Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Souvik Kumar Chakravarty | 4120 | 95.41% | 3 | 15.79% |
Rajneesh Bhardwaj | 94 | 2.18% | 4 | 21.05% |
Mika Westerberg | 39 | 0.90% | 2 | 10.53% |
Andy Shevchenko | 22 | 0.51% | 3 | 15.79% |
Yangtao Li | 12 | 0.28% | 1 | 5.26% |
Greg Kroah-Hartman | 10 | 0.23% | 1 | 5.26% |
Allen Pais | 7 | 0.16% | 1 | 5.26% |
Priyalee Kushwaha | 6 | 0.14% | 1 | 5.26% |
Thomas Gleixner | 4 | 0.09% | 1 | 5.26% |
Dave Hansen | 3 | 0.07% | 1 | 5.26% |
Linus Torvalds | 1 | 0.02% | 1 | 5.26% |
Total | 4318 | 19 |
// SPDX-License-Identifier: GPL-2.0 /* * Intel SOC Telemetry debugfs Driver: Currently supports APL * Copyright (c) 2015, Intel Corporation. * All Rights Reserved. * * This file provides the debugfs interfaces for telemetry. * /sys/kernel/debug/telemetry/pss_info: Shows Primary Control Sub-Sys Counters * /sys/kernel/debug/telemetry/ioss_info: Shows IO Sub-System Counters * /sys/kernel/debug/telemetry/soc_states: Shows SoC State * /sys/kernel/debug/telemetry/pss_trace_verbosity: Read and Change Tracing * Verbosity via firmware * /sys/kernel/debug/telemetry/ioss_race_verbosity: Write and Change Tracing * Verbosity via firmware */ #include <linux/debugfs.h> #include <linux/device.h> #include <linux/mfd/intel_pmc_bxt.h> #include <linux/module.h> #include <linux/pci.h> #include <linux/seq_file.h> #include <linux/suspend.h> #include <asm/cpu_device_id.h> #include <asm/intel-family.h> #include <asm/intel_telemetry.h> #define DRIVER_NAME "telemetry_soc_debugfs" #define DRIVER_VERSION "1.0.0" /* ApolloLake SoC Event-IDs */ #define TELEM_APL_PSS_PSTATES_ID 0x2802 #define TELEM_APL_PSS_IDLE_ID 0x2806 #define TELEM_APL_PCS_IDLE_BLOCKED_ID 0x2C00 #define TELEM_APL_PCS_S0IX_BLOCKED_ID 0x2C01 #define TELEM_APL_PSS_WAKEUP_ID 0x2C02 #define TELEM_APL_PSS_LTR_BLOCKING_ID 0x2C03 #define TELEM_APL_S0IX_TOTAL_OCC_ID 0x4000 #define TELEM_APL_S0IX_SHLW_OCC_ID 0x4001 #define TELEM_APL_S0IX_DEEP_OCC_ID 0x4002 #define TELEM_APL_S0IX_TOTAL_RES_ID 0x4800 #define TELEM_APL_S0IX_SHLW_RES_ID 0x4801 #define TELEM_APL_S0IX_DEEP_RES_ID 0x4802 #define TELEM_APL_D0IX_ID 0x581A #define TELEM_APL_D3_ID 0x5819 #define TELEM_APL_PG_ID 0x5818 #define TELEM_INFO_SRAMEVTS_MASK 0xFF00 #define TELEM_INFO_SRAMEVTS_SHIFT 0x8 #define TELEM_SSRAM_READ_TIMEOUT 10 #define TELEM_MASK_BIT 1 #define TELEM_MASK_BYTE 0xFF #define BYTES_PER_LONG 8 #define TELEM_APL_MASK_PCS_STATE 0xF /* Max events in bitmap to check for */ #define TELEM_PSS_IDLE_EVTS 25 #define TELEM_PSS_IDLE_BLOCKED_EVTS 20 #define TELEM_PSS_S0IX_BLOCKED_EVTS 20 #define TELEM_PSS_S0IX_WAKEUP_EVTS 20 #define TELEM_PSS_LTR_BLOCKING_EVTS 20 #define TELEM_IOSS_DX_D0IX_EVTS 25 #define TELEM_IOSS_PG_EVTS 30 #define TELEM_CHECK_AND_PARSE_EVTS(EVTID, EVTNUM, BUF, EVTLOG, EVTDAT, MASK) { \ if (evtlog[index].telem_evtid == (EVTID)) { \ for (idx = 0; idx < (EVTNUM); idx++) \ (BUF)[idx] = ((EVTLOG) >> (EVTDAT)[idx].bit_pos) & \ (MASK); \ continue; \ } \ } #define TELEM_CHECK_AND_PARSE_CTRS(EVTID, CTR) { \ if (evtlog[index].telem_evtid == (EVTID)) { \ (CTR) = evtlog[index].telem_evtlog; \ continue; \ } \ } static u8 suspend_prep_ok; static u32 suspend_shlw_ctr_temp, suspend_deep_ctr_temp; static u64 suspend_shlw_res_temp, suspend_deep_res_temp; struct telemetry_susp_stats { u32 shlw_ctr; u32 deep_ctr; u64 shlw_res; u64 