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Gentoo's Bugzilla – Attachment 199406 Details for
Bug 279423
net-analyzer/net-snmp-5.4.2.1 revamp + add =sys-apps/lm_sensors-3* support
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[patch]
net-snmp-5.4.1-sensors3.patch
net-snmp-5.4.1-sensors3.patch (text/plain), 47.27 KB, created by
Gordon Malm (RETIRED)
on 2009-07-28 04:45:34 UTC
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Description:
net-snmp-5.4.1-sensors3.patch
Filename:
MIME Type:
Creator:
Gordon Malm (RETIRED)
Created:
2009-07-28 04:45:34 UTC
Size:
47.27 KB
patch
obsolete
>Source: http://cvs.fedoraproject.org/viewvc/devel/net-snmp/net-snmp-5.4.1-sensors3.patch > >--- > >351991: Port net-snmp to lm_sensors-3.x.x >Source: upstream, svn diff -r 16736:16739 >Reviewed-By: Jan Safranek <jsafrane@redhat.com> > >Index: configure >=================================================================== >diff -up /dev/null net-snmp-5.4.1/agent/mibgroup/hardware/sensors/dummy_sensors.c >--- /dev/null 2008-07-23 14:59:56.660004489 +0200 >+++ net-snmp-5.4.1/agent/mibgroup/hardware/sensors/dummy_sensors.c 2008-07-25 12:53:46.000000000 +0200 >@@ -0,0 +1,60 @@ >+#include <net-snmp/net-snmp-config.h> >+#include <net-snmp/net-snmp-includes.h> >+#include <net-snmp/agent/net-snmp-agent-includes.h> >+#include <net-snmp/agent/hardware/sensors.h> >+ >+ >+void netsnmp_sensor_arch_init( void ) { >+ /* Nothing to do */ >+ DEBUGMSGTL(("sensors:arch", "Initialise Dummy Sensors module\n")); >+} >+ >+int >+netsnmp_sensor_arch_load(netsnmp_cache *cache, void *vp) { >+ time_t now; >+ struct tm *tm; >+ netsnmp_sensor_info *sp; >+ >+ time(&now); >+ tm = localtime(&now); >+ >+ DEBUGMSGTL(("sensors:arch", "Reload Dummy Sensors module\n")); >+ >+ /* First pseudo-sensor - slowly-rising temperature */ >+ sp = sensor_by_name( "minute", NETSNMP_SENSOR_TYPE_TEMPERATURE ); >+ sp->value = tm->tm_min; >+ snprintf( sp->descr, 256, "Minute-based pseudo-sensor - slowly-rising temperature" ); >+ sp->flags|= NETSNMP_SENSOR_FLAG_ACTIVE; >+ >+ /* Second pseudo-sensor - quickly-rising temperature */ >+ sp = sensor_by_name( "second", NETSNMP_SENSOR_TYPE_TEMPERATURE ); >+ sp->value = tm->tm_sec; >+ snprintf( sp->descr, 256, "Second-based pseudo-sensor - quickly-rising temperature" ); >+ sp->flags|= NETSNMP_SENSOR_FLAG_ACTIVE; >+ >+ /* Third pseudo-sensor - annual fan speed */ >+ sp = sensor_by_name( "year", NETSNMP_SENSOR_TYPE_RPM ); >+ sp->value = tm->tm_year + 1900; >+ snprintf( sp->descr, 256, "RPM pseudo-sensor - annual fan speed" ); >+ sp->flags|= NETSNMP_SENSOR_FLAG_ACTIVE; >+ >+ /* Fourth pseudo-sensor - daily voltage */ >+ sp = sensor_by_name( "day", NETSNMP_SENSOR_TYPE_VOLTAGE_DC ); >+ sp->value = tm->tm_mday-20; >+ snprintf( sp->descr, 256, "Day-based pseudo-sensor - positive or negative voltage" ); >+ sp->flags|= NETSNMP_SENSOR_FLAG_ACTIVE; >+ >+ /* Fifth pseudo-sensor - monthly voltage */ >+ sp = sensor_by_name( "month", NETSNMP_SENSOR_TYPE_VOLTAGE_DC ); >+ sp->value = tm->tm_mon; >+ snprintf( sp->descr, 256, "Month-based pseudo-sensor - positive voltage" ); >+ sp->flags|= NETSNMP_SENSOR_FLAG_ACTIVE; >+ >+ /* Sixth pseudo-sensor - annual daily something */ >+ sp = sensor_by_name( "yday", NETSNMP_SENSOR_TYPE_OTHER ); >+ sp->value = tm->tm_yday; >+ snprintf( sp->descr, 256, "Day-based pseudo-sensor - annual something" ); >+ sp->flags|= NETSNMP_SENSOR_FLAG_ACTIVE; >+ >+ return 0; >+} >diff -up /dev/null net-snmp-5.4.1/agent/mibgroup/hardware/sensors/dummy_sensors.h >--- /dev/null 2008-07-23 14:59:56.660004489 +0200 >+++ net-snmp-5.4.1/agent/mibgroup/hardware/sensors/dummy_sensors.h 2008-07-25 12:53:46.000000000 +0200 >@@ -0,0 +1 @@ >+config_require(hardware/sensors/hw_sensors) >diff -up /dev/null net-snmp-5.4.1/agent/mibgroup/hardware/sensors.h >--- /dev/null 2008-07-23 14:59:56.660004489 +0200 >+++ net-snmp-5.4.1/agent/mibgroup/hardware/sensors.h 2008-07-25 12:53:46.000000000 +0200 >@@ -0,0 +1,13 @@ >+config_require(hardware/sensors/hw_sensors) >+ >+#if defined(solaris) >+# if defined(HAVE_PICL_H) >+config_require(hardware/sensors/picld_sensors) >+# else >+config_require(hardware/sensors/kstat_sensors) >+# endif >+#else >+config_require(hardware/sensors/lmsensors_v3) >+#endif >+ >+//config_require(hardware/sensors/dummy_sensors) >diff -up /dev/null net-snmp-5.4.1/agent/mibgroup/hardware/sensors/hw_sensors.c >--- /dev/null 2008-07-23 14:59:56.660004489 +0200 >+++ net-snmp-5.4.1/agent/mibgroup/hardware/sensors/hw_sensors.c 2008-07-25 12:53:46.000000000 +0200 >@@ -0,0 +1,183 @@ >+#include <net-snmp/net-snmp-config.h> >+#include <net-snmp/net-snmp-includes.h> >+#include <net-snmp/agent/net-snmp-agent-includes.h> >+#include <net-snmp/agent/hardware/sensors.h> >+ >+ >+extern NetsnmpCacheLoad netsnmp_sensor_arch_load; >+extern void netsnmp_sensor_arch_init( void ); >+static int _sensor_load( void ); >+static void _sensor_free( void ); >+ >+static int _sensorAutoUpdate = 0; /* 0 means on-demand caching */ >+static void _sensor_update_stats( unsigned int, void* ); >+ >+netsnmp_cache *_sensor_cache = NULL; >+netsnmp_container *_sensor_container = NULL; >+static int _sensor_idx = 0; >+ >+void init_hw_sensors( void ) { >+ >+ if ( _sensor_container ) >+ return; /* Already initialised */ >+ >+ DEBUGMSGTL(("sensors", "Initialise