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author | Wolfgang Denk <wd@pollux.denx.de> | 2005-08-19 01:05:06 +0200 |
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committer | Wolfgang Denk <wd@pollux.denx.de> | 2005-08-19 01:05:06 +0200 |
commit | aecd902aed419acce4acbe351fc05fa2d72375bd (patch) | |
tree | 9d3b553a855e3a914fe0c8a541bb542f5879ee9b | |
parent | 94085698d03fcd0428669b78173f888dc9b2e23b (diff) | |
download | u-boot-imx-aecd902aed419acce4acbe351fc05fa2d72375bd.zip u-boot-imx-aecd902aed419acce4acbe351fc05fa2d72375bd.tar.gz u-boot-imx-aecd902aed419acce4acbe351fc05fa2d72375bd.tar.bz2 |
Fix MPC52xx watchdog driver
- make watchdog driver work on systems with an IPB clock
frequency of 133 MHz (watchdog expired to fast there).
- now all three watchdog chain entries could be used.
- fix some typos.
Patch by Martin Krause, 23 Jun 2005
-rwxr-xr-x | Documentation/man4/wdt_mpc5xxx.4 | 214 |
1 files changed, 214 insertions, 0 deletions
diff --git a/Documentation/man4/wdt_mpc5xxx.4 b/Documentation/man4/wdt_mpc5xxx.4 new file mode 100755 index 0000000..ca41e28 --- /dev/null +++ b/Documentation/man4/wdt_mpc5xxx.4 @@ -0,0 +1,214 @@ +.\" Hey Emacs! This file is -*- nroff -*- source. +.\" +.\" Copyright 2002 Detlev Zundel (dzu@denx.de) +.\" +.\" Permission is granted to make and distribute verbatim copies of this +.\" manual provided the copyright notice and this permission notice are +.\" preserved on all copies. +.\" +.\" Permission is granted to copy and distribute modified versions of this +.\" manual under the conditions for verbatim copying, provided that the +.\" entire resulting derived work is distributed under the terms of a +.\" permission notice identical to this one +.\" +.TH WDT_MPC5XXX "Denx specific extensions" +.SH NAME +wdt_mpc5xxx \- Watchdog driver +.SH SYNOPSIS +.B #include <linux/asm/wdt_mpc5xxx.h> +.SH DESCRIPTION +The +.B wdt_mpc5xxx +driver implements a character device with major number 10 and minor +number 130. It is a software abstraction of the hardware watchdog +with two different APIs. While the driver periodically triggers the +hardware watchdog, the software can setup independent timeout periods. + +.SH "REGULAR API" +The regular API provides a facility to setup a watchdog behaviour +.I shared +by all processes using the driver. This interface uses read(2), +write(2) and the first two ioctl(2) calls listed below. The +parameterless ioctl(2) calls select the operational mode of the +driver, which can be +.I open-only +or +.I always. + +In open-only mode, the watchdog will not expire if the device file is +not opened by any process, while in always +mode the behaviour is independent of the device file being opened. + +Reading from the device file will return an unsigned integer denoting +the number of seconds left till the watchdog expires. Writing an +unsigned integer to the device file will set the expiration period in +seconds. Note that the hardware watchdog will be triggered +independently with a configurable period. See the section +CONFIGURATION for details. + +An expiration of the watchdog will trigger a hard-reset of the machine. + +.SH "CHAIN API" +The second API, which is implemented only through calls to ioctl(2), +can be used to register configurable +.I watchdog chains +from either user or kernel space. A watchdog chain +is identified by an unsigned integer and can contain up to three +.I action stages. +A +.I time interval +in seconds and an +.I action +is associated with each stage. When the chain is not reset before the +interval elapses, the associated action is triggered and the chain +moves on to the next stage. + +A chain can request to kill the registering process if the interval +elapses. In this case a restarted process can register with the +driver giving the same identifier and reset the chain. This is the +main reason why there is no association between chains and processes +or open device files. + +For a detailed description of the possible chain configurations, see +the description of the +.B WDT_REGISTER +ioctl call. + +Note that when mixing the two interfaces, the second API takes +precedence. That is, expiry of the interval set by writing to the +device file while a chain is registered, will not trigger any actions. + +Also note that the default operational mode of the driver, +i.e. open-only or always can only be configured in the source-code. + +.SH IOCTLS +.TP +WDT_OPEN_ONLY +This parameterless call selects the +.I open-only +operational mode of the driver as described above. + +.TP +WDT_ALWAYS +Also a parameterless call, this sets the driver to the +.I always +operational mode. + +.TP +WDT_REGISTER +This and the two following ioctls constitute the +.I chain interface +described above. The parameter given to the call is a pointer to a +structure with the following layout: + + typedef struct wdt_param { + unsigned chainid; + unsigned long timer_count[3]; + int action[3]; + int signal; + } wdt_param_t; + +Each stage is configured with entries in the arrays +.I timer_count +and +.I action. +The timer_count contains the length of the interval in seconds +while action contains one of the constants +.B WDT_ACTION_SIGNAL, WDT_ACTION_KILL, +.B WDT_ACTION_REBOOT +and +.B WDT_ACTION_RESET. +A timer_count of zero signals the end of the chain. + +The ACTION_SIGNAL will send the configurable signal with number +.I signal +to the registering process, while ACTION_KILL signals SIGKILL which +can not be caught by the registered process. +ACTION_REBOOT tries a soft reboot and ACTION_RESET +triggers a hard-reset of the machine. + +When stages of the chain are to be left unused, they should be filled +with zero entries. + +Note that internally a hard-reset stage is appended as a stop entry +ensuring a chain will never exceed its stages. + +.TP +WDT_RESET +This call resets the chain denoted by the unsigned integer passed to +it. When reset, a chain will expire beginning with stage zero again. + +.TP +WDT_UNREGISTER +As closing the device file will not have any effect on chains, a +process must unregister a chain if the service is no longer needed. +This can be done with this ioctl taking an unsigned integer as a +parameter denoting the chain to be unregistered. + +.SH "IOCTL RESULT VALUES" +On successful completion, the above calls to ioctl(2) return 0. When +invalid parameters are provided or an error occurs, a negative value +will be returned and +.B errno +set accordingly. Specifically +.B "EINVAL, EFAULT, ENOMEM" +can be returned. + +.SH "KERNEL INTERFACE" +Modules can also register with the chain API of the watchdog driver. +For this the three functions +.B wdt_register_mon_chain, wdt_reset_mon_chain +and +.B wdt_unregister_mon_chain +are exported from the driver. The first function takes one argument, +namely a pointer to a +.I wdt_param +structure. The other two calls take a pointer to an unsigned integer +as a parameter, namely the chain id of the chain to be reset or +unregistered. + +.SH CONFIGURATION +The driver is configurable through parameters passed to the driver +through the Linux commandline as +.B "wdt=<opts>". +Multiple options can be seperated by +commas, as usual. + +.B timeout:<n> +will set the expiry period of the regular driver API to <n> seconds. + +.B period:<n> +sets the period with which the hardware watchdog is triggered to <n> +jiffies. This usually means 1/100th of a second. The default for the +MPC5xxx is (1*HZ), resulting in 1 watchdog trigger per second. + +.B off +will disable the software APIs of the driver but still trigger the +hardware watchdog as described previously. + +.SH EXAMPLE +The following code snippet registers a watchdog chain whose first +stage will expire after 3 seconds and send the SIGUSR1 signal to the +process. When 5 seconds after this the chain is not reset, the +machine will do a hard-reset. + + wdt_param_t param; + + /* Setup signal handling */ + signal(SIGUSR1, got_signal); + + param.chainid=823; + param.timer_count[0]=3; + param.action[0]=WDT_ACTION_KILL; + param.signal=SIGUSR1; + param.timer_count[1]=5; + param.action[1]=WDT_ACTION_RESET; + + /* Register chain */ + ioctl(fd, WDT_REGISTER, ¶m); + .. + /* Reset chain */ + ioctl(fd, WDT_RESET, ¶m.chainid); + +.SH FILES + /dev/watchdog |