTMR2CNT; pps_ap[2] = &elan_mmcr->GPTMR1CNT; mmcrptr[(0xc2a + v) / 2] &= ~u; gpio_config[i] = buf[i]; break; case 'e': case 'E': echo_d = u; if (buf[i] == 'E') echo_a = 0xc34 + v; else echo_a = 0xc38 + v; mmcrptr[(0xc2a + v) / 2] |= u; gpio_config[i] = buf[i]; break; #endif /* CPU_ELAN_PPS */ case 'l': case 'L': if (buf[i] == 'L') led_cookie[i] = (0xc34 + v) | (u << 16); else led_cookie[i] = (0xc38 + v) | (u << 16); if (led_dev[i]) break; sprintf(tmp, "gpio%d", i); mmcrptr[(0xc2a + v) / 2] |= u; gpio_config[i] = buf[i]; led_dev[i] = led_create(gpio_led, &led_cookie[i], tmp); break; case '.': gpio_config[i] = buf[i]; break; case '-': default: break; } } return (0); } SYSCTL_OID(_machdep, OID_AUTO, elan_gpio_config, CTLTYPE_STRING | CTLFLAG_RW, NULL, 0, sysctl_machdep_elan_gpio_config, "A", "Elan CPU GPIO pin config"); #ifdef CPU_ELAN_PPS static void elan_poll_pps(struct timecounter *tc) { static int state; int i; uint16_t u, x, y, z; register_t saveintr; /* * Grab the HW state as quickly and compactly as we can. Disable * interrupts to avoid measuring our interrupt service time on * hw with quality clock sources. */ saveintr = intr_disable(); x = *pps_ap[0]; /* state, must be first, see below */ y = *pps_ap[1]; /* timer2 */ z = *pps_ap[2]; /* timer1 */ intr_restore(saveintr); /* * Order is important here. We need to check the state of the GPIO * pin first, in order to avoid reading timer 1 right before the * state change. Technically pps_a may be zero in which case we * harmlessly read the REVID register and the contents of pps_d is * of no concern. */ i = x & pps_d; /* If state did not change or we don't have a GPIO pin, return */ if (i == state || pps_a == 0) return; state = i; /* If the state is "low", flip the echo GPIO and return. */ if (!i) { if (echo_a) mmcrptr[(echo_a ^ 0xc) / 2] = echo_d; return; } /* * Subtract timer1 from timer2 to compensate for time from the * edge until we read the counters. */ u = y - z; pps_capture(&elan_pps); elan_pps.capcount = u; pps_event(&elan_pps, PPS_CAPTUREASSERT); /* Twiddle echo bit */ if (echo_a) mmcrptr[echo_a / 2] = echo_d; } #endif /* CPU_ELAN_PPS */ static unsigned elan_get_timecount(struct timecounter *tc) { /* Read timer2, end of story */ return (elan_mmcr->GPTMR2CNT); } /* * The Elan CPU can be run from a number of clock frequencies, this * allows you to override the default 33.3 MHZ. */ #ifndef CPU_ELAN_XTAL #define CPU_ELAN_XTAL 33333333 #endif static struct timecounter elan_timecounter = { elan_get_timecount, NULL, 0xffff, CPU_ELAN_XTAL / 4, "ELAN", 1000 }; static int sysctl_machdep_elan_freq(SYSCTL_HANDLER_ARGS) { u_int f; int error; f = elan_timecounter.tc_frequency * 4; error = sysctl_handle_int(oidp, &f, 0, req); if (error == 0 && req->newptr != NULL) elan_timecounter.tc_frequency = (f + 3) / 4; return (error); } SYSCTL_PROC(_machdep, OID_AUTO, elan_freq, CTLTYPE_UINT | CTLFLAG_RW, 0, sizeof (u_int), sysctl_machdep_elan_freq, "IU", ""); /* * Positively identifying the Elan can only be done through the PCI id of * the host-bridge, this function is called from i386/pci/pci_bus.c. */ void init_AMD_Elan_sc520(void) { u_int new; int i; mmcrptr = pmap_mapdev(0xfffef000, 0x1000); elan_mmcr = (volatile struct elan_mmcr *)mmcrptr; /*- * The i8254 is driven with a nonstandard frequency which is * derived thusly: * f = 32768 * 45 * 25 / 31 = 1189161.29... * We use the sysctl to get the i8254 (timecounter etc) into whack. */ new = 1189161; i = kernel_sysctlbyname(&thread0, "machdep.i8254_freq", NULL, 0, &new, sizeof new, NULL, 