Hardware Sensors module\n")); >+ >+ /* >+ * Define a container to hold the basic list of sensors >+ * The four LM-SENSOR-MIB containers will be created in >+ * the relevant initialisation routine(s) >+ */ >+ _sensor_container = netsnmp_container_find("sensorTable:table_container"); >+ if ( NULL == _sensor_container ) { >+ snmp_log( LOG_ERR, "failed to create container for sensorTable"); >+ return; >+ } >+ netsnmp_sensor_arch_init( ); >+ >+ /* >+ * If we're sampling the sensor information automatically, >+ * then arrange for this to be triggered regularly. >+ * >+ * If we're not sampling these values regularly, >+ * create a suitable cache handler instead. >+ */ >+ if ( _sensorAutoUpdate ) { >+ DEBUGMSGTL(("sensors", "Reloading Hardware Sensors automatically (%d)\n", >+ _sensorAutoUpdate)); >+ snmp_alarm_register( _sensorAutoUpdate, SA_REPEAT, >+ _sensor_update_stats, NULL ); >+ } >+ else { >+ _sensor_cache = netsnmp_cache_create( 5, netsnmp_sensor_load, >+ netsnmp_sensor_free, NULL, 0 ); >+ DEBUGMSGTL(("sensors", "Reloading Hardware Sensors on-demand (%p)\n", >+ _sensor_cache)); >+ } >+} >+ >+void shutdown_hw_sensors( void ) { >+ _sensor_free(); >+} >+ >+/* >+ * Return the main sensor container >+ */ >+netsnmp_container *get_sensor_container( void ) { return _sensor_container; } >+ >+/* >+ * Return the main sensor cache control structure (if defined) >+ */ >+netsnmp_cache *get_sensor_cache( void ) { return _sensor_cache; } >+ >+ >+/* >+ * Wrapper routine for automatically updating sensor statistics >+ */ >+void >+_sensor_update_stats( unsigned int clientreg, void *data ) >+{ >+ _sensor_free(); >+ _sensor_load(); >+} >+ >+/* >+ * Wrapper routine for re-loading sensor statistics on demand >+ */ >+int >+netsnmp_sensor_load( netsnmp_cache *cache, void *data ) >+{ >+ return _sensor_load(); >+} >+ >+/* >+ * Wrapper routine for releasing expired sensor statistics >+ */ >+void >+netsnmp_sensor_free( netsnmp_cache *cache, void *data ) >+{ >+ _sensor_free(); >+} >+ >+ >+/* >+ * Architecture-independent processing of loading sensor statistics >+ */ >+static int >+_sensor_load( void ) >+{ >+ netsnmp_sensor_arch_load( NULL, NULL ); >+} >+ >+/* >+ * Architecture-independent release of sensor statistics >+ */ >+static void >+_sensor_free( void ) >+{ >+ netsnmp_sensor_info *sp; >+ >+ for (sp = CONTAINER_FIRST( _sensor_container ); >+ sp; >+ sp = CONTAINER_NEXT( _sensor_container, sp )) { >+ >+ sp->flags &= ~ NETSNMP_SENSOR_FLAG_ACTIVE; >+ } >+} >+ >+ >+/* >+ * Retrieve a sensor entry by name, >+ * or (optionally) insert a new one into the container >+ */ >+netsnmp_sensor_info * >+sensor_by_name( char *name, int create_type ) >+{ >+ netsnmp_sensor_info *sp; >+ >+ DEBUGMSGTL(("sensors:name", "Get sensor entry (%s)\n", name)); >+ >+ /* >+ * Look through the list for a matching entry >+ */ >+ /* .. or use a secondary index container ?? */ >+ for (sp = CONTAINER_FIRST( _sensor_container ); >+ sp; >+ sp = CONTAINER_NEXT( _sensor_container, sp )) { >+ >+ if ( !strcmp( name, sp->name )) >+ return sp; >+ } >+ >+ /* >+ * Not found... >+ */ >+ if ( create_type == NETSNMP_SENSOR_FIND_EXIST ) { >+ DEBUGMSGTL(("sensors:name", "No such sensor entry\n")); >+ return NULL; >+ } >+ >+ /* >+ * ... so let's create a new one, using the type supplied >+ */ >+ sp = SNMP_MALLOC_TYPEDEF( netsnmp_sensor_info ); >+ if ( sp ) { >+ strcpy( sp->name, name ); >+ sp->type = create_type; >+ /* >+ * Set up the index value. >+ * >+ * All this trouble, just for a simple integer. >+ * Surely there must be a better way? >+ */ >+ sp->idx.len = 1; >+ sp->idx.oids = SNMP_MALLOC_TYPEDEF( oid ); >+ sp->idx.oids[0] = ++_sensor_idx; >+ } >+ >+ DEBUGMSGTL(("sensors:name", "Create sensor entry (type = %d, index = %d\n", >+ create_type, _sensor_idx)); >+ CONTAINER_INSERT( _sensor_container, sp ); >+ return sp; >+} >+ >diff -up /dev/null net-snmp-5.4.1/agent/mibgroup/hardware/sensors/hw_sensors.h >--- /dev/null 2008-07-23 14:59:56.660004489 +0200 >+++ net-snmp-5.4.1/agent/mibgroup/hardware/sensors/hw_sensors.h 2008-07-25 12:53:46.000000000 +0200 >@@ -0,0 +1 @@ >+void init_hw_sensors( void ); >diff -up /dev/null net-snmp-5.4.1/agent/mibgroup/hardware/sensors/kstat_sensors.c >--- /dev/null 2008-07-23 14:59:56.660004489 +0200 >+++ net-snmp-5.4.1/agent/mibgroup/hardware/sensors/kstat_sensors.c 2008-07-25 12:53:46.000000000 +0200 >@@ -0,0 +1,161 @@ >+#include <net-snmp/net-snmp-config.h> >+#include <net-snmp/net-snmp-includes.h> >+#include <net-snmp/agent/net-snmp-agent-includes.h> >+#include <net-snmp/agent/hardware/sensors.h> >+ >+#include "util_funcs.h" >+#include <time.h> >+ >+#include <kstat.h> >+#include </usr/platform/sun4u/include/sys/envctrl.h> >+ >+void netsnmp_sensor_arch_init( void ) { >+ DEBUGMSGTL(("sensors:arch", "Initialise KStat Sensors module\n")); >+} >+ >+ >+int >+netsnmp_sensor_arch_load(netsnmp_cache *cache, void *vp) { >+ netsnmp_sensor_info *sp; >+ >+ int i; >+ const char *fantypes[]={"CPU","PWR","AFB"}; >+ char name[ 256 ]; >+ >+ kstat_ctl_t *kc; >+ kstat_t *kp; >+ envctrl_fan_t *fan_info; >+ envctrl_ps_t *power_info; >+ envctrl_encl_t *enc_info; >+ >+ >+ DEBUGMSGTL(("sensors:arch", "Reload KStat Sensors module\n")); >+ >+ kc = kstat_open(); >+ if ( kc == 0) { >+ DEBUGMSGTL(("sensors:arch", "Couldn't open kstat\n")); >+ return 1; >+ } >+ >+ >+ /* >+ * Retrieve fan information >+ */ >+ kp = kstat_lookup( kc, ENVCTRL_MODULE_NAME, 0, ENVCTRL_KSTAT_FANSTAT); >+ if (( kp == 0 ) || (kstat_read( kc, kp, 0 ) == -1 )) { >+ DEBUGMSGTL(("sensors:arch", "No fan information\n")); >+ } else { >+ fan_info = (envctrl_fan_t *)kp->ks_data; >+ for (i=0; i<kp->ks_ndata; i++) { >+ memset( name, 0, 256 ); >+ snprintf( name, 255, "%s%d", fantypes[fan_info->type], fan_info->instance ); >+ >+ sp = sensor_by_name( name, NETSNMP_SENSOR_TYPE_RPM ); >+ if ( sp ) { >+ sp->value = fan_info->fanspeed; >+ sp->flags|= NETSNMP_SENSOR_FLAG_ACTIVE; >+ snprintf( sp->descr, 255, "fan type %s number %d", >+ fantypes[fan_info->type], fan_info->instance ); >+ } >+ >+ fan_info++; >+ } >+ } >+ >+ >+ /* >+ * Retrieve Power Supply information >+ */ >+ kp = kstat_lookup( kc, ENVCTRL_MODULE_NAME, 0, ENVCTRL_KSTAT_PSNAME); >+ if (( kp == 0 ) || (kstat_read( kc, kp, 0 ) == -1 )) { >+ DEBUGMSGTL(("sensors:arch", "No PSU information\n")); >+ } else { >+ power_info = (envctrl_ps_t *)kp->ks_data; >+ for (i=0; i<kp->ks_ndata; i++) { >+ memset( name, 0, 256 ); >+ snprintf( name, 255, "PSU%d", power_info->instance ); >+ >+ sp = sensor_by_name( name, NETSNMP_SENSOR_TYPE_TEMPERATURE); >+ if ( sp ) { >+ sp->value = power_info->ps_tempr; >+ sp->flags|= NETSNMP_SENSOR_FLAG_ACTIVE; >+ snprintf( sp->descr, 255, "power supply %d", power_info->instance ); >+ } >+ >+ power_info++; >+ } >+ } >+ >+ >+ /* >+ * Retrieve Enclosure information >+ */ >+ kp = kstat_lookup( kc, ENVCTRL_MODULE_NAME, 0, ENVCTRL_KSTAT_ENCL); >+ if (( kp == 0 ) || (kstat_read( kc, kp, 0 ) == -1 )) { >+ DEBUGMSGTL(("sensors:arch", "No enclosure information\n")); >+ } else { >+ enc_info = (envctrl_encl_t *)kp->ks_data; >+ for (i=0; i<kp->ks_ndata; i++) { >+ /* >+ * The enclosure information covers several different types of sensor >+ */ >+ switch ( enc_info->type ) { >+ case ENVCTRL_ENCL_FSP: >+ DEBUGMSGTL(("sensors:arch:detail", "Enclosure Front Panel\n")); >+ sp = sensor_by_name( "FSP", NETSNMP_SENSOR_TYPE_OTHER); >+ if ( sp ) { >+ sp->value = enc_info->value; >+ sp->flags|= NETSNMP_SENSOR_FLAG_ACTIVE; >+ } >+ break; >+ >+ case ENVCTRL_ENCL_AMBTEMPR: >+ DEBUGMSGTL(("sensors:arch:detail", "Enclosure Ambient Temperature\n")); >+ sp = sensor_by_name( "Ambient", NETSNMP_SENSOR_TYPE_TEMPERATURE); >+ if ( sp ) { >+ sp->value = enc_info->value; >+ sp->flags|= NETSNMP_SENSOR_FLAG_ACTIVE; >+ } >+ break; >+ >+ case ENVCTRL_ENCL_CPUTEMPR: >+ DEBUGMSGTL(("sensors:arch:detail", "Enclosure CPU Temperature\n")); >+ memset( name, 0, 256 ); >+ snprintf( name, 255, "CPU%d", enc_info->instance ); >+ sp = sensor_by_name( name, NETSNMP_SENSOR_TYPE_TEMPERATURE); >+ if ( sp ) { >+ sp->value = enc_info->value; >+ sp->flags|= NETSNMP_SENSOR_FLAG_ACTIVE; >+ snprintf( sp->descr, 255, "CPU%d temperature", enc_info->instance ); >+ } >+ break; >+ >+ case ENVCTRL_ENCL_BACKPLANE4: >+ DEBUGMSGTL(("sensors:arch:detail", "Enclosure Backplane4\n")); >+ sp = sensor_by_name( "Backplane4", NETSNMP_SENSOR_TYPE_OTHER); >+ if ( sp ) { >+ sp->value = enc_info->value; >+ sp->flags|= NETSNMP_SENSOR_FLAG_ACTIVE; >+ } >+ break; >+ >+ case ENVCTRL_ENCL_BACKPLANE8: >+ DEBUGMSGTL(("sensors:arch:detail", "Enclosure Backplane4\n")); >+ sp = sensor_by_name( "Backplane4", NETSNMP_SENSOR_TYPE_OTHER); >+ if ( sp ) { >+ sp->value = enc_info->value; >+ sp->flags|= NETSNMP_SENSOR_FLAG_ACTIVE; >+ } >+ break; >+ >+ default: >+ DEBUGMSGTL(("sensors:arch:detail", "Unrecognised Enclosure entry (%d)n", >+ enc_info->type)); >+ } >+ >+ enc_info++; >+ } >+ } >+ >+ return 0; >+} >diff -up /dev/null net-snmp-5.4.1/agent/mibgroup/hardware/sensors/kstat_sensors.h >--- /dev/null 2008-07-23 14:59:56.660004489 +0200 >+++ net-snmp-5.4.1/agent/mibgroup/hardware/sensors/kstat_sensors.h 2008-07-25 12:53:46.000000000 +0200 >@@ -0,0 +1 @@ >+config_require(hardware/sensors/hw_sensors) >diff -up /dev/null net-snmp-5.4.1/agent/mibgroup/hardware/sensors/lmsensors_v2.c >--- /dev/null 2008-07-23 14:59:56.660004489 +0200 >+++ net-snmp-5.4.1/agent/mibgroup/hardware/sensors/lmsensors_v2.c 2008-07-25 12:53:46.000000000 +0200 >@@ -0,0 +1,75 @@ >+#include <net-snmp/net-snmp-config.h> >+#include <net-snmp/net-snmp-includes.h> >+#include <net-snmp/agent/net-snmp-agent-includes.h> >+#include <net-snmp/agent/hardware/sensors.h> >+ >+#include "util_funcs.h" >+#include <time.h> >+#include <sensors/sensors.h> >+ >+void netsnmp_sensor_arch_init( void ) { >+ FILE *fp = fopen("/etc/sensors.conf", "r"); >+ DEBUGMSGTL(("sensors:arch", "Initialise LM Sensors module\n")); >+ sensors_init( fp ); >+} >+ >+int >+netsnmp_sensor_arch_load(netsnmp_cache *cache, void *vp) { >+ netsnmp_sensor_info *sp; >+ const sensors_chip_name *chip; >+ const sensors_feature_data *data; >+ int chip_nr = 0; >+ >+ DEBUGMSGTL(("sensors:arch", "Reload LM Sensors module\n")); >+ while ((chip = sensors_get_detected_chips(&chip_nr))) { >+ int a = 0; >+ int b = 0; >+ >+ while ((data = sensors_get_all_features(*chip, &a, &b))) { >+ DEBUGMSGTL(("sensors:arch:detail", "get_all_features (%d, %d)\n", a, b)); >+ char *label = NULL; >+ double val; >+ int type = NETSNMP_SENSOR_TYPE_OTHER; >+ >+ if ((data->mode & SENSORS_MODE_R) && >+ (data->mapping == SENSORS_NO_MAPPING) && >+ !sensors_get_label(*chip, data->number, &label) && >+ !sensors_get_feature(*chip, data->number, &val)) { >+ >+ DEBUGMSGTL(("sensors:arch:detail", "%s = %f\n", label, val)); >+ /* >+ * Determine the type of sensor from the description. >+ * >+ * If the text being looked for below is not in the label of a >+ * given sensor (e.g., the temp1 sensor has been labeled 'CPU' >+ * rather than 'CPU temp') it will be categorised as OTHER. >+ */ >+ if (strstr(label, "V")) { >+ type = NETSNMP_SENSOR_TYPE_VOLTAGE_DC; >+ } >+ if (strstr(label, "fan") || strstr(label, "Fan")) { >+ type = NETSNMP_SENSOR_TYPE_RPM; >+ } >+ if (strstr(label, "temp") || strstr(label, "Temp")) { >+ type = NETSNMP_SENSOR_TYPE_TEMPERATURE; >+ } >+ >+ /* >+ * Use this type to create a new sensor entry >+ * (inserting it in the appropriate sub-containers) >+ */ >+ sp = sensor_by_name( label, type ); >+ if ( sp ) { >+ sp->value = val; >+ sp->flags|= NETSNMP_SENSOR_FLAG_ACTIVE; >+ } >+ } >+ if (label) { >+ free(label); >+ label = NULL; >+ } >+ } /* end while data */ >+ } /* end while chip */ >+ >+ return 0; >+} >diff -up /dev/null net-snmp-5.4.1/agent/mibgroup/hardware/sensors/lmsensors_v2.h >--- /dev/null 2008-07-23 14:59:56.660004489 +0200 >+++ net-snmp-5.4.1/agent/mibgroup/hardware/sensors/lmsensors_v2.h 2008-07-25 12:53:46.000000000 +0200 >@@ -0,0 +1 @@ >+config_require(hardware/sensors/hw_sensors) >diff -up /dev/null net-snmp-5.4.1/agent/mibgroup/hardware/sensors/lmsensors_v3.c >--- /dev/null 2008-07-23 14:59:56.660004489 +0200 >+++ net-snmp-5.4.1/agent/mibgroup/hardware/sensors/lmsensors_v3.c 2008-07-25 12:53:46.000000000 +0200 >@@ -0,0 +1,101 @@ >+#include <net-snmp/net-snmp-config.h> >+#include <net-snmp/net-snmp-includes.h> >+#include <net-snmp/agent/net-snmp-agent-includes.h> >+#include <net-snmp/agent/hardware/sensors.h> >+ >+#include "util_funcs.h" >+#include <time.h> >+#include <sensors/sensors.h> >+ >+ >+void netsnmp_sensor_arch_init( void ) { >+ FILE *fp = fopen("/etc/sensors.conf", "r"); >+ DEBUGMSGTL(("sensors:arch", "Initialise v3 LM Sensors module\n")); >+ sensors_init( fp ); >+} >+ >+int >+netsnmp_sensor_arch_load(netsnmp_cache *cache, void *vp) { >+ netsnmp_sensor_info *sp; >+ const sensors_chip_name *chip; >+ const sensors_feature *data; >+ const sensors_subfeature *data2; >+ int chip_nr = 0; >+ >+ DEBUGMSGTL(("sensors:arch", "Reload v3 LM Sensors module\n")); >+ while ((chip = sensors_get_detected_chips( NULL, &chip_nr))) { >+ int a = 0; >+ >+ while ((data = sensors_get_features( chip, &a))) { >+ DEBUGMSGTL(("sensors:arch:detail", "get_features (%s, %d)\n", data->name, data->number)); >+ int b = 0; >+ >+ >+ while ((data2 = sensors_get_all_subfeatures( chip, data, &b))) { >+ char *label = NULL; >+ double val; >+ int type = NETSNMP_SENSOR_TYPE_OTHER; >+ >+ DEBUGMSGTL(("sensors:arch:detail", " get_subfeatures (%s, %d)\n", data2->name, data2->number)); >+ /* >+ * Check the type of this subfeature, >+ * concentrating on the main "input" measurements. >+ */ >+ switch ( data2->type ) { >+ case SENSORS_SUBFEATURE_IN_INPUT: >+ type = NETSNMP_SENSOR_TYPE_VOLTAGE_DC; >+ break; >+ case SENSORS_SUBFEATURE_FAN_INPUT: >+ type = NETSNMP_SENSOR_TYPE_RPM; >+ break; >+ case SENSORS_SUBFEATURE_TEMP_INPUT: >+ type = NETSNMP_SENSOR_TYPE_TEMPERATURE; >+ break; >+ case SENSORS_SUBFEATURE_VID: >+ type = NETSNMP_SENSOR_TYPE_VOLTAGE_DC; >+ break; >+ default: >+ /* Skip everything other than these basic sensor features - ??? */ >+ DEBUGMSGTL(("sensors:arch:detail", " Skip type %x\n", data2->type)); >+ continue; >+ } >+ >+ /* >+ * Get the name and value of this subfeature >+ */ >+/* >+ if (!(label = sensors_get_label(chip, data))) { >+ DEBUGMSGTL(("sensors:arch:detail", " Can't get name (%s)\n", label)); >+ continue; >+ } >+ if (sensors_get_value(chip, data2->number, &val) < 0) { >+ DEBUGMSGTL(("sensors:arch:detail", " Can't get value (%f)\n", val)); >+ continue; >+ } >+*/ >+ if (!(label = sensors_get_label(chip, data)) || >+ (sensors_get_value(chip, data2->number, &val) < 0)) { >+ DEBUGMSGTL(("sensors:arch:detail", " Can't get name/value (%s, %f)\n", label, val)); >+ continue; >+ } >+ DEBUGMSGTL(("sensors:arch:detail", "%s = %f\n", label, val)); >+ >+ /* >+ * Use this type to create a new sensor entry >+ * (inserting it in the appropriate sub-containers) >+ */ >+ sp = sensor_by_name( label, type ); >+ if ( sp ) { >+ sp->value = val; >+ sp->flags|= NETSNMP_SENSOR_FLAG_ACTIVE; >+ } >+ if (label) { >+ free(label); >+ label = NULL; >+ } >+ } /* end while data2 */ >+ } /* end while data */ >+ } /* end while chip */ >+ >+ return 0; >+} >diff -up /dev/null net-snmp-5.4.1/agent/mibgroup/hardware/sensors/lmsensors_v3.h >--- /dev/null 2008-07-23 14:59:56.660004489 +0200 >+++ net-snmp-5.4.1/agent/mibgroup/hardware/sensors/lmsensors_v3.h 2008-07-25 12:53:46.000000000 +0200 >@@ -0,0 +1 @@ >+config_require(hardware/sensors/hw_sensors) >diff -up /dev/null net-snmp-5.4.1/agent/mibgroup/hardware/sensors/picld_sensors.c >--- /dev/null 2008-07-23 14:59:56.660004489 +0200 >+++ net-snmp-5.4.1/agent/mibgroup/hardware/sensors/picld_sensors.c 2008-07-25 12:53:46.000000000 +0200 >@@ -0,0 +1,341 @@ >+#include <net-snmp/net-snmp-config.h> >+#include <net-snmp/net-snmp-includes.h> >+#include <net-snmp/agent/net-snmp-agent-includes.h> >+#include <net-snmp/agent/hardware/sensors.h> >+ >+#include "util_funcs.h" >+#include <time.h> >+ >+#include <picl.h> >+#include </usr/platform/sun4u/include/sys/envctrl.h> >+ >+void netsnmp_sensor_arch_init( void ) { >+ DEBUGMSGTL(("sensors:arch", "Initialise PICLd Sensors module\n")); >+ picl_initialize(); >+} >+ >+ >+/* >+ * Handle a numeric-valued sensor >+ */ >+static int >+read_num_sensor( picl_nodehdl_t childh, char *propval, float *value ) >+{ >+ picl_nodehdl_t sensorh; >+ picl_propinfo_t sensor_info; >+ picl_errno_t error_code; >+ >+ union valu { >+ char buf[PICL_PROPSIZE_MAX]; >+ uint32_t us4; >+ uint16_t us2; >+ int32_t is4; >+ int16_t is2; >+ float f; >+ } val; >+ >+ /* >+ * Retrieve the specified sensor information and value >+ */ >+ error_code = picl_get_propinfo_by_name(childh, propval, &sensor_info, &sensorh); >+ if ( error_code != PICL_SUCCESS ) { >+ DEBUGMSGTL(("sensors:arch:detail", "sensor info lookup failed (%d)\n", >+ error_code)); >+ return( error_code ); >+ } >+ >+ error_code = picl_get_propval(sensorh, &val.buf, sensor_info.size); >+ if ( error_code != PICL_SUCCESS ) { >+ DEBUGMSGTL(("sensors:arch:detail", "sensor value lookup failed (%d)\n", >+ error_code)); >+ return( error_code ); >+ } >+ >+ /* >+ * Check the validity (type and size) of this value >+ */ >+ if ( sensor_info.type == PICL_PTYPE_FLOAT ) { >+ *value = val.f; >+ } else if ( sensor_info.type == PICL_PTYPE_UNSIGNED_INT ) { >+ /* 16-bit or 32-bit unsigned integers */ >+ if ( sensor_info.size == 2 ) { >+ *value = val.us2; >+ } else if ( sensor_info.size == 4 ) { >+ *value = val.us4; >+ } else { >+ DEBUGMSGTL(("sensors:arch:detail", "unsigned integer (%d bit)\n", >+ sensor_info.size * 8)); >+ return PICL_FAILURE; >+ } >+ } else if ( sensor_info.type == PICL_PTYPE_INT ) { >+ /* 16-bit or 32-bit signed integers */ >+ if ( sensor_info.size == 2 ) { >+ *value = val.is2; >+ } else if ( sensor_info.size == 4 ) { >+ *value = val.is4; >+ } else { >+ DEBUGMSGTL(("sensors:arch:detail", "signed integer (%d bit)\n", >+ sensor_info.size * 8)); >+ return PICL_FAILURE; >+ } >+ } else { >+ DEBUGMSGTL(("sensors:arch:detail", "unrecognised type (%d)\n", >+ sensor_info.type)); >+ return PICL_FAILURE; >+ } >+ >+ return error_code; >+} >+ >+static int >+process_num_sensor( picl_nodehdl_t childh, char *propname, char *propval, int typ ) >+{ >+ netsnmp_sensor_info *sp; >+ float value; >+ picl_errno_t error_code; >+ >+ sp = sensor_by_name( propname, typ ); >+ if ( !sp ) { >+ return -1; >+ } >+ >+ error_code = read_num_sensor( childh, propval, &value ); >+ if ( error_code == PICL_SUCCESS ) { >+ sp->value = value; >+ sp->flags|= NETSNMP_SENSOR_FLAG_ACTIVE; >+ } else { >+ DEBUGMSGTL(("sensors:arch:detail", "Failed to read %s sensor value (%d)\n", >+ propname, error_code)); >+ return -1; >+ } >+ return 0; >+} >+ >+ >+ >+/* >+ * Handle an enumeration-valued sensor >+ */ >+char *switch_settings[] = { "OFF","ON","NORMAL","LOCKED", >+ "UNKNOWN","DIAG","SECURE", >+ NULL }; >+char *led_settings[] = { "OFF","ON","BLINK", >+ NULL }; >+char *i2c_settings[] = { "OK", >+ NULL }; >+ >+static int >+read_enum_sensor( picl_nodehdl_t childh, float *value, char **options ) >+{ >+ picl_nodehdl_t sensorh; >+ picl_propinfo_t sensor_info; >+ picl_errno_t error_code; >+ char state[PICL_PROPSIZE_MAX]; >+ int i; >+ >+ /* >+ * Retrieve the specified sensor information and value >+ */ >+ error_code = picl_get_propinfo_by_name(childh, "State", &sensor_info, &sensorh); >+ if ( error_code != PICL_SUCCESS ) { >+ DEBUGMSGTL(("sensors:arch:detail", "sensor info lookup failed (%d)\n", >+ error_code)); >+ return( error_code ); >+ } >+ >+ error_code = picl_get_propval(sensorh, state, sensor_info.size); >+ if ( error_code != PICL_SUCCESS ) { >+ DEBUGMSGTL(("sensors:arch:detail", "sensor value lookup failed (%d)\n", >+ error_code)); >+ return( error_code ); >+ } >+ >+ /* >+ * Try to find a matching entry in the list of options. >+ * Note that some platforms may use upper or lower case >+ * versions of these enumeration values >+ * (so the checks are case insensitive) >+ */ >+ *value = 99; /* Dummy value */ >+ for ( i=0; options[i] != NULL; i++ ) { >+ if (strncasecmp(state, options[i], strlen(options[i])) == 0) { >+ *value = i; >+ return 0; >+ } >+ } >+ >+ DEBUGMSGTL(("sensors:arch:detail", "Enumeration state %s not matched\n", >+ state)); >+ return 0; /* Or an error ? */ >+} >+ >+static int >+process_enum_sensor( picl_nodehdl_t childh, char *propname, int typ, char **options ) >+{ >+ netsnmp_sensor_info *sp; >+ float value; >+ picl_errno_t error_code; >+ >+ sp = sensor_by_name( propname, typ ); >+ if ( !sp ) { >+ return -1; >+ } >+ >+ error_code = read_enum_sensor( childh, &value, options ); >+ if ( error_code == PICL_SUCCESS ) { >+ sp->value = value; >+ sp->flags|= NETSNMP_SENSOR_FLAG_ACTIVE; >+ } else { >+ DEBUGMSGTL(("sensors:arch:detail", "Failed to read %s sensor value (%d)\n", >+ propname, error_code)); >+ return -1; >+ } >+ return 0; >+} >+static int >+process_enum_sensor( picl_nodehdl_t childh, char *propname, int typ, char **options ) >+{ >+ return 0; >+} >+ >+ >+ >+/* >+ * Recursively walk through the tree of sensors >+ */ >+static int >+process_sensors( int level, picl_nodehdl_t nodeh ) { >+ picl_nodehdl_t childh, nexth; >+ char propname[ PICL_PROPNAMELEN_MAX ]; >+ char propclass[ PICL_CLASSNAMELEN_MAX ]; >+ picl_errno_t