diff options
author | Jörg Frings-Fürst <debian@jff-webhosting.net> | 2016-10-09 09:19:51 +0200 |
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committer | Jörg Frings-Fürst <debian@jff-webhosting.net> | 2016-10-09 09:19:51 +0200 |
commit | 82ac6c87ce0b0af2fb8de25d70442fec406bb742 (patch) | |
tree | 74bbca60b73160c432cd497563bf8f8de1ce80ea /lib/ipmi_sdr.c | |
parent | 342ebce798fe98ede64939a49bbc3770d8214649 (diff) |
New upstream version 1.8.18upstream/1.8.18
Diffstat (limited to 'lib/ipmi_sdr.c')
-rw-r--r-- | lib/ipmi_sdr.c | 148 |
1 files changed, 56 insertions, 92 deletions
diff --git a/lib/ipmi_sdr.c b/lib/ipmi_sdr.c index e3122dc..2a9cbe3 100644 --- a/lib/ipmi_sdr.c +++ b/lib/ipmi_sdr.c @@ -689,32 +689,6 @@ ipmi_sdr_get_sensor_event_enable(struct ipmi_intf *intf, uint8_t sensor, return rsp; } -/* ipmi_sdr_get_sensor_type_desc - Get sensor type descriptor - * - * @type: ipmi sensor type - * - * returns - * string from sensor_type_desc - * or "reserved" - * or "OEM reserved" - */ -const char * -ipmi_sdr_get_sensor_type_desc(const uint8_t type) -{ - static char desc[32]; - memset(desc, 0, 32); - if (type <= SENSOR_TYPE_MAX) - return sensor_type_desc[type]; - if (type < 0xc0) - snprintf(desc, 32, "reserved #%02x", type); - else - { - snprintf(desc, 32, oemval2str(sdriana,type,ipmi_oem_sdr_type_vals), - type); - } - return desc; -} - /* ipmi_sdr_get_thresh_status - threshold status indicator * * @rsp: response from Get Sensor Reading comand @@ -1014,21 +988,21 @@ ipmi_sdr_print_sensor_event_status(struct ipmi_intf *intf, switch (numeric_fmt) { case DISCRETE_SENSOR: if (rsp->data_len == 2) { - ipmi_sdr_print_discrete_state("Assertion Events", + ipmi_sdr_print_discrete_state(intf, "Assertion Events", sensor_type, event_type, rsp->data[1], 0); } else if (rsp->data_len > 2) { - ipmi_sdr_print_discrete_state("Assertion Events", + ipmi_sdr_print_discrete_state(intf, "Assertion Events", sensor_type, event_type, rsp->data[1], rsp->data[2]); } if (rsp->data_len == 4) { - ipmi_sdr_print_discrete_state("Deassertion Events", + ipmi_sdr_print_discrete_state(intf, "Deassertion Events", sensor_type, event_type, rsp->data[3], 0); } else if (rsp->data_len > 4) { - ipmi_sdr_print_discrete_state("Deassertion Events", + ipmi_sdr_print_discrete_state(intf, "Deassertion Events", sensor_type, event_type, rsp->data[3], rsp->data[4]); @@ -1081,22 +1055,23 @@ ipmi_sdr_print_sensor_event_status(struct ipmi_intf *intf, } static int -ipmi_sdr_print_sensor_mask(struct sdr_record_mask *mask, - uint8_t sensor_type, - uint8_t event_type, int numeric_fmt) +ipmi_sdr_print_sensor_mask(struct ipmi_intf *intf, + struct sdr_record_mask *mask, + uint8_t sensor_type, + uint8_t event_type, int numeric_fmt) { /* iceblink - don't print some event status fields - CVS rev1.53 */ return 0; switch (numeric_fmt) { case DISCRETE_SENSOR: - ipmi_sdr_print_discrete_state("Assert Event Mask", sensor_type, + ipmi_sdr_print_discrete_state(intf, "Assert Event Mask", sensor_type, event_type, mask->type.discrete. assert_event & 0xff, (mask->type.discrete. assert_event & 0xff00) >> 8); - ipmi_sdr_print_discrete_state("Deassert Event Mask", + ipmi_sdr_print_discrete_state(intf, "Deassert Event Mask", sensor_type, event_type, mask->type.discrete. deassert_event & 0xff, @@ -1224,21 +1199,21 @@ ipmi_sdr_print_sensor_event_enable(struct ipmi_intf *intf, case DISCRETE_SENSOR: /* discrete */ if (rsp->data_len == 2) { - ipmi_sdr_print_discrete_state("Assertions Enabled", + ipmi_sdr_print_discrete_state(intf, "Assertions Enabled", sensor_type, event_type, rsp->data[1], 0); } else if (rsp->data_len > 2) { - ipmi_sdr_print_discrete_state("Assertions Enabled", + ipmi_sdr_print_discrete_state(intf, "Assertions Enabled", sensor_type, event_type, rsp->data[1], rsp->data[2]); } if (rsp->data_len == 4) { - ipmi_sdr_print_discrete_state("Deassertions Enabled", + ipmi_sdr_print_discrete_state(intf, "Deassertions Enabled", sensor_type, event_type, rsp->data[3], 0); } else if (rsp->data_len > 4) { - ipmi_sdr_print_discrete_state("Deassertions Enabled", + ipmi_sdr_print_discrete_state(intf, "Deassertions Enabled", sensor_type, event_type, rsp->data[3], rsp->data[4]); @@ -1381,8 +1356,9 @@ print_sensor_min_max(struct sdr_record_full_sensor *full) * returns void */ static void -print_csv_discrete(struct sdr_record_common_sensor *sensor, - const struct sensor_reading *sr) +print_csv_discrete(struct ipmi_intf *intf, + struct sdr_record_common_sensor *sensor, + const struct sensor_reading *sr) { if (!sr->s_reading_valid || sr->s_reading_unavailable) { printf("%02Xh,ns,%d.%d,No Reading", @@ -1400,7 +1376,7 @@ print_csv_discrete(struct sdr_record_common_sensor *sensor, printf("ok,%d.%d,", sensor->entity.id, sensor->entity.instance); - ipmi_sdr_print_discrete_state_mini(NULL, ", ", + ipmi_sdr_print_discrete_state_mini(intf, NULL, ", ", sensor->sensor.type, sensor->event_type, sr->s_data2, @@ -1430,7 +1406,7 @@ ipmi_sdr_read_sensor_value(struct ipmi_intf *intf, memset(&sr, 0, sizeof(sr)); switch (sdr_record_type) { - int idlen; + unsigned int idlen; case (SDR_RECORD_TYPE_FULL_SENSOR): sr.full = (struct sdr_record_full_sensor *)sensor; idlen = sr.full->id_code & 0x1f; @@ -1542,7 +1518,7 @@ ipmi_sdr_print_sensor_fc(struct ipmi_intf *intf, uint8_t sdr_record_type) { char sval[16]; - int i = 0; + unsigned int i = 0; uint8_t target, lun, channel; struct sensor_reading *sr; @@ -1567,7 +1543,7 @@ ipmi_sdr_print_sensor_fc(struct ipmi_intf *intf, printf("%s,", sr->s_id); if (!IS_THRESHOLD_SENSOR(sensor)) { /* Discrete/Non-Threshold */ - print_csv_discrete(sensor, sr); + print_csv_discrete(intf, sensor, sr); printf("\n"); } else { @@ -1581,7 +1557,7 @@ ipmi_sdr_print_sensor_fc(struct ipmi_intf *intf, printf("%s,%s", sr->s_a_units, ipmi_sdr_get_thresh_status(sr, "ns")); } else { /* Discrete/Threshold */ - print_csv_discrete(sensor, sr); + print_csv_discrete(intf, sensor, sr); } } else { printf(",,ns"); @@ -1589,10 +1565,9 @@ ipmi_sdr_print_sensor_fc(struct ipmi_intf *intf, if (verbose) { printf(",%d.%d,%s,%s,", - sensor->entity.id, sensor->entity.instance, - val2str(sensor->entity.id, entity_id_vals), - ipmi_sdr_get_sensor_type_desc(sensor->sensor. - type)); + sensor->entity.id, sensor->entity.instance, + val2str(sensor->entity.id, entity_id_vals), + ipmi_get_sensor_type(intf, sensor->sensor.type)); if (sr->full) { SENSOR_PRINT_CSV(sr->full, sr->full->analog_flag.nominal_read, @@ -1712,7 +1687,7 @@ ipmi_sdr_print_sensor_fc(struct ipmi_intf *intf, printf("%s %s", sr->s_a_str, sr->s_a_units); header = ", "; } - ipmi_sdr_print_discrete_state_mini(header, ", ", + ipmi_sdr_print_discrete_state_mini(intf, header, ", ", sensor->sensor.type, sensor->event_type, sr->s_data2, @@ -1740,7 +1715,7 @@ ipmi_sdr_print_sensor_fc(struct ipmi_intf *intf, if (!IS_THRESHOLD_SENSOR(sensor)) { /* Discrete */ printf(" Sensor Type (Discrete): %s (0x%02x)\n", - ipmi_sdr_get_sensor_type_desc(sensor->sensor.type), + ipmi_get_sensor_type(intf, sensor->sensor.type), sensor->sensor.type); lprintf(LOG_DEBUG, " Event Type Code : 0x%02x", sensor->event_type); @@ -1776,12 +1751,12 @@ ipmi_sdr_print_sensor_fc(struct ipmi_intf *intf, break; } - ipmi_sdr_print_discrete_state("States Asserted", + ipmi_sdr_print_discrete_state(intf, "States Asserted", sensor->sensor.type, sensor->event_type, sr->s_data2, sr->s_data3); - ipmi_sdr_print_sensor_mask(&sensor->mask, sensor->sensor.type, + ipmi_sdr_print_sensor_mask(intf, &sensor->mask, sensor->sensor.type, sensor->event_type, DISCRETE_SENSOR); ipmi_sdr_print_sensor_event_status(intf, sensor->keys.sensor_num, @@ -1804,7 +1779,7 @@ ipmi_sdr_print_sensor_fc(struct ipmi_intf *intf, return 0; /* done */ } printf(" Sensor Type (Threshold) : %s (0x%02x)\n", - ipmi_sdr_get_sensor_type_desc(sensor->sensor.type), + ipmi_get_sensor_type(intf, sensor->sensor.type), sensor->sensor.type); printf(" Sensor Reading : "); @@ -1945,7 +1920,7 @@ ipmi_sdr_print_sensor_fc(struct ipmi_intf *intf, printf("\n"); } - ipmi_sdr_print_sensor_mask(&sensor->mask, + ipmi_sdr_print_sensor_mask(intf, &sensor->mask, sensor->sensor.type, sensor->event_type, ANALOG_SENSOR); ipmi_sdr_print_sensor_event_status(intf, @@ -1988,46 +1963,43 @@ get_offset(uint8_t x) * no meaningful return value */ void -ipmi_sdr_print_discrete_state_mini(const char *header, const char *separator, +ipmi_sdr_print_discrete_state_mini(struct ipmi_intf *intf, + const char *header, const char *separator, uint8_t sensor_type, uint8_t event_type, uint8_t state1, uint8_t state2) { - uint8_t typ; - struct ipmi_event_sensor_types *evt; + const struct ipmi_event_sensor_types *evt; int pre = 0, c = 0; if (state1 == 0 && (state2 & 0x7f) == 0) return; - if (event_type == 0x6f) { - evt = sensor_specific_types; - typ = sensor_type; - } else { - evt = generic_event_types; - typ = event_type; - } - if (header) printf("%s", header); - for (; evt->type != NULL; evt++) { - if ((evt->code != typ) || - (evt->data != 0xFF)) + for (evt = ipmi_get_first_event_sensor_type(intf, sensor_type, event_type); + evt != NULL; evt = ipmi_get_next_event_sensor_type(evt)) { + if (evt->data != 0xFF) { continue; + } if (evt->offset > 7) { if ((1 << (evt->offset - 8)) & (state2 & 0x7f)) { - if (pre++ != 0) + if (pre++ != 0) { printf("%s", separator); - if (evt->desc) + } + if (evt->desc) { printf("%s", evt->desc); + } } } else { if ((1 << evt->offset) & state1) { - if (pre++ != 0) + if (pre++ != 0) { printf("%s", separator); - if (evt->desc) + } + if (evt->desc) { printf("%s", evt->desc); + } } } c++; @@ -2045,32 +2017,24 @@ ipmi_sdr_print_discrete_state_mini(const char *header, const char *separator, * no meaningful return value */ void -ipmi_sdr_print_discrete_state(const char *desc, +ipmi_sdr_print_discrete_state(struct ipmi_intf *intf, const char *desc, uint8_t sensor_type, uint8_t event_type, uint8_t state1, uint8_t state2) { - uint8_t typ; - struct ipmi_event_sensor_types *evt; + const struct ipmi_event_sensor_types *evt; int pre = 0, c = 0; if (state1 == 0 && (state2 & 0x7f) == 0) return; - if (event_type == 0x6f) { - evt = sensor_specific_types; - typ = sensor_type; - } else { - evt = generic_event_types; - typ = event_type; - } - - for (; evt->type != NULL; evt++) { - if ((evt->code != typ) || - (evt->data != 0xFF)) + for (evt = ipmi_get_first_event_sensor_type(intf, sensor_type, event_type); + evt != NULL; evt = ipmi_get_next_event_sensor_type(evt)) { + if (evt->data != 0xFF) { continue; + } if (pre == 0) { - printf(" %-21s : %s\n", desc, evt->type); + printf(" %-21s : %s\n", desc, ipmi_get_sensor_type(intf, sensor_type)); pre = 1; } @@ -2129,7 +2093,7 @@ ipmi_sdr_print_sensor_eventonly(struct ipmi_intf *intf, sensor->entity.id, sensor->entity.instance, val2str(sensor->entity.id, entity_id_vals)); printf("Sensor Type : %s (0x%02x)\n", - ipmi_sdr_get_sensor_type_desc(sensor->sensor_type), + ipmi_get_sensor_type(intf, sensor->sensor_type), sensor->sensor_type); lprintf(LOG_DEBUG, "Event Type Code : 0x%02x", sensor->event_type); @@ -2509,8 +2473,8 @@ ipmi_sdr_print_sensor_oem(struct ipmi_intf *intf, struct sdr_record_oem *oem) * returns -1 on error */ int -ipmi_sdr_print_name_from_rawentry(struct ipmi_intf *intf,uint16_t id, - uint8_t type,uint8_t * raw) +ipmi_sdr_print_name_from_rawentry(struct ipmi_intf *intf, uint16_t id, + uint8_t type, uint8_t *raw) { union { struct sdr_record_full_sensor *full; |