0); if (bootverbose || 1) printf("sysctl machdep.i8254_freq=%d returns %d\n", new, i); /* Start GP timer #2 and use it as timecounter, hz permitting */ elan_mmcr->GPTMR2MAXCMPA = 0; elan_mmcr->GPTMR2CTL = 0xc001; #ifdef CPU_ELAN_PPS /* Set up GP timer #1 as pps counter */ elan_mmcr->CSPFS &= ~0x10; elan_mmcr->GPTMR1CTL = 0x8000 | 0x4000 | 0x10 | 0x1; elan_mmcr->GPTMR1MAXCMPA = 0x0; elan_mmcr->GPTMR1MAXCMPB = 0x0; elan_pps.ppscap |= PPS_CAPTUREASSERT; pps_init(&elan_pps); #endif tc_init(&elan_timecounter); } static void elan_watchdog(void *foo __unused, u_int spec, int *error) { u_int u, v, w; static u_int cur; u = spec & WD_INTERVAL; if (u > 0 && u <= 35) { u = imax(u - 5, 24); v = 2 << (u - 24); v |= 0xc000; /* * There is a bug in some silicon which prevents us from * writing to the WDTMRCTL register if the GP echo mode is * enabled. GP echo mode on the other hand is desirable * for other reasons. Save and restore the GP echo mode * around our hardware tom-foolery. */ w = elan_mmcr->GPECHO; elan_mmcr->GPECHO = 0; if (v != cur) { /* Clear the ENB bit */ elan_mmcr->WDTMRCTL = 0x3333; elan_mmcr->WDTMRCTL = 0xcccc; elan_mmcr->WDTMRCTL = 0; /* Set new value */ elan_mmcr->WDTMRCTL = 0x3333; elan_mmcr->WDTMRCTL = 0xcccc; elan_mmcr->WDTMRCTL = v; cur = v; } else { /* Just reset timer */ elan_mmcr->WDTMRCTL = 0xaaaa; elan_mmcr->WDTMRCTL = 0x5555; } elan_mmcr->GPECHO = w; *error = 0; } else { w = elan_mmcr->GPECHO; elan_mmcr->GPECHO = 0; elan_mmcr->WDTMRCTL = 0x3333; elan_mmcr->WDTMRCTL = 0xcccc; elan_mmcr->WDTMRCTL = 0x4080; elan_mmcr->WDTMRCTL = w; /* XXX What does this statement do? */ elan_mmcr->GPECHO = w; cur = 0; } } static int elan_mmap(struct cdev *dev, vm_ooffset_t offset, vm_paddr_t *paddr, int nprot, vm_memattr_t *memattr) { if (offset >= 0x1000) return (-1); *paddr = 0xfffef000; return (0); } static int elan_ioctl(struct cdev *dev, u_long cmd, caddr_t arg, int flag, struct thread *tdr) { int error; error = ENOIOCTL; #ifdef CPU_ELAN_PPS if (pps_a != 0) error = pps_ioctl(cmd, arg, &elan_pps); /* * We only want to incur the overhead of the PPS polling if we * are actually asked to timestamp. */ if (elan_pps.ppsparam.mode & PPS_CAPTUREASSERT) { elan_timecounter.tc_poll_pps = elan_poll_pps; } else { elan_timecounter.tc_poll_pps = NULL; } if (error != ENOIOCTL) return (error); #endif return(error); } static struct cdevsw elan_cdevsw = { .d_version = D_VERSION, .d_flags = D_NEEDGIANT, .d_ioctl = elan_ioctl, .d_mmap = elan_mmap, .d_name = "elan", }; static void elan_drvinit(void) { #ifdef CPU_SOEKRIS #define BIOS_OEM_MAXLEN 72 static u_char bios_oem[BIOS_OEM_MAXLEN] = "\0"; #endif /* CPU_SOEKRIS */ /* If no elan found, just return */ if (mmcrptr == NULL) return; printf("Elan-mmcr driver: MMCR at %p.%s\n", mmcrptr, #ifdef CPU_ELAN_PPS " PPS support." #else "" #endif ); make_dev(&elan_cdevsw, 0, UID_ROOT, GID_WHEEL, 0600, "elan-mmcr"); #ifdef CPU_SOEKRIS if ( bios_oem_strings(&bios_soekris, bios_oem, BIOS_OEM_MAXLEN) > 0 ) printf("Elan-mmcr %s\n", bios_oem); /* Create the error LED on GPIO9 */ led_cookie[9] = 0x02000c34; led_dev[9] = led_create(gpio_led, &led_cookie[9], "error"); /* Disable the unavailable GPIO pins */ strcpy(gpio_config, "-----....--..--------..---------"); #else /* !CPU_SOEKRIS */ /* We don't know which pins are available so enable them all */ strcpy(gpio_config, "................................"); #endif /* CPU_SOEKRIS */ EVENTHANDLER_REGISTER(watchdog_list, elan_watchdog, NULL, 0); } SYSINIT(elan, SI_SUB_PSEUDO, SI_ORDER_MIDDLE, elan_drvinit, NULL);