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-rw-r--r--plugins/wdc/wdc-nvme.c3187
1 files changed, 2831 insertions, 356 deletions
diff --git a/plugins/wdc/wdc-nvme.c b/plugins/wdc/wdc-nvme.c
index 0cebe3f..f7a5b31 100644
--- a/plugins/wdc/wdc-nvme.c
+++ b/plugins/wdc/wdc-nvme.c
@@ -19,6 +19,7 @@
* Author: Chaitanya Kulkarni <chaitanya.kulkarni@hgst.com>,
* Dong Ho <dong.ho@hgst.com>,
* Jeff Lien <jeff.lien@wdc.com>
+ * Brandon Paupore <brandon.paupore@wdc.com>
*/
#include <stdio.h>
#include <string.h>
@@ -36,7 +37,7 @@
#include "nvme-print.h"
#include "nvme-ioctl.h"
#include "plugin.h"
-#include "json.h"
+#include "nvme-status.h"
#include "argconfig.h"
#include "suffix.h"
@@ -52,6 +53,11 @@
#define WDC_NVME_LOG_SIZE_DATA_LEN 0x08
#define WDC_NVME_LOG_SIZE_HDR_LEN 0x08
+/* Enclosure */
+#define WDC_OPENFLEX_MI_DEVICE_MODEL "OpenFlex"
+#define WDC_RESULT_MORE_DATA 0x80000000
+#define WDC_RESULT_NOT_AVAILABLE 0x7FFFFFFF
+
/* Device Config */
#define WDC_NVME_VID 0x1c58
#define WDC_NVME_VID_2 0x1b96
@@ -66,12 +72,13 @@
#define WDC_NVME_SN640_DEV_ID 0x2400
#define WDC_NVME_SN640_DEV_ID_1 0x2401
#define WDC_NVME_SN640_DEV_ID_2 0x2402
-#define WDC_NVME_SN640_DEV_ID_3 0x2404
-#define WDC_NVME_ZN440_DEV_ID 0x2600
-#define WDC_NVME_SN440_DEV_ID 0x2610
-#define WDC_NVME_SN7GC_DEV_ID 0x2700
-#define WDC_NVME_SN7GC_DEV_ID_1 0x2701
-#define WDC_NVME_SN7GC_DEV_ID_2 0x2702
+#define WDC_NVME_SN640_DEV_ID_3 0x2404
+#define WDC_NVME_ZN540_DEV_ID 0x2600
+#define WDC_NVME_SN540_DEV_ID 0x2610
+#define WDC_NVME_SN650_DEV_ID 0x2700
+#define WDC_NVME_SN650_DEV_ID_1 0x2701
+#define WDC_NVME_SN650_DEV_ID_2 0x2702
+#define WDC_NVME_SN650_DEV_ID_3 0x2720
#define WDC_NVME_SXSLCL_DEV_ID 0x2001
#define WDC_NVME_SN520_DEV_ID 0x5003
#define WDC_NVME_SN520_DEV_ID_1 0x5004
@@ -81,6 +88,8 @@
#define WDC_NVME_SN730B_DEV_ID 0x3714
#define WDC_NVME_SN730B_DEV_ID_1 0x3734
#define WDC_NVME_SN340_DEV_ID 0x500d
+#define WDC_NVME_ZN350_DEV_ID 0x5010
+#define WDC_NVME_ZN350_DEV_ID_1 0x5018
#define WDC_DRIVE_CAP_CAP_DIAG 0x0000000000000001
#define WDC_DRIVE_CAP_INTERNAL_LOG 0x0000000000000002
@@ -92,9 +101,9 @@
#define WDC_DRIVE_CAP_CLEAR_PCIE 0x0000000000000080
#define WDC_DRIVE_CAP_RESIZE 0x0000000000000100
#define WDC_DRIVE_CAP_NAND_STATS 0x0000000000000200
-#define WDC_DRIVE_CAP_DRIVE_LOG 0x0000000000000400
-#define WDC_DRIVE_CAP_CRASH_DUMP 0x0000000000000800
-#define WDC_DRIVE_CAP_PFAIL_DUMP 0x0000000000001000
+#define WDC_DRIVE_CAP_DRIVE_LOG 0x0000000000000400
+#define WDC_DRIVE_CAP_CRASH_DUMP 0x0000000000000800
+#define WDC_DRIVE_CAP_PFAIL_DUMP 0x0000000000001000
#define WDC_DRIVE_CAP_FW_ACTIVATE_HISTORY 0x0000000000002000
#define WDC_DRIVE_CAP_CLEAR_FW_ACT_HISTORY 0x0000000000004000
#define WDC_DRVIE_CAP_DISABLE_CTLR_TELE_LOG 0x0000000000008000
@@ -102,14 +111,31 @@
#define WDC_DRIVE_CAP_LOG_PAGE_DIR 0x0000000000020000
#define WDC_DRIVE_CAP_NS_RESIZE 0x0000000000040000
#define WDC_DRIVE_CAP_INFO 0x0000000000080000
+#define WDC_DRIVE_CAP_C0_LOG_PAGE 0x0000000000100000
+#define WDC_DRIVE_CAP_TEMP_STATS 0x0000000000200000
+#define WDC_DRIVE_CAP_VUC_CLEAR_PCIE 0x0000000000400000
+#define WDC_DRIVE_CAP_VU_FID_CLEAR_PCIE 0x0000000000800000
+#define WDC_DRIVE_CAP_FW_ACTIVATE_HISTORY_C2 0x0000000001000000
+#define WDC_DRIVE_CAP_VU_FID_CLEAR_FW_ACT_HISTORY 0x0000000002000000
+#define WDC_DRIVE_CAP_CLOUD_SSD_VERSION 0x0000000004000000
+#define WDC_DRIVE_CAP_PCIE_STATS 0x0000000008000000
+#define WDC_DRIVE_CAP_INFO_2 0x0000000010000000
#define WDC_DRIVE_CAP_DRIVE_ESSENTIALS 0x0000000100000000
#define WDC_DRIVE_CAP_DUI_DATA 0x0000000200000000
#define WDC_SN730B_CAP_VUC_LOG 0x0000000400000000
-#define WDC_DRIVE_CAP_SN340_DUI 0x0000000800000000
-#define WDC_DRIVE_CAP_SMART_LOG_MASK (WDC_DRIVE_CAP_C1_LOG_PAGE | WDC_DRIVE_CAP_CA_LOG_PAGE | \
- WDC_DRIVE_CAP_D0_LOG_PAGE)
-
+#define WDC_DRIVE_CAP_DUI 0x0000000800000000
+#define WDC_DRIVE_CAP_SMART_LOG_MASK (WDC_DRIVE_CAP_C0_LOG_PAGE | WDC_DRIVE_CAP_C1_LOG_PAGE | \
+ WDC_DRIVE_CAP_CA_LOG_PAGE | WDC_DRIVE_CAP_D0_LOG_PAGE)
+#define WDC_DRIVE_CAP_CLEAR_PCIE_MASK (WDC_DRIVE_CAP_CLEAR_PCIE | \
+ WDC_DRIVE_CAP_VUC_CLEAR_PCIE | \
+ WDC_DRIVE_CAP_VU_FID_CLEAR_PCIE)
+#define WDC_DRIVE_CAP_FW_ACTIVATE_HISTORY_MASK (WDC_DRIVE_CAP_FW_ACTIVATE_HISTORY | \
+ WDC_DRIVE_CAP_FW_ACTIVATE_HISTORY_C2)
+#define WDC_DRIVE_CAP_CLEAR_FW_ACT_HISTORY_MASK (WDC_DRIVE_CAP_CLEAR_FW_ACT_HISTORY | \
+ WDC_DRIVE_CAP_VU_FID_CLEAR_FW_ACT_HISTORY)
+#define WDC_DRIVE_CAP_INTERNAL_LOG_MASK (WDC_DRIVE_CAP_INTERNAL_LOG | WDC_DRIVE_CAP_DUI | \
+ WDC_DRIVE_CAP_DUI_DATA | WDC_SN730B_CAP_VUC_LOG)
/* SN730 Get Log Capabilities */
#define SN730_NVME_GET_LOG_OPCODE 0xc2
#define SN730_GET_FULL_LOG_LENGTH 0x00080009
@@ -126,9 +152,20 @@
/* Customer ID's */
#define WDC_CUSTOMER_ID_GN 0x0001
#define WDC_CUSTOMER_ID_GD 0x0101
-#define WDC_CUSTOMER_ID_0x1004 0x1004
+#define WDC_CUSTOMER_ID_BD 0x1009
+
#define WDC_CUSTOMER_ID_0x1005 0x1005
+#define WDC_CUSTOMER_ID_0x1004 0x1004
+#define WDC_CUSTOMER_ID_0x1008 0x1008
+#define WDC_CUSTOMER_ID_0x1304 0x1304
+
+#define WDC_ALL_PAGE_MASK 0xFFFF
+#define WDC_C0_PAGE_MASK 0x0001
+#define WDC_C1_PAGE_MASK 0x0002
+#define WDC_CA_PAGE_MASK 0x0004
+#define WDC_D0_PAGE_MASK 0x0008
+
/* Drive Resize */
#define WDC_NVME_DRIVE_RESIZE_OPCODE 0xCC
#define WDC_NVME_DRIVE_RESIZE_CMD 0x03
@@ -142,6 +179,9 @@
#define WDC_NVME_DRIVE_INFO_CMD 0x22
#define WDC_NVME_DRIVE_INFO_SUBCMD 0x06
+/* VS PCIE Stats */
+#define WDC_NVME_PCIE_STATS_OPCODE 0xD1
+
/* Capture Diagnostics */
#define WDC_NVME_CAP_DIAG_HEADER_TOC_SIZE WDC_NVME_LOG_SIZE_DATA_LEN
#define WDC_NVME_CAP_DIAG_OPCODE 0xE6
@@ -160,6 +200,7 @@
#define WDC_NVME_DUI_MAX_SECTION_V2 0x26
#define WDC_NVME_DUI_MAX_SECTION_V3 0x23
#define WDC_NVME_DUI_MAX_DATA_AREA 0x05
+#define WDC_NVME_SN730_SECTOR_SIZE 512
/* Telemtery types for vs-internal-log command */
#define WDC_TELEMETRY_TYPE_NONE 0x0
@@ -224,6 +265,7 @@
#define WDC_NVME_CLEAR_FW_ACT_HIST_OPCODE 0xC6
#define WDC_NVME_CLEAR_FW_ACT_HIST_CMD 0x23
#define WDC_NVME_CLEAR_FW_ACT_HIST_SUBCMD 0x05
+#define WDC_NVME_CLEAR_FW_ACT_HIST_VU_FID 0xC1
/* Additional Smart Log */
#define WDC_ADD_LOG_BUF_LEN 0x4000
@@ -233,6 +275,7 @@
/* C2 Log Page */
#define WDC_NVME_GET_DEV_MGMNT_LOG_PAGE_OPCODE 0xC2
+#define WDC_NVME_GET_DEV_MGMNT_LOG_PAGE_OPCODE_C8 0xC8
#define WDC_C2_LOG_BUF_LEN 0x1000
#define WDC_C2_LOG_PAGES_SUPPORTED_ID 0x08
#define WDC_C2_CUSTOMER_ID_ID 0x15
@@ -262,11 +305,20 @@
/* C0 EOL Status Log Page */
#define WDC_NVME_GET_EOL_STATUS_LOG_OPCODE 0xC0
#define WDC_NVME_EOL_STATUS_LOG_LEN 0x200
+#define WDC_NVME_SMART_CLOUD_ATTR_LEN 0x200
+
+/* C0 SMART Cloud Attributes Log Page*/
+#define WDC_NVME_GET_SMART_CLOUD_ATTR_LOG_OPCODE 0xC0
/* CB - FW Activate History Log Page */
#define WDC_NVME_GET_FW_ACT_HISTORY_LOG_ID 0xCB
#define WDC_FW_ACT_HISTORY_LOG_BUF_LEN 0x3d0
+/* C2 - FW Activation History Log Page */
