diff options
Diffstat (limited to 'drivers/raw/ifpga_rawdev/base/ifpga_fme.c')
-rw-r--r-- | drivers/raw/ifpga_rawdev/base/ifpga_fme.c | 734 |
1 files changed, 734 insertions, 0 deletions
diff --git a/drivers/raw/ifpga_rawdev/base/ifpga_fme.c b/drivers/raw/ifpga_rawdev/base/ifpga_fme.c new file mode 100644 index 00000000..4be60c0c --- /dev/null +++ b/drivers/raw/ifpga_rawdev/base/ifpga_fme.c @@ -0,0 +1,734 @@ +/* SPDX-License-Identifier: BSD-3-Clause + * Copyright(c) 2010-2018 Intel Corporation + */ + +#include "ifpga_feature_dev.h" + +#define PWR_THRESHOLD_MAX 0x7F + +int fme_get_prop(struct ifpga_fme_hw *fme, struct feature_prop *prop) +{ + struct feature *feature; + + if (!fme) + return -ENOENT; + + feature = get_fme_feature_by_id(fme, prop->feature_id); + + if (feature && feature->ops && feature->ops->get_prop) + return feature->ops->get_prop(feature, prop); + + return -ENOENT; +} + +int fme_set_prop(struct ifpga_fme_hw *fme, struct feature_prop *prop) +{ + struct feature *feature; + + if (!fme) + return -ENOENT; + + feature = get_fme_feature_by_id(fme, prop->feature_id); + + if (feature && feature->ops && feature->ops->set_prop) + return feature->ops->set_prop(feature, prop); + + return -ENOENT; +} + +int fme_set_irq(struct ifpga_fme_hw *fme, u32 feature_id, void *irq_set) +{ + struct feature *feature; + + if (!fme) + return -ENOENT; + + feature = get_fme_feature_by_id(fme, feature_id); + + if (feature && feature->ops && feature->ops->set_irq) + return feature->ops->set_irq(feature, irq_set); + + return -ENOENT; +} + +/* fme private feature head */ +static int fme_hdr_init(struct feature *feature) +{ + struct feature_fme_header *fme_hdr; + + fme_hdr = (struct feature_fme_header *)feature->addr; + + dev_info(NULL, "FME HDR Init.\n"); + dev_info(NULL, "FME cap %llx.\n", + (unsigned long long)fme_hdr->capability.csr); + + return 0; +} + +static void fme_hdr_uinit(struct feature *feature) +{ + UNUSED(feature); + + dev_info(NULL, "FME HDR UInit.\n"); +} + +static int fme_hdr_get_revision(struct ifpga_fme_hw *fme, u64 *revision) +{ + struct feature_fme_header *fme_hdr + = get_fme_feature_ioaddr_by_index(fme, FME_FEATURE_ID_HEADER); + struct feature_header header; + + header.csr = readq(&fme_hdr->header); + *revision = header.revision; + + return 0; +} + +static int fme_hdr_get_ports_num(struct ifpga_fme_hw *fme, u64 *ports_num) +{ + struct feature_fme_header *fme_hdr + = get_fme_feature_ioaddr_by_index(fme, FME_FEATURE_ID_HEADER); + struct feature_fme_capability fme_capability; + + fme_capability.csr = readq(&fme_hdr->capability); + *ports_num = fme_capability.num_ports; + + return 0; +} + +static int fme_hdr_get_cache_size(struct ifpga_fme_hw *fme, u64 *cache_size) +{ + struct feature_fme_header *fme_hdr + = get_fme_feature_ioaddr_by_index(fme, FME_FEATURE_ID_HEADER); + struct feature_fme_capability fme_capability; + + fme_capability.csr = readq(&fme_hdr->capability); + *cache_size = fme_capability.cache_size; + + return 0; +} + +static int fme_hdr_get_version(struct ifpga_fme_hw *fme, u64 *version) +{ + struct feature_fme_header *fme_hdr + = get_fme_feature_ioaddr_by_index(fme, FME_FEATURE_ID_HEADER); + struct feature_fme_capability fme_capability; + + fme_capability.csr = readq(&fme_hdr->capability); + *version = fme_capability.fabric_verid; + + return 0; +} + +static int fme_hdr_get_socket_id(struct ifpga_fme_hw *fme, u64 *socket_id) +{ + struct feature_fme_header *fme_hdr + = get_fme_feature_ioaddr_by_index(fme, FME_FEATURE_ID_HEADER); + struct feature_fme_capability fme_capability; + + fme_capability.csr = readq(&fme_hdr->capability); + *socket_id = fme_capability.socket_id; + + return 0; +} + +static int fme_hdr_get_bitstream_id(struct ifpga_fme_hw *fme, + u64 *bitstream_id) +{ + struct feature_fme_header *fme_hdr + = get_fme_feature_ioaddr_by_index(fme, FME_FEATURE_ID_HEADER); + + *bitstream_id = readq(&fme_hdr->bitstream_id); + + return 0; +} + +static int fme_hdr_get_bitstream_metadata(struct ifpga_fme_hw *fme, + u64 *bitstream_metadata) +{ + struct feature_fme_header *fme_hdr + = get_fme_feature_ioaddr_by_index(fme, FME_FEATURE_ID_HEADER); + + *bitstream_metadata = readq(&fme_hdr->bitstream_md); + + return 0; +} + +static int +fme_hdr_get_prop(struct feature *feature, struct feature_prop *prop) +{ + struct ifpga_fme_hw *fme = feature->parent; + + switch (prop->prop_id) { + case FME_HDR_PROP_REVISION: + return fme_hdr_get_revision(fme, &prop->data); + case FME_HDR_PROP_PORTS_NUM: + return fme_hdr_get_ports_num(fme, &prop->data); + case FME_HDR_PROP_CACHE_SIZE: + return fme_hdr_get_cache_size(fme, &prop->data); + case FME_HDR_PROP_VERSION: + return fme_hdr_get_version(fme, &prop->data); + case FME_HDR_PROP_SOCKET_ID: + return fme_hdr_get_socket_id(fme, &prop->data); + case FME_HDR_PROP_BITSTREAM_ID: + return fme_hdr_get_bitstream_id(fme, &prop->data); + case FME_HDR_PROP_BITSTREAM_METADATA: + return fme_hdr_get_bitstream_metadata(fme, &prop->data); + } + + return -ENOENT; +} + +struct feature_ops fme_hdr_ops = { + .init = fme_hdr_init, + .uinit = fme_hdr_uinit, + .get_prop = fme_hdr_get_prop, +}; + +/* thermal management */ +static int fme_thermal_get_threshold1(struct ifpga_fme_hw *fme, u64 *thres1) +{ + struct feature_fme_thermal *thermal; + struct feature_fme_tmp_threshold temp_threshold; + + thermal = get_fme_feature_ioaddr_by_index(fme, + FME_FEATURE_ID_THERMAL_MGMT); + + temp_threshold.csr = readq(&thermal->threshold); + *thres1 = temp_threshold.tmp_thshold1; + + return 0; +} + +static int fme_thermal_set_threshold1(struct ifpga_fme_hw *fme, u64 thres1) +{ + struct feature_fme_thermal *thermal; + struct feature_fme_header *fme_hdr; + struct feature_fme_tmp_threshold tmp_threshold; + struct feature_fme_capability fme_capability; + + thermal = get_fme_feature_ioaddr_by_index(fme, + FME_FEATURE_ID_THERMAL_MGMT); + fme_hdr = get_fme_feature_ioaddr_by_index(fme, FME_FEATURE_ID_HEADER); + + spinlock_lock(&fme->lock); + tmp_threshold.csr = readq(&thermal->threshold); + fme_capability.csr = readq(&fme_hdr->capability); + + if (fme_capability.lock_bit == 1) { + spinlock_unlock(&fme->lock); + return -EBUSY; + } else if (thres1 > 100) { + spinlock_unlock(&fme->lock); + return -EINVAL; + } else if (thres1 == 0) { + tmp_threshold.tmp_thshold1_enable = 0; + tmp_threshold.tmp_thshold1 = thres1; + } else { + tmp_threshold.tmp_thshold1_enable = 1; + tmp_threshold.tmp_thshold1 = thres1; + } + + writeq(tmp_threshold.csr, &thermal->threshold); + spinlock_unlock(&fme->lock); + + return 0; +} + +static int fme_thermal_get_threshold2(struct