deep_res; }; /* Bitmap definitions for default counters in APL */ struct telem_pss_idle_stateinfo { const char *name; u32 bit_pos; }; static struct telem_pss_idle_stateinfo telem_apl_pss_idle_data[] = { {"IA_CORE0_C1E", 0}, {"IA_CORE1_C1E", 1}, {"IA_CORE2_C1E", 2}, {"IA_CORE3_C1E", 3}, {"IA_CORE0_C6", 16}, {"IA_CORE1_C6", 17}, {"IA_CORE2_C6", 18}, {"IA_CORE3_C6", 19}, {"IA_MODULE0_C7", 32}, {"IA_MODULE1_C7", 33}, {"GT_RC6", 40}, {"IUNIT_PROCESSING_IDLE", 41}, {"FAR_MEM_IDLE", 43}, {"DISPLAY_IDLE", 44}, {"IUNIT_INPUT_SYSTEM_IDLE", 45}, {"PCS_STATUS", 60}, }; struct telem_pcs_blkd_info { const char *name; u32 bit_pos; }; static struct telem_pcs_blkd_info telem_apl_pcs_idle_blkd_data[] = { {"COMPUTE", 0}, {"MISC", 8}, {"MODULE_ACTIONS_PENDING", 16}, {"LTR", 24}, {"DISPLAY_WAKE", 32}, {"ISP_WAKE", 40}, {"PSF0_ACTIVE", 48}, }; static struct telem_pcs_blkd_info telem_apl_pcs_s0ix_blkd_data[] = { {"LTR", 0}, {"IRTL", 8}, {"WAKE_DEADLINE_PENDING", 16}, {"DISPLAY", 24}, {"ISP", 32}, {"CORE", 40}, {"PMC", 48}, {"MISC", 56}, }; struct telem_pss_ltr_info { const char *name; u32 bit_pos; }; static struct telem_pss_ltr_info telem_apl_pss_ltr_data[] = { {"CORE_ACTIVE", 0}, {"MEM_UP", 8}, {"DFX", 16}, {"DFX_FORCE_LTR", 24}, {"DISPLAY", 32}, {"ISP", 40}, {"SOUTH", 48}, }; struct telem_pss_wakeup_info { const char *name; u32 bit_pos; }; static struct telem_pss_wakeup_info telem_apl_pss_wakeup[] = { {"IP_IDLE", 0}, {"DISPLAY_WAKE", 8}, {"VOLTAGE_REG_INT", 16}, {"DROWSY_TIMER (HOTPLUG)", 24}, {"CORE_WAKE", 32}, {"MISC_S0IX", 40}, {"MISC_ABORT", 56}, }; struct telem_ioss_d0ix_stateinfo { const char *name; u32 bit_pos; }; static struct telem_ioss_d0ix_stateinfo telem_apl_ioss_d0ix_data[] = { {"CSE", 0}, {"SCC2", 1}, {"GMM", 2}, {"XDCI", 3}, {"XHCI", 4}, {"ISH", 5}, {"AVS", 6}, {"PCIE0P1", 7}, {"PECI0P0", 8}, {"LPSS", 9}, {"SCC", 10}, {"PWM", 11}, {"PCIE1_P3", 12}, {"PCIE1_P2", 13}, {"PCIE1_P1", 14}, {"PCIE1_P0", 15}, {"CNV", 16}, {"SATA", 17}, {"PRTC", 18}, }; struct telem_ioss_pg_info { const char *name; u32 bit_pos; }; static struct telem_ioss_pg_info telem_apl_ioss_pg_data[] = { {"LPSS", 0}, {"SCC", 1}, {"P2SB", 2}, {"SCC2", 3}, {"GMM", 4}, {"PCIE0", 5}, {"XDCI", 6}, {"xHCI", 7}, {"CSE", 8}, {"SPI", 9}, {"AVSPGD4", 10}, {"AVSPGD3", 11}, {"AVSPGD2", 12}, {"AVSPGD1", 13}, {"ISH", 14}, {"EXI", 15}, {"NPKVRC", 16}, {"NPKVNN", 17}, {"CUNIT", 18}, {"FUSE_CTRL", 19}, {"PCIE1", 20}, {"CNV", 21}, {"LPC", 22}, {"SATA", 23}, {"SMB", 24}, {"PRTC", 25}, }; struct telemetry_debugfs_conf { struct telemetry_susp_stats suspend_stats; struct dentry *telemetry_dbg_dir; /* Bitmap Data */ struct telem_ioss_d0ix_stateinfo *ioss_d0ix_data; struct telem_pss_idle_stateinfo *pss_idle_data; struct telem_pcs_blkd_info *pcs_idle_blkd_data; struct telem_pcs_blkd_info *pcs_s0ix_blkd_data; struct telem_pss_wakeup_info *pss_wakeup; struct telem_pss_ltr_info *pss_ltr_data; struct telem_ioss_pg_info *ioss_pg_data; u8 pcs_idle_blkd_evts; u8 pcs_s0ix_blkd_evts; u8 pss_wakeup_evts; u8 pss_idle_evts; u8 pss_ltr_evts; u8 ioss_d0ix_evts; u8 ioss_pg_evts; /* IDs */ u16 pss_ltr_blocking_id; u16 pcs_idle_blkd_id; u16 pcs_s0ix_blkd_id; u16 s0ix_total_occ_id; u16 s0ix_shlw_occ_id; u16 s0ix_deep_occ_id; u16 s0ix_total_res_id; u16 s0ix_shlw_res_id; u16 s0ix_deep_res_id; u16 pss_wakeup_id; u16 ioss_d0ix_id; u16 