+#define WDC_NVME_GET_FW_ACT_HISTORY_C2_LOG_ID 0xC2
+#define WDC_FW_ACT_HISTORY_C2_LOG_BUF_LEN 0x1000
+#define WDC_MAX_NUM_ACT_HIST_ENTRIES 20
+
/* D0 Smart Log Page */
#define WDC_NVME_GET_VU_SMART_LOG_OPCODE 0xD0
#define WDC_NVME_VU_SMART_LOG_LEN 0x200
@@ -274,13 +326,16 @@
/* Log Page Directory defines */
#define NVME_LOG_PERSISTENT_EVENT 0x0D
#define WDC_LOG_ID_C0 0xC0
+#define WDC_LOG_ID_C1 0xC1
#define WDC_LOG_ID_C2 WDC_NVME_GET_DEV_MGMNT_LOG_PAGE_OPCODE
#define WDC_LOG_ID_C4 0xC4
#define WDC_LOG_ID_C5 0xC5
#define WDC_LOG_ID_C6 0xC6
+#define WDC_LOG_ID_C8 WDC_NVME_GET_DEV_MGMNT_LOG_PAGE_OPCODE_C8
#define WDC_LOG_ID_CA WDC_NVME_GET_DEVICE_INFO_LOG_OPCODE
#define WDC_LOG_ID_CB WDC_NVME_GET_FW_ACT_HISTORY_LOG_ID
#define WDC_LOG_ID_D0 WDC_NVME_GET_VU_SMART_LOG_OPCODE
+#define WDC_LOG_ID_D1 0xD1
#define WDC_LOG_ID_D6 0xD6
#define WDC_LOG_ID_D7 0xD7
#define WDC_LOG_ID_D8 0xD8
@@ -291,10 +346,11 @@
#define WDC_LOG_ID_FA 0xFA
/* Clear PCIe Correctable Errors */
-#define WDC_NVME_CLEAR_PCIE_CORR_OPCODE WDC_NVME_CAP_DIAG_CMD_OPCODE
-#define WDC_NVME_CLEAR_PCIE_CORR_CMD 0x22
-#define WDC_NVME_CLEAR_PCIE_CORR_SUBCMD 0x04
-
+#define WDC_NVME_CLEAR_PCIE_CORR_OPCODE WDC_NVME_CAP_DIAG_CMD_OPCODE
+#define WDC_NVME_CLEAR_PCIE_CORR_CMD 0x22
+#define WDC_NVME_CLEAR_PCIE_CORR_SUBCMD 0x04
+#define WDC_NVME_CLEAR_PCIE_CORR_OPCODE_VUC 0xD2
+#define WDC_NVME_CLEAR_PCIE_CORR_FEATURE_ID 0xC3
/* Clear Assert Dump Status */
#define WDC_NVME_CLEAR_ASSERT_DUMP_OPCODE 0xD8
#define WDC_NVME_CLEAR_ASSERT_DUMP_CMD 0x03
@@ -319,6 +375,8 @@
/* VU Opcodes */
#define WDC_DE_VU_READ_SIZE_OPCODE 0xC0
#define WDC_DE_VU_READ_BUFFER_OPCODE 0xC2
+#define WDC_NVME_ADMIN_ENC_MGMT_SND 0xC9
+#define WDC_NVME_ADMIN_ENC_MGMT_RCV 0xCA
#define WDC_DE_FILE_HEADER_SIZE 4
#define WDC_DE_FILE_OFFSET_SIZE 2
@@ -332,6 +390,21 @@
#define WDC_DE_DESTN_SPI 1
#define WDC_DE_DUMPTRACE_DESTINATION 6
+#define NVME_ID_CTRL_MODEL_NUMBER_SIZE 40
+#define NVME_ID_CTRL_SERIAL_NUMBER_SIZE 20
+
+/* Enclosure log */
+#define WDC_NVME_ENC_LOG_SIZE_CHUNK 0x1000
+#define WDC_NVME_ENC_NIC_LOG_SIZE 0x400000
+
+/* Enclosure nic crash dump get-log id */
+#define WDC_ENC_NIC_CRASH_DUMP_ID_SLOT_1 0xD1
+#define WDC_ENC_NIC_CRASH_DUMP_ID_SLOT_2 0xD2
+#define WDC_ENC_NIC_CRASH_DUMP_ID_SLOT_3 0xD3
+#define WDC_ENC_NIC_CRASH_DUMP_ID_SLOT_4 0xD4
+#define WDC_ENC_CRASH_DUMP_ID 0xE4
+#define WDC_ENC_LOG_DUMP_ID 0xE2
+
typedef enum _NVME_FEATURES_SELECT
{
FS_CURRENT = 0,
@@ -392,6 +465,62 @@ typedef enum
WDC_DE_TYPE_ALL = 0xFFFFFFF,
} WDC_DRIVE_ESSENTIAL_TYPE;
+typedef enum
+{
+ SCAO_PMUW = 0, /* Physical media units written */
+ SCAO_PMUR = 16, /* Physical media units read */
+ SCAO_BUNBR = 32, /* Bad user nand blocks raw */
+ SCAO_BUNBN = 38, /* Bad user nand blocks normalized */
+ SCAO_BSNBR = 40, /* Bad system nand blocks raw */
+ SCAO_BSNBN = 46, /* Bad system nand blocks normalized */
+ SCAO_XRC = 48, /* XOR recovery count */
+ SCAO_UREC = 56, /* Uncorrectable read error count */
+ SCAO_SEEC = 64, /* Soft ecc error count */
+ SCAO_EECE = 72, /* End to end corrected errors */
+ SCAO_EEDC = 76, /* End to end detected errors */
+ SCAO_SDPU = 80, /* System data percent used */
+ SCAO_RFSC = 81, /* Refresh counts */
+ SCAO_MXUDEC = 88, /* Max User data erase counts */
+ SCAO_MNUDEC = 92, /* Min User data erase counts */
+ SCAO_NTTE = 96, /* Number of Thermal throttling events */
+ SCAO_CTS = 97, /* Current throttling status */
+ SCAO_EVF = 98, /* Errata Version Field */
+ SCAO_PVF = 99, /* Point Version Field */
+ SCAO_MIVF = 101, /* Minor Version Field */
+ SCAO_MAVF = 103, /* Major Version Field */
+ SCAO_PCEC = 104, /* PCIe correctable error count */
+ SCAO_ICS = 112, /* Incomplete shutdowns */
+ SCAO_PFB = 120, /* Percent free blocks */
+ SCAO_CPH = 128, /* Capacitor health */
+ SCAO_NEV = 130, /* NVMe Errata Version */
+ SCAO_UIO = 136, /* Unaligned I/O */
+ SCAO_SVN = 144, /* Security Version Number */
+ SCAO_NUSE = 152, /* NUSE - Namespace utilization */
+ SCAO_PSC = 160, /* PLP start count */
+ SCAO_EEST = 176, /* Endurance estimate */
+ SCAO_PLRC = 192, /* PCIe Link Retraining Count */
+ SCAO_LPV = 494, /* Log page version */
+ SCAO_LPG = 496, /* Log page GUID */
+} SMART_CLOUD_ATTRIBUTE_OFFSETS;
+
+#define WDC_C2_GUID_LENGTH 16
+
+static __u8 scao_guid[WDC_C2_GUID_LENGTH] = { 0xC5, 0xAF, 0x10, 0x28, 0xEA, 0xBF, 0xF2, 0xA4,
+ 0x9C, 0x4F, 0x6F, 0x7C, 0xC9, 0x14, 0xD5, 0xAF };
+
+typedef enum
+{
+ EOL_RBC = 76, /* Realloc Block Count */
+ EOL_ECCR = 80, /* ECC Rate */
+ EOL_WRA = 84, /* Write Amp */
+ EOL_PLR = 88, /* Percent Life Remaining */
+ EOL_RSVBC = 92, /* Reserved Block Count */
+ EOL_PFC = 96, /* Program Fail Count */
+ EOL_EFC = 100, /* Erase Fail Count */
+ EOL_RRER = 108, /* Raw Read Error Rate */
+} EOL_LOG_PAGE_C0_OFFSETS;
+
+
typedef struct __attribute__((__packed__)) _WDC_DE_VU_FILE_META_DATA
{
__u8 fileName[WDC_DE_FILE_NAME_SIZE];
@@ -517,6 +646,12 @@ static int wdc_log_page_directory(int argc, char **argv, struct command *command
static int wdc_do_drive_info(int fd, __u32 *result);
static int wdc_vs_drive_info(int argc, char **argv, struct command *command,
struct plugin *plugin);
+static int wdc_vs_temperature_stats(int argc, char **argv, struct command *command,
+ struct plugin *plugin);
+static __u64 wdc_get_enc_drive_capabilities(int fd);
+static int wdc_enc_get_nic_log(int fd, __u8 log_id, __u32 xfer_size, __u32 data_len, FILE *out);
+static int wdc_enc_submit_move_data(int fd, char *cmd, int len, int xfer_size, FILE *out, int data_id, int cdw14, int cdw15);
+static bool get_dev_mgment_cbs_data(int fd, __u8 log_id, void **cbs_data);
/* Drive log data size */
struct wdc_log_size {
@@ -543,6 +678,14 @@ struct __attribute__((__packed__)) wdc_dui_log_section_v2 {
__le64 section_size;
};
+/* DUI log header V4 */
+struct wdc_dui_log_section_v4 {
+ __le16 section_type;
+ __u8 data_area_id;
+ __u8 reserved;
+ __le32 section_size_sectors;
+};
+
struct wdc_dui_log_hdr {
__u8 telemetry_hdr[512];
__le16 hdr_version;
@@ -573,6 +716,16 @@ struct __attribute__((__packed__)) wdc_dui_log_hdr_v3 {
__u8 log_data[40];
};
+struct __attribute__((__packed__)) wdc_dui_log_hdr_v4 {
+ __u8 telemetry_hdr[512];
+ __u8 hdr_version;
+ __u8 product_id;
+ __le16 section_count;
+ __le32 log_size_sectors;
+ struct wdc_dui_log_section_v4 log_section[WDC_NVME_DUI_MAX_SECTION];
+ __u8 log_data[40];
+};
+
/* Purge monitor response */
struct wdc_nvme_purge_monitor_data {
__le16 rsvd1;
@@ -706,7 +859,57 @@ struct __attribute__((__packed__)) wdc_nand_stats {
__le64 nand_rec_trigger_event;
__le64 e2e_error_counter;
__le64 successful_ns_resize_event;
- __u8 rsvd[444];
+ __u8 rsvd[442];
+ __u16 log_page_version;
+};
+
+struct __attribute__((__packed__)) wdc_nand_stats_V3 {
+ __u8 nand_write_tlc[16];
+ __u8 nand_write_slc[16];
+ __u8 bad_nand_block_count[8];
+ __le64 xor_recovery_count;