ifpga_fme_hw *fme, u64 *thres2) +{ + struct feature_fme_thermal *thermal; + struct feature_fme_tmp_threshold temp_threshold; + + thermal = get_fme_feature_ioaddr_by_index(fme, + FME_FEATURE_ID_THERMAL_MGMT); + + temp_threshold.csr = readq(&thermal->threshold); + *thres2 = temp_threshold.tmp_thshold2; + + return 0; +} + +static int fme_thermal_set_threshold2(struct ifpga_fme_hw *fme, u64 thres2) +{ + struct feature_fme_thermal *thermal; + struct feature_fme_header *fme_hdr; + struct feature_fme_tmp_threshold tmp_threshold; + struct feature_fme_capability fme_capability; + + thermal = get_fme_feature_ioaddr_by_index(fme, + FME_FEATURE_ID_THERMAL_MGMT); + fme_hdr = get_fme_feature_ioaddr_by_index(fme, FME_FEATURE_ID_HEADER); + + spinlock_lock(&fme->lock); + tmp_threshold.csr = readq(&thermal->threshold); + fme_capability.csr = readq(&fme_hdr->capability); + + if (fme_capability.lock_bit == 1) { + spinlock_unlock(&fme->lock); + return -EBUSY; + } else if (thres2 > 100) { + spinlock_unlock(&fme->lock); + return -EINVAL; + } else if (thres2 == 0) { + tmp_threshold.tmp_thshold2_enable = 0; + tmp_threshold.tmp_thshold2 = thres2; + } else { + tmp_threshold.tmp_thshold2_enable = 1; + tmp_threshold.tmp_thshold2 = thres2; + } + + writeq(tmp_threshold.csr, &thermal->threshold); + spinlock_unlock(&fme->lock); + + return 0; +} + +static int fme_thermal_get_threshold_trip(struct ifpga_fme_hw *fme, + u64 *thres_trip) +{ + struct feature_fme_thermal *thermal; + struct feature_fme_tmp_threshold temp_threshold; + + thermal = get_fme_feature_ioaddr_by_index(fme, + FME_FEATURE_ID_THERMAL_MGMT); + + temp_threshold.csr = readq(&thermal->threshold); + *thres_trip = temp_threshold.therm_trip_thshold; + + return 0; +} + +static int fme_thermal_get_threshold1_reached(struct ifpga_fme_hw *fme, + u64 *thres1_reached) +{ + struct feature_fme_thermal *thermal; + struct feature_fme_tmp_threshold temp_threshold; + + thermal = get_fme_feature_ioaddr_by_index(fme, + FME_FEATURE_ID_THERMAL_MGMT); + + temp_threshold.csr = readq(&thermal->threshold); + *thres1_reached = temp_threshold.thshold1_status; + + return 0; +} + +static int fme_thermal_get_threshold2_reached(struct ifpga_fme_hw *fme, + u64 *thres1_reached) +{ + struct feature_fme_thermal *thermal; + struct feature_fme_tmp_threshold temp_threshold; + + thermal = get_fme_feature_ioaddr_by_index(fme, + FME_FEATURE_ID_THERMAL_MGMT); + + temp_threshold.csr = readq(&thermal->threshold); + *thres1_reached = temp_threshold.thshold2_status; + + return 0; +} + +static int fme_thermal_get_threshold1_policy(struct ifpga_fme_hw *fme, + u64 *thres1_policy) +{ + struct feature_fme_thermal *thermal; + struct feature_fme_tmp_threshold temp_threshold; + + thermal = get_fme_feature_ioaddr_by_index(fme, + FME_FEATURE_ID_THERMAL_MGMT); + + temp_threshold.csr = readq(&thermal->threshold); + *thres1_policy = temp_threshold.thshold_policy; + + return 0; +} + +static int fme_thermal_set_threshold1_policy(struct ifpga_fme_hw *fme, + u64 thres1_policy) +{ + struct feature_fme_thermal *thermal; + struct feature_fme_tmp_threshold tmp_threshold; + + thermal = get_fme_feature_ioaddr_by_index(fme, + FME_FEATURE_ID_THERMAL_MGMT); + + spinlock_lock(&fme->lock); + tmp_threshold.csr = readq(&thermal->threshold); + + if (thres1_policy == 0) { + tmp_threshold.thshold_policy = 0; + } else if (thres1_policy == 1) { + tmp_threshold.thshold_policy = 1; + } else { + spinlock_unlock(&fme->lock); + return -EINVAL; + } + + writeq(tmp_threshold.csr, &thermal->threshold); + spinlock_unlock(&fme->lock); + + return 0; +} + +static int fme_thermal_get_temperature(struct ifpga_fme_hw *fme, u64 *temp) +{ + struct feature_fme_thermal *thermal; + struct feature_fme_temp_rdsensor_fmt1 temp_rdsensor_fmt1; + + thermal = get_fme_feature_ioaddr_by_index(fme, + FME_FEATURE_ID_THERMAL_MGMT); + + temp_rdsensor_fmt1.csr = readq(&thermal->rdsensor_fm1); + *temp = temp_rdsensor_fmt1.fpga_temp; + + return 0; +} + +static int fme_thermal_get_revision(struct ifpga_fme_hw *fme, u64 *revision) +{ + struct feature_fme_thermal *fme_thermal + = get_fme_feature_ioaddr_by_index(fme, + FME_FEATURE_ID_THERMAL_MGMT); + struct feature_header header; + + header.csr = readq(&fme_thermal->header); + *revision = header.revision; + + return 0; +} + +#define FME_THERMAL_CAP_NO_TMP_THRESHOLD 0x1 + +static int fme_thermal_mgmt_init(struct feature *feature) +{ + struct feature_fme_thermal *fme_thermal; + struct feature_fme_tmp_threshold_cap thermal_cap; + + UNUSED(feature); + + dev_info(NULL, "FME thermal mgmt Init.\n"); + + fme_thermal = (struct feature_fme_thermal *)feature->addr; + thermal_cap.csr = readq(&fme_thermal->threshold_cap); + + dev_info(NULL, "FME thermal cap %llx.\n", + (unsigned long long)fme_thermal->threshold_cap.csr); + + if (thermal_cap.tmp_thshold_disabled) + feature->cap |= FME_THERMAL_CAP_NO_TMP_THRESHOLD; + + return 0; +} + +static void fme_thermal_mgmt_uinit(struct feature *feature) +{ + UNUSED(feature); + + dev_info(NULL, "FME thermal mgmt UInit.\n"); +} + +static int +fme_thermal_set_prop(struct feature *feature, struct feature_prop *prop) +{ + struct ifpga_fme_hw *fme = feature->parent; + + if (feature->cap & FME_THERMAL_CAP_NO_TMP_THRESHOLD) + return -ENOENT; + + switch (prop->prop_id) { + case FME_THERMAL_PROP_THRESHOLD1: + return fme_thermal_set_threshold1(fme, prop->data); + case FME_THERMAL_PROP_THRESHOLD2: + return fme_thermal_set_threshold2(fme, prop->data); + case FME_THERMAL_PROP_THRESHOLD1_POLICY: + return fme_thermal_set_threshold1_policy(fme, prop->data); + } + + return -ENOENT; +} + +static int +fme_thermal_get_prop(struct feature *feature, struct feature_prop *prop) +{ + struct ifpga_fme_hw *fme = feature->parent; + + if (feature->cap & FME_THERMAL_CAP_NO_TMP_THRESHOLD && + prop->prop_id != FME_THERMAL_PROP_TEMPERATURE && + prop->prop_id != FME_THERMAL_PROP_REVISION) + return -ENOENT; + + switch (prop->prop_id) { + case FME_THERMAL_PROP_THRESHOLD1: + return fme_thermal_get_threshold1(fme, &prop->data); + case FME_THERMAL_PROP_THRESHOLD2: + return fme_thermal_get_threshold2(fme, &prop->data); + case FME_THERMAL_PROP_THRESHOLD_TRIP: + return fme_thermal_get_threshold_trip(fme, &prop->data); + case FME_THERMAL_PROP_THRESHOLD1_REACHED: + return fme_thermal_get_threshold1_reached(fme, &prop->data); + case FME_THERMAL_PROP_THRESHOLD2_REACHED: + return fme_thermal_get_threshold2_reached(fme, &prop->data); + case FME_THERMAL_PROP_THRESHOLD1_POLICY: + return fme_thermal_get_threshold1_policy(fme, &prop->data); + case FME_THERMAL_PROP_TEMPERATURE: + return