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1022 1023 1024 1025 1026 1027 1028 1029 1030 1031 1032 1033 1034 1035 1036 1037 1038 1039 1040 1041 1042 1043 1044 1045 1046 1047 1048 1049 1050 1051 1052 1053 1054 1055 1056 1057 1058 1059 1060 1061 1062 1063 1064 1065 1066 1067 1068 1069 1070 1071 1072 1073 1074 1075 1076 1077 1078 1079 1080 1081 1082 1083 1084 1085 1086 1087 1088 1089 1090 1091 1092 1093 1094 1095 1096 1097 1098 1099 1100 1101 1102 1103 1104 1105 1106 1107 1108 1109 1110 1111 1112 1113 1114 1115 1116 1117 1118 1119 1120 1121 1122 1123 1124 1125 1126 1127 1128 1129 1130 1131 1132 1133 1134 1135 1136 1137 1138 1139 1140 1141 1142 1143 1144 1145 1146 1147 1148 1149 1150 1151 1152 1153 1154 1155 1156 1157 1158 1159 1160 1161 1162 1163 1164 1165 1166 1167 1168 1169 1170 1171 1172 1173 1174 1175 1176 1177 1178 1179 1180 1181 1182 1183 1184 1185 1186 1187 1188 1189 1190 1191 1192 1193 | // SPDX-License-Identifier: GPL-2.0+ // Copyright IBM Corp 2019 #include <linux/device.h> #include <linux/export.h> #include <linux/hwmon.h> #include <linux/hwmon-sysfs.h> #include <linux/jiffies.h> #include <linux/kernel.h> #include <linux/math64.h> #include <linux/module.h> #include <linux/mutex.h> #include <linux/sysfs.h> #include <asm/unaligned.h> #include "common.h" #define EXTN_FLAG_SENSOR_ID BIT(7) #define OCC_ERROR_COUNT_THRESHOLD 2 /* required by OCC spec */ #define OCC_STATE_SAFE 4 #define OCC_SAFE_TIMEOUT msecs_to_jiffies(60000) /* 1 min */ #define OCC_UPDATE_FREQUENCY msecs_to_jiffies(1000) #define OCC_TEMP_SENSOR_FAULT 0xFF #define OCC_FRU_TYPE_VRM 3 /* OCC sensor type and version definitions */ struct temp_sensor_1 { u16 sensor_id; u16 value; } __packed; struct temp_sensor_2 { u32 sensor_id; u8 fru_type; u8 value; } __packed; struct temp_sensor_10 { u32 sensor_id; u8 fru_type; u8 value; u8 throttle; u8 reserved; } __packed; struct freq_sensor_1 { u16 sensor_id; u16 value; } __packed; struct freq_sensor_2 { u32 sensor_id; u16 value; } __packed; struct power_sensor_1 { u16 sensor_id; u32 update_tag; u32 accumulator; u16 value; } __packed; struct power_sensor_2 { u32 sensor_id; u8 function_id; u8 apss_channel; u16 reserved; u32 update_tag; u64 accumulator; u16 value; } __packed; struct power_sensor_data { u16 value; u32 update_tag; u64 accumulator; } __packed; struct power_sensor_data_and_time { u16 update_time; u16 value; u32 update_tag; u64 accumulator; } __packed; struct power_sensor_a0 { u32 sensor_id; struct power_sensor_data_and_time system; u32 reserved; struct power_sensor_data_and_time proc; struct power_sensor_data vdd; struct power_sensor_data vdn; } __packed; struct caps_sensor_2 { u16 cap; u16 system_power; u16 n_cap; u16 max; u16 min; u16 user; u8 user_source; } __packed; struct caps_sensor_3 { u16 cap; u16 system_power; u16 n_cap; u16 max; u16 hard_min; u16 soft_min; u16 user; u8 user_source; } __packed; struct extended_sensor { union { u8 name[4]; u32 sensor_id; }; u8 flags; u8 reserved; u8 data[6]; } __packed; static int occ_poll(struct occ *occ) { int rc; u16 checksum = occ->poll_cmd_data + occ->seq_no + 1; u8 cmd[8]; struct occ_poll_response_header *header; /* big endian */ cmd[0] = occ->seq_no++; /* sequence number */ cmd[1] = 0; /* cmd type */ cmd[2] = 0; /* data length msb */ cmd[3] = 1; /* data length lsb */ cmd[4] = occ->poll_cmd_data; /* data */ cmd[5] = checksum >> 