+ __le64 uecc_read_error_count;
+ __u8 ssd_correction_counts[16];
+ __u8 percent_life_used;
+ __le64 user_data_erase_counts[4];
+ __u8 program_fail_count[8];
+ __u8 erase_fail_count[8];
+ __le64 correctable_error_count;
+ __u8 percent_free_blocks_user;
+ __le64 security_version_number;
+ __u8 percent_free_blocks_system;
+ __u8 trim_completions[25];
+ __u8 back_pressure_guage;
+ __le64 soft_ecc_error_count;
+ __le64 refresh_count;
+ __u8 bad_sys_nand_block_count[8];
+ __u8 endurance_estimate[16];
+ __u8 thermal_throttling_st_ct[2];
+ __le64 unaligned_IO;
+ __u8 physical_media_units[16];
+ __u8 reserved[279];
+ __u16 log_page_version;
+};
+
+struct wdc_vs_pcie_stats
+{
+ __le64 unsupportedRequestErrorCount;
+ __le64 ecrcErrorStatusCount;
+ __le64 malformedTlpStatusCount;
+ __le64 receiverOverflowStatusCount;
+ __le64 unexpectedCmpltnStatusCount;
+ __le64 completeAbortStatusCount;
+ __le64 cmpltnTimoutStatusCount;
+ __le64 flowControlErrorStatusCount;
+ __le64 poisonedTlpStatusCount;
+ __le64 dLinkPrtclErrorStatusCount;
+ __le64 advsryNFatalErrStatusCount;
+ __le64 replayTimerToStatusCount;
+ __le64 replayNumRolloverStCount;
+ __le64 badDllpStatusCount;
+ __le64 badTlpStatusCount;
+ __le64 receiverErrStatusCount;
+ __u8 reserved1[384];
};
struct wdc_fw_act_history_log_hdr {
@@ -731,6 +934,32 @@ struct wdc_fw_act_history_log_entry {
__u8 reserved[12];
};
+struct __attribute__((__packed__)) wdc_fw_act_history_log_entry_c2 {
+ __u8 entry_version_num;
+ __u8 entry_len;
+ __le16 reserved;
+ __le16 fw_act_hist_entries;
+ __le64 timestamp;
+ __u8 reserved2[8];
+ __le64 power_cycle_count;
+ __le64 previous_fw_version;
+ __le64 current_fw_version;
+ __u8 slot_number;
+ __u8 commit_action_type;
+ __le16 result;
+ __u8 reserved3[14];
+};
+
+struct __attribute__((__packed__)) wdc_fw_act_history_log_format_c2 {
+ __u8 log_identifier;
+ __u8 reserved[3];
+ __le32 num_entries;
+ struct wdc_fw_act_history_log_entry_c2 entry[20];
+ __u8 reserved2[2790];
+ __le16 log_page_version;
+ __u8 log_page_guid[WDC_C2_GUID_LENGTH];
+};
+
#define WDC_REASON_INDEX_MAX 16
#define WDC_REASON_ID_ENTRY_LEN 128
#define WDC_REASON_ID_PATH_NAME "/usr/local/nvmecli"
@@ -835,15 +1064,63 @@ free_id:
return ret;
}
+static int wdc_get_vendor_id(int fd, uint32_t *vendor_id)
+{
+ int ret;
+ struct nvme_id_ctrl ctrl;
+
+ memset(&ctrl, 0, sizeof(struct nvme_id_ctrl));
+ ret = nvme_identify_ctrl(fd, &ctrl);
+ if (ret) {
+ fprintf(stderr, "ERROR : WDC : nvme_identify_ctrl() failed "
+ "0x%x\n", ret);
+ return -1;
+ }
+
+ *vendor_id = (uint32_t) ctrl.vid;
+
+ return ret;
+}
+
+static bool wdc_check_power_of_2(int num)
+{
+ return (num && ( !(num & (num-1))));
+}
+
+static int wdc_get_model_number(int fd, char *model)
+{
+ int ret,i;
+ struct nvme_id_ctrl ctrl;
+
+ memset(&ctrl, 0, sizeof(struct nvme_id_ctrl));
+ ret = nvme_identify_ctrl(fd, &ctrl);
+ if (ret) {
+ fprintf(stderr, "ERROR : WDC : nvme_identify_ctrl() failed "
+ "0x%x\n", ret);
+ return -1;
+ }
+
+ memcpy(model,ctrl.mn,NVME_ID_CTRL_MODEL_NUMBER_SIZE);
+ /* get rid of the padded spaces */
+ i = NVME_ID_CTRL_MODEL_NUMBER_SIZE-1;
+ while (model[i] == ' ') i--;
+ model[i+1]=0;
+
+ return ret;
+}
+
static bool wdc_check_device(int fd)
{
int ret;
bool supported;
- uint32_t read_device_id, read_vendor_id;
+ uint32_t read_device_id = -1, read_vendor_id = -1;
ret = wdc_get_pci_ids(&read_device_id, &read_vendor_id);
- if (ret < 0)
- return false;
+ if (ret < 0) {
+ /* Use the identify nvme command to get vendor id due to NVMeOF device. */
+ if (wdc_get_vendor_id(fd, &read_vendor_id) < 0)
+ return false;
+ }
supported = false;
@@ -858,14 +1135,46 @@ static bool wdc_check_device(int fd)
return supported;
}
+static bool wdc_enc_check_model(int fd)
+{
+ int ret;
+ bool supported;
+ char model[NVME_ID_CTRL_MODEL_NUMBER_SIZE+1];
+
+ ret = wdc_get_model_number(fd, model);
+ if (ret < 0)
+ return false;
+
+ supported = false;
+ model[NVME_ID_CTRL_MODEL_NUMBER_SIZE] = 0; /* forced termination */
+ if (strstr(model,WDC_OPENFLEX_MI_DEVICE_MODEL) != NULL)
+ supported = true;
+ else
+ fprintf(stderr, "ERROR : WDC: unsupported WDC enclosure, Model = %s\n",model);
+
+ return supported;
+}
+
static __u64 wdc_get_drive_capabilities(int fd) {
int ret;
- uint32_t read_device_id, read_vendor_id;
+ uint32_t read_device_id = -1, read_vendor_id = -1;
__u64 capabilities = 0;
+ __u8 *data;
+ __u32 *cust_id;
ret = wdc_get_pci_ids(&read_device_id, &read_vendor_id);
if (ret < 0)
+ {
+ if (wdc_get_vendor_id(fd, &read_vendor_id) < 0)
+ return capabilities;
+ }
+
+ /* below check condition is added due in NVMeOF device we dont have device_id so we need to use only vendor_id*/
+ if (read_device_id == -1 && read_vendor_id != -1)
+ {
+ capabilities = wdc_get_enc_drive_capabilities(fd);
return capabilities;
+ }
switch (read_vendor_id) {
case WDC_NVME_VID:
@@ -912,25 +1221,59 @@ static __u64 wdc_get_drive_capabilities(int fd) {
/* FALLTHRU */
case WDC_NVME_SN640_DEV_ID_2:
/* FALLTHRU */
- case WDC_NVME_SN640_DEV_ID_3:
- /* FALLTHRU */
+ case WDC_NVME_SN640_DEV_ID_3:
+ /* verify the 0xC0 log page is supported */
+ if (wdc_nvme_check_supported_log_page(fd, WDC_NVME_GET_EOL_STATUS_LOG_OPCODE) == true) {
+ capabilities |= WDC_DRIVE_CAP_C0_LOG_PAGE;
+ }
+
+ capabilities |= (WDC_DRIVE_CAP_CAP_DIAG | WDC_DRIVE_CAP_INTERNAL_LOG |
+ WDC_DRIVE_CAP_DRIVE_STATUS | WDC_DRIVE_CAP_CLEAR_ASSERT |
+ WDC_DRIVE_CAP_RESIZE | WDC_DRIVE_CAP_FW_ACTIVATE_HISTORY |
+ WDC_DRVIE_CAP_DISABLE_CTLR_TELE_LOG | WDC_DRIVE_CAP_REASON_ID |
+ WDC_DRIVE_CAP_LOG_PAGE_DIR);
+
+ /* verify the 0xCA log page is supported */
+ if (wdc_nvme_check_supported_log_page(fd, WDC_NVME_GET_DEVICE_INFO_LOG_OPCODE) == true)
+ capabilities |= WDC_DRIVE_CAP_CA_LOG_PAGE;
+
+ /* verify the 0xD0 log page is supported */
+ if (wdc_nvme_check_supported_log_page(fd, WDC_NVME_GET_VU_SMART_LOG_OPCODE) == true)
+ capabilities |= WDC_DRIVE_CAP_D0_LOG_PAGE;
+
+ if (!get_dev_mgment_cbs_data(fd, WDC_C2_CUSTOMER_ID_ID, (void*)&data)) {
+ fprintf(stderr, "%s: ERROR : WDC : 0xC2 Log Page entry ID 0x%x not found\n", __func__, WDC_C2_CUSTOMER_ID_ID);
+ return -1;
+ }
+
+ cust_id = (__u32*)data;
+
+ if ((*cust_id == WDC_CUSTOMER_ID_0x1004) || (*cust_id == WDC_CUSTOMER_ID_0x1008) ||
+ (*cust_id == WDC_CUSTOMER_ID_0x1005) || (*cust_id == WDC_CUSTOMER_ID_0x1304))
+ capabilities |= (WDC_DRIVE_CAP_VU_FID_CLEAR_FW_ACT_HISTORY | WDC_DRIVE_CAP_VU_FID_CLEAR_PCIE |
+ WDC_DRIVE_CAP_INFO | WDC_DRIVE_CAP_CLOUD_SSD_VERSION);
+ else
+ capabilities |= (WDC_DRIVE_CAP_CLEAR_FW_ACT_HISTORY | WDC_DRIVE_CAP_CLEAR_PCIE);
+
+ break;
case WDC_NVME_SN840_DEV_ID:
/* FALLTHRU */
case WDC_NVME_SN840_DEV_ID_1:
+ /* verify the 0xC0 log page is supported */
+ if (wdc_nvme_check_supported_log_page(fd, WDC_NVME_GET_EOL_STATUS_LOG_OPCODE) == true) {
+ capabilities |= WDC_DRIVE_CAP_C0_LOG_PAGE;
+ }
/* FALLTHRU */
- case WDC_NVME_ZN440_DEV_ID:
