/* * Copyright 2023 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include #include #include #include #include #include #include #include #include #include #define F2FS_FSCK_TIME_PROPERTY "ro.boottime.init.fsck.data" #define F2FS_MNT_TIME_PROPERTY "ro.boottime.init.mount.data" #define BOOTDEVICE_PROPERTY "ro.boot.bootdevice" #define BUILD_TYPE_PROPERTY "ro.build.type" void read_buffer(int buf_id, int total_len, const char* path) { int i, len; system("mkdir -m 0770 -p /data/vendor/storage/"); auto cmd = android::base::StringPrintf("rm -f /data/vendor/storage/%s\n", path); system(cmd.c_str()); for (i=0;i<=total_len;i+=524288) { if (total_len-i < 524288) { len = total_len-i; printf("/vendor/bin/sg_read_buffer -m 0x1c -i %d -l %d -o %d -r /dev/sg3 >> /data/vendor/storage/%s\n", buf_id, len, i, path); auto cmd = android::base::StringPrintf( "/vendor/bin/sg_read_buffer -m 0x1c -i %d -l %d -o %d -r /dev/sg3 >> /data/vendor/storage/%s\n", buf_id, len, i, path); system(cmd.c_str()); break; } len = 524288; printf("/vendor/bin/sg_read_buffer -m 0x1c -i %d -l %d -o %d -r /dev/sg3 >> /data/vendor/storage/%s\n", buf_id, len, i, path); auto cmd = android::base::StringPrintf( "/vendor/bin/sg_read_buffer -m 0x1c -i %d -l %d -o %d -r /dev/sg3 >> /data/vendor/storage/%s\n", buf_id, len, i, path); system(cmd.c_str()); } } int main() { //F2FS dumpFileContent("F2FS status", "/sys/kernel/debug/f2fs/status"); dumpFileContent("F2FS fsck", "/dev/fscklogs/fsck"); int fsck_time = android::base::GetIntProperty(F2FS_FSCK_TIME_PROPERTY, 0); printf("--- F2FS - fsck time (ms) ---\n%d\n\n", fsck_time); int mnt_time = android::base::GetIntProperty(F2FS_MNT_TIME_PROPERTY, 0); printf("--- F2FS - checkpoint=disable time (ms) ---\n%d\n\n", mnt_time); //UFS dumpFileContent("UFS model", "/sys/block/sda/device/model"); dumpFileContent("UFS rev", "/sys/block/sda/device/rev"); dumpFileContent("UFS size", "/sys/block/sda/size"); dumpFileContent("UFS Slow IO Read", "/dev/sys/block/bootdevice/slowio_read_cnt"); dumpFileContent("UFS Slow IO Write", "/dev/sys/block/bootdevice/slowio_write_cnt"); dumpFileContent("UFS Slow IO Unmap", "/dev/sys/block/bootdevice/slowio_unmap_cnt"); dumpFileContent("UFS Slow IO Sync", "/dev/sys/block/bootdevice/slowio_sync_cnt"); printf("------ UFS err_stats ------\n"); const std::string ufs_err_stats_path( "/dev/sys/block/bootdevice/err_stats/"); std::unique_ptr statdir( opendir(ufs_err_stats_path.c_str()), closedir); if (statdir) { dirent *stat_entry; while ((stat_entry = readdir(statdir.get())) != nullptr) { std::string ufs_err_stats_path(stat_entry->d_name); if (!strcmp(ufs_err_stats_path.c_str(), ".") || !strcmp(ufs_err_stats_path.c_str(), "..")) continue; std::string bootdevice = android::base::GetProperty( BOOTDEVICE_PROPERTY, ""); std::string err_stat_path = "/sys/devices/platform/"; err_stat_path.append(bootdevice.c_str()); err_stat_path.append("/err_stats/"); err_stat_path.append(ufs_err_stats_path.c_str()); std::ifstream err_stat_file(err_stat_path); if (err_stat_file.is_open()) { std::string err_stat_atom; err_stat_file >> err_stat_atom; printf("%s:%s\n", ufs_err_stats_path.c_str(), err_stat_atom.c_str()); err_stat_file.close(); } } } printf("\n------ UFS io_stats ------\n"); printf("\t\t%-12s %-12s %-12s %-12s %-12s %-12s\n", "ReadCnt", "ReadBytes", "WriteCnt", "WriteBytes", "RWCnt", "RWBytes"); const std::string ufs_io_stats = "/dev/sys/block/bootdevice/io_stats/"; const std::string iostats_seq[3] = {"_start", "_complete", "_maxdiff"}; const std::string iostats[6] = {"rcnt", "rbyte", "wcnt", "wbyte", "rwcnt", "rwbyte"}; for (int i = 0; i < 3; i++) { const std::string header[3] = {"Started: \t", "Completed: \t", "MaxDiff: \t"}; printf("%s", header[i].c_str()); for (int j = 0; j < 6; j++) { std::string iostat_path = ufs_io_stats.c_str(); iostat_path.append(iostats[j].c_str()); iostat_path.append(iostats_seq[i].c_str()); std::ifstream io_stats_file(iostat_path.c_str()); unsigned long io_stat_atom = 0; if (io_stats_file.is_open()) { io_stats_file >> io_stat_atom; printf("%-12lu ", io_stat_atom); io_stats_file.close(); } } printf("\n"); } printf("\n------ UFS req_stats ------\n"); printf("\t%-12s %-12s %-12s %-12s %-12s %-12s\n", "All", "Write", "Read", "Security", "Flush", "Discard"); const std::string ufs_req_stats = "/dev/sys/block/bootdevice/req_stats/"; const std::string reqstats_seq[4] = {"_min", "_max", "_avg", "_sum"}; const std::string reqstats[6] = {"all", "write", "read", "security", "flush", "discard"}; for (int i = 0; i < 4; i++) { const std::string header[4] = {"Min:\t", "Max: \t", "Avg: \t", "Count: \t"}; printf("%s", header[i].c_str()); for (int j = 0; j < 6; j++) { std::string reqstat_path = ufs_req_stats.c_str(); reqstat_path.append(reqstats[j].c_str()); reqstat_path.append(reqstats_seq[i].c_str()); std::ifstream req_stats_file(reqstat_path.c_str()); unsigned long req_stat_atom = 0; if (req_stats_file.is_open()) { req_stats_file >> req_stat_atom; printf("%-12lu ", req_stat_atom); req_stats_file.close(); } } printf("\n"); } printf("\n------ UFS health ------\n"); dumpFileContent( "", "/dev/sys/block/bootdevice/health_descriptor/life_time_estimation_a"); dumpFileContent( "", "/dev/sys/block/bootdevice/health_descriptor/life_time_estimation_b"); dumpFileContent("", "/dev/sys/block/bootdevice/health_descriptor/eol_info"); dumpFileContent( "", "/dev/sys/block/bootdevice/health_descriptor/life_time_estimation_c"); printf("\n------ UFS error history ------\n"); std::string build_type = android::base::GetProperty(BUILD_TYPE_PROPERTY, ""); if (build_type == "userdebug") { std::string sg_read_buffer = "/vendor/bin/sg_read_buffer"; std::ifstream sg_read_buffer_file(sg_read_buffer.c_str()); if (sg_read_buffer_file.is_open()) { const std::string ufs_ver_path( "/dev/sys/block/bootdevice/device_descriptor/specification_version"); std::ifstream ufs_ver_file(ufs_ver_path); std::string ufs_ver; if (ufs_ver_file.is_open()) { ufs_ver_file >> ufs_ver; ufs_ver_file.close(); } if (strcmp(ufs_ver.c_str(), "0x0210")) { const std::string ufs_brand_path("/sys/block/sda/device/vendor"); std::ifstream ufs_brand_file(ufs_brand_path); std::string ufs_brand; if (ufs_brand_file.is_open()) { ufs_brand_file >> ufs_brand; ufs_brand_file.close(); } std::map const table = { {"MICRON", 0x12C}, {"KIOXIA", 0x198}, {"SKhynix", 0x1AD}, {"SAMSUNG", 0x1CE} }; auto ufs_vendor_id = table.find(ufs_brand); if (ufs_vendor_id != table.end()) { switch(ufs_vendor_id->second){ case 0x12C: //MICRON read_buffer(16, 2097152, "micron_10_ufs_err_history.dat"); read_buffer(18, 10485760, "micron_12_ufs_err_history.dat"); read_buffer(19, 10485760, "micron_13_ufs_err_history.dat"); break; case 0x198: //KIOXIA read_buffer(16, 16773120, "kioxia_10_ufs_err_history.dat"); read_buffer(17, 2097152, "kioxia_11_ufs_err_history.dat"); read_buffer(18, 131072, "kioxia_12_ufs_err_history.dat"); break; case 0x1AD: //SKhynix read_buffer(0, 4096, "hynix_00_ufs_err_history.dat"); read_buffer(16, 131072, "skhynix_10_ufs_err_history.dat"); read_buffer(17, 131072, "skhynix_11_ufs_err_history.dat"); read_buffer(18, 131072, "skhynix_12_ufs_err_history.dat"); read_buffer(19, 131072, "skhynix_13_ufs_err_history.dat"); break; case 0x1CE: //SAMSUNG read_buffer(16, 8404992, "samsung_10_ufs_err_history.dat"); break; default: break; } } sg_read_buffer_file.close(); } } else printf("sg_read_buffer does not exist\n"); } return 0; }