8; /* checksum msb */ cmd[6] = checksum & 0xFF; /* checksum lsb */ cmd[7] = 0; /* mutex should already be locked if necessary */ rc = occ->send_cmd(occ, cmd); if (rc) { occ->last_error = rc; if (occ->error_count++ > OCC_ERROR_COUNT_THRESHOLD) occ->error = rc; goto done; } /* clear error since communication was successful */ occ->error_count = 0; occ->last_error = 0; occ->error = 0; /* check for safe state */ header = (struct occ_poll_response_header *)occ->resp.data; if (header->occ_state == OCC_STATE_SAFE) { if (occ->last_safe) { if (time_after(jiffies, occ->last_safe + OCC_SAFE_TIMEOUT)) occ->error = -EHOSTDOWN; } else { occ->last_safe = jiffies; } } else { occ->last_safe = 0; } done: occ_sysfs_poll_done(occ); return rc; } static int occ_set_user_power_cap(struct occ *occ, u16 user_power_cap) { int rc; u8 cmd[8]; u16 checksum = 0x24; __be16 user_power_cap_be = cpu_to_be16(user_power_cap); cmd[0] = 0; cmd[1] = 0x22; cmd[2] = 0; cmd[3] = 2; memcpy(&cmd[4], &user_power_cap_be, 2); checksum += cmd[4] + cmd[5]; cmd[6] = checksum >> 8; cmd[7] = checksum & 0xFF; rc = mutex_lock_interruptible(&occ->lock); if (rc) return rc; rc = occ->send_cmd(occ, cmd); mutex_unlock(&occ->lock); return rc; } int occ_update_response(struct occ *occ) { int rc = mutex_lock_interruptible(&occ->lock); if (rc) return rc; /* limit the maximum rate of polling the OCC */ if (time_after(jiffies, occ->next_update)) { rc = occ_poll(occ); occ->next_update = jiffies + OCC_UPDATE_FREQUENCY; } else { rc = occ->last_error; } mutex_unlock(&occ->lock); return rc; } static ssize_t occ_show_temp_1(struct device *dev, struct device_attribute *attr, char *buf) { int rc; u32 val = 0; struct temp_sensor_1 *temp; struct occ *occ = dev_get_drvdata(dev); struct occ_sensors *sensors = &occ->sensors; struct sensor_device_attribute_2 *sattr = to_sensor_dev_attr_2(attr); rc = occ_update_response(occ); if (rc) return rc; temp = ((struct temp_sensor_1 *)sensors->temp.data) + sattr->index; switch (sattr->nr) { case 0: val = get_unaligned_be16(&temp->sensor_id); break; case 1: /* * If a sensor reading has expired and couldn't be refreshed, * OCC returns 0xFFFF for that sensor. */ if (temp->value == 0xFFFF) return -EREMOTEIO; val = get_unaligned_be16(&temp->value) * 1000; break; default: return -EINVAL; } return sysfs_emit(buf, "%u\n", val); } static ssize_t occ_show_temp_2(struct device *dev, struct device_attribute *attr, char *buf) { int rc; u32 val = 0; struct temp_sensor_2 *temp; struct occ *occ = dev_get_drvdata(dev); struct occ_sensors *sensors = &occ->sensors; struct sensor_device_attribute_2 *sattr = to_sensor_dev_attr_2(attr); rc = occ_update_response(occ); if (rc) return rc; temp = ((struct temp_sensor_2 *)sensors->temp.data) + sattr->index; switch (sattr->nr) { case 0: val = get_unaligned_be32(&temp->sensor_id); break; case 1: val = temp->value; if (val == OCC_TEMP_SENSOR_FAULT) return -EREMOTEIO; /* * VRM doesn't return temperature, only alarm bit. This * attribute maps to tempX_alarm instead of tempX_input for * VRM */ if (temp->fru_type != OCC_FRU_TYPE_VRM) { /* sensor not ready */ if (val == 0) return -EAGAIN; val *= 1000; } break; case 2: val = temp->fru_type; break; case 3: val = temp->value == OCC_TEMP_SENSOR_FAULT; break; default: return -EINVAL; } return sysfs_emit(buf, "%u\n", val); } static ssize_t occ_show_temp_10(struct device *dev, struct