+ case WDC_NVME_ZN540_DEV_ID:
/* FALLTHRU */
- case WDC_NVME_SN440_DEV_ID:
- /* FALLTHRU */
- case WDC_NVME_SN7GC_DEV_ID:
- case WDC_NVME_SN7GC_DEV_ID_1:
- case WDC_NVME_SN7GC_DEV_ID_2:
- capabilities = (WDC_DRIVE_CAP_CAP_DIAG | WDC_DRIVE_CAP_INTERNAL_LOG |
+ case WDC_NVME_SN540_DEV_ID:
+ /* FALLTHRU */
+ capabilities |= (WDC_DRIVE_CAP_CAP_DIAG | WDC_DRIVE_CAP_INTERNAL_LOG |
WDC_DRIVE_CAP_DRIVE_STATUS | WDC_DRIVE_CAP_CLEAR_ASSERT |
WDC_DRIVE_CAP_RESIZE | WDC_DRIVE_CAP_CLEAR_PCIE |
WDC_DRIVE_CAP_FW_ACTIVATE_HISTORY | WDC_DRIVE_CAP_CLEAR_FW_ACT_HISTORY |
WDC_DRVIE_CAP_DISABLE_CTLR_TELE_LOG | WDC_DRIVE_CAP_REASON_ID |
- WDC_DRIVE_CAP_LOG_PAGE_DIR | WDC_DRIVE_CAP_INFO);
+ WDC_DRIVE_CAP_LOG_PAGE_DIR );
/* verify the 0xCA log page is supported */
if (wdc_nvme_check_supported_log_page(fd, WDC_NVME_GET_DEVICE_INFO_LOG_OPCODE) == true)
@@ -940,6 +1283,24 @@ static __u64 wdc_get_drive_capabilities(int fd) {
if (wdc_nvme_check_supported_log_page(fd, WDC_NVME_GET_VU_SMART_LOG_OPCODE) == true)
capabilities |= WDC_DRIVE_CAP_D0_LOG_PAGE;
break;
+ case WDC_NVME_SN650_DEV_ID:
+ case WDC_NVME_SN650_DEV_ID_1:
+ case WDC_NVME_SN650_DEV_ID_2:
+ case WDC_NVME_SN650_DEV_ID_3:
+ /* verify the 0xC0 log page is supported */
+ if (wdc_nvme_check_supported_log_page(fd, WDC_NVME_GET_EOL_STATUS_LOG_OPCODE) == true) {
+ capabilities |= WDC_DRIVE_CAP_C0_LOG_PAGE;
+ }
+
+ capabilities |= (WDC_DRIVE_CAP_CAP_DIAG | WDC_DRIVE_CAP_INTERNAL_LOG |
+ WDC_DRIVE_CAP_DRIVE_STATUS | WDC_DRIVE_CAP_CLEAR_ASSERT |
+ WDC_DRIVE_CAP_RESIZE | WDC_DRIVE_CAP_VU_FID_CLEAR_PCIE |
+ WDC_DRIVE_CAP_FW_ACTIVATE_HISTORY | WDC_DRIVE_CAP_VU_FID_CLEAR_FW_ACT_HISTORY |
+ WDC_DRVIE_CAP_DISABLE_CTLR_TELE_LOG | WDC_DRIVE_CAP_REASON_ID |
+ WDC_DRIVE_CAP_LOG_PAGE_DIR | WDC_DRIVE_CAP_INFO |
+ WDC_DRIVE_CAP_CLOUD_SSD_VERSION);
+
+ break;
case WDC_NVME_SN730B_DEV_ID:
/* FALLTHRU */
case WDC_NVME_SN730B_DEV_ID_1:
@@ -965,10 +1326,18 @@ static __u64 wdc_get_drive_capabilities(int fd) {
capabilities = WDC_DRIVE_CAP_DUI_DATA | WDC_DRIVE_CAP_NAND_STATS | WDC_DRIVE_CAP_NS_RESIZE;
break;
case WDC_NVME_SN730A_DEV_ID:
- capabilities = WDC_DRIVE_CAP_DUI_DATA | WDC_DRIVE_CAP_NAND_STATS;
+ capabilities = WDC_DRIVE_CAP_DUI | WDC_DRIVE_CAP_NAND_STATS | WDC_DRIVE_CAP_INFO_2
+ | WDC_DRIVE_CAP_TEMP_STATS | WDC_DRIVE_CAP_VUC_CLEAR_PCIE | WDC_DRIVE_CAP_PCIE_STATS;
break;
case WDC_NVME_SN340_DEV_ID:
- capabilities = WDC_DRIVE_CAP_SN340_DUI;
+ capabilities = WDC_DRIVE_CAP_DUI;
+ break;
+ case WDC_NVME_ZN350_DEV_ID:
+ /* FALLTHRU */
+ case WDC_NVME_ZN350_DEV_ID_1:
+ capabilities = WDC_DRIVE_CAP_DUI_DATA | WDC_DRIVE_CAP_VU_FID_CLEAR_PCIE | WDC_DRIVE_CAP_C0_LOG_PAGE |
+ WDC_DRIVE_CAP_VU_FID_CLEAR_FW_ACT_HISTORY | WDC_DRIVE_CAP_FW_ACTIVATE_HISTORY_C2 |
+ WDC_DRIVE_CAP_INFO | WDC_DRIVE_CAP_CLOUD_SSD_VERSION | WDC_DRIVE_CAP_LOG_PAGE_DIR;
break;
default:
capabilities = 0;
@@ -981,6 +1350,71 @@ static __u64 wdc_get_drive_capabilities(int fd) {
return capabilities;
}
+static __u64 wdc_get_enc_drive_capabilities(int fd) {
+ int ret;
+ uint32_t read_vendor_id;
+ __u64 capabilities = 0;
+ __u8 *data;
+ __u32 *cust_id;
+
+ ret = wdc_get_vendor_id(fd, &read_vendor_id);
+ if (ret < 0)
+ return capabilities;
+
+ switch (read_vendor_id) {
+ case WDC_NVME_VID:
+ capabilities = (WDC_DRIVE_CAP_CAP_DIAG | WDC_DRIVE_CAP_INTERNAL_LOG | WDC_DRIVE_CAP_CLEAR_PCIE |
+ WDC_DRIVE_CAP_DRIVE_LOG | WDC_DRIVE_CAP_CRASH_DUMP | WDC_DRIVE_CAP_PFAIL_DUMP);
+
+ /* verify the 0xCA log page is supported */
+ if (wdc_nvme_check_supported_log_page(fd, WDC_NVME_GET_DEVICE_INFO_LOG_OPCODE) == true)
+ capabilities |= WDC_DRIVE_CAP_CA_LOG_PAGE;
+
+ /* verify the 0xC1 log page is supported */
+ if (wdc_nvme_check_supported_log_page(fd, WDC_NVME_ADD_LOG_OPCODE) == true)
+ capabilities |= WDC_DRIVE_CAP_C1_LOG_PAGE;
+ break;
+ case WDC_NVME_VID_2:
+ capabilities = (WDC_DRIVE_CAP_CAP_DIAG | WDC_DRIVE_CAP_INTERNAL_LOG |
+ WDC_DRIVE_CAP_DRIVE_STATUS | WDC_DRIVE_CAP_CLEAR_ASSERT |
+ WDC_DRIVE_CAP_RESIZE);
+
+ /* verify the 0xCB log page is supported */
+ if (wdc_nvme_check_supported_log_page(fd, WDC_NVME_GET_FW_ACT_HISTORY_LOG_ID) == true)
+ capabilities |= WDC_DRIVE_CAP_FW_ACTIVATE_HISTORY;
+
+ /* verify the 0xCA log page is supported */
+ if (wdc_nvme_check_supported_log_page(fd, WDC_NVME_GET_DEVICE_INFO_LOG_OPCODE) == true)
+ capabilities |= WDC_DRIVE_CAP_CA_LOG_PAGE;
+
+ /* verify the 0xD0 log page is supported */
+ if (wdc_nvme_check_supported_log_page(fd, WDC_NVME_GET_VU_SMART_LOG_OPCODE) == true)
+ capabilities |= WDC_DRIVE_CAP_D0_LOG_PAGE;
+
+ if (!get_dev_mgment_cbs_data(fd, WDC_C2_CUSTOMER_ID_ID, (void*)&data)) {
+ fprintf(stderr, "%s: ERROR : WDC : 0xC2 Log Page entry ID 0x%x not found\n", __func__, WDC_C2_CUSTOMER_ID_ID);
+ return -1;
+ }
+
+ cust_id = (__u32*)data;
+
+ if ((*cust_id == WDC_CUSTOMER_ID_0x1004) || (*cust_id == WDC_CUSTOMER_ID_0x1008) ||
+ (*cust_id == WDC_CUSTOMER_ID_0x1005) || (*cust_id == WDC_CUSTOMER_ID_0x1304))
+ capabilities |= (WDC_DRIVE_CAP_VU_FID_CLEAR_FW_ACT_HISTORY | WDC_DRIVE_CAP_VU_FID_CLEAR_PCIE);
+ else
+ capabilities |= (WDC_DRIVE_CAP_CLEAR_FW_ACT_HISTORY | WDC_DRIVE_CAP_CLEAR_PCIE);
+
+ break;
+ case WDC_NVME_SNDK_VID:
+ capabilities = WDC_DRIVE_CAP_DRIVE_ESSENTIALS;
+ break;
+ default:
+ capabilities = 0;
+ }
+
+ return capabilities;
+}
+
static int wdc_get_serial_name(int fd, char *file, size_t len, const char *suffix)
{
int i;
@@ -1060,6 +1494,99 @@ static int wdc_create_log_file(char *file, __u8 *drive_log_data,
return 0;
}
+bool wdc_get_dev_mng_log_entry(__u32 log_length,
+ __u32 entry_id,
+ struct wdc_c2_log_page_header* p_log_hdr,
+ struct wdc_c2_log_subpage_header **p_p_found_log_entry)
+{
+ __u32 remaining_len = 0;
+ __u32 log_entry_hdr_size = sizeof(struct wdc_c2_log_subpage_header) - 1;
+ __u32 log_entry_size = 0;
+ __u32 size = 0;
+ bool valid_log;
+ __u32 current_data_offset = 0;
+ struct wdc_c2_log_subpage_header *p_next_log_entry = NULL;
+
+ if (*p_p_found_log_entry == NULL) {
+ fprintf(stderr, "ERROR : WDC - wdc_get_dev_mng_log_entry: No ppLogEntry pointer.\n");
+ return false;
+ }
+
+ *p_p_found_log_entry = NULL;
+
+ /* Ensure log data is large enough for common header */
+ if (log_length < sizeof(struct wdc_c2_log_page_header)) {
+ fprintf(stderr, "ERROR : WDC - wdc_get_dev_mng_log_entry: \
+ Buffer is not large enough for the common header. BufSize: 0x%x HdrSize: %"PRIxPTR"\n",
+ log_length, sizeof(struct wdc_c2_log_page_header));
+ return false;
+ }
+
+ /* Get pointer to first log Entry */
+ size = sizeof(struct wdc_c2_log_page_header);
+ current_data_offset = size;
+ p_next_log_entry = (struct wdc_c2_log_subpage_header *)((__u8*)p_log_hdr + current_data_offset);
+ remaining_len = log_length - size;
+ valid_log = false;
+
+ /* Walk the entire structure. Perform a sanity check to make sure this is a
+ standard version of the structure. This means making sure each entry looks