error_code; >+ >+ level++; >+ DEBUGMSGTL(("sensors:arch:detail", "process_sensors - level %d\n", level)); >+ >+ /* Look up the first child node at this level */ >+ error_code = pick_get_propval_by_name( nodeh, PICL_PROP_CHILD, >+ &childh, sizeof(childh)); >+ if ( error_code != PICL_SUCCESS ) { >+ DEBUGMSGTL(("sensors:arch:detail", "Failed to get first child node (%d)\n", >+ error_code)); >+ return( error_code ); >+ } >+ >+ /* Step through the child nodes, retrieving the name and class of each one */ >+ while ( error_code == PICL_SUCCESS ) { >+ error_code = pick_get_propval_by_name( childh, PICL_PROP_NAME, >+ propname, sizeof(propname)-1); >+ if ( error_code != PICL_SUCCESS ) { >+ /* The Node With No Name */ >+ DEBUGMSGTL(("sensors:arch:detail", "get property name failed (%d)\n", >+ error_code)); >+ return( error_code ); >+ } >+ >+ error_code = pick_get_propval_by_name( childh, PICL_PROP_CLASSNAME, >+ propclass, sizeof(propclass)-1); >+ if ( error_code != PICL_SUCCESS ) { >+ /* The Classless Society */ >+ DEBUGMSGTL(("sensors:arch:detail", "get property class failed (%d)\n", >+ error_code)); >+ return( error_code ); >+ } >+ >+ DEBUGMSGTL(("sensors:arch:detail", "Name: %s, Class %s\n", >+ propname, propclass )); >+ >+ >+ /* >+ * Three classes represent further groups of sensors, etc. >+ * Call 'process_sensors' recursively to handle this next level >+ */ >+ if (( strstr( propclass, "picl" )) || >+ ( strstr( propclass, "frutree" )) || >+ ( strstr( propclass, "obp" ))) { >+ process_sensors( level, childh ); >+ } >+ /* >+ * Otherwise retrieve the value appropriately based on the >+ * class of the sensor. >+ * >+ * We need to specify the name of the PICL property to retrieve >+ * for this class of sensor, and the Net-SNMP sensor type. >+ */ >+ else if ( strstr( propclass, "fan-tachometer" )) { >+ process_num_sensor( childh, propname, "AtoDSensorValue", >+ NETSNMP_SENSOR_TYPE_RPM ); >+ } else if ( strstr( propclass, "fan" )) { >+ process_num_sensor( childh, propname, "Speed", >+ NETSNMP_SENSOR_TYPE_RPM ); >+ } else if ( strstr( propclass, "temperature-sensor" )) { >+ process_num_sensor( childh, propname, "Temperature", >+ NETSNMP_SENSOR_TYPE_TEMPERATURE ); >+ } else if ( strstr( propclass, "voltage-sensor" )) { >+ process_num_sensor( childh, propname, "Voltage", >+ /* ?? */ NETSNMP_SENSOR_TYPE_VOLTAGE_DC ); >+ } else if ( strstr( propclass, "digital-sensor" )) { >+ process_num_sensor( childh, propname, "AtoDSensorValue", >+ /* ?? */ NETSNMP_SENSOR_TYPE_VOLTAGE_DC ); >+ /* >+ * Enumeration-valued sensors use a fixed PICL property ("State"), >+ * but take a list of the values appropriate for that sensor, >+ * as well as the Net-SNMP sensor type. >+ */ >+ } else if ( strstr( propclass, "switch" )) { >+ process_enum_sensor( childh, propname, NETSNMP_SENSOR_TYPE_OTHER, >+ switch_settings ); >+ } else if ( strstr( propclass, "led" )) { >+ process_enum_sensor( childh, propname, NETSNMP_SENSOR_TYPE_OTHER, >+ led_settings ); >+ } else if ( strstr( propclass, "i2c" )) { >+ process_enum_sensor( childh, propname, NETSNMP_SENSOR_TYPE_BOOLEAN, /* ?? */ >+ i2c_settings ); >+ } else { >+ /* Skip other classes of sensor */ >+ DEBUGMSGTL(("sensors:arch:detail", "Skipping class %s\n", propclass )); >+ } >+ >+ /* >+ * Move on to the next child node at the current level (if any) >+ */ >+ error_code = pick_get_propval_by_name( childh, PICL_PROP_PEER, >+ &nexth, sizeof(nexth)); >+ if ( error_code != PICL_SUCCESS ) { >+ /* That's All Folks! */ >+ return (( error_code == PICL_PROPNOTFOUND ) >+ ? PICL_SUCCESS : error_code ); >+ } >+ childh = nexth; >+ } >+ >+ return error_code; >+} >+ >+ >+int >+netsnmp_sensor_arch_load(netsnmp_cache *cache, void *vp) { >+ int error_code; >+ picl_nodehdl_t rooth; >+ >+ DEBUGMSGTL(("sensors:arch", "Reload PICLd Sensors module\n")); >+ >+ error_code = picl_get_root(&rooth); >+ if ( error_code != PICL_SUCCESS) { >+ DEBUGMSGTL(("sensors:arch", "Couldn't get root node (error %d)\n", error_code)); >+ return 1; >+ } >+ >+ error_code = process_sensors(0, rooth); >+ if ( error_code != 255 ) >+ if ( error_code != 7 ) /* ignore PICL_PROPNOTFOUND error */ >+ DEBUGMSGTL(("sensors:arch", "Internal PICLd problem (error %d)\n", error_code)); >+ >+ return 0; >+} >+ >+void netsnmp_sensor_arch_shutdown( void ) { >+ DEBUGMSGTL(("sensors:arch", "Shutdown PicLD Sensors module\n")); >+ picl_shutdown(); >+} >+ >diff -up /dev/null net-snmp-5.4.1/agent/mibgroup/hardware/sensors/picld_sensors.h >--- /dev/null 2008-07-23 14:59:56.660004489 +0200 >+++ net-snmp-5.4.1/agent/mibgroup/hardware/sensors/picld_sensors.h 2008-07-25 12:53:46.000000000 +0200 >@@ -0,0 +1 @@ >+config_require(hardware/sensors/hw_sensors) >diff -up /dev/null net-snmp-5.4.1/agent/mibgroup/ucd-snmp/lmsensorsMib.c >--- /dev/null 2008-07-23 14:59:56.660004489 +0200 >+++ net-snmp-5.4.1/agent/mibgroup/ucd-snmp/lmsensorsMib.c 2008-07-25 12:53:46.000000000 +0200 >@@ -0,0 +1,205 @@ >+#include <net-snmp/net-snmp-config.h> >+#include <net-snmp/net-snmp-includes.h> >+#include <net-snmp/agent/net-snmp-agent-includes.h> >+#include <net-snmp/agent/hardware/sensors.h> >+#include "ucd-snmp/lmsensorsMib.h" >+ >+netsnmp_container *sensorContainer = NULL; >+ >+void initialize_lmSensorsTable(const char *tableName, oid *tableOID, >+ netsnmp_container_op *filter, int