fme_thermal_get_temperature(fme, &prop->data); + case FME_THERMAL_PROP_REVISION: + return fme_thermal_get_revision(fme, &prop->data); + } + + return -ENOENT; +} + +struct feature_ops fme_thermal_mgmt_ops = { + .init = fme_thermal_mgmt_init, + .uinit = fme_thermal_mgmt_uinit, + .get_prop = fme_thermal_get_prop, + .set_prop = fme_thermal_set_prop, +}; + +static int fme_pwr_get_consumed(struct ifpga_fme_hw *fme, u64 *consumed) +{ + struct feature_fme_power *fme_power + = get_fme_feature_ioaddr_by_index(fme, + FME_FEATURE_ID_POWER_MGMT); + struct feature_fme_pm_status pm_status; + + pm_status.csr = readq(&fme_power->status); + + *consumed = pm_status.pwr_consumed; + + return 0; +} + +static int fme_pwr_get_threshold1(struct ifpga_fme_hw *fme, u64 *threshold) +{ + struct feature_fme_power *fme_power + = get_fme_feature_ioaddr_by_index(fme, + FME_FEATURE_ID_POWER_MGMT); + struct feature_fme_pm_ap_threshold pm_ap_threshold; + + pm_ap_threshold.csr = readq(&fme_power->threshold); + + *threshold = pm_ap_threshold.threshold1; + + return 0; +} + +static int fme_pwr_set_threshold1(struct ifpga_fme_hw *fme, u64 threshold) +{ + struct feature_fme_power *fme_power + = get_fme_feature_ioaddr_by_index(fme, + FME_FEATURE_ID_POWER_MGMT); + struct feature_fme_pm_ap_threshold pm_ap_threshold; + + spinlock_lock(&fme->lock); + pm_ap_threshold.csr = readq(&fme_power->threshold); + + if (threshold <= PWR_THRESHOLD_MAX) { + pm_ap_threshold.threshold1 = threshold; + } else { + spinlock_unlock(&fme->lock); + return -EINVAL; + } + + writeq(pm_ap_threshold.csr, &fme_power->threshold); + spinlock_unlock(&fme->lock); + + return 0; +} + +static int fme_pwr_get_threshold2(struct ifpga_fme_hw *fme, u64 *threshold) +{ + struct feature_fme_power *fme_power + = get_fme_feature_ioaddr_by_index(fme, + FME_FEATURE_ID_POWER_MGMT); + struct feature_fme_pm_ap_threshold pm_ap_threshold; + + pm_ap_threshold.csr = readq(&fme_power->threshold); + + *threshold = pm_ap_threshold.threshold2; + + return 0; +} + +static int fme_pwr_set_threshold2(struct ifpga_fme_hw *fme, u64 threshold) +{ + struct feature_fme_power *fme_power + = get_fme_feature_ioaddr_by_index(fme, + FME_FEATURE_ID_POWER_MGMT); + struct feature_fme_pm_ap_threshold pm_ap_threshold; + + spinlock_lock(&fme->lock); + pm_ap_threshold.csr = readq(&fme_power->threshold); + + if (threshold <= PWR_THRESHOLD_MAX) { + pm_ap_threshold.threshold2 = threshold; + } else { + spinlock_unlock(&fme->lock); + return -EINVAL; + } + + writeq(pm_ap_threshold.csr, &fme_power->threshold); + spinlock_unlock(&fme->lock); + + return 0; +} + +static int fme_pwr_get_threshold1_status(struct ifpga_fme_hw *fme, + u64 *threshold_status) +{ + struct feature_fme_power *fme_power + = get_fme_feature_ioaddr_by_index(fme, + FME_FEATURE_ID_POWER_MGMT); + struct feature_fme_pm_ap_threshold pm_ap_threshold; + + pm_ap_threshold.csr = readq(&fme_power->threshold); + + *threshold_status = pm_ap_threshold.threshold1_status; + + return 0; +} + +static int fme_pwr_get_threshold2_status(struct ifpga_fme_hw *fme, + u64 *threshold_status) +{ + struct feature_fme_power *fme_power + = get_fme_feature_ioaddr_by_index(fme, + FME_FEATURE_ID_POWER_MGMT); + struct feature_fme_pm_ap_threshold pm_ap_threshold; + + pm_ap_threshold.csr = readq(&fme_power->threshold); + + *threshold_status = pm_ap_threshold.threshold2_status; + + return 0; +} + +static int fme_pwr_get_rtl(struct ifpga_fme_hw *fme, u64 *rtl) +{ + struct feature_fme_power *fme_power + = get_fme_feature_ioaddr_by_index(fme, + FME_FEATURE_ID_POWER_MGMT); + struct feature_fme_pm_status pm_status; + + pm_status.csr = readq(&fme_power->status); + + *rtl = pm_status.fpga_latency_report; + + return 0; +} + +static int fme_pwr_get_xeon_limit(struct ifpga_fme_hw *fme, u64 *limit) +{ + struct feature_fme_power *fme_power + = get_fme_feature_ioaddr_by_index(fme, + FME_FEATURE_ID_POWER_MGMT); + struct feature_fme_pm_xeon_limit xeon_limit; + + xeon_limit.csr = readq(&fme_power->xeon_limit); + + if (!xeon_limit.enable) + xeon_limit.pwr_limit = 0; + + *limit = xeon_limit.pwr_limit; + + return 0; +} + +static int fme_pwr_get_fpga_limit(struct ifpga_fme_hw *fme, u64 *limit) +{ + struct feature_fme_power *fme_power + = get_fme_feature_ioaddr_by_index(fme, + FME_FEATURE_ID_POWER_MGMT); + struct feature_fme_pm_fpga_limit fpga_limit; + + fpga_limit.csr = readq(&fme_power->fpga_limit); + + if (!fpga_limit.enable) + fpga_limit.pwr_limit = 0; + + *limit = fpga_limit.pwr_limit; + + return 0; +} + +static int fme_pwr_get_revision(struct ifpga_fme_hw *fme, u64 *revision) +{ + struct feature_fme_power *fme_power + = get_fme_feature_ioaddr_by_index(fme, + FME_FEATURE_ID_POWER_MGMT); + struct feature_header header; + + header.csr = readq(&fme_power->header); + *revision = header.revision; + + return 0; +} + +static int fme_power_mgmt_init(struct feature *feature) +{ + UNUSED(feature); + + dev_info(NULL, "FME power mgmt Init.\n"); + + return 0; +} + +static void fme_power_mgmt_uinit(struct feature *feature) +{ + UNUSED(feature); + + dev_info(NULL, "FME power mgmt UInit.\n"); +} + +static int fme_power_mgmt_get_prop(struct feature *feature, + struct feature_prop *prop) +{ + struct ifpga_fme_hw *fme = feature->parent; + + switch (prop->prop_id) { + case FME_PWR_PROP_CONSUMED: + return fme_pwr_get_consumed(fme, &prop->data); + case FME_PWR_PROP_THRESHOLD1: + return fme_pwr_get_threshold1(fme, &prop->data); + case FME_PWR_PROP_THRESHOLD2: + return fme_pwr_get_threshold2(fme, &prop->data); + case FME_PWR_PROP_THRESHOLD1_STATUS: + return fme_pwr_get_threshold1_status(fme, &prop->data); + case FME_PWR_PROP_THRESHOLD2_STATUS: + return fme_pwr_get_threshold2_status(fme, &prop->data); + case FME_PWR_PROP_RTL: + return fme_pwr_get_rtl(fme, &prop->data); + case FME_PWR_PROP_XEON_LIMIT: + return fme_pwr_get_xeon_limit(fme, &prop->data); + case FME_PWR_PROP_FPGA_LIMIT: + return fme_pwr_get_fpga_limit(fme, &prop->data); + case FME_PWR_PROP_REVISION: + return fme_pwr_get_revision(fme, &prop->data); + } + + return -ENOENT; +} + +static int fme_power_mgmt_set_prop(struct feature *feature, + struct feature_prop *prop) +{ + struct ifpga_fme_hw *fme = feature->parent; + + switch (prop->prop_id) { + case FME_PWR_PROP_THRESHOLD1: + return fme_pwr_set_threshold1(fme, prop->data); + case FME_PWR_PROP_THRESHOLD2: + return fme_pwr_set_threshold2(fme, prop->data); + } + + return -ENOENT; +} + +struct feature_ops fme_power_mgmt_ops = { + .init = fme_power_mgmt_init, + .uinit = fme_power_mgmt_uinit, + .get_prop = fme_power_mgmt_get_prop, + .set_prop = fme_power_mgmt_set_prop, +}; |