device_attribute *attr, char *buf) { int rc; u32 val = 0; struct temp_sensor_10 *temp; struct occ *occ = dev_get_drvdata(dev); struct occ_sensors *sensors = &occ->sensors; struct sensor_device_attribute_2 *sattr = to_sensor_dev_attr_2(attr); rc = occ_update_response(occ); if (rc) return rc; temp = ((struct temp_sensor_10 *)sensors->temp.data) + sattr->index; switch (sattr->nr) { case 0: val = get_unaligned_be32(&temp->sensor_id); break; case 1: val = temp->value; if (val == OCC_TEMP_SENSOR_FAULT) return -EREMOTEIO; /* sensor not ready */ if (val == 0) return -EAGAIN; val *= 1000; break; case 2: val = temp->fru_type; break; case 3: val = temp->value == OCC_TEMP_SENSOR_FAULT; break; case 4: val = temp->throttle * 1000; break; default: return -EINVAL; } return sysfs_emit(buf, "%u\n", val); } static ssize_t occ_show_freq_1(struct device *dev, struct device_attribute *attr, char *buf) { int rc; u16 val = 0; struct freq_sensor_1 *freq; struct occ *occ = dev_get_drvdata(dev); struct occ_sensors *sensors = &occ->sensors; struct sensor_device_attribute_2 *sattr = to_sensor_dev_attr_2(attr); rc = occ_update_response(occ); if (rc) return rc; freq = ((struct freq_sensor_1 *)sensors->freq.data) + sattr->index; switch (sattr->nr) { case 0: val = get_unaligned_be16(&freq->sensor_id); break; case 1: val = get_unaligned_be16(&freq->value); break; default: return -EINVAL; } return sysfs_emit(buf, "%u\n", val); } static ssize_t occ_show_freq_2(struct device *dev, struct device_attribute *attr, char *buf) { int rc; u32 val = 0; struct freq_sensor_2 *freq; struct occ *occ = dev_get_drvdata(dev); struct occ_sensors *sensors = &occ->sensors; struct sensor_device_attribute_2 *sattr = to_sensor_dev_attr_2(attr); rc = occ_update_response(occ); if (rc) return rc; freq = ((struct freq_sensor_2 *)sensors->freq.data) + sattr->index; switch (sattr->nr) { case 0: val = get_unaligned_be32(&freq->sensor_id); break; case 1: val = get_unaligned_be16(&freq->value); break; default: return -EINVAL; } return sysfs_emit(buf, "%u\n", val); } static ssize_t occ_show_power_1(struct device *dev, struct device_attribute *attr, char *buf) { int rc; u64 val = 0; struct power_sensor_1 *power; struct occ *occ = dev_get_drvdata(dev); struct occ_sensors *sensors = &occ->sensors; struct sensor_device_attribute_2 *sattr = to_sensor_dev_attr_2(attr); rc = occ_update_response(occ); if (rc) return rc; power = ((struct power_sensor_1 *)sensors->power.data) + sattr->index; switch (sattr->nr) { case 0: val = get_unaligned_be16(&power->sensor_id); break; case 1: val = get_unaligned_be32(&power->accumulator) / get_unaligned_be32(&power->update_tag); val *= 1000000ULL; break; case 2: val = (u64)get_unaligned_be32(&power->update_tag) * occ->powr_sample_time_us; break; case 3: val = get_unaligned_be16(&power->value) * 1000000ULL; break; default: return -EINVAL; } return sysfs_emit(buf, "%llu\n", val); } static u64 occ_get_powr_avg(u64 *accum, u32 *samples) { u64 divisor = get_unaligned_be32(samples); return (divisor == 0) ? 