mult ); >+ >+int _sensor_filter_temp( netsnmp_container *c, const void *v ); >+int _sensor_filter_fan( netsnmp_container *c, const void *v ); >+int _sensor_filter_volt( netsnmp_container *c, const void *v ); >+int _sensor_filter_misc( netsnmp_container *c, const void *v ); >+ >+static oid lmTempSensorsTable_oid[] = {1,3,6,1,4,1,2021,13,16,2}; >+static oid lmFanSensorsTable_oid[] = {1,3,6,1,4,1,2021,13,16,3}; >+static oid lmVoltSensorsTable_oid[] = {1,3,6,1,4,1,2021,13,16,4}; >+static oid lmMiscSensorsTable_oid[] = {1,3,6,1,4,1,2021,13,16,5}; >+ /* All the tables have the same length root OID */ >+size_t lmSensorsTables_oid_len = OID_LENGTH(lmMiscSensorsTable_oid); >+ >+ >+/* Initialise the LM Sensors MIB module */ >+void >+init_lmsensorsMib(void) >+{ >+ DEBUGMSGTL(("ucd-snmp/lmsensorsMib","Initializing LM-SENSORS-MIB tables\n")); >+ >+ /* >+ * Initialise the four LM-SENSORS-MIB tables >+ * >+ * They are almost identical, so we can use the same registration code. >+ */ >+ initialize_lmSensorsTable( "lmTempSensorsTable", lmTempSensorsTable_oid, >+ _sensor_filter_temp, 1000 ); /* MIB asks for mC */ >+ initialize_lmSensorsTable( "lmFanSensorsTable", lmFanSensorsTable_oid, >+ _sensor_filter_fan, 1); >+ initialize_lmSensorsTable( "lmVoltSensorsTable", lmVoltSensorsTable_oid, >+ _sensor_filter_volt, 1000 ); /* MIB asks for mV */ >+ initialize_lmSensorsTable( "lmMiscSensorsTable", lmMiscSensorsTable_oid, >+ _sensor_filter_misc, 1 ); >+} >+ >+/* >+ * Common initialisation code, used for setting up all four tables >+ */ >+void >+initialize_lmSensorsTable(const char *tableName, oid *tableOID, >+ netsnmp_container_op *filter, int mult ) >+{ >+ netsnmp_handler_registration *reg; >+ netsnmp_table_registration_info *table_info; >+ netsnmp_cache *cache; >+ netsnmp_container *container; >+ >+ /* >+ * Ensure the HAL sensors module has been initialised, >+ * and retrieve the main sensors container. >+ * This table will then be registered using a filter on this container. >+ */ >+ sensorContainer = get_sensor_container(); >+ if ( !sensorContainer ) { >+ init_hw_sensors( ); >+ sensorContainer = get_sensor_container(); >+ } >+ container = netsnmp_container_find("sensorTable:table_container"); >+ container->insert_filter = filter; >+ netsnmp_container_add_index( sensorContainer, container ); >+ >+ >+ /* >+ * Create a basic registration structure for the table >+ */ >+ reg = netsnmp_create_handler_registration( >+ tableName, lmSensorsTables_handler, >+ tableOID, lmSensorsTables_oid_len, HANDLER_CAN_RONLY >+ ); >+ >+ /* >+ * Register the table using the filtered container >+ * Include an indicator of any scaling to be applied to the sensor value >+ */ >+ reg->my_reg_void = (void *)mult; >+ table_info = SNMP_MALLOC_TYPEDEF( netsnmp_table_registration_info ); >+ netsnmp_table_helper_add_indexes(table_info, ASN_INTEGER, 0); >+ table_info->min_column = COLUMN_LMSENSORS_INDEX; >+ table_info->max_column = COLUMN_LMSENSORS_VALUE; >+ netsnmp_container_table_register( reg, table_info, container, 0 ); >+ >+ /* >+ * If the HAL sensors module was configured as an on-demand caching >+ * module (rather than being automatically loaded regularly), >+ * then ensure this table makes use of that cache. >+ */ >+ cache = get_sensor_cache(); >+ if ( cache ) { >+ netsnmp_inject_handler_before( reg, netsnmp_cache_handler_get( cache ), >+ "table_container"); >+ } >+ >+} >+ >+ >+/* >+ * Container filters for the four tables >+ * >+ * Used to ensure that sensor entries appear in the appropriate table. >+ */ >+int _sensor_filter_temp( netsnmp_container *c, const void *v ) { >+ const netsnmp_sensor_info *sp = (const netsnmp_sensor_info *)v; >+ /* Only matches temperature sensors */ >+ return (( sp->type == NETSNMP_SENSOR_TYPE_TEMPERATURE ) ? 0 : 1 ); >+} >+ >+int _sensor_filter_fan( netsnmp_container *c, const void *v ) { >+ const netsnmp_sensor_info *sp = (const netsnmp_sensor_info *)v; >+ /* Only matches fan sensors */ >+ return (( sp->type == NETSNMP_SENSOR_TYPE_RPM ) ? 0 : 1 ); >+} >+ >+int _sensor_filter_volt( netsnmp_container *c, const void *v ) { >+ const netsnmp_sensor_info *sp = (const netsnmp_sensor_info *)v; >+ /* Only matches voltage sensors (AC or DC) */ >+ return ((( sp->type == NETSNMP_SENSOR_TYPE_VOLTAGE_DC ) || >+ ( sp->type == NETSNMP_SENSOR_TYPE_VOLTAGE_AC )) ? 0 : 1 ); >+} >+ >+int _sensor_filter_misc( netsnmp_container *c, const void *v ) { >+ const netsnmp_sensor_info *sp = (const netsnmp_sensor_info *)v; >+ /* Matches everything except temperature, fan or voltage sensors */ >+ return ((( sp->type == NETSNMP_SENSOR_TYPE_TEMPERATURE ) || >+ ( sp->type == NETSNMP_SENSOR_TYPE_RPM ) || >+ ( sp->type == NETSNMP_SENSOR_TYPE_VOLTAGE_DC ) || >+ ( sp->type == NETSNMP_SENSOR_TYPE_VOLTAGE_AC )) ? 