/* * Copyright 2018 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. */ #define LOG_TAG "dumpstate" #include "DumpstateDevice.h" #include #include #include #include #include #include #include #include #include #define _SVID_SOURCE #include #include "DumpstateUtil.h" #define MODEM_LOG_PREFIX_PROPERTY "ro.vendor.radio.log_prefix" #define MODEM_LOG_LOC_PROPERTY "ro.vendor.radio.log_loc" #define MODEM_LOGGING_SWITCH "persist.vendor.radio.smlog_switch" #define DIAG_MDLOG_PERSIST_PROPERTY "persist.vendor.sys.modem.diag.mdlog" #define DIAG_MDLOG_PROPERTY "vendor.sys.modem.diag.mdlog" #define DIAG_MDLOG_STATUS_PROPERTY "vendor.sys.modem.diag.mdlog_on" #define DIAG_MDLOG_NUMBER_BUGREPORT "persist.vendor.sys.modem.diag.mdlog_br_num" #define UFS_BOOTDEVICE "ro.boot.bootdevice" #define TCPDUMP_NUMBER_BUGREPORT "persist.vendor.tcpdump.log.br_num" #define TCPDUMP_PERSIST_PROPERTY "persist.vendor.tcpdump.log.alwayson" #define MODEM_EFS_DUMP_PROPERTY "vendor.sys.modem.diag.efsdump" #define VENDOR_VERBOSE_LOGGING_ENABLED_PROPERTY "persist.vendor.verbose_logging_enabled" using android::os::dumpstate::CommandOptions; using android::os::dumpstate::DumpFileToFd; using android::os::dumpstate::PropertiesHelper; using android::os::dumpstate::RunCommandToFd; namespace android { namespace hardware { namespace dumpstate { namespace V1_1 { namespace implementation { #define DIAG_LOG_PREFIX "diag_log_" #define TCPDUMP_LOG_PREFIX "tcpdump" #define EXTENDED_LOG_PREFIX "extended_log_" #define BUFSIZE 65536 static void copyFile(std::string srcFile, std::string destFile) { uint8_t buffer[BUFSIZE]; ssize_t size; int fdSrc = open(srcFile.c_str(), O_RDONLY); if (fdSrc < 0) { ALOGD("Failed to open source file %s\n", srcFile.c_str()); return; } int fdDest = open(destFile.c_str(), O_WRONLY | O_CREAT, 0666); if (fdDest < 0) { ALOGD("Failed to open destination file %s\n", destFile.c_str()); close(fdSrc); return; } ALOGD("Copying %s to %s\n", srcFile.c_str(), destFile.c_str()); while ((size = TEMP_FAILURE_RETRY(read(fdSrc, buffer, BUFSIZE))) > 0) { TEMP_FAILURE_RETRY(write(fdDest, buffer, size)); } close(fdDest); close(fdSrc); } struct PosixTarHeader { char name[100]; /* 0 */ char mode[8]; /* 100 */ char uid[8]; /* 108 */ char gid[8]; /* 116 */ char size[12]; /* 124 */ char mtime[12]; /* 136 */ char chksum[8]; /* 148 */ char typeflag; /* 156 */ char linkname[100]; /* 157 */ char magic[6]; /* 257 */ char version[2]; /* 259 */ char uname[32]; /* 265 */ char gname[32]; /* 297 */ char devmajor[8]; /* 329 */ char devminor[8]; /* 337 */ char prefix[155]; /* 345 */ char pad[12]; /* 500 */ }; static unsigned int tarCheckSum(PosixTarHeader *header) { unsigned int sum = 0; char *p = (char *)header; char *q = p + sizeof(PosixTarHeader); for (int i = 0; i < 8; i++) { header->chksum[i] = ' '; } while (p < q) { sum += *p++ & 0xff; } return sum; } static PosixTarHeader *tarHeader(PosixTarHeader *header, char *fileName, ssize_t fileSize) { memset(header, 0, sizeof(PosixTarHeader)); strcpy(header->name, fileName); sprintf(header->mode, "%07o", 0600); sprintf(header->size, "%011llo", (long long unsigned int)fileSize); sprintf(header->mtime, "%011o", 0); header->typeflag = '0'; strcpy(header->magic, "ustar"); strcpy(header->version, " "); sprintf(header->chksum, "%06o", tarCheckSum(header)); return header; } static void createTarFile(std::string tarFile, std::string srcDir) { uint8_t buffer[BUFSIZE]; struct dirent *dirent; struct stat st; PosixTarHeader header; ssize_t size, tarLen = 0, blockSize = sizeof(PosixTarHeader); char padding = '\0'; DIR *dirp = opendir(srcDir.c_str()); if (dirp == NULL) { ALOGD("Unable to open folder %s\n", srcDir.c_str()); return; } int fdTar = open(tarFile.c_str(), O_WRONLY | O_CREAT, 0666); if (fdTar < 0) { ALOGD("Unable to open file %s\n", tarFile.c_str()); closedir(dirp); return; } ALOGD("Creating tar file %s\n", tarFile.c_str()); while ((dirent = readdir(dirp)) != NULL) { if (dirent->d_name[0] == '.') { continue; } std::string path = srcDir + "/" + dirent->d_name; int fd = open(path.c_str(), O_RDONLY); if (fd < 0) { ALOGD("Unable to open file %s\n", path.c_str()); continue; } fstat(fd, &st); if (TEMP_FAILURE_RETRY(write(fdTar, tarHeader( &header, dirent->d_name, st.st_size), blockSize)) <= 0) { ALOGD("Error while writing file %s, errno=%d\n", tarFile.c_str(), errno); close(fd); continue; } tarLen += blockSize; while ((size = TEMP_FAILURE_RETRY(read(fd, buffer, BUFSIZE))) > 0) { write(fdTar, buffer, size); tarLen += size; } while (tarLen % blockSize != 0) { write(fdTar, &padding, 1); tarLen++; } close(fd); } close(fdTar); closedir(dirp); } static void dumpLogs(int fd, std::string srcDir, std::string destDir, int maxFileNum, const char *logPrefix) { (void) fd; struct dirent **dirent_list = NULL; int num_entries = scandir(srcDir.c_str(), &dirent_list, 0, (int (*)(const struct dirent **, const struct dirent **)) alphasort); if (!dirent_list) { return; } else if (num_entries <= 0) { return; } int copiedFiles = 0; for (int i = num_entries - 1; i >= 0; i--) { ALOGD("Found %s\n", dirent_list[i]->d_name); if (0 != strncmp(dirent_list[i]->d_name, logPrefix, strlen(logPrefix))) { continue; } if ((copiedFiles >= maxFileNum) && (maxFileNum != -1)) { ALOGD("Skipped %s\n", dirent_list[i]->d_name); continue; } copiedFiles++; std::string srcLogFile = srcDir + "/" + dirent_list[i]->d_name; std::string destLogFile = destDir + "/" + dirent_list[i]->d_name; copyFile(srcLogFile, destLogFile); } while (num_entries--) { free(dirent_list[num_entries]); } free(dirent_list); } static void *dumpModemThread(void *data) { long fdModem = (long)data; ALOGD("dumpModemThread started\n"); std::string modemLogDir = android::base::GetProperty(MODEM_LOG_LOC_PROPERTY, ""); if (modemLogDir.empty()) { ALOGD("No modem log place is set"); return NULL; } std::string filePrefix = android::base::GetProperty(MODEM_LOG_PREFIX_PROPERTY, ""); if (filePrefix.empty()) { ALOGD("Modem log prefix is not set"); return NULL; } bool diagLogEnabled = android::base::GetBoolProperty(DIAG_MDLOG_PERSIST_PROPERTY, false); bool diagLogStarted = android::base::GetBoolProperty(DIAG_MDLOG_STATUS_PROPERTY, false); if (diagLogEnabled) { if (diagLogStarted) { android::base::SetProperty(DIAG_MDLOG_PROPERTY, "false"); ALOGD("Stopping diag_mdlog...\n"); if (android::base::WaitForProperty(DIAG_MDLOG_STATUS_PROPERTY, "false", std::chrono::seconds(10))) { ALOGD("diag_mdlog exited"); } else { ALOGE("Waited mdlog timeout after 10 second"); } } else { ALOGD("diag_mdlog is not running"); } } sleep(1); ALOGD("Waited modem for 1 second to flush logs"); const std::string modemLogCombined = modemLogDir + "/" + filePrefix + "all.tar"; const std::string modemLogAllDir = modemLogDir + "/modem_log"; RunCommandToFd(STDOUT_FILENO, "MKDIR MODEM LOG", {"/vendor/bin/mkdir", "-p", modemLogAllDir.c_str()}, CommandOptions::WithTimeout(2).Build()); const std::string diagLogDir = "/data/vendor/radio/diag_logs/logs"; const std::string diagPoweronLogPath = "/data/vendor/radio/diag_logs/logs/diag_poweron_log.qmdl"; if (diagLogEnabled) { dumpLogs(STDOUT_FILENO, diagLogDir, modemLogAllDir, android::base::GetIntProperty(DIAG_MDLOG_NUMBER_BUGREPORT, 100), DIAG_LOG_PREFIX); if (diagLogStarted) { ALOGD("Restarting diag_mdlog..."); android::base::SetProperty(DIAG_MDLOG_PROPERTY, "true"); } } copyFile(diagPoweronLogPath, modemLogAllDir + "/" + basename(diagPoweronLogPath.c_str())); if (!PropertiesHelper::IsUserBuild()) { char cmd[256] = { 0 }; android::base::SetProperty(MODEM_EFS_DUMP_PROPERTY, "true"); const std::string tcpdumpLogDir = "/data/vendor/tcpdump_logger/logs"; const std::string extendedLogDir = "/data/vendor/radio/extended_logs"; const std::vector rilAndNetmgrLogs { "/data/vendor/radio/haldebug_ril0", "/data/vendor/radio/haldebug_ril1", "/data/vendor/radio/ril_log0", "/data/vendor/radio/ril_log0_old", "/data/vendor/radio/ril_log1", "/data/vendor/radio/ril_log1_old", "/data/vendor/radio/qmi_fw_log", "/data/vendor/radio/qmi_fw_log_old", "/data/vendor/radio/imsdatadaemon_log", "/data/vendor/radio/imsdatadaemon_log_old", "/data/vendor/netmgr/netmgr_log", "/data/vendor/netmgr/netmgr_log_old", "/data/vendor/radio/omadm_logs.txt", "/data/vendor/radio/power_anomaly_data.txt", "/data/vendor/radio/diag_logs/diag_trace.txt", "/data/vendor/radio/diag_logs/diag_trace_old.txt", "/data/vendor/radio/metrics_data", "/data/vendor/ssrlog/ssr_log.txt", "/data/vendor/ssrlog/ssr_log_old.txt", "/data/vendor/rfs/mpss/modem_efs", "/sys/kernel/debug/ipa/ipa_statistics_msg" }; bool tcpdumpEnabled = android::base::GetBoolProperty(TCPDUMP_PERSIST_PROPERTY, false); if (tcpdumpEnabled) { dumpLogs(STDOUT_FILENO, tcpdumpLogDir, modemLogAllDir, android::base::GetIntProperty(TCPDUMP_NUMBER_BUGREPORT, 5), TCPDUMP_LOG_PREFIX); } for (const auto& logFile : rilAndNetmgrLogs) { copyFile(logFile, modemLogAllDir + "/" + basename(logFile.c_str())); } //Dump IPA log snprintf(cmd, sizeof(cmd), "cat /d/ipc_logging/ipa/log > %s/ipa_log", modemLogAllDir.c_str()); RunCommandToFd(STDOUT_FILENO, "Dump IPA log", {"/vendor/bin/sh", "-c", cmd}); dumpLogs(STDOUT_FILENO, extendedLogDir, modemLogAllDir, 100, EXTENDED_LOG_PREFIX); android::base::SetProperty(MODEM_EFS_DUMP_PROPERTY, "false"); } createTarFile(modemLogCombined, modemLogAllDir); std::vector buffer(65536); android::base::unique_fd fdLog(TEMP_FAILURE_RETRY(open(modemLogCombined.c_str(), O_RDONLY | O_CLOEXEC | O_NONBLOCK))); if (fdLog >= 0) { while (1) { ssize_t bytes_read = TEMP_FAILURE_RETRY(read(fdLog, buffer.data(), buffer.size())); if (bytes_read == 0) { break; } else if (bytes_read < 0) { ALOGD("read(%s): %s\n", modemLogCombined.c_str(), strerror(errno)); break; } ssize_t result = TEMP_FAILURE_RETRY(write(fdModem, buffer.data(), bytes_read)); if (result != bytes_read) { ALOGD("Failed to write %ld bytes, actually written: %ld", bytes_read, result); break; } } } RunCommandToFd(STDOUT_FILENO, "RM MODEM DIR", { "/vendor/bin/rm", "-r", modemLogAllDir.c_str()}, CommandOptions::WithTimeout(2).Build()); RunCommandToFd(STDOUT_FILENO, "RM LOG", { "/vendor/bin/rm", modemLogCombined.c_str()}, CommandOptions::WithTimeout(2).Build()); ALOGD("dumpModemThread finished\n"); return NULL; } static void DumpTouch(int fd) { const char touch_spi_path[] = "/sys/class/spi_master/spi0/spi0.0"; char cmd[256]; snprintf(cmd, sizeof(cmd), "%s/appid", touch_spi_path); if (!access(cmd, R_OK)) { // Touch firmware version DumpFileToFd(fd, "STM touch firmware version", cmd); // Touch controller status snprintf(cmd, sizeof(cmd), "%s/status", touch_spi_path); DumpFileToFd(fd, "STM touch status", cmd); // Mutual raw data snprintf(cmd, sizeof(cmd), "echo 13 00 01 > %s/stm_fts_cmd && cat %s/stm_fts_cmd", touch_spi_path, touch_spi_path); RunCommandToFd(fd, "Mutual Raw", {"/vendor/bin/sh", "-c", cmd}); // Mutual strength data snprintf(cmd, sizeof(cmd), "echo 17 01 > %s/stm_fts_cmd && cat %s/stm_fts_cmd", touch_spi_path, touch_spi_path); RunCommandToFd(fd, "Mutual Strength", {"/vendor/bin/sh", "-c", cmd}); // Self raw data snprintf(cmd, sizeof(cmd), "echo 15 00 01> %s/stm_fts_cmd && cat %s/stm_fts_cmd", touch_spi_path, touch_spi_path); RunCommandToFd(fd, "Self Raw", {"/vendor/bin/sh", "-c", cmd}); } if (!access("/proc/fts/driver_test", R_OK)) { RunCommandToFd(fd, "Mutual Raw Data", {"/vendor/bin/sh", "-c", "echo 23 00 > /proc/fts/driver_test && " "cat /proc/fts/driver_test"}); RunCommandToFd(fd, "Mutual Baseline Data", {"/vendor/bin/sh", "-c", "echo 23 03 > /proc/fts/driver_test && " "cat /proc/fts/driver_test"}); RunCommandToFd(fd, "Mutual Strength Data", {"/vendor/bin/sh", "-c", "echo 23 02 > /proc/fts/driver_test && " "cat /proc/fts/driver_test"}); RunCommandToFd(fd, "Self Raw Data", {"/vendor/bin/sh", "-c", "echo 24 00 > /proc/fts/driver_test && " "cat /proc/fts/driver_test"}); RunCommandToFd(fd, "Self Baseline Data", {"/vendor/bin/sh", "-c", "echo 24 03 > /proc/fts/driver_test && " "cat /proc/fts/driver_test"}); RunCommandToFd(fd, "Self Strength Data", {"/vendor/bin/sh", "-c", "echo 24 02 > /proc/fts/driver_test && " "cat /proc/fts/driver_test"}); RunCommandToFd(fd, "Mutual Compensation", {"/vendor/bin/sh", "-c", "echo 32 10 > /proc/fts/driver_test && " "cat /proc/fts/driver_test"}); RunCommandToFd(fd, "Self Compensation", {"/vendor/bin/sh", "-c", "echo 33 12 > /proc/fts/driver_test && " "cat /proc/fts/driver_test"}); RunCommandToFd(fd, "Golden MS Raw", {"/vendor/bin/sh", "-c", "echo 34 > /proc/fts/driver_test && " "cat /proc/fts/driver_test"}); RunCommandToFd(fd, "Packaging Plant - HW reset", {"/vendor/bin/sh", "-c", "echo 01 FA 20 00 00 24 80 > /proc/fts/driver_test"}); RunCommandToFd(fd, "Packaging Plant - Hibernate Memory", {"/vendor/bin/sh", "-c", "echo 01 FA 20 00 00 68 08 > /proc/fts/driver_test"}); RunCommandToFd(fd, "Packaging Plant - Read 16 bytes from Address 0x00043FD8", {"/vendor/bin/sh", "-c", "echo 02 FB 00 04 3F D8 00 10 01 > /proc/fts/driver_test && " "cat /proc/fts/driver_test"}); } snprintf(cmd, sizeof(cmd), "%s/stm_fts_cmd", touch_spi_path); if (!access(cmd, R_OK)) { // ITO raw data snprintf(cmd, sizeof(cmd), "echo 01 > %s/stm_fts_cmd && cat %s/stm_fts_cmd", touch_spi_path, touch_spi_path); RunCommandToFd(fd, "ITO Raw", {"/vendor/bin/sh", "-c", cmd}); } } static void DumpDisplay(int fd) { DumpFileToFd(fd, "PANEL VENDOR NAME", "/sys/class/panel_info/panel0/panel_vendor_name"); DumpFileToFd(fd, "PANEL SN", "/sys/class/panel_info/panel0/serial_number"); DumpFileToFd(fd, "PANEL EXTRA INFO", "/sys/class/panel_info/panel0/panel_extinfo"); } static void DumpSensorLog(int fd) { const std::string logPath = "/data/vendor/sensors/log/sensor_log.txt"; const std::string lastlogPath = "/data/vendor/sensors/log/sensor_lastlog.txt"; if (!access(logPath.c_str(), R_OK)) { DumpFileToFd(fd, "sensor log", logPath); } if (!access(lastlogPath.c_str(), R_OK)) { DumpFileToFd(fd, "sensor lastlog", lastlogPath); } } static void DumpF2FS(int fd) { DumpFileToFd(fd, "F2FS", "/sys/kernel/debug/f2fs/status"); RunCommandToFd(fd, "F2FS - fsck time (ms)", {"/vendor/bin/sh", "-c", "getprop ro.boottime.init.fsck.data"}); RunCommandToFd(fd, "F2FS - checkpoint=disable time (ms)", {"/vendor/bin/sh", "-c", "getprop ro.boottime.init.mount.data"}); } static void DumpUFS(int fd) { DumpFileToFd(fd, "UFS model", "/sys/block/sda/device/model"); DumpFileToFd(fd, "UFS rev", "/sys/block/sda/device/rev"); DumpFileToFd(fd, "UFS size", "/sys/block/sda/size"); std::string bootdev = android::base::GetProperty(UFS_BOOTDEVICE, ""); if (!bootdev.empty()) { DumpFileToFd(fd, "UFS Slow IO Read", "/sys/devices/platform/soc/" + bootdev + "/slowio_read_cnt"); DumpFileToFd(fd, "UFS Slow IO Write", "/sys/devices/platform/soc/" + bootdev + "/slowio_write_cnt"); DumpFileToFd(fd, "UFS Slow IO Unmap", "/sys/devices/platform/soc/" + bootdev + "/slowio_unmap_cnt"); DumpFileToFd(fd, "UFS Slow IO Sync", "/sys/devices/platform/soc/" + bootdev + "/slowio_sync_cnt"); RunCommandToFd(fd, "UFS io_stats", {"/vendor/bin/sh", "-c", "path=\"/sys/devices/platform/soc/" + bootdev + "/io_stats\"; " "printf \"\\t\\t%-10s %-10s %-10s %-10s %-10s %-10s\\n\" " "ReadCnt ReadBytes WriteCnt WriteBytes RWCnt RWBytes; " "str=$(cat $path/*_start); arr=($str); " "printf \"Started: \\t%-10s %-10s %-10s %-10s %-10s %-10s\\n\" " "${arr[1]} ${arr[0]} ${arr[5]} ${arr[4]} ${arr[3]} ${arr[2]}; " "str=$(cat $path/*_complete); arr=($str); " "printf \"Completed: \\t%-10s %-10s %-10s %-10s %-10s %-10s\\n\" " "${arr[1]} ${arr[0]} ${arr[5]} ${arr[4]} ${arr[3]} ${arr[2]}; " "str=$(cat $path/*_maxdiff); arr=($str); " "printf \"MaxDiff: \\t%-10s %-10s %-10s %-10s %-10s %-10s\\n\\n\" " "${arr[1]} ${arr[0]} ${arr[5]} ${arr[4]} ${arr[3]} ${arr[2]}; "}); RunCommandToFd(fd, "UFS req_stats", {"/vendor/bin/sh", "-c", "path=\"/sys/devices/platform/soc/" + bootdev + "/req_stats\"; " "printf \"\\t%-10s %-10s %-10s %-10s %-10s %-10s %-10s\\n\" " "All Write Read Read\\(urg\\) Write\\(urg\\) Flush Discard; " "str=$(cat $path/*_min); arr=($str); " "printf \"Min:\\t%-10s %-10s %-10s %-10s %-10s %-10s %-10s\\n\" " "${arr[0]} ${arr[3]} ${arr[6]} ${arr[4]} ${arr[5]} ${arr[2]} ${arr[1]}; " "str=$(cat $path/*_max); arr=($str); " "printf \"Max:\\t%-10s %-10s %-10s %-10s %-10s %-10s %-10s\\n\" " "${arr[0]} ${arr[3]} ${arr[6]} ${arr[4]} ${arr[5]} ${arr[2]} ${arr[1]}; " "str=$(cat $path/*_avg); arr=($str); " "printf \"Avg.:\\t%-10s %-10s %-10s %-10s %-10s %-10s %-10s\\n\" " "${arr[0]} ${arr[3]} ${arr[6]} ${arr[4]} ${arr[5]} ${arr[2]} ${arr[1]}; " "str=$(cat $path/*_sum); arr=($str); " "printf \"Count:\\t%-10s %-10s %-10s %-10s %-10s %-10s %-10s\\n\\n\" " "${arr[0]} ${arr[3]} ${arr[6]} ${arr[4]} ${arr[5]} ${arr[2]} ${arr[1]};"}); std::string ufs_health = "for f in $(find /sys/devices/platform/soc/" + bootdev + "/health_descriptor -type f); do if [[ -r $f && -f $f ]]; then echo --- $f; cat $f; echo ''; fi; done"; RunCommandToFd(fd, "UFS health", {"/vendor/bin/sh", "-c", ufs_health.c_str()}); } } // Methods from ::android::hardware::dumpstate::V1_0::IDumpstateDevice follow. Return DumpstateDevice::dumpstateBoard(const hidl_handle& handle) { // Ignore return value, just return an empty status. dumpstateBoard_1_1(handle, DumpstateMode::DEFAULT, 30 * 1000 /* timeoutMillis */); return Void(); } // Methods from ::android::hardware::dumpstate::V1_1::IDumpstateDevice follow. Return DumpstateDevice::dumpstateBoard_1_1(const hidl_handle& handle, const DumpstateMode mode, const uint64_t timeoutMillis) { // Unused arguments. (void) timeoutMillis; // Exit when dump is completed since this is a lazy HAL. addPostCommandTask([]() { exit(0); }); if (handle == nullptr || handle->numFds < 1) { ALOGE("no FDs\n"); return DumpstateStatus::ILLEGAL_ARGUMENT; } int fd = handle->data[0]; if (fd < 0) { ALOGE("invalid FD: %d\n", handle->data[0]); return DumpstateStatus::ILLEGAL_ARGUMENT; } bool isModeValid = false; for (const auto dumpstateMode : hidl_enum_range()) { if (mode == dumpstateMode) { isModeValid = true; break; } } if (!isModeValid) { ALOGE("Invalid mode: %d\n", mode); return DumpstateStatus::ILLEGAL_ARGUMENT; } else if (mode == DumpstateMode::WEAR) { // We aren't a Wear device. ALOGE("Unsupported mode: %d\n", mode); return DumpstateStatus::UNSUPPORTED_MODE; } RunCommandToFd(fd, "Notify modem", {"/vendor/bin/modem_svc", "-s"}, CommandOptions::WithTimeout(1).Build()); pthread_t modemThreadHandle = 0; if (getVerboseLoggingEnabled()) { ALOGD("Verbose logging is enabled.\n"); if (handle->numFds < 2) { ALOGE("no FD for modem\n"); } else { int fdModem = handle->data[1]; if (pthread_create(&modemThreadHandle, NULL, dumpModemThread, (void *)((long)fdModem)) != 0) { ALOGE("could not create thread for dumpModem\n"); } } } RunCommandToFd(fd, "VENDOR PROPERTIES", {"/vendor/bin/getprop"}); DumpFileToFd(fd, "SoC serial number", "/sys/devices/soc0/serial_number"); DumpFileToFd(fd, "CPU present", "/sys/devices/system/cpu/present"); DumpFileToFd(fd, "CPU online", "/sys/devices/system/cpu/online"); DumpFileToFd(fd, "Bootloader Log", "/proc/bldrlog"); DumpTouch(fd); DumpDisplay(fd); DumpF2FS(fd); DumpUFS(fd); DumpSensorLog(fd); DumpFileToFd(fd, "INTERRUPTS", "/proc/interrupts"); DumpFileToFd(fd, "Sleep Stats", "/sys/power/system_sleep/stats"); DumpFileToFd(fd, "Power Management Stats", "/sys/power/rpmh_stats/master_stats"); DumpFileToFd(fd, "WLAN Power Stats", "/sys/kernel/wlan/power_stats"); DumpFileToFd(fd, "LL-Stats", "/d/wlan0/ll_stats"); DumpFileToFd(fd, "WLAN Connect Info", "/d/wlan0/connect_info"); DumpFileToFd(fd, "WLAN Offload Info", "/d/wlan0/offload_info"); DumpFileToFd(fd, "WLAN Roaming Stats", "/d/wlan0/roam_stats"); DumpFileToFd(fd, "ICNSS Stats", "/d/icnss/stats"); DumpFileToFd(fd, "SMD Log", "/d/ipc_logging/smd/log"); RunCommandToFd(fd, "ION HEAPS", {"/vendor/bin/sh", "-c", "for d in $(ls -d /d/ion/*); do for f in $(ls $d); do echo --- $d/$f; cat $d/$f; done; done"}); DumpFileToFd(fd, "dmabuf info", "/d/dma_buf/bufinfo"); DumpFileToFd(fd, "dmabuf process info", "/d/dma_buf/dmaprocs"); RunCommandToFd(fd, "Temperatures", {"/vendor/bin/sh", "-c", "for f in /sys/class/thermal/thermal* ; do type=`cat $f/type` ; temp=`cat $f/temp` ; echo \"$type: $temp\" ; done"}); RunCommandToFd(fd, "Cooling Device Current State", {"/vendor/bin/sh", "-c", "for f in /sys/class/thermal/cooling* ; do type=`cat $f/type` ; temp=`cat $f/cur_state` ; echo \"$type: $temp\" ; done"}); RunCommandToFd(fd, "Cooling Device Time in State", {"/vendor/bin/sh", "-c", "for f in /sys/class/thermal/cooling* ; do type=`cat $f/type` ; temp=`cat $f/stats/time_in_state_ms` ; echo \"$type:\n$temp\" ; done"}); RunCommandToFd(fd, "Cooling Device Trans Table", {"/vendor/bin/sh", "-c", "for f in /sys/class/thermal/cooling* ; do type=`cat $f/type` ; temp=`cat $f/stats/trans_table` ; echo \"$type:\n$temp\" ; done"}); RunCommandToFd( fd, "LMH info", {"/vendor/bin/sh", "-c", "for f in /sys/bus/platform/drivers/msm_lmh_dcvs/*qcom,limits-dcvs@*/lmh_freq_limit; do " "state=`cat $f` ; echo \"$f: $state\" ; done"}); RunCommandToFd( fd, "CPU MAX FREQ info", {"/vendor/bin/sh", "-c", "for f in /sys/devices/system/cpu/cpufreq/policy*/scaling_max_freq; do " "max_freq=`cat $f` ; echo \"$f: $max_freq\" ; done"}); RunCommandToFd(fd, "CPU time-in-state", {"/vendor/bin/sh", "-c", "for cpu in /sys/devices/system/cpu/cpu*; do f=$cpu/cpufreq/stats/time_in_state; if [ ! -f $f ]; then continue; fi; echo $f:; cat $f; done"}); RunCommandToFd(fd, "CPU cpuidle", {"/vendor/bin/sh", "-c", "for cpu in /sys/devices/system/cpu/cpu*; do for d in $cpu/cpuidle/state*; do if [ ! -d $d ]; then continue; fi; echo \"$d: `cat $d/name` `cat $d/desc` `cat $d/time` `cat $d/usage`\"; done; done"}); RunCommandToFd(fd, "Airbrush debug info", {"/vendor/bin/sh", "-c", "for f in `ls /sys/devices/platform/soc/c84000.i2c/i2c-4/4-0066/@(*curr|temperature|vbat|total_power)`; do echo \"$f: `cat $f`\" ; done; file=/d/airbrush/airbrush_sm/chip_state; echo \"$file: `cat $file`\""}); DumpFileToFd(fd, "TCPM logs", "/d/usb/tcpm-usbpd0"); DumpFileToFd(fd, "PD Engine", "/dev/logbuffer_usbpd"); DumpFileToFd(fd, "PPS", "/dev/logbuffer_pps"); DumpFileToFd(fd, "BMS", "/dev/logbuffer_ssoc"); DumpFileToFd(fd, "smblib", "/dev/logbuffer_smblib"); DumpFileToFd(fd, "TTF", "/dev/logbuffer_ttf"); DumpFileToFd(fd, "TTF details", "/sys/class/power_supply/battery/ttf_details"); DumpFileToFd(fd, "TTF stats", "/sys/class/power_supply/battery/ttf_stats"); DumpFileToFd(fd, "ipc-local-ports", "/d/msm_ipc_router/dump_local_ports"); RunCommandToFd(fd, "TRICKLE-DEFEND Config", {"/vendor/bin/sh", "-c", " cd /sys/devices/platform/soc/soc:google,battery/power_supply/battery/; echo \"bd_trickle_enable: `cat bd_trickle_enable`\"; echo \"bd_trickle_cnt: `cat bd_trickle_cnt`\"; echo \"bd_trickle_recharge_soc: `cat bd_trickle_recharge_soc`\"; echo \"bd_trickle_dry_run: `cat bd_trickle_dry_run`\"; echo \"bd_trickle_reset_sec: `cat bd_trickle_reset_sec`\""}); RunCommandToFd(fd, "DWELL-DEFEND Config", {"/vendor/bin/sh", "-c", " cd /sys/devices/platform/soc/soc:google,charger/; for f in `ls charge_s*` ; do echo \"$f: `cat $f`\" ; done"}); RunCommandToFd(fd, "TEMP-DEFEND Config", {"/vendor/bin/sh", "-c", " cd /sys/devices/platform/soc/soc:google,charger/; for f in `ls bd_*` ; do echo \"$f: `cat $f`\" ; done"}); RunCommandToFd(fd, "USB Device Descriptors", {"/vendor/bin/sh", "-c", "cd /sys/bus/usb/devices/1-1 && cat product && cat bcdDevice; cat descriptors | od -t x1 -w16 -N96"}); RunCommandToFd(fd, "Power supply properties", {"/vendor/bin/sh", "-c", "for f in `ls /sys/class/power_supply/*/uevent` ; do echo \"------ $f\\n`cat $f`\\n\" ; done"}); RunCommandToFd(fd, "PMIC Votables", {"/vendor/bin/sh", "-c", "cat /sys/kernel/debug/pmic-votable/*/status"}); if (!PropertiesHelper::IsUserBuild()) { RunCommandToFd(fd, "Google Charger", {"/vendor/bin/sh", "-c", "cd /d/google_charger/; for f in `ls pps_*` ; do echo \"$f: `cat $f`\" ; done"}); RunCommandToFd(fd, "Google Battery", {"/vendor/bin/sh", "-c", "cd /d/google_battery/; for f in `ls ssoc_*` ; do echo \"$f: `cat $f`\" ; done"}); } RunCommandToFd(fd, "eSIM Status", {"/vendor/bin/sh", "-c", "od -t x1 /sys/firmware/devicetree/base/chosen/cdt/cdb2/esim"}); DumpFileToFd(fd, "Modem Stat", "/data/vendor/modem_stat/debug.txt"); DumpFileToFd(fd, "Pixel trace", "/d/tracing/instances/pixel-trace/trace"); // Slower dump put later in case stuck the rest of dump // Timeout after 3s as TZ log missing EOF RunCommandToFd(fd, "QSEE logs", {"/vendor/bin/sh", "-c", "/vendor/bin/timeout 3 cat /d/tzdbg/qsee_log"}); // Citadel info RunCommandToFd(fd, "Citadel VERSION", {"/vendor/bin/hw/citadel_updater", "-lv"}); RunCommandToFd(fd, "Citadel STATS", {"/vendor/bin/hw/citadel_updater", "--stats"}); RunCommandToFd(fd, "Citadel BOARDID", {"/vendor/bin/hw/citadel_updater", "--board_id"}); // Dump various events in WiFi data path DumpFileToFd(fd, "WLAN DP Trace", "/d/wlan/dpt_stats/dump_set_dpt_logs"); // Keep this at the end as very long on not for humans DumpFileToFd(fd, "WLAN FW Log Symbol Table", "/vendor/firmware/Data.msc"); // Dump camera profiler log RunCommandToFd(fd, "Camera Profiler Logs", {"/vendor/bin/sh", "-c", "for f in /data/vendor/camera/profiler/camx_*; do echo [$f]; cat \"$f\";done"}); // Dump fastrpc dma buffer size DumpFileToFd(fd, "Fastrpc dma buffer", "/sys/kernel/fastrpc/total_dma_kb"); if (modemThreadHandle) { pthread_join(modemThreadHandle, NULL); } return DumpstateStatus::OK; } Return DumpstateDevice::setVerboseLoggingEnabled(const bool enable) { android::base::SetProperty(VENDOR_VERBOSE_LOGGING_ENABLED_PROPERTY, enable ? "true" : "false"); return Void(); } Return DumpstateDevice::getVerboseLoggingEnabled() { return android::base::GetBoolProperty(VENDOR_VERBOSE_LOGGING_ENABLED_PROPERTY, false); } } // namespace implementation } // namespace V1_1 } // namespace dumpstate } // namespace hardware } // namespace android