+ valid. But allow for the data to overflow the allocated
+ buffer (we don't want a false negative because of a FW formatting error) */
+
+ /* Proceed only if there is at least enough data to read an entry header */
+ while (remaining_len >= log_entry_hdr_size) {
+ /* Get size of the next entry */
+ log_entry_size = p_next_log_entry->length;
+
+ /* If log entry size is 0 or the log entry goes past the end
+ of the data, we must be at the end of the data */
+ if ((log_entry_size == 0) ||
+ (log_entry_size > remaining_len)) {
+ fprintf(stderr, "ERROR : WDC: wdc_get_dev_mng_log_entry: \
+ Detected unaligned end of the data. Data Offset: 0x%x \
+ Entry Size: 0x%x, Remaining Log Length: 0x%x Entry Id: 0x%x\n",
+ current_data_offset, log_entry_size, remaining_len, p_next_log_entry->entry_id);
+
+ /* Force the loop to end */
+ remaining_len = 0;
+ } else if ((p_next_log_entry->entry_id == 0) ||
+ (p_next_log_entry->entry_id > 200)) {
+ /* Invalid entry - fail the search */
+ fprintf(stderr, "ERROR : WDC: wdc_get_dev_mng_log_entry: \
+ Invalid entry found at offset: 0x%x Entry Size: 0x%x, \
+ Remaining Log Length: 0x%x Entry Id: 0x%x\n",
+ current_data_offset, log_entry_size, remaining_len, p_next_log_entry->entry_id);
+
+ /* Force the loop to end */
+ remaining_len = 0;
+ valid_log = false;
+
+ /* The struture is invalid, so any match that was found is invalid. */
+ *p_p_found_log_entry = NULL;
+ } else {
+ /* Structure must have at least one valid entry to be considered valid */
+ valid_log = true;
+ if (p_next_log_entry->entry_id == entry_id) {
+ /* A potential match. */
+ *p_p_found_log_entry = p_next_log_entry;
+ }
+
+ remaining_len -= log_entry_size;
+
+ if (remaining_len > 0) {
+ /* Increment the offset counter */
+ current_data_offset += log_entry_size;
+
+ /* Get the next entry */
+ p_next_log_entry = (struct wdc_c2_log_subpage_header *)(((__u8*)p_log_hdr) + current_data_offset);
+ }
+ }
+ }
+
+ return valid_log;
+}
+
static bool get_dev_mgment_cbs_data(int fd, __u8 log_id, void **cbs_data)
{
int ret = -1;
@@ -1068,8 +1595,17 @@ static bool get_dev_mgment_cbs_data(int fd, __u8 log_id, void **cbs_data)
struct wdc_c2_log_subpage_header *sph;
__u32 length = 0;
bool found = false;
-
+ __u8 uuid_ix = 1;
+ __u8 lid = 0;
*cbs_data = NULL;
+ __u32 device_id, read_vendor_id;
+
+ ret = wdc_get_pci_ids(&device_id, &read_vendor_id);
+ if(device_id == WDC_NVME_ZN350_DEV_ID || device_id == WDC_NVME_ZN350_DEV_ID_1) {
+ lid = WDC_NVME_GET_DEV_MGMNT_LOG_PAGE_OPCODE_C8;
+ uuid_ix = 0;
+ } else
+ lid = WDC_NVME_GET_DEV_MGMNT_LOG_PAGE_OPCODE;
if ((data = (__u8*) malloc(sizeof (__u8) * WDC_C2_LOG_BUF_LEN)) == NULL) {
fprintf(stderr, "ERROR : WDC : malloc : %s\n", strerror(errno));
@@ -1078,10 +1614,9 @@ static bool get_dev_mgment_cbs_data(int fd, __u8 log_id, void **cbs_data)
memset(data, 0, sizeof (__u8) * WDC_C2_LOG_BUF_LEN);
/* get the log page length */
- ret = nvme_get_log(fd, 0xFFFFFFFF, WDC_NVME_GET_DEV_MGMNT_LOG_PAGE_OPCODE,
- false, WDC_C2_LOG_BUF_LEN, data);
+ ret = nvme_get_log14(fd, 0xFFFFFFFF, lid, NVME_NO_LOG_LSP, 0, 0, false, uuid_ix, WDC_C2_LOG_BUF_LEN, data);
if (ret) {
- fprintf(stderr, "ERROR : WDC : Unable to get C2 Log Page length, ret = 0x%x\n", ret);
+ fprintf(stderr, "ERROR : WDC : Unable to get 0x%x Log Page length, ret = 0x%x\n", lid, ret);
goto end;
}
@@ -1097,28 +1632,37 @@ static bool get_dev_mgment_cbs_data(int fd, __u8 log_id, void **cbs_data)
}
}
- ret = nvme_get_log(fd, 0xFFFFFFFF, WDC_NVME_GET_DEV_MGMNT_LOG_PAGE_OPCODE,
- false, le32_to_cpu(hdr_ptr->length), data);
- /* parse the data until the List of log page ID's is found */
+ /* get the log page data */
+ ret = nvme_get_log14(fd, 0xFFFFFFFF, lid, NVME_NO_LOG_LSP, 0, 0, false, uuid_ix, le32_to_cpu(hdr_ptr->length), data);
if (ret) {
- fprintf(stderr, "ERROR : WDC : Unable to read C2 Log Page data, ret = 0x%x\n", ret);
+ fprintf(stderr, "ERROR : WDC : Unable to read 0x%x Log Page data, ret = 0x%x\n", lid, ret);
goto end;
}
+ /* Check the log data to see if the WD version of log page ID's is found */
+
length = sizeof(struct wdc_c2_log_page_header);
hdr_ptr = (struct wdc_c2_log_page_header *)data;
+ sph = (struct wdc_c2_log_subpage_header *)(data + length);
+ found = wdc_get_dev_mng_log_entry(hdr_ptr->length, log_id, hdr_ptr, &sph);
- while (length < le32_to_cpu(hdr_ptr->length)) {
+ if (found) {
+ *cbs_data = (void *)&sph->data;
+ } else {
+ /* not found with uuid = 1 try with uuid = 0 */
+ uuid_ix = 0;
+ /* get the log page data */
+ ret = nvme_get_log14(fd, 0xFFFFFFFF, lid, NVME_NO_LOG_LSP, 0, 0, false, uuid_ix, le32_to_cpu(hdr_ptr->length), data);
+ hdr_ptr = (struct wdc_c2_log_page_header *)data;
sph = (struct wdc_c2_log_subpage_header *)(data + length);
-
- if (le32_to_cpu(sph->entry_id) == log_id) {
+ found = wdc_get_dev_mng_log_entry(hdr_ptr->length, log_id, hdr_ptr, &sph);
+ if (found) {
*cbs_data = (void *)&sph->data;
- found = true;
- break;
+ } else {
+ /* WD version not found */
+ fprintf(stderr, "ERROR : WDC : Unable to find correct version of page 0x%x, entry id = %d\n", lid, log_id);
}
- length += le32_to_cpu(sph->length);
}
-
end:
free(data);
return found;
@@ -1270,6 +1814,7 @@ static __u32 wdc_dump_dui_data_v2(int fd, __u32 dataLen, __u64 offset, __u8 *dum
{
int ret;
struct nvme_admin_cmd admin_cmd;
+ __u64 offset_lo, offset_hi;
memset(&admin_cmd, 0, sizeof (struct nvme_admin_cmd));
admin_cmd.opcode = WDC_NVME_CAP_DUI_OPCODE;
@@ -1277,8 +1822,11 @@ static __u32 wdc_dump_dui_data_v2(int fd, __u32 dataLen, __u64 offset, __u8 *dum
admin_cmd.addr = (__u64)(uintptr_t)dump_data;
admin_cmd.data_len = dataLen;
admin_cmd.cdw10 = ((dataLen >> 2) - 1);
- admin_cmd.cdw12 = (__u32)(offset & 0x00000000FFFFFFFF);
- admin_cmd.cdw13 = (__u32)(offset >> 32);
+ offset_lo = offset & 0x00000000FFFFFFFF;
+ offset_hi = ((offset & 0xFFFFFFFF00000000) >> 32);
+ admin_cmd.cdw12 = (__u32)offset_lo;
+ admin_cmd.cdw13 = (__u32)offset_hi;
+
if (last_xfer)
admin_cmd.cdw14 = 0;
else
@@ -1609,6 +2157,7 @@ static int wdc_do_cap_dui(int fd, char *file, __u32 xfer_size, int data_area, in
struct wdc_dui_log_hdr_v3 *log_hdr_v3;
__u32 cap_dui_length;
__u64 cap_dui_length_v3;
+ __u64 cap_dui_length_v4;
__u8 *dump_data = NULL;
__u8 *buffer_addr;
__s64 total_size = 0;
@@ -1634,7 +2183,100 @@ static int wdc_do_cap_dui(int fd, char *file, __u32 xfer_size, int data_area, in
}
/* Check the Log Header version */
- if (((log_hdr->hdr_version & 0xFF) == 0x02) ||
+ if ((log_hdr->hdr_version & 0xFF) == 0x00 ||
+ (log_hdr->hdr_version & 0xFF) == 0x01) {
+ __s32 log_size = 0;
+ __u32 curr_data_offset = 0;
+
+ cap_dui_length = le32_to_cpu(log_hdr->log_size);
+
+ if (verbose) {
+ fprintf(stderr, "INFO : WDC : Capture V1 Device Unit Info log, data area = %d\n", data_area);
+ fprintf(stderr, "INFO : WDC : DUI Header Version = 0x%x\n", log_hdr->hdr_version);
+ }
