// Copyright(c) 2017-2020, Intel Corporation // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are met: // // * Redistributions of source code must retain the above copyright notice, // this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above copyright notice, // this list of conditions and the following disclaimer in the documentation // and/or other materials provided with the distribution. // * Neither the name of Intel Corporation nor the names of its contributors // may be used to endorse or promote products derived from this software // without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" // AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE // IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE // ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE // LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR // CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF // SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS // INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN // CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) // ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE // POSSIBILITY OF SUCH DAMAGE. #ifdef HAVE_CONFIG_H #include #endif // HAVE_CONFIG_H #include #include #include "xfpga.h" #include "common_int.h" #include "props.h" #include "error_int.h" fpga_result __XFPGA_API__ xfpga_fpgaGetPropertiesFromHandle(fpga_handle handle, fpga_properties *prop) { struct _fpga_handle *_handle = (struct _fpga_handle *)handle; fpga_result result = FPGA_OK; int err = 0; result = handle_check_and_lock(_handle); if (result) return result; result = xfpga_fpgaGetProperties(_handle->token, prop); err = pthread_mutex_unlock(&_handle->lock); if (err) { OPAE_ERR("pthread_mutex_unlock() failed: %S", strerror(err)); } return result; } fpga_result __XFPGA_API__ xfpga_fpgaGetProperties(fpga_token token, fpga_properties *prop) { struct _fpga_properties *_prop = NULL; fpga_result result = FPGA_OK; ASSERT_NOT_NULL(prop); result = fpgaGetProperties(NULL, (fpga_properties *)&_prop); ASSERT_RESULT(result); if (token) { result = xfpga_fpgaUpdateProperties(token, _prop); if (result != FPGA_OK) goto out_free; } *prop = (fpga_properties)_prop; return result; out_free: free(_prop); return result; } fpga_result __XFPGA_API__ xfpga_fpgaUpdateProperties(fpga_token token, fpga_properties prop) { struct _fpga_token *_token = (struct _fpga_token *)token; struct _fpga_properties *_prop = (struct _fpga_properties *)prop; struct _fpga_properties _iprop; char spath[SYSFS_PATH_MAX] = { 0, }; char idpath[SYSFS_PATH_MAX] = { 0, }; char *p; int s, b, d, f; int res; int err = 0; int resval = 0; uint64_t value = 0; uint32_t x = 0; size_t len; pthread_mutex_t lock; fpga_result result = FPGA_INVALID_PARAM; ASSERT_NOT_NULL(token); if (_token->magic != FPGA_TOKEN_MAGIC) { OPAE_MSG("Invalid token"); return FPGA_INVALID_PARAM; } ASSERT_NOT_NULL(_prop); if (_prop->magic != FPGA_PROPERTY_MAGIC) { OPAE_MSG("Invalid properties object"); return FPGA_INVALID_PARAM; } // clear fpga_properties buffer memset(&_iprop, 0, sizeof(struct _fpga_properties)); _iprop.magic = FPGA_PROPERTY_MAGIC; // read the vendor and device ID from the 'device' path if (snprintf(idpath, sizeof(idpath), "%s/../device/vendor", _token->sysfspath) < 0) { OPAE_ERR("snprintf buffer overflow"); return FPGA_EXCEPTION; } x = 0; result = sysfs_read_u32(idpath, &x); if (result != FPGA_OK) return result; _iprop.vendor_id = (uint16_t)x; SET_FIELD_VALID(&_iprop, FPGA_PROPERTY_VENDORID); if (snprintf(idpath, sizeof(idpath), "%s/../device/device", _token->sysfspath) < 0) { OPAE_ERR("snprintf buffer overflow"); return FPGA_EXCEPTION; } x = 0; result = sysfs_read_u32(idpath, &x); if (result != FPGA_OK) return result; _iprop.device_id = (uint16_t)x; SET_FIELD_VALID(&_iprop, FPGA_PROPERTY_DEVICEID); // The input token is either for an FME or an AFU. // Go one level back to get to the dev. len = strnlen(_token->sysfspath, sizeof(spath) - 1); memcpy(spath, _token->sysfspath, len); spath[len] = '\0'; p = strrchr(spath, '/'); ASSERT_NOT_NULL_MSG(p, "Invalid token sysfs path"); *p = 0; p = strstr(_token->sysfspath, FPGA_SYSFS_AFU); if (NULL != p) { // AFU result = sysfs_get_guid(_token, FPGA_SYSFS_AFU_GUID, _iprop.guid); if (FPGA_OK != result) return result; SET_FIELD_VALID(&_iprop, FPGA_PROPERTY_GUID); _iprop.parent = (fpga_token)token_get_parent(_token); if (NULL != _iprop.parent) SET_FIELD_VALID(&_iprop, FPGA_PROPERTY_PARENT); _iprop.objtype = FPGA_ACCELERATOR; SET_FIELD_VALID(&_iprop, FPGA_PROPERTY_OBJTYPE); res = open(_token->devpath, O_RDWR); if (-1 == res) { _iprop.u.accelerator.state = FPGA_ACCELERATOR_ASSIGNED; } else { close(res); _iprop.u.accelerator.state = FPGA_ACCELERATOR_UNASSIGNED; } SET_FIELD_VALID(&_iprop, FPGA_PROPERTY_ACCELERATOR_STATE); _iprop.u.accelerator.num_mmio = 2; SET_FIELD_VALID(&_iprop, FPGA_PROPERTY_NUM_MMIO); _iprop.u.accelerator.num_interrupts = 0; SET_FIELD_VALID(&_iprop, FPGA_PROPERTY_NUM_INTERRUPTS); } p = strstr(_token->sysfspath, FPGA_SYSFS_FME); if (NULL != p) { // FME _iprop.objtype = FPGA_DEVICE; SET_FIELD_VALID(&_iprop, FPGA_PROPERTY_OBJTYPE); // get bitstream id result = sysfs_get_interface_id(_token, _iprop.guid); if (FPGA_OK != result) return result; SET_FIELD_VALID(&_iprop, FPGA_PROPERTY_GUID); resval = sysfs_parse_attribute64(_token->sysfspath, FPGA_SYSFS_NUM_SLOTS, &value); if (resval != 0) { return FPGA_NOT_FOUND; } _iprop.u.fpga.num_slots = (uint32_t)value; SET_FIELD_VALID(&_iprop, FPGA_PROPERTY_NUM_SLOTS); resval = sysfs_parse_attribute64(_token->sysfspath, FPGA_SYSFS_BITSTREAM_ID, &_iprop.u.fpga.bbs_id); if (resval != 0) { return FPGA_NOT_FOUND; } SET_FIELD_VALID(&_iprop, FPGA_PROPERTY_BBSID); _iprop.u.fpga.bbs_version.major = FPGA_BBS_VER_MAJOR(_iprop.u.fpga.bbs_id); _iprop.u.fpga.bbs_version.minor = FPGA_BBS_VER_MINOR(_iprop.u.fpga.bbs_id); _iprop.u.fpga.bbs_version.patch = FPGA_BBS_VER_PATCH(_iprop.u.fpga.bbs_id); SET_FIELD_VALID(&_iprop, FPGA_PROPERTY_BBSVERSION); } result = sysfs_sbdf_from_path(spath, &s, &b, &d, &f); if (result) return result; _iprop.segment = (uint16_t)s; SET_FIELD_VALID(&_iprop, FPGA_PROPERTY_SEGMENT); _iprop.bus = (uint8_t)b; SET_FIELD_VALID(&_iprop, FPGA_PROPERTY_BUS); _iprop.device = (uint8_t)d; SET_FIELD_VALID(&_iprop, FPGA_PROPERTY_DEVICE); _iprop.function = (uint8_t)f; SET_FIELD_VALID(&_iprop, FPGA_PROPERTY_FUNCTION); // only set socket id if we have it on sysfs if (sysfs_get_fme_path(_token->sysfspath, spath) == FPGA_OK) { resval = sysfs_parse_attribute64(spath, FPGA_SYSFS_SOCKET_ID, &value); if (0 == resval) { _iprop.socket_id = (uint8_t)value; SET_FIELD_VALID(&_iprop, FPGA_PROPERTY_SOCKETID); } } result = sysfs_objectid_from_path(_token->sysfspath, &_iprop.object_id); if (0 == result) SET_FIELD_VALID(&_iprop, FPGA_PROPERTY_OBJECTID); char errpath[SYSFS_PATH_MAX] = { 0, }; if (snprintf(errpath, sizeof(errpath), "%s/errors", _token->sysfspath) < 0) { OPAE_ERR("snprintf buffer overflow"); return FPGA_EXCEPTION; } _iprop.num_errors = count_error_files(errpath); SET_FIELD_VALID(&_iprop, FPGA_PROPERTY_NUM_ERRORS); if (pthread_mutex_lock(&_prop->lock)) { OPAE_MSG("Failed to lock properties mutex"); return FPGA_EXCEPTION; } lock = _prop->lock; *_prop = _iprop; _prop->lock = lock; err = pthread_mutex_unlock(&_prop->lock); if (err) OPAE_ERR("pthread_mutex_unlock() failed: %s", strerror(err)); return FPGA_OK; }