0 : div64_u64(get_unaligned_be64(accum) * 1000000ULL, divisor); } static ssize_t occ_show_power_2(struct device *dev, struct device_attribute *attr, char *buf) { int rc; u64 val = 0; struct power_sensor_2 *power; struct occ *occ = dev_get_drvdata(dev); struct occ_sensors *sensors = &occ->sensors; struct sensor_device_attribute_2 *sattr = to_sensor_dev_attr_2(attr); rc = occ_update_response(occ); if (rc) return rc; power = ((struct power_sensor_2 *)sensors->power.data) + sattr->index; switch (sattr->nr) { case 0: return sysfs_emit(buf, "%u_%u_%u\n", get_unaligned_be32(&power->sensor_id), power->function_id, power->apss_channel); case 1: val = occ_get_powr_avg(&power->accumulator, &power->update_tag); break; case 2: val = (u64)get_unaligned_be32(&power->update_tag) * occ->powr_sample_time_us; break; case 3: val = get_unaligned_be16(&power->value) * 1000000ULL; break; default: return -EINVAL; } return sysfs_emit(buf, "%llu\n", val); } static ssize_t occ_show_power_a0(struct device *dev, struct device_attribute *attr, char *buf) { int rc; u64 val = 0; struct power_sensor_a0 *power; struct occ *occ = dev_get_drvdata(dev); struct occ_sensors *sensors = &occ->sensors; struct sensor_device_attribute_2 *sattr = to_sensor_dev_attr_2(attr); rc = occ_update_response(occ); if (rc) return rc; power = ((struct power_sensor_a0 *)sensors->power.data) + sattr->index; switch (sattr->nr) { case 0: return sysfs_emit(buf, "%u_system\n", get_unaligned_be32(&power->sensor_id)); case 1: val = occ_get_powr_avg(&power->system.accumulator, &power->system.update_tag); break; case 2: val = (u64)get_unaligned_be32(&power->system.update_tag) * occ->powr_sample_time_us; break; case 3: val = get_unaligned_be16(&power->system.value) * 1000000ULL; break; case 4: return sysfs_emit(buf, "%u_proc\n", get_unaligned_be32(&power->sensor_id)); case 5: val = occ_get_powr_avg(&power->proc.accumulator, &power->proc.update_tag); break; case 6: val = (u64)get_unaligned_be32(&power->proc.update_tag) * occ->powr_sample_time_us; break; case 7: val = get_unaligned_be16(&power->proc.value) * 1000000ULL; break; case 8: return sysfs_emit(buf, "%u_vdd\n", get_unaligned_be32(&power->sensor_id)); case 9: val = occ_get_powr_avg(&power->vdd.accumulator, &power->vdd.update_tag); break; case 10: val = (u64)get_unaligned_be32(&power->vdd.update_tag) * occ->powr_sample_time_us; break; case 11: val = get_unaligned_be16(&power->vdd.value) * 1000000ULL; break; case 12: return sysfs_emit(buf, "%u_vdn\n", get_unaligned_be32(&power->sensor_id)); case 13: val = occ_get_powr_avg(&power->vdn.accumulator, &power->vdn.update_tag); break; case 14: val = (u64)get_unaligned_be32(&power->vdn.update_tag) * occ->powr_sample_time_us; break; case 15: val = get_unaligned_be16(&power->vdn.value) * 1000000ULL; break; default: return -EINVAL; } return sysfs_emit(buf, "%llu\n", val); } static ssize_t occ_show_caps_1_2(struct device *dev, struct device_attribute *attr, char *buf) { int rc; u64 val = 0; struct caps_sensor_2 *caps; struct occ *occ = dev_get_drvdata(dev); struct occ_sensors *sensors = &occ->sensors; struct sensor_device_attribute_2 *sattr = to_sensor_dev_attr_2(attr); rc = occ_update_response(occ); if (rc) return rc; caps = ((struct caps_sensor_2 *)sensors->caps.data) + sattr->index; switch (sattr->nr) { case 0: return sysfs_emit(buf, "system\n"); case 1: val = get_unaligned_be16(&caps->cap) * 1000000ULL; break; case 2: val = get_unaligned_be16(&caps->system_power) * 1000000ULL; break; case 3: val = get_unaligned_be16(&caps->n_cap) * 1000000ULL; break; case 4: val = get_unaligned_be16(&caps->max) * 1000000ULL; break; case 5: val = get_unaligned_be16(&caps->min) * 1000000ULL; break; case 6: val = get_unaligned_be16(&caps->user) * 