+
+ if (cap_dui_length == 0) {
+ fprintf(stderr, "INFO : WDC : Capture V1 Device Unit Info log is empty\n");
+ } else {
+ /* parse log header for all sections up to specified data area inclusively */
+ if (data_area != WDC_NVME_DUI_MAX_DATA_AREA) {
+ for(j = 0; j < WDC_NVME_DUI_MAX_SECTION; j++) {
+ if (log_hdr->log_section[j].data_area_id <= data_area &&
+ log_hdr->log_section[j].data_area_id != 0) {
+ log_size += log_hdr->log_section[j].section_size;
+ if (verbose)
+ fprintf(stderr, "%s: Data area ID %d : section size 0x%x, total size = 0x%x\n",
+ __func__, log_hdr->log_section[j].data_area_id, (unsigned int)log_hdr->log_section[j].section_size, (unsigned int)log_size);
+
+ }
+ else {
+ if (verbose)
+ fprintf(stderr, "%s: break, total size = 0x%x\n", __func__, (unsigned int)log_size);
+ break;
+ }
+ }
+ } else
+ log_size = cap_dui_length;
+
+ total_size = log_size;
+
+ dump_data = (__u8 *) malloc(sizeof (__u8) * xfer_size);
+ if (dump_data == NULL) {
+ fprintf(stderr, "%s: ERROR : dump data V1 malloc failed : status %s, size = 0x%x\n",
+ __func__, strerror(errno), (unsigned int)xfer_size);
+ ret = -1;
+ goto out;
+ }
+ memset(dump_data, 0, sizeof (__u8) * xfer_size);
+
+ output = open(file, O_WRONLY | O_CREAT | O_TRUNC, 0666);
+ if (output < 0) {
+ fprintf(stderr, "%s: Failed to open output file %s: %s!\n",
+ __func__, file, strerror(errno));
+ ret = output;
+ goto free_mem;
+ }
+
+ /* write the telemetry and log headers into the dump_file */
+ err = write(output, (void *)log_hdr, WDC_NVME_CAP_DUI_HEADER_SIZE);
+ if (err != WDC_NVME_CAP_DUI_HEADER_SIZE) {
+ fprintf(stderr, "%s: Failed to flush header data to file!\n", __func__);
+ goto free_mem;
+ }
+
+ log_size -= WDC_NVME_CAP_DUI_HEADER_SIZE;
+ curr_data_offset = WDC_NVME_CAP_DUI_HEADER_SIZE;
+ i = 0;
+ buffer_addr = dump_data;
+
+ for(; log_size > 0; log_size -= xfer_size) {
+ xfer_size = min(xfer_size, log_size);
+
+ if (log_size <= xfer_size)
+ last_xfer = true;
+
+ ret = wdc_dump_dui_data(fd, xfer_size, curr_data_offset, buffer_addr, last_xfer);
+ if (ret != 0) {
+ fprintf(stderr, "%s: ERROR : WDC : Get chunk %d, size = 0x%"PRIx64", offset = 0x%x, addr = %p\n",
+ __func__, i, (uint64_t)log_size, curr_data_offset, buffer_addr);
+ fprintf(stderr, "%s: ERROR : WDC : NVMe Status:%s(%x)\n", __func__, nvme_status_to_string(ret), ret);
+ break;
+ }
+
+ /* write the dump data into the file */
+ err = write(output, (void *)buffer_addr, xfer_size);
+ if (err != xfer_size) {
+ fprintf(stderr, "%s: ERROR : WDC : Failed to flush DUI data to file! chunk %d, err = 0x%x, xfer_size = 0x%x\n",
+ __func__, i, err, xfer_size);
+ goto free_mem;
+ }
+
+ curr_data_offset += xfer_size;
+ i++;
+ }
+ }
+ }
+ else if (((log_hdr->hdr_version & 0xFF) == 0x02) ||
((log_hdr->hdr_version & 0xFF) == 0x03)) { /* Process Version 2 or 3 header */
__s64 log_size = 0;
__u64 curr_data_offset = 0;
@@ -1648,8 +2290,8 @@ static int wdc_do_cap_dui(int fd, char *file, __u32 xfer_size, int data_area, in
fprintf(stderr, "INFO : WDC : Capture V2 or V3 Device Unit Info log, data area = %d\n", data_area);
fprintf(stderr, "INFO : WDC : DUI Header Version = 0x%x\n", log_hdr_v3->hdr_version);
- if (log_hdr_v3->hdr_version >= 0x03)
- fprintf(stderr, "INFO : WDC : DUI Product ID = %c\n", log_hdr_v3->product_id);
+ if ((log_hdr->hdr_version & 0xFF) == 0x03)
+ fprintf(stderr, "INFO : WDC : DUI Product ID = 0x%x/%c\n", log_hdr_v3->product_id, log_hdr_v3->product_id);
}
if (cap_dui_length_v3 == 0) {
@@ -1662,12 +2304,12 @@ static int wdc_do_cap_dui(int fd, char *file, __u32 xfer_size, int data_area, in
log_hdr_v3->log_section[j].data_area_id != 0) {
log_size += log_hdr_v3->log_section[j].section_size;
if (verbose)
- fprintf(stderr, "%s: Data area ID %d : section size 0x%x, total size = 0x%lx\n",
- __func__, log_hdr_v3->log_section[j].data_area_id, (unsigned int)log_hdr_v3->log_section[j].section_size, (long unsigned int)log_size);
+ fprintf(stderr, "%s: Data area ID %d : section size 0x%x, total size = 0x%"PRIx64"\n",
+ __func__, log_hdr_v3->log_section[j].data_area_id, (unsigned int)log_hdr_v3->log_section[j].section_size, (uint64_t)log_size);
}
else {
if (verbose)
- fprintf(stderr, "%s: break, total size = 0x%lx\n", __func__, (long unsigned int)log_size);
+ fprintf(stderr, "%s: break, total size = 0x%"PRIx64"\n", __func__, (uint64_t)log_size);
break;
}
}
@@ -1684,8 +2326,8 @@ static int wdc_do_cap_dui(int fd, char *file, __u32 xfer_size, int data_area, in
dump_data = (__u8 *) malloc(sizeof (__u8) * xfer_size_long);
if (dump_data == NULL) {
- fprintf(stderr, "%s: ERROR : dump data v3 malloc failed : status %s, size = 0x%lx\n",
- __func__, strerror(errno), (long unsigned int)xfer_size_long);
+ fprintf(stderr, "%s: ERROR : dump data v3 malloc failed : status %s, size = 0x%"PRIx64"\n",
+ __func__, strerror(errno), (uint64_t)xfer_size_long);
ret = -1;
goto out;
}
@@ -1727,8 +2369,8 @@ static int wdc_do_cap_dui(int fd, char *file, __u32 xfer_size, int data_area, in
ret = wdc_dump_dui_data_v2(fd, (__u32)xfer_size_long, curr_data_offset, buffer_addr, last_xfer);
if (ret != 0) {
- fprintf(stderr, "%s: ERROR : WDC : Get chunk %d, size = 0x%lx, offset = 0x%lx, addr = 0x%lx\n",
- __func__, i, (long unsigned int)total_size, (long unsigned int)curr_data_offset, (long unsigned int)buffer_addr);
+ fprintf(stderr, "%s: ERROR : WDC : Get chunk %d, size = 0x%"PRIx64", offset = 0x%"PRIx64", addr = %p\n",
+ __func__, i, (uint64_t)total_size, (uint64_t)curr_data_offset, buffer_addr);
fprintf(stderr, "%s: ERROR : WDC : NVMe Status:%s(%x)\n", __func__, nvme_status_to_string(ret), ret);
break;
}
@@ -1736,8 +2378,8 @@ static int wdc_do_cap_dui(int fd, char *file, __u32 xfer_size, int data_area, in
/* write the dump data into the file */
err = write(output, (void *)buffer_addr, xfer_size_long);
if (err != xfer_size_long) {
- fprintf(stderr, "%s: ERROR : WDC : Failed to flush DUI data to file! chunk %d, err = 0x%x, xfer_size = 0x%lx\n",
- __func__, i, err, (long unsigned int)xfer_size_long);
+ fprintf(stderr, "%s: ERROR : WDC : Failed to flush DUI data to file! chunk %d, err = 0x%x, xfer_size = 0x%"PRIx64"\n",
+ __func__, i, err, (uint64_t)xfer_size_long);
goto free_mem;
}
@@ -1745,50 +2387,65 @@ static int wdc_do_cap_dui(int fd, char *file, __u32 xfer_size, int data_area, in
i++;
}
}
- } else {
- __s32 log_size = 0;
- __u32 curr_data_offset = 0;
+ }
+ else if ((log_hdr->hdr_version & 0xFF) == 0x04) {
+ __s64 log_size = 0;
+ __u64 curr_data_offset = 0;
+ struct wdc_dui_log_hdr_v4 *log_hdr_v4;
+ log_hdr_v4 = (struct wdc_dui_log_hdr_v4 *)log_hdr;
+ __s64 xfer_size_long = (__s64)xfer_size;
+ __s64 section_size_bytes = 0;
- cap_dui_length = le32_to_cpu(log_hdr->log_size);
+ cap_dui_length_v4 = le64_to_cpu(log_hdr_v4->log_size_sectors) * WDC_NVME_SN730_SECTOR_SIZE;
if (verbose) {