1 : 0 ); >+} >+ >+ >+/* >+ * Handle requests for any of the four lmXxxxSensorsTables >+ * >+ * This is possible because all the table share the >+ * same structure and behaviour. >+ */ >+int >+lmSensorsTables_handler( >+ netsnmp_mib_handler *handler, >+ netsnmp_handler_registration *reginfo, >+ netsnmp_agent_request_info *reqinfo, >+ netsnmp_request_info *requests) { >+ >+ netsnmp_request_info *request; >+ netsnmp_table_request_info *table_info; >+ netsnmp_sensor_info *sensor_info; >+ int mult = (int)reginfo->my_reg_void; >+ >+ DEBUGMSGTL(( "ucd-snmp/lmsensorsMib","lmSensorsTables_handler - root: ")); >+ DEBUGMSGOID(("ucd-snmp/lmsensorsMib", reginfo->rootoid, reginfo->rootoid_len)); >+ DEBUGMSG(( "ucd-snmp/lmsensorsMib",", mode %d\n", reqinfo->mode )); >+ /* >+ * This is a read-only table, so we only need to handle GET requests. >+ * (The container helper converts GETNEXT->GET requests automatically). >+ */ >+ switch (reqinfo->mode) { >+ case MODE_GET: >+ for (request=requests; request; request=request->next) { >+ sensor_info = (netsnmp_sensor_info *) >+ netsnmp_container_table_extract_context(request); >+ if ( !sensor_info ) { >+ netsnmp_set_request_error(reqinfo, request, SNMP_NOSUCHINSTANCE); >+ continue; >+ } >+ >+ table_info = netsnmp_extract_table_info(request); >+ switch (table_info->colnum) { >+ case COLUMN_LMSENSORS_INDEX: >+ snmp_set_var_typed_integer( request->requestvb, ASN_INTEGER, >+ sensor_info->idx.oids[0]); >+ break; >+ case COLUMN_LMSENSORS_DEVICE: >+ if ( sensor_info->descr[0] != '\0' ) { >+ snmp_set_var_typed_value( request->requestvb, ASN_OCTET_STR, >+ sensor_info->descr, strlen(sensor_info->descr)); >+ } else { >+ snmp_set_var_typed_value( request->requestvb, ASN_OCTET_STR, >+ sensor_info->name, strlen(sensor_info->name)); >+ } >+ break; >+ case COLUMN_LMSENSORS_VALUE: >+ /* Multiply the value by the appropriate scaling factor for this table */ >+ snmp_set_var_typed_integer( request->requestvb, ASN_GAUGE, >+ (int)(mult*sensor_info->value)); >+ break; >+ default: >+ netsnmp_set_request_error(reqinfo, request, >+ SNMP_NOSUCHOBJECT); >+ break; >+ } >+ } >+ break; >+ >+ } >+ return SNMP_ERR_NOERROR; >+} >diff -up /dev/null net-snmp-5.4.1/agent/mibgroup/ucd-snmp/lmsensorsMib.h >--- /dev/null 2008-07-23 14:59:56.660004489 +0200 >+++ net-snmp-5.4.1/agent/mibgroup/ucd-snmp/lmsensorsMib.h 2008-07-25 12:53:46.000000000 +0200 >@@ -0,0 +1,23 @@ >+#ifndef LM_SENSORS_MIB_H >+#define LM_SENSORS_MIB_H >+ >+config_require(hardware/sensors) >+config_add_mib(LM-SENSORS-MIB) >+ >+/* function declarations */ >+void init_lmsensorsMib(void); >+ >+/* >+ * Handler and Column definitions for lmXxxxSensorsTable >+ * >+ * Note that the same handler (and hence the same >+ * column identifiers) are used for all four tables. >+ * This is possible because all the table share the >+ * same structure and behaviour. >+ */ >+Netsnmp_Node_Handler lmSensorsTables_handler; >+#define COLUMN_LMSENSORS_INDEX 1 >+#define COLUMN_LMSENSORS_DEVICE 2 >+#define COLUMN_LMSENSORS_VALUE 3 >+ >+#endif /* LM_SENSORS_MIB_H */ >diff -up net-snmp-5.4.1/configure.backup_patch_15 net-snmp-5.4.1/configure >--- net-snmp-5.4.1/configure.backup_patch_15 2008-07-25 12:53:39.000000000 +0200 >+++ net-snmp-5.4.1/configure 2008-07-25 12:53:46.000000000 +0200 >@@ -31030,7 +31030,7 @@ fi > fi > > # LM-SENSORS-MIB support >-echo " $module_list " | grep " ucd-snmp/lmSensors " > /dev/null >+echo " $module_list " | $GREP -i "ucd-snmp/lmsensor" > /dev/null > if test $? -eq 0 ; then > echo "$as_me:$LINENO: checking for sensors support" >&5 > echo $ECHO_N "checking for sensors support... $ECHO_C" >&6 >diff -up net-snmp-5.4.1/configure.in.backup_patch_15 net-snmp-5.4.1/configure.in >--- net-snmp-5.4.1/configure.in.backup_patch_15 2008-07-25 12:53:39.000000000 +0200 >+++ net-snmp-5.4.1/configure.in 2008-07-25 12:53:46.000000000 +0200 >@@ -2880,7 +2880,7 @@ if test $? -eq 0 ; then > fi > > # LM-SENSORS-MIB support >-echo " $module_list " | grep " ucd-snmp/lmSensors " > /dev/null >+echo " $module_list " | $GREP -i "ucd-snmp/lmsensor" > /dev/null > if test $? -eq 0 ; then > AC_MSG_CHECKING([for sensors support]) > case $target_os in >diff -up /dev/null net-snmp-5.4.1/include/net-snmp/agent/hardware/sensors.h >--- /dev/null 2008-07-23 14:59:56.660004489 +0200 >+++ net-snmp-5.4.1/include/net-snmp/agent/hardware/sensors.h 2008-07-25 12:53:46.000000000 +0200 >@@ -0,0 +1,48 @@ >+/* >+ * Hardware Abstraction Layer - Sensors module >+ * >+ * Public interface >+ */ >+ >+#define NETSNMP_SENSOR_TYPE_OTHER 1 >+#define NETSNMP_SENSOR_TYPE_VOLTAGE_AC 3 >+#define NETSNMP_SENSOR_TYPE_VOLTAGE_DC 4 >+#define NETSNMP_SENSOR_TYPE_CURRENT 5 >+#define NETSNMP_SENSOR_TYPE_POWER 6 >+#define NETSNMP_SENSOR_TYPE_FREQUENCY 7 >+#define NETSNMP_SENSOR_TYPE_TEMPERATURE 8 >+#define NETSNMP_SENSOR_TYPE_HUMIDITY 9 >+#define NETSNMP_SENSOR_TYPE_RPM 10 >+#define NETSNMP_SENSOR_TYPE_VOLUME 11 >+#define NETSNMP_SENSOR_TYPE_BOOLEAN 12 >+ >+ >+#define NETSNMP_SENSOR_FLAG_ACTIVE 0x01 >+#define NETSNMP_SENSOR_FLAG_NAVAIL 0x02 >+#define NETSNMP_SENSOR_FLAG_BROKEN 0x04 >+#define NETSNMP_SENSOR_FLAG_DISABLE 0x08 >+ >+#define NETSNMP_SENSOR_MASK_STATUS 0x06 /* NAVAIL|BROKEN */ >+ >+ >+#define NETSNMP_SENSOR_FIND_CREATE 1 /* or use one of the sensor type values */ >+#define NETSNMP_SENSOR_FIND_EXIST 0 >+ >+typedef struct netsnmp_sensor_info_s netsnmp_sensor_info; >+struct netsnmp_sensor_info_s { >+ >+ netsnmp_index idx; >+ /* int idx; */ >+ char name[256]; >+ >+ int type; >+ float value; >+ char descr[256]; >+ long flags; >+}; >+ >+netsnmp_container *get_sensor_container( void ); >+netsnmp_cache *get_sensor_cache( void ); >+netsnmp_sensor_info *sensor_by_name( char *, int ); >+NetsnmpCacheLoad netsnmp_sensor_load; >+NetsnmpCacheFree netsnmp_sensor_free;
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