1000000ULL; break; case 7: if (occ->sensors.caps.version == 1) return -EINVAL; val = caps->user_source; break; default: return -EINVAL; } return sysfs_emit(buf, "%llu\n", val); } static ssize_t occ_show_caps_3(struct device *dev, struct device_attribute *attr, char *buf) { int rc; u64 val = 0; struct caps_sensor_3 *caps; struct occ *occ = dev_get_drvdata(dev); struct occ_sensors *sensors = &occ->sensors; struct sensor_device_attribute_2 *sattr = to_sensor_dev_attr_2(attr); rc = occ_update_response(occ); if (rc) return rc; caps = ((struct caps_sensor_3 *)sensors->caps.data) + sattr->index; switch (sattr->nr) { case 0: return sysfs_emit(buf, "system\n"); case 1: val = get_unaligned_be16(&caps->cap) * 1000000ULL; break; case 2: val = get_unaligned_be16(&caps->system_power) * 1000000ULL; break; case 3: val = get_unaligned_be16(&caps->n_cap) * 1000000ULL; break; case 4: val = get_unaligned_be16(&caps->max) * 1000000ULL; break; case 5: val = get_unaligned_be16(&caps->hard_min) * 1000000ULL; break; case 6: val = get_unaligned_be16(&caps->user) * 1000000ULL; break; case 7: val = caps->user_source; break; default: return -EINVAL; } return sysfs_emit(buf, "%llu\n", val); } static ssize_t occ_store_caps_user(struct device *dev, struct device_attribute *attr, const char *buf, size_t count) { int rc; u16 user_power_cap; unsigned long long value; struct occ *occ = dev_get_drvdata(dev); rc = kstrtoull(buf, 0, &value); if (rc) return rc; user_power_cap = div64_u64(value, 1000000ULL); /* microwatt to watt */ rc = occ_set_user_power_cap(occ, user_power_cap); if (rc) return rc; return count; } static ssize_t occ_show_extended(struct device *dev, struct device_attribute *attr, char *buf) { int rc; struct extended_sensor *extn; struct occ *occ = dev_get_drvdata(dev); struct occ_sensors *sensors = &occ->sensors; struct sensor_device_attribute_2 *sattr = to_sensor_dev_attr_2(attr); rc = occ_update_response(occ); if (rc) return rc; extn = ((struct extended_sensor *)sensors->extended.data) + sattr->index; switch (sattr->nr) { case 0: if (extn->flags & EXTN_FLAG_SENSOR_ID) { rc = sysfs_emit(buf, "%u", get_unaligned_be32(&extn->sensor_id)); } else { rc = sysfs_emit(buf, "%02x%02x%02x%02x\n", extn->name[0], extn->name[1], extn->name[2], extn->name[3]); } break; case 1: rc = sysfs_emit(buf, "%02x\n", extn->flags); break; case 2: rc = sysfs_emit(buf, "%02x%02x%02x%02x%02x%02x\n", extn->data[0], extn->data[1], extn->data[2], extn->data[3], extn->data[4], extn->data[5]); break; default: return -EINVAL; } return rc; } /* * Some helper macros to make it easier to define an occ_attribute. Since these * are dynamically allocated, we shouldn't use the existing kernel macros which * stringify the name argument. */ #define ATTR_OCC(_name, _mode, _show, _store) { \ .attr = { \ .name = _name, \ .mode = VERIFY_OCTAL_PERMISSIONS(_mode), \ }, \ .show = _show, \ .store = _store, \ } #define SENSOR_ATTR_OCC(_name, _mode, _show, _store, _nr, _index) { \ .dev_attr = ATTR_OCC(_name, _mode, _show, _store), \ .index = _index, \ .nr = _nr, \ } #define OCC_INIT_ATTR(_name, _mode, _show, _store, _nr, _index) \ ((struct sensor_device_attribute_2) \ SENSOR_ATTR_OCC(_name, _mode, _show, _store, _nr, _index)) /* * Allocate and instatiate sensor_device_attribute_2s. It's most efficient to * use our own instead of the built-in hwmon attribute types. */ static int occ_setup_sensor_attrs(struct occ *occ) { unsigned int i, s, num_attrs = 0; struct device *dev = occ->bus_dev; struct occ_sensors *sensors = &occ->sensors; struct occ_attribute *attr; struct temp_sensor_2 *temp; ssize_t (*show_temp)(struct device *, struct device_attribute *, char *) = occ_show_temp_1; ssize_t (*show_freq)(struct device *, struct device_attribute *, char *) = occ_show_freq_1; ssize_t (*show_power)(struct device *, struct device_attribute *, char *) = occ_show_power_1; ssize_t (*show_caps)(struct device *, struct device_attribute *, char *) = occ_show_caps_1_2; switch (sensors->temp.version) { case 1: num_attrs += (sensors->temp.num_sensors * 2); break; case 2: num_attrs += (sensors->temp.num_sensors * 4); show_temp = occ_show_temp_2; break; case 0x10: num_attrs += (sensors->temp.num_sensors * 5); show_temp = occ_show_temp_10; break; default: sensors->temp.num_sensors = 0; } switch (sensors->freq.version) { case 2: show_freq = occ_show_freq_2; fallthrough; case 1: num_attrs += (sensors->freq.num_sensors * 2); break; default: sensors->freq.num_sensors = 0; } switch (sensors->power.version) { case 2: show_power = occ_show_power_2; fallthrough; case 1: num_attrs += (sensors->power.num_sensors * 4); break; case 0xA0: num_attrs += (sensors->power.num_sensors * 16); show_power = occ_show_power_a0; break; default: sensors->power.num_sensors = 0; } switch (sensors->caps.version) { case 1: num_attrs += (sensors->caps.num_sensors * 7); break; case 3: show_caps = occ_show_caps_3; fallthrough; case 2: num_attrs += (sensors->caps.num_sensors * 8); break; default: sensors->caps.num_sensors = 0; } switch (sensors->extended.version) { case 1: num_attrs += (sensors->extended.num_sensors * 3); break; default: sensors->extended.num_sensors = 0; } occ->attrs = devm_kzalloc(dev, sizeof(*occ->attrs) * num_attrs, GFP_KERNEL); if (!occ->attrs) return -ENOMEM; /* null-terminated list */ occ->group.attrs = devm_kzalloc(dev, sizeof(*occ->group.attrs) * num_attrs + 1, GFP_KERNEL); if (!occ->group.attrs) return -ENOMEM; attr = occ->attrs; for (i = 0; i < sensors->temp.num_sensors; ++i) { s = i + 1; temp = ((struct temp_sensor_2 *)sensors->temp.data) + i; snprintf(attr->name, sizeof(attr->name), "temp%d_label", s); attr->sensor = OCC_INIT_ATTR(attr->name, 0444, show_temp, NULL, 0, i); attr++; if (sensors->temp.version == 2 && temp->fru_type == OCC_FRU_TYPE_VRM) { snprintf(attr->name, sizeof(attr->name), "temp%d_alarm", s); } else { snprintf(attr->name, sizeof(attr->name), "temp%d_input", s); } attr->sensor = OCC_INIT_ATTR(attr->name, 0444, show_temp, NULL, 1, i); attr++; if (sensors->temp.version > 1) { snprintf(attr->name, sizeof(attr->name), "temp%d_fru_type", s); attr->sensor = OCC_INIT_ATTR(attr->name, 0444, show_temp, NULL, 2, i); attr++; snprintf(attr->name, sizeof(attr->name), "temp%d_fault", s); attr->sensor = OCC_INIT_ATTR(attr->name, 0444, show_temp, NULL, 3, i); attr++; if (sensors->temp.version == 0x10) { snprintf(attr->name, sizeof(attr->name), "temp%d_max", s); attr->sensor = OCC_INIT_ATTR(attr->name, 0444, show_temp, NULL, 4, i); attr++; } } } for (i = 0; i < sensors->freq.num_sensors; ++i) { s = i + 1; snprintf(attr->name, sizeof(attr->name), "freq%d_label", s); attr->sensor = OCC_INIT_ATTR(attr->name, 0444, show_freq, NULL, 0, i); attr++; snprintf(attr->name, sizeof(attr->name), "freq%d_input", s); attr->sensor = OCC_INIT_ATTR(attr->name, 0444, show_freq, NULL, 1, i); attr++; } if (sensors->power.version == 0xA0) { /* * Special case for many-attribute power sensor. Split it into * a sensor number per power type, emulating several sensors. */ for (i = 0; i < sensors->power.num_sensors; ++i) { unsigned int j; unsigned int nr = 0; s = (i * 4) + 1; for (j = 0; j < 4; ++j) { snprintf(attr->name, sizeof(attr->name), "power%d_label", s); attr->sensor = OCC_INIT_ATTR(attr->name, 0444, show_power, NULL, nr++, i); attr++; snprintf(attr->name, sizeof(attr->name), "power%d_average", s); attr->sensor = OCC_INIT_ATTR(attr->name, 0444, show_power, NULL, nr++, i); attr++; snprintf(attr->name, sizeof(attr->name), "power%d_average_interval", s); attr->sensor = OCC_INIT_ATTR(attr->name, 0444, show_power, NULL, nr++, i); attr++; snprintf(attr->name, sizeof(attr->name), "power%d_input", s); attr->sensor = OCC_INIT_ATTR(attr->name, 0444, show_power, NULL, nr++, i); attr++; s++; } } s = (sensors->power.num_sensors * 4) + 1; } else { for (i = 0; i < sensors->power.num_sensors; ++i) { s = i + 1; snprintf(attr->name, sizeof(attr->name), "power%d_label", s); attr->sensor = OCC_INIT_ATTR(attr->name, 0444, show_power, NULL, 0, i); attr++; snprintf(attr->name, sizeof(attr->name), "power%d_average", s); attr->sensor = OCC_INIT_ATTR(attr->name, 0444, show_power, NULL, 1, i); attr++; snprintf(attr->name, sizeof(attr->name), "power%d_average_interval", s); attr->sensor = OCC_INIT_ATTR(attr->name, 0444, show_power, NULL, 2, i); attr++; snprintf(attr->name, sizeof(attr->name), "power%d_input", s); attr->sensor = OCC_INIT_ATTR(attr->name, 0444, show_power, NULL, 3, i); attr++; } s = sensors->power.num_sensors + 1; } if (sensors->caps.num_sensors >= 1) { snprintf(attr->name, sizeof(attr->name), "power%d_label", s); attr->sensor = OCC_INIT_ATTR(attr->name, 0444, show_caps, NULL, 0, 0); attr++; snprintf(attr->name, sizeof(attr->name), "power%d_cap", s); attr->sensor = OCC_INIT_ATTR(attr->name, 0444, show_caps, NULL, 1, 0); attr++; snprintf(attr->name, sizeof(attr->name), "power%d_input", s); attr->sensor = OCC_INIT_ATTR(attr->name, 0444, show_caps, NULL, 2, 0); attr++; snprintf(attr->name, sizeof(attr->name), "power%d_cap_not_redundant", s); attr->sensor = OCC_INIT_ATTR(attr->name, 0444, show_caps, NULL, 3, 0); attr++; snprintf(attr->name, sizeof(attr->name), "power%d_cap_max", s); attr->sensor = OCC_INIT_ATTR(attr->name, 0444, show_caps, NULL, 4, 0); attr++; snprintf(attr->name, sizeof(attr->name), "power%d_cap_min", s); attr->sensor = OCC_INIT_ATTR(attr->name, 0444, show_caps, NULL, 5, 0); attr++; snprintf(attr->name, sizeof(attr->name), "power%d_cap_user", s); attr->sensor = OCC_INIT_ATTR(attr->name, 0644, show_caps, occ_store_caps_user, 6, 0); attr++; if (sensors->caps.version > 1) { snprintf(attr->name, sizeof(attr->name), "power%d_cap_user_source", s); attr->sensor = OCC_INIT_ATTR(attr->name, 0444, show_caps, NULL, 7, 0); attr++; } } for (i = 0; i < sensors->extended.num_sensors; ++i) { s = i + 1; snprintf(attr->name, sizeof(attr->name), "extn%d_label", s); attr->sensor = OCC_INIT_ATTR(attr->name, 0444, occ_show_extended, NULL, 0, i); attr++; snprintf(attr->name, sizeof(attr->name), "extn%d_flags", s); attr->sensor = OCC_INIT_ATTR(attr->name, 0444, occ_show_extended, NULL, 1, i); attr++; snprintf(attr->name, sizeof(attr->name), "extn%d_input", s); attr->sensor = OCC_INIT_ATTR(attr->name, 0444, occ_show_extended, NULL, 2, i); attr++; } /* put the sensors in the group */ for (i = 0; i < num_attrs; ++i) { sysfs_attr_init(&occ->attrs[i].sensor.dev_attr.attr); occ->group.attrs[i] = &occ->attrs[i].sensor.dev_attr.attr; } return 0; } /* only need to do this once at startup, as OCC won't change sensors on us */ static void occ_parse_poll_response(struct occ *occ) { unsigned int i, old_offset, offset = 0, size = 0; struct occ_sensor *sensor; struct occ_sensors *sensors = &occ->sensors; struct occ_response *resp = &occ->resp; struct occ_poll_response *poll = (struct occ_poll_response *)&resp->data[0]; struct occ_poll_response_header *header = &poll->header; struct occ_sensor_data_block *block = &poll->block; dev_info(occ->bus_dev, "OCC found, code level: %.16s\n", header->occ_code_level); for (i = 0; i < header->num_sensor_data_blocks; ++i) { block = (struct occ_sensor_data_block *)((u8 *)block + offset); old_offset = offset; offset = (block->header.num_sensors * block->header.sensor_length) + sizeof(block->header); size += offset; /* validate all the length/size fields */ if ((size + sizeof(*header)) >= OCC_RESP_DATA_BYTES) { dev_warn(occ->bus_dev, "exceeded response buffer\n"); return; } dev_dbg(occ->bus_dev, " %04x..%04x: %.4s (%d sensors)\n", old_offset, offset - 1, block->header.eye_catcher, block->header.num_sensors); /* match sensor block type */ if (strncmp(block->header.eye_catcher, "TEMP", 4) == 0) sensor = &sensors->temp; else if (strncmp(block->header.eye_catcher, "FREQ", 4) == 0) sensor = &sensors->freq; else if (strncmp(block->header.eye_catcher, "POWR", 4) == 0) sensor = &sensors->power; else if (strncmp(block->header.eye_catcher, "CAPS", 4) == 0) sensor = &sensors->caps; else if (strncmp(block->header.eye_catcher, "EXTN", 4) == 0) sensor = &sensors->extended; else { dev_warn(occ->bus_dev, "sensor not supported %.4s\n", block->header.eye_catcher); continue; } sensor->num_sensors = block->header.num_sensors; sensor->version = block->header.sensor_format; sensor->data = &block->data; } dev_dbg(occ->bus_dev, "Max resp size: %u+%zd=%zd\n", size, sizeof(*header), size + sizeof(*header)); } int occ_setup(struct occ *occ, const char *name) { int rc; /* start with 1 to avoid false match with zero-initialized SRAM buffer */ occ->seq_no = 1; mutex_init(&occ->lock); occ->groups[0] = &occ->group; /* no need to lock */ rc = occ_poll(occ); if (rc == -ESHUTDOWN) { dev_info(occ->bus_dev, "host is not ready\n"); return rc; } else if (rc < 0) { dev_err(occ->bus_dev, "failed to get OCC poll response=%02x: %d\n", occ->resp.return_status, rc); return rc; } occ->next_update = jiffies + OCC_UPDATE_FREQUENCY; occ_parse_poll_response(occ); rc = occ_setup_sensor_attrs(occ); if (rc) { dev_err(occ->bus_dev, "failed to setup sensor attrs: %d\n", rc); return rc; } occ->hwmon = devm_hwmon_device_register_with_groups(occ->bus_dev, name, occ, occ->groups); if (IS_ERR(occ->hwmon)) { rc = PTR_ERR(occ->hwmon); dev_err(occ->bus_dev, "failed to register hwmon device: %d\n", rc); return rc; } rc = occ_setup_sysfs(occ); if (rc) dev_err(occ->bus_dev, "failed to setup sysfs: %d\n", rc); return rc; } EXPORT_SYMBOL_GPL(occ_setup); MODULE_AUTHOR("Eddie James <eajames@linux.ibm.com>"); MODULE_DESCRIPTION("Common OCC hwmon code"); MODULE_LICENSE("GPL"); |