- fprintf(stderr, "INFO : WDC : Capture V1 Device Unit Info log, data area = %d\n", data_area);
- fprintf(stderr, "INFO : WDC : DUI Header Version = 0x%x\n", log_hdr->hdr_version);
+ fprintf(stderr, "INFO : WDC : Capture V4 Device Unit Info log, data area = %d\n", data_area);
+ fprintf(stderr, "INFO : WDC : DUI Header Version = 0x%x\n", log_hdr_v4->hdr_version);
+ fprintf(stderr, "INFO : WDC : DUI Product ID = 0x%x/%c\n", log_hdr_v4->product_id, log_hdr_v4->product_id);
+ fprintf(stderr, "INFO : WDC : DUI log size sectors = 0x%x\n", log_hdr_v4->log_size_sectors);
+ fprintf(stderr, "INFO : WDC : DUI cap_dui_length = 0x%"PRIx64"\n", (uint64_t)cap_dui_length_v4);
}
- if (cap_dui_length == 0) {
- fprintf(stderr, "INFO : WDC : Capture V1 Device Unit Info log is empty\n");
+ if (cap_dui_length_v4 == 0) {
+ fprintf(stderr, "INFO : WDC : Capture V4 Device Unit Info log is empty\n");
} else {
/* parse log header for all sections up to specified data area inclusively */
if (data_area != WDC_NVME_DUI_MAX_DATA_AREA) {
for(j = 0; j < WDC_NVME_DUI_MAX_SECTION; j++) {
- if (log_hdr->log_section[j].data_area_id <= data_area &&
- log_hdr->log_section[j].data_area_id != 0) {
- log_size += log_hdr->log_section[j].section_size;
+ if (log_hdr_v4->log_section[j].data_area_id <= data_area &&
+ log_hdr_v4->log_section[j].data_area_id != 0) {
+ section_size_bytes = ((__s64)log_hdr_v4->log_section[j].section_size_sectors * WDC_NVME_SN730_SECTOR_SIZE);
+ log_size += section_size_bytes;
if (verbose)
- fprintf(stderr, "%s: Data area ID %d : section size 0x%x, total size = 0x%x\n",
- __func__, log_hdr->log_section[j].data_area_id, (unsigned int)log_hdr->log_section[j].section_size, (unsigned int)log_size);
-
+ fprintf(stderr, "%s: Data area ID %d : section size 0x%x sectors, section size 0x%"PRIx64" bytes, total size = 0x%"PRIx64"\n",
+ __func__, log_hdr_v4->log_section[j].data_area_id, log_hdr_v4->log_section[j].section_size_sectors, (uint64_t)section_size_bytes,
+ (uint64_t)log_size);
}
else {
if (verbose)
- fprintf(stderr, "%s: break, total size = 0x%x\n", __func__, (unsigned int)log_size);
+ fprintf(stderr, "%s: break, total size = 0x%"PRIx64"\n", __func__, (uint64_t)log_size);
break;
}
}
} else
- log_size = cap_dui_length;
+ log_size = cap_dui_length_v4;
total_size = log_size;
- dump_data = (__u8 *) malloc(sizeof (__u8) * xfer_size);
+ if (offset >= total_size) {
+ fprintf(stderr, "%s: INFO : WDC : Offset 0x%"PRIx64" exceeds total size 0x%"PRIx64", no data retrieved\n",
+ __func__, (uint64_t)offset, (uint64_t)total_size);
+ goto out;
+ }
+
+ dump_data = (__u8 *) malloc(sizeof (__u8) * xfer_size_long);
if (dump_data == NULL) {
- fprintf(stderr, "%s: ERROR : dump data V1 malloc failed : status %s, size = 0x%x\n",
- __func__, strerror(errno), (unsigned int)xfer_size);
+ fprintf(stderr, "%s: ERROR : dump data V4 malloc failed : status %s, size = 0x%x\n",
+ __func__, strerror(errno), (unsigned int)xfer_size_long);
ret = -1;
goto out;
}
- memset(dump_data, 0, sizeof (__u8) * xfer_size);
+ memset(dump_data, 0, sizeof (__u8) * xfer_size_long);
output = open(file, O_WRONLY | O_CREAT | O_TRUNC, 0666);
if (output < 0) {
@@ -1798,49 +2455,62 @@ static int wdc_do_cap_dui(int fd, char *file, __u32 xfer_size, int data_area, in
goto free_mem;
}
- /* write the telemetry and log headers into the dump_file */
- err = write(output, (void *)log_hdr, WDC_NVME_CAP_DUI_HEADER_SIZE);
- if (err != WDC_NVME_CAP_DUI_HEADER_SIZE) {
- fprintf(stderr, "%s: Failed to flush header data to file!\n", __func__);
- goto free_mem;
+ curr_data_offset = 0;
+
+ if (file_size != 0) {
+ /* Write the DUI data based on the passed in file size */
+ if ((offset + file_size) > total_size)
+ log_size = min((total_size - offset), file_size);
+ else
+ log_size = min(total_size, file_size);
+
+ if (verbose)
+ fprintf(stderr, "%s: INFO : WDC : Offset 0x%"PRIx64", file size 0x%"PRIx64", total size 0x%"PRIx64", log size 0x%"PRIx64"\n",
+ __func__, (uint64_t)offset, (uint64_t)file_size, (uint64_t)total_size, (uint64_t)log_size);
+
+ curr_data_offset = offset;
+
}
- log_size -= WDC_NVME_CAP_DUI_HEADER_SIZE;
- curr_data_offset = WDC_NVME_CAP_DUI_HEADER_SIZE;
i = 0;
buffer_addr = dump_data;
- for(; log_size > 0; log_size -= xfer_size) {
- xfer_size = min(xfer_size, log_size);
+ for(; log_size > 0; log_size -= xfer_size_long) {
+ xfer_size_long = min(xfer_size_long, log_size);
- if (log_size <= xfer_size)
+ if (log_size <= xfer_size_long)
last_xfer = true;
- ret = wdc_dump_dui_data(fd, xfer_size, curr_data_offset, buffer_addr, last_xfer);
+ ret = wdc_dump_dui_data_v2(fd, (__u32)xfer_size_long, curr_data_offset, buffer_addr, last_xfer);
if (ret != 0) {
- fprintf(stderr, "%s: ERROR : WDC : Get chunk %d, size = 0x%lx, offset = 0x%x, addr = %p\n",
- __func__, i, (long unsigned int)log_size, curr_data_offset, buffer_addr);
+ fprintf(stderr, "%s: ERROR : WDC : Get chunk %d, size = 0x%"PRIx64", offset = 0x%"PRIx64", addr = %p\n",
+ __func__, i, (uint64_t)log_size, (uint64_t)curr_data_offset, buffer_addr);
fprintf(stderr, "%s: ERROR : WDC : NVMe Status:%s(%x)\n", __func__, nvme_status_to_string(ret), ret);
break;
}
/* write the dump data into the file */
- err = write(output, (void *)buffer_addr, xfer_size);
- if (err != xfer_size) {
- fprintf(stderr, "%s: ERROR : WDC : Failed to flush DUI data to file! chunk %d, err = 0x%x, xfer_size = 0x%x\n",
- __func__, i, err, xfer_size);
+ err = write(output, (void *)buffer_addr, xfer_size_long);
+ if (err != xfer_size_long) {
+ fprintf(stderr, "%s: ERROR : WDC : Failed to flush DUI data to file! chunk %d, err = 0x%x, xfer_size_long = 0x%"PRIx64"\n",
+ __func__, i, err, (uint64_t)xfer_size_long);
goto free_mem;
}
- curr_data_offset += xfer_size;
+ curr_data_offset += xfer_size_long;
i++;
}
}
}
+ else {
+ fprintf(stderr, "INFO : WDC : Unsupported header version = 0x%x\n", log_hdr->hdr_version);
+ goto out;
+ }
+
fprintf(stderr, "%s: NVMe Status:%s(%x)\n", __func__, nvme_status_to_string(ret), ret);
if (verbose)
- fprintf(stderr, "INFO : WDC : Capture Device Unit Info log, length = 0x%lx\n", (long unsigned int)total_size);
+ fprintf(stderr, "INFO : WDC : Capture Device Unit Info log, length = 0x%"PRIx64"\n", (uint64_t)total_size);
free_mem:
close(output);
@@ -2137,7 +2807,7 @@ static int wdc_vs_internal_fw_log(int argc, char **argv, struct command *command
char *desc = "Internal Firmware Log.";
char *file = "Output file pathname.";
char *size = "Data retrieval transfer size.";
- char *data_area = "Data area to retrieve up to. Currently only supported on the SN340, SN640, and SN840 devices.";
+ char *data_area = "Data area to retrieve up to. Currently only supported on the SN340, SN640, SN730, and SN840 devices.";
char *file_size = "Output file size. Currently only supported on the SN340 device.";
char *offset = "Output file data offset. Currently only supported on the SN340 device.";