pstates_id; u16 pss_idle_id; u16 ioss_d3_id; u16 ioss_pg_id; }; static struct telemetry_debugfs_conf *debugfs_conf; static struct telemetry_debugfs_conf telem_apl_debugfs_conf = { .pss_idle_data = telem_apl_pss_idle_data, .pcs_idle_blkd_data = telem_apl_pcs_idle_blkd_data, .pcs_s0ix_blkd_data = telem_apl_pcs_s0ix_blkd_data, .pss_ltr_data = telem_apl_pss_ltr_data, .pss_wakeup = telem_apl_pss_wakeup, .ioss_d0ix_data = telem_apl_ioss_d0ix_data, .ioss_pg_data = telem_apl_ioss_pg_data, .pss_idle_evts = ARRAY_SIZE(telem_apl_pss_idle_data), .pcs_idle_blkd_evts = ARRAY_SIZE(telem_apl_pcs_idle_blkd_data), .pcs_s0ix_blkd_evts = ARRAY_SIZE(telem_apl_pcs_s0ix_blkd_data), .pss_ltr_evts = ARRAY_SIZE(telem_apl_pss_ltr_data), .pss_wakeup_evts = ARRAY_SIZE(telem_apl_pss_wakeup), .ioss_d0ix_evts = ARRAY_SIZE(telem_apl_ioss_d0ix_data), .ioss_pg_evts = ARRAY_SIZE(telem_apl_ioss_pg_data), .pstates_id = TELEM_APL_PSS_PSTATES_ID, .pss_idle_id = TELEM_APL_PSS_IDLE_ID, .pcs_idle_blkd_id = TELEM_APL_PCS_IDLE_BLOCKED_ID, .pcs_s0ix_blkd_id = TELEM_APL_PCS_S0IX_BLOCKED_ID, .pss_wakeup_id = TELEM_APL_PSS_WAKEUP_ID, .pss_ltr_blocking_id = TELEM_APL_PSS_LTR_BLOCKING_ID, .s0ix_total_occ_id = TELEM_APL_S0IX_TOTAL_OCC_ID, .s0ix_shlw_occ_id = TELEM_APL_S0IX_SHLW_OCC_ID, .s0ix_deep_occ_id = TELEM_APL_S0IX_DEEP_OCC_ID, .s0ix_total_res_id = TELEM_APL_S0IX_TOTAL_RES_ID, .s0ix_shlw_res_id = TELEM_APL_S0IX_SHLW_RES_ID, .s0ix_deep_res_id = TELEM_APL_S0IX_DEEP_RES_ID, .ioss_d0ix_id = TELEM_APL_D0IX_ID, .ioss_d3_id = TELEM_APL_D3_ID, .ioss_pg_id = TELEM_APL_PG_ID, }; static const struct x86_cpu_id telemetry_debugfs_cpu_ids[] = { X86_MATCH_INTEL_FAM6_MODEL(ATOM_GOLDMONT, &telem_apl_debugfs_conf), X86_MATCH_INTEL_FAM6_MODEL(ATOM_GOLDMONT_PLUS, &telem_apl_debugfs_conf), {} }; MODULE_DEVICE_TABLE(x86cpu, telemetry_debugfs_cpu_ids); static int telemetry_debugfs_check_evts(void) { if ((debugfs_conf->pss_idle_evts > TELEM_PSS_IDLE_EVTS) || (debugfs_conf->pcs_idle_blkd_evts > TELEM_PSS_IDLE_BLOCKED_EVTS) || (debugfs_conf->pcs_s0ix_blkd_evts > TELEM_PSS_S0IX_BLOCKED_EVTS) || (debugfs_conf->pss_ltr_evts > TELEM_PSS_LTR_BLOCKING_EVTS) || (debugfs_conf->pss_wakeup_evts > TELEM_PSS_S0IX_WAKEUP_EVTS) || (debugfs_conf->ioss_d0ix_evts > TELEM_IOSS_DX_D0IX_EVTS) || (debugfs_conf->ioss_pg_evts > TELEM_IOSS_PG_EVTS)) return -EINVAL; return 0; } static int telem_pss_states_show(struct seq_file *s, void *unused) { struct telemetry_evtlog evtlog[TELEM_MAX_OS_ALLOCATED_EVENTS]; struct telemetry_debugfs_conf *conf = debugfs_conf; const char *name[TELEM_MAX_OS_ALLOCATED_EVENTS]; u32 pcs_idle_blkd[TELEM_PSS_IDLE_BLOCKED_EVTS], pcs_s0ix_blkd[TELEM_PSS_S0IX_BLOCKED_EVTS], pss_s0ix_wakeup[TELEM_PSS_S0IX_WAKEUP_EVTS], pss_ltr_blkd[TELEM_PSS_LTR_BLOCKING_EVTS], pss_idle[TELEM_PSS_IDLE_EVTS]; int index, idx, ret, err = 0; u64 pstates = 0; ret = telemetry_read_eventlog(TELEM_PSS, evtlog, TELEM_MAX_OS_ALLOCATED_EVENTS); if (ret < 0) return ret; err = telemetry_get_evtname(TELEM_PSS, name, TELEM_MAX_OS_ALLOCATED_EVENTS); if (err < 0) return err; seq_puts(s, "\n----------------------------------------------------\n"); seq_puts(s, "\tPSS TELEM EVENTLOG (Residency = field/19.2 us\n"); seq_puts(s, "----------------------------------------------------\n"); for (index = 0; index < ret; index++) { seq_printf(s, "%-32s %llu\n", name[index], evtlog[index].telem_evtlog); /* Fetch PSS IDLE State */ if (evtlog[index].telem_evtid == conf->pss_idle_id) { pss_idle[conf->pss_idle_evts - 1] = (evtlog[index].telem_evtlog >> conf->pss_idle_data[conf->pss_idle_evts - 1].bit_pos) & TELEM_APL_MASK_PCS_STATE; } TELEM_CHECK_AND_PARSE_EVTS(conf->pss_idle_id, conf->pss_idle_evts - 1, pss_idle, evtlog[index].telem_evtlog, conf->pss_idle_data, TELEM_MASK_BIT); TELEM_CHECK_AND_PARSE_EVTS(conf->pcs_idle_blkd_id, conf->pcs_idle_blkd_evts, pcs_idle_blkd, evtlog[index].telem_evtlog, conf->pcs_idle_blkd_data, TELEM_MASK_BYTE); TELEM_CHECK_AND_PARSE_EVTS(conf->pcs_s0ix_blkd_id, conf->pcs_s0ix_blkd_evts, pcs_s0ix_blkd, evtlog[index].telem_evtlog, conf->pcs_s0ix_blkd_data, TELEM_MASK_BYTE); TELEM_CHECK_AND_PARSE_EVTS(conf->pss_wakeup_id, conf->pss_wakeup_evts, pss_s0ix_wakeup, evtlog[index].telem_evtlog, conf->pss_wakeup, TELEM_MASK_BYTE); TELEM_CHECK_AND_PARSE_EVTS(conf->pss_ltr_blocking_id, conf->pss_ltr_evts, pss_ltr_blkd, evtlog[index].telem_evtlog, conf->pss_ltr_data, TELEM_MASK_BYTE); if (evtlog[index].telem_evtid == debugfs_conf->pstates_id) pstates = evtlog[index].telem_evtlog; } seq_puts(s, "\n--------------------------------------\n"); seq_puts(s, "PStates\n"); seq_puts(s, "--------------------------------------\n"); seq_puts(s, "Domain\t\t\t\tFreq(Mhz)\n"); seq_printf(s, " IA\t\t\t\t %llu\n GT\t\t\t\t %llu\n", (pstates & TELEM_MASK_BYTE)*100, ((pstates >> 8) & TELEM_MASK_BYTE)*50/3); seq_printf(s, " IUNIT\t\t\t\t %llu\n SA\t\t\t\t %llu\n", ((pstates >> 16) & TELEM_MASK_BYTE)*25, ((pstates >> 24) & TELEM_MASK_BYTE)*50/3); seq_puts(s, "\n--------------------------------------\n"); seq_puts(s, "PSS IDLE Status\n"); seq_puts(s, "--------------------------------------\n"); seq_puts(s, "Device\t\t\t\t\tIDLE\n"); for (index = 0; index < debugfs_conf->pss_idle_evts; index++) { seq_printf(s, "%-32s\t%u\n", debugfs_conf->pss_idle_data[index].name, pss_idle[index]); } seq_puts(s, "\n--------------------------------------\n"); seq_puts(s, "PSS Idle blkd Status (~1ms saturating bucket)\n"); seq_puts(s, "--------------------------------------\n"); seq_puts(s, "Blocker\t\t\t\t\tCount\n"); for (index = 0; index < debugfs_conf->pcs_idle_blkd_evts; index++) { seq_printf(s, "%-32s\t%u\n", debugfs_conf->pcs_idle_blkd_data[index].name, pcs_idle_blkd[index]); } seq_puts(s, "\n--------------------------------------\n"); seq_puts(s, "PSS S0ix blkd Status (~1ms saturating bucket)\n"); seq_puts(s, "--------------------------------------\n"); seq_puts(s, "Blocker\t\t\t\t\tCount\n"); for (index = 0; index < debugfs_conf->pcs_s0ix_blkd_evts; index++) { seq_printf(s, "%-32s\t%u\n", debugfs_conf->pcs_s0ix_blkd_data[index].name, pcs_s0ix_blkd[index]); } seq_puts(s, "\n--------------------------------------\n"); seq_puts(s, "LTR Blocking Status (~1ms saturating bucket)\n"); seq_puts(s, "--------------------------------------\n"); seq_puts(s, "Blocker\t\t\t\t\tCount\n"); for (index = 0; index < debugfs_conf->pss_ltr_evts; index++) { seq_printf(s, "%-32s\t%u\n", debugfs_conf->pss_ltr_data[index].name, pss_s0ix_wakeup[index]); } seq_puts(s, "\n--------------------------------------\n"); seq_puts(s, "Wakes Status (~1ms saturating bucket)\n"); seq_puts(s, "--------------------------------------\n"); seq_puts(s, "Wakes\t\t\t\t\tCount\n"); for (index = 0; index < debugfs_conf->pss_wakeup_evts; index++) { seq_printf(s, "%-32s\t%u\n", debugfs_conf->pss_wakeup[index].name, pss_ltr_blkd[index]); } return 0; } DEFINE_SHOW_ATTRIBUTE(telem_pss_states); static int telem_ioss_states_show(struct seq_file *s, void *unused) { struct telemetry_evtlog evtlog[TELEM_MAX_OS_ALLOCATED_EVENTS]; const char *name[TELEM_MAX_OS_ALLOCATED_EVENTS]; int index, ret, err; ret = telemetry_read_eventlog(TELEM_IOSS, evtlog, TELEM_MAX_OS_ALLOCATED_EVENTS); if (ret < 0) return ret; err = telemetry_get_evtname(TELEM_IOSS, name, TELEM_MAX_OS_ALLOCATED_EVENTS); if (err < 0) return err; seq_puts(s, "--------------------------------------\n"); seq_puts(s, "\tI0SS TELEMETRY EVENTLOG\n"); seq_puts(s, "--------------------------------------\n"); for (index = 0; index < ret; index++) { seq_printf(s, "%-32s 0x%llx\n", name[index], evtlog[index].telem_evtlog); } return 0; } DEFINE_SHOW_ATTRIBUTE(telem_ioss_states); static int telem_soc_states_show(struct seq_file *s, void *unused) { u32 d3_sts[TELEM_IOSS_DX_D0IX_EVTS], d0ix_sts[TELEM_IOSS_DX_D0IX_EVTS]; u32 pg_sts[TELEM_IOSS_PG_EVTS], pss_idle[TELEM_PSS_IDLE_EVTS]; struct telemetry_evtlog evtlog[TELEM_MAX_OS_ALLOCATED_EVENTS]; u32 s0ix_total_ctr = 0, s0ix_shlw_ctr = 0, s0ix_deep_ctr = 0; u64 s0ix_total_res = 0, s0ix_shlw_res = 0, s0ix_deep_res = 0; struct telemetry_debugfs_conf *conf = debugfs_conf; struct pci_dev *dev = NULL; int index, idx, ret; u32 d3_state; u16 pmcsr; ret = telemetry_read_eventlog(TELEM_IOSS, evtlog, TELEM_MAX_OS_ALLOCATED_EVENTS); if (ret < 0) return ret; for (index = 0; index < ret; index++) { TELEM_CHECK_AND_PARSE_EVTS(conf->ioss_d3_id, conf->ioss_d0ix_evts, d3_sts, evtlog[index].telem_evtlog, conf->ioss_d0ix_data, TELEM_MASK_BIT); TELEM_CHECK_AND_PARSE_EVTS(conf->ioss_pg_id, conf->ioss_pg_evts, pg_sts, evtlog[index].telem_evtlog, conf->ioss_pg_data, TELEM_MASK_BIT); TELEM_CHECK_AND_PARSE_EVTS(conf->ioss_d0ix_id, conf->ioss_d0ix_evts, d0ix_sts, evtlog[index].telem_evtlog, conf->ioss_d0ix_data, TELEM_MASK_BIT); TELEM_CHECK_AND_PARSE_CTRS(conf->s0ix_total_occ_id, s0ix_total_ctr); TELEM_CHECK_AND_PARSE_CTRS(conf->s0ix_shlw_occ_id, s0ix_shlw_ctr); TELEM_CHECK_AND_PARSE_CTRS(conf->s0ix_deep_occ_id, s0ix_deep_ctr); TELEM_CHECK_AND_PARSE_CTRS(conf->s0ix_total_res_id, s0ix_total_res); TELEM_CHECK_AND_PARSE_CTRS(conf->s0ix_shlw_res_id, s0ix_shlw_res); TELEM_CHECK_AND_PARSE_CTRS(conf->s0ix_deep_res_id, s0ix_deep_res); } seq_puts(s, "\n---------------------------------------------------\n"); seq_puts(s, "S0IX Type\t\t\t Occurrence\t\t Residency(us)\n"); seq_puts(s, "---------------------------------------------------\n"); seq_printf(s, "S0IX Shallow\t\t\t %10u\t %10llu\n", s0ix_shlw_ctr - conf->suspend_stats.shlw_ctr, (u64)((s0ix_shlw_res - conf->suspend_stats.shlw_res)*10/192)); seq_printf(s, "S0IX Deep\t\t\t %10u\t %10llu\n", s0ix_deep_ctr - conf->suspend_stats.deep_ctr, (u64)((s0ix_deep_res - conf->suspend_stats.deep_res)*10/192)); seq_printf(s, "Suspend(With S0ixShallow)\t %10u\t %10llu\n", conf->suspend_stats.shlw_ctr, (u64)(conf->suspend_stats.shlw_res*10)/192); seq_printf(s, "Suspend(With S0ixDeep)\t\t %10u\t %10llu\n", conf->suspend_stats.deep_ctr, (u64)(conf->suspend_stats.deep_res*10)/192); seq_printf(s, "TOTAL S0IX\t\t\t %10u\t %10llu\n", s0ix_total_ctr, (u64)(s0ix_total_res*10/192)); seq_puts(s, "\n-------------------------------------------------\n"); seq_puts(s, "\t\tDEVICE STATES\n"); seq_puts(s, "-------------------------------------------------\n"); for_each_pci_dev(dev) { pci_read_config_word(dev, dev->pm_cap + PCI_PM_CTRL, &pmcsr); d3_state = ((pmcsr & PCI_PM_CTRL_STATE_MASK) == (__force int)PCI_D3hot) ? 1 : 0; seq_printf(s, "pci %04x %04X %s %20.20s: ", dev->vendor, dev->device, dev_name(&dev->dev), dev_driver_string(&dev->dev)); seq_printf(s, " d3:%x\n", d3_state); } seq_puts(s, "\n--------------------------------------\n"); seq_puts(s, "D3/D0i3 Status\n"); seq_puts(s, "--------------------------------------\n"); seq_puts(s, "Block\t\t D3\t D0i3\n"); for (index = 0; index < conf->ioss_d0ix_evts; index++) { seq_printf(s, "%-10s\t %u\t %u\n", conf->ioss_d0ix_data[index].name, d3_sts[index], d0ix_sts[index]); } seq_puts(s, "\n--------------------------------------\n"); seq_puts(s, "South Complex PowerGate Status\n"); seq_puts(s, "--------------------------------------\n"); seq_puts(s, "Device\t\t PG\n"); for (index = 0; index < conf->ioss_pg_evts; index++) { seq_printf(s, "%-10s\t %u\n", conf->ioss_pg_data[index].name, pg_sts[index]); } evtlog->telem_evtid = conf->pss_idle_id; ret = telemetry_read_events(TELEM_PSS, evtlog, 1); if (ret < 0) return ret; seq_puts(s, "\n-----------------------------------------\n"); seq_puts(s, "North Idle Status\n"); seq_puts(s, "-----------------------------------------\n"); for (idx = 0; idx < conf->pss_idle_evts - 1; idx++) { pss_idle[idx] = (evtlog->telem_evtlog >> conf->pss_idle_data[idx].bit_pos) & TELEM_MASK_BIT; } pss_idle[idx] = (evtlog->telem_evtlog >> conf->pss_idle_data[idx].bit_pos) & TELEM_APL_MASK_PCS_STATE; for (index = 0; index < conf->pss_idle_evts; index++) { seq_printf(s, "%-30s %u\n", conf->pss_idle_data[index].name, pss_idle[index]); } seq_puts(s, "\nPCS_STATUS Code\n"); seq_puts(s, "0:C0 1:C1 2:C1_DN_WT_DEV 3:C2 4:C2_WT_DE_MEM_UP\n"); seq_puts(s, "5:C2_WT_DE_MEM_DOWN 6:C2_UP_WT_DEV 7:C2_DN 8:C2_VOA\n"); seq_puts(s, "9:C2_VOA_UP 10:S0IX_PRE 11:S0IX\n"); return 0; } DEFINE_SHOW_ATTRIBUTE(telem_soc_states); static int telem_s0ix_res_get(void *data, u64 *val) { struct telemetry_plt_config *plt_config = telemetry_get_pltdata(); u64 s0ix_total_res; int ret; ret = intel_pmc_s0ix_counter_read(plt_config->pmc, &s0ix_total_res); if (ret) { pr_err("Failed to read S0ix residency"); return ret; } *val = s0ix_total_res; return 0; } DEFINE_DEBUGFS_ATTRIBUTE(telem_s0ix_fops, telem_s0ix_res_get, NULL, "%llu\n"); static int telem_pss_trc_verb_show(struct seq_file *s, void *unused) { u32 verbosity; int err; err = telemetry_get_trace_verbosity(TELEM_PSS, &verbosity); if (err) { pr_err("Get PSS Trace Verbosity Failed with Error %d\n", err); return -EFAULT; } seq_printf(s, "PSS Trace Verbosity %u\n", verbosity); return 0; } static ssize_t telem_pss_trc_verb_write(struct file *file, const char __user *userbuf, size_t count, loff_t *ppos) { u32 verbosity; int err; err = kstrtou32_from_user(userbuf, count, 0, &verbosity); if (err) return err; err = telemetry_set_trace_verbosity(TELEM_PSS, verbosity); if (err) { pr_err("Changing PSS Trace Verbosity Failed. Error %d\n", err); return err; } return count; } static int telem_pss_trc_verb_open(struct inode *inode, struct file *file) { return single_open(file, telem_pss_trc_verb_show, inode->i_private); } static const struct file_operations telem_pss_trc_verb_ops = { .open = telem_pss_trc_verb_open, .read = seq_read, .write = telem_pss_trc_verb_write, .llseek = seq_lseek, .release = single_release, }; static int telem_ioss_trc_verb_show(struct seq_file *s, void *unused) { u32 verbosity; int err; err = telemetry_get_trace_verbosity(TELEM_IOSS, &verbosity); if (err) { pr_err("Get IOSS Trace Verbosity Failed with Error %d\n", err); return -EFAULT; } seq_printf(s, "IOSS Trace Verbosity %u\n", verbosity); return 0; } static ssize_t telem_ioss_trc_verb_write(struct file *file, const char __user *userbuf, size_t count, loff_t *ppos) { u32 verbosity; int err; err = kstrtou32_from_user(userbuf, count, 0, &verbosity); if (err) return err; err = telemetry_set_trace_verbosity(TELEM_IOSS, verbosity); if (err) { pr_err("Changing IOSS Trace Verbosity Failed. Error %d\n", err); return err; } return count; } static int telem_ioss_trc_verb_open(struct inode *inode, struct file *file) { return single_open(file, telem_ioss_trc_verb_show, inode->i_private); } static const struct file_operations telem_ioss_trc_verb_ops = { .open = telem_ioss_trc_verb_open, .read = seq_read, .write = telem_ioss_trc_verb_write, .llseek = seq_lseek, .release = single_release, }; static int pm_suspend_prep_cb(void) { struct telemetry_evtlog evtlog[TELEM_MAX_OS_ALLOCATED_EVENTS]; struct telemetry_debugfs_conf *conf = debugfs_conf; int ret, index; ret = telemetry_raw_read_eventlog(TELEM_IOSS, evtlog, TELEM_MAX_OS_ALLOCATED_EVENTS); if (ret < 0) { suspend_prep_ok = 0; goto out; } for (index = 0; index < ret; index++) { TELEM_CHECK_AND_PARSE_CTRS(conf->s0ix_shlw_occ_id, suspend_shlw_ctr_temp); TELEM_CHECK_AND_PARSE_CTRS(conf->s0ix_deep_occ_id, suspend_deep_ctr_temp); TELEM_CHECK_AND_PARSE_CTRS(conf->s0ix_shlw_res_id, suspend_shlw_res_temp); TELEM_CHECK_AND_PARSE_CTRS(conf->s0ix_deep_res_id, suspend_deep_res_temp); } suspend_prep_ok = 1; out: return NOTIFY_OK; } static int pm_suspend_exit_cb(void) { struct telemetry_evtlog evtlog[TELEM_MAX_OS_ALLOCATED_EVENTS]; static u32 suspend_shlw_ctr_exit, suspend_deep_ctr_exit; static u64 suspend_shlw_res_exit, suspend_deep_res_exit; struct telemetry_debugfs_conf *conf = debugfs_conf; int ret, index; if (!suspend_prep_ok) goto out; ret = telemetry_raw_read_eventlog(TELEM_IOSS, evtlog, TELEM_MAX_OS_ALLOCATED_EVENTS); if (ret < 0) goto out; for (index = 0; index < ret; index++) { TELEM_CHECK_AND_PARSE_CTRS(conf->s0ix_shlw_occ_id, suspend_shlw_ctr_exit); TELEM_CHECK_AND_PARSE_CTRS(conf->s0ix_deep_occ_id, suspend_deep_ctr_exit); TELEM_CHECK_AND_PARSE_CTRS(conf->s0ix_shlw_res_id, suspend_shlw_res_exit); TELEM_CHECK_AND_PARSE_CTRS(conf->s0ix_deep_res_id, suspend_deep_res_exit); } if ((suspend_shlw_ctr_exit < suspend_shlw_ctr_temp) || (suspend_deep_ctr_exit < suspend_deep_ctr_temp) || (suspend_shlw_res_exit < suspend_shlw_res_temp) || (suspend_deep_res_exit < suspend_deep_res_temp)) { pr_err("Wrong s0ix counters detected\n"); goto out; } /* * Due to some design limitations in the firmware, sometimes the * counters do not get updated by the time we reach here. As a * workaround, we try to see if this was a genuine case of sleep * failure or not by cross-checking from PMC GCR registers directly. */ if (suspend_shlw_ctr_exit == suspend_shlw_ctr_temp && suspend_deep_ctr_exit == suspend_deep_ctr_temp) { struct telemetry_plt_config *plt_config = telemetry_get_pltdata(); struct intel_pmc_dev *pmc = plt_config->pmc; ret = intel_pmc_gcr_read64(pmc, PMC_GCR_TELEM_SHLW_S0IX_REG, &suspend_shlw_res_exit); if (ret < 0) goto out; ret = intel_pmc_gcr_read64(pmc, PMC_GCR_TELEM_DEEP_S0IX_REG, &suspend_deep_res_exit); if (ret < 0) goto out; if (suspend_shlw_res_exit > suspend_shlw_res_temp) suspend_shlw_ctr_exit++; if (suspend_deep_res_exit > suspend_deep_res_temp) suspend_deep_ctr_exit++; } suspend_shlw_ctr_exit -= suspend_shlw_ctr_temp; suspend_deep_ctr_exit -= suspend_deep_ctr_temp; suspend_shlw_res_exit -= suspend_shlw_res_temp; suspend_deep_res_exit -= suspend_deep_res_temp; if (suspend_shlw_ctr_exit != 0) { conf->suspend_stats.shlw_ctr += suspend_shlw_ctr_exit; conf->suspend_stats.shlw_res += suspend_shlw_res_exit; } if (suspend_deep_ctr_exit != 0) { conf->suspend_stats.deep_ctr += suspend_deep_ctr_exit; conf->suspend_stats.deep_res += suspend_deep_res_exit; } out: suspend_prep_ok = 0; return NOTIFY_OK; } static int pm_notification(struct notifier_block *this, unsigned long event, void *ptr) { switch (event) { case PM_SUSPEND_PREPARE: return pm_suspend_prep_cb(); case PM_POST_SUSPEND: return pm_suspend_exit_cb(); } return NOTIFY_DONE; } static struct notifier_block pm_notifier = { .notifier_call = pm_notification, }; static int __init telemetry_debugfs_init(void) { const struct x86_cpu_id *id; int err; struct dentry *dir; /* Only APL supported for now */ id = x86_match_cpu(telemetry_debugfs_cpu_ids); if (!id) return -ENODEV; debugfs_conf = (struct telemetry_debugfs_conf *)id->driver_data; if (!telemetry_get_pltdata()) { pr_info("Invalid pltconfig, ensure IPC1 device is enabled in BIOS\n"); return -ENODEV; } err = telemetry_debugfs_check_evts(); if (err < 0) { pr_info("telemetry_debugfs_check_evts failed\n"); return -EINVAL; } register_pm_notifier(&pm_notifier); dir = debugfs_create_dir("telemetry", NULL); debugfs_conf->telemetry_dbg_dir = dir; debugfs_create_file("pss_info", S_IFREG | S_IRUGO, dir, NULL, &telem_pss_states_fops); debugfs_create_file("ioss_info", S_IFREG | S_IRUGO, dir, NULL, &telem_ioss_states_fops); debugfs_create_file("soc_states", S_IFREG | S_IRUGO, dir, NULL, &telem_soc_states_fops); debugfs_create_file("s0ix_residency_usec", S_IFREG | S_IRUGO, dir, NULL, &telem_s0ix_fops); debugfs_create_file("pss_trace_verbosity", S_IFREG | S_IRUGO, dir, NULL, &telem_pss_trc_verb_ops); debugfs_create_file("ioss_trace_verbosity", S_IFREG | S_IRUGO, dir, NULL, &telem_ioss_trc_verb_ops); return 0; } static void __exit telemetry_debugfs_exit(void) { debugfs_remove_recursive(debugfs_conf->telemetry_dbg_dir); debugfs_conf->telemetry_dbg_dir = NULL; unregister_pm_notifier(&pm_notifier); } late_initcall(telemetry_debugfs_init); module_exit(telemetry_debugfs_exit); MODULE_AUTHOR("Souvik Kumar Chakravarty <souvik.k.chakravarty@intel.com>"); MODULE_DESCRIPTION("Intel SoC Telemetry debugfs Interface"); MODULE_VERSION(DRIVER_VERSION); MODULE_LICENSE("GPL v2");
Information contained on this website is for historical information purposes only and does not indicate or represent copyright ownership.
Created with Cregit http://github.com/cregit/cregit
Version 2.0-RC1