char *type = "Telemetry type - NONE, HOST, or CONTROLLER. Currently only supported on the SN640 and SN840 devices.";
@@ -2164,7 +2834,7 @@ static int wdc_vs_internal_fw_log(int argc, char **argv, struct command *command
struct config cfg = {
.file = NULL,
.xfer_size = 0x10000,
- .data_area = 3,
+ .data_area = 0,
.file_size = 0,
.offset = 0,
.type = NULL,
@@ -2224,13 +2894,18 @@ static int wdc_vs_internal_fw_log(int argc, char **argv, struct command *command
snprintf(f + strlen(f), PATH_MAX, "%s", ".bin");
fprintf(stderr, "%s: filename = %s\n", __func__, f);
- if (cfg.data_area > 5 || cfg.data_area == 0) {
- fprintf(stderr, "ERROR : WDC: Data area must be 1-5\n");
- return -1;
+ if (cfg.data_area) {
+ if (cfg.data_area > 5 || cfg.data_area < 1) {
+ fprintf(stderr, "ERROR : WDC: Data area must be 1-5\n");
+ return -1;
+ }
}
capabilities = wdc_get_drive_capabilities(fd);
if ((capabilities & WDC_DRIVE_CAP_INTERNAL_LOG) == WDC_DRIVE_CAP_INTERNAL_LOG) {
+ if (cfg.data_area == 0)
+ cfg.data_area = 3; /* Set the default DA to 3 if not specified */
+
if ((cfg.type == NULL) ||
(!strcmp(cfg.type, "NONE")) ||
(!strcmp(cfg.type, "none"))) {
@@ -2251,7 +2926,11 @@ static int wdc_vs_internal_fw_log(int argc, char **argv, struct command *command
return wdc_do_cap_diag(fd, f, xfer_size, telemetry_type, telemetry_data_area);
}
- if ((capabilities & WDC_DRIVE_CAP_SN340_DUI) == WDC_DRIVE_CAP_SN340_DUI) {
+ if ((capabilities & WDC_DRIVE_CAP_DUI) == WDC_DRIVE_CAP_DUI) {
+ if (cfg.data_area == 0) {
+ cfg.data_area = 1;
+ }
+
/* FW requirement - xfer size must be 256k for data area 4 */
if (cfg.data_area >= 4)
xfer_size = 0x40000;
@@ -2924,119 +3603,112 @@ static void wdc_print_bd_ca_log_normal(void *data)
{
struct wdc_bd_ca_log_format *bd_data = (struct wdc_bd_ca_log_format *)data;
__u64 *raw;
- __u16 *word_raw;
+ __u16 *word_raw1, *word_raw2, *word_raw3;
__u32 *dword_raw;
__u8 *byte_raw;
if (bd_data->field_id == 0x00) {
raw = (__u64*)bd_data->raw_value;
- printf(" CA Log Page values :- \n");
- printf(" Program fail counts %20"PRIu64"\n",
- le64_to_cpu(*raw & 0x00FFFFFFFFFFFFFF));
- printf(" %% Remaining of allowable program fails %3"PRIu8"\n",
- bd_data->normalized_value);
+ printf("Additional Smart Log for NVME device:%s namespace-id:%x\n",
+ devicename, WDC_DE_GLOBAL_NSID);
+ printf("key normalized raw\n");
+ printf("program_fail_count : %3"PRIu8"%% %"PRIu64"\n",
+ bd_data->normalized_value, le64_to_cpu(*raw & 0x00FFFFFFFFFFFFFF));
} else {
goto invalid_id;
}
bd_data++;
if (bd_data->field_id == 0x01) {
raw = (__u64*)bd_data->raw_value;
- printf(" Erase fail count %20"PRIu64"\n",
- le64_to_cpu(*raw & 0x00FFFFFFFFFFFFFF));
- printf(" %% Remaining of allowable erase fails %3"PRIu8"\n",
- bd_data->normalized_value);
+ printf("erase_fail_count : %3"PRIu8"%% %"PRIu64"\n",
+ bd_data->normalized_value, le64_to_cpu(*raw & 0x00FFFFFFFFFFFFFF));
} else {
goto invalid_id;
}
bd_data++;
if (bd_data->field_id == 0x02) {
- word_raw = (__u16*)bd_data->raw_value;
- printf(" Min erase cycles %10"PRIu16"\n",
- le16_to_cpu(*word_raw));
- word_raw = (__u16*)&bd_data->raw_value[2];
- printf(" Max erase cycles %10"PRIu16"\n",
- le16_to_cpu(*word_raw));
- word_raw = (__u16*)&bd_data->raw_value[4];
- printf(" Ave erase cycles %10"PRIu16"\n",
- le16_to_cpu(*word_raw));
- printf(" Wear Leveling Normalized %3"PRIu8"\n",
- bd_data->normalized_value);
-
+ word_raw1 = (__u16*)bd_data->raw_value;
+ word_raw2 = (__u16*)&bd_data->raw_value[2];
+ word_raw3 = (__u16*)&bd_data->raw_value[4];
+ printf("wear_leveling : %3"PRIu8"%% min: %"PRIu16", max: %"PRIu16", avg: %"PRIu16"\n",
+ bd_data->normalized_value,
+ le16_to_cpu(*word_raw1),
+ le16_to_cpu(*word_raw2),
+ le16_to_cpu(*word_raw3));
} else {
goto invalid_id;
}
bd_data++;
if (bd_data->field_id == 0x03) {
raw = (__u64*)bd_data->raw_value;
- printf(" End to end error detection count %20"PRIu64"\n",
- le64_to_cpu(*raw & 0x00FFFFFFFFFFFFFF));
+ printf("end_to_end_error_detection_count: %3"PRIu8"%% %"PRIu64"\n",
+ bd_data->normalized_value, le64_to_cpu(*raw & 0x00FFFFFFFFFFFFFF));
} else {
goto invalid_id;
}
bd_data++;
if (bd_data->field_id == 0x04) {
raw = (__u64*)bd_data->raw_value;
- printf(" Crc error count %20"PRIu64"\n",
- le64_to_cpu(*raw & 0x00FFFFFFFFFFFFFF));
+ printf("crc_error_count : %3"PRIu8"%% %"PRIu64"\n",
+ bd_data->normalized_value, le64_to_cpu(*raw & 0x00FFFFFFFFFFFFFF));
} else {
goto invalid_id;
}
bd_data++;
if (bd_data->field_id == 0x05) {
raw = (__u64*)bd_data->raw_value;
- printf(" Timed workload media error %20.3f\n",
- safe_div_fp((*raw & 0x00FFFFFFFFFFFFFF), 1024.0));
+ printf("timed_workload_media_wear : %3"PRIu8"%% %-.3f%%\n",
+ bd_data->normalized_value,
+ safe_div_fp((*raw & 0x00FFFFFFFFFFFFFF), 1024.0));
} else {
goto invalid_id;
}
bd_data++;
if (bd_data->field_id == 0x06) {
raw = (__u64*)bd_data->raw_value;
- printf(" Timed workload host reads %% %3"PRIu64"\n",
- le64_to_cpu(*raw & 0x00000000000000FF));
+ printf("timed_workload_host_reads : %3"PRIu8"%% %"PRIu64"%%\n",
+ bd_data->normalized_value, le64_to_cpu(*raw & 0x00FFFFFFFFFFFFFF));
} else {
goto invalid_id;
}
bd_data++;
if (bd_data->field_id == 0x07) {
raw = (__u64*)bd_data->raw_value;
- printf(" Timed workload timer %20"PRIu64"\n",
- le64_to_cpu(*raw & 0x00FFFFFFFFFFFFFF));
+ printf("timed_workload_timer : %3"PRIu8"%% %"PRIu64"\n",
+ bd_data->normalized_value, le64_to_cpu(*raw & 0x00FFFFFFFFFFFFFF));
} else {
goto invalid_id;
}
bd_data++;
if (bd_data->field_id == 0x08) {
byte_raw = (__u8*)bd_data->raw_value;
- printf(" Throttle status %% %10"PRIu16"\n",
- *byte_raw);
dword_raw = (__u32*)&bd_data->raw_value[1];
- printf(" Throttling event counter %10"PRIu16"\n",
- le32_to_cpu(*dword_raw));
+ printf("thermal_throttle_status : %3"PRIu8"%% %"PRIu16"%%, cnt: %"PRIu16"\n",
+ bd_data->normalized_value, *byte_raw, le32_to_cpu(*dword_raw));
} else {
goto invalid_id;
}
bd_data++;
if (bd_data->field_id == 0x09) {
raw = (__u64*)bd_data->raw_value;
- printf(" Retry buffer overflow count %20"PRIu64"\n",
- le64_to_cpu(*raw & 0x00FFFFFFFFFFFFFF));
+ printf("retry_buffer_overflow_count : %3"PRIu8"%% %"PRIu64"\n",
+ bd_data->normalized_value, le64_to_cpu(*raw & 0x00FFFFFFFFFFFFFF));
} else {
goto invalid_id;
}
bd_data++;
if (bd_data->field_id == 0x0A) {
raw = (__u64*)bd_data->raw_value;
- printf(" Pll lock loss count %20"PRIu64"\n",
- le64_to_cpu(*raw & 0x00FFFFFFFFFFFFFF));
+ printf("pll_lock_loss_count : %3"PRIu8"%% %"PRIu64"\n",
+ bd_data->normalized_value, le64_to_cpu(*raw & 0x00FFFFFFFFFFFFFF));
} else {
goto invalid_id;
}
bd_data++;
if (bd_data->field_id == 0x0B) {
raw = (__u64*)bd_data->raw_value;
- printf(" Nand bytes written (32mb) %20.0f\n",
- safe_div_fp((*raw & 0x00FFFFFFFFFFFFFF), 0xFFFF));
+ printf("nand_bytes_written : %3"PRIu8"%% sectors: %.f\n",
+ bd_data->normalized_value, safe_div_fp((*raw & 0x00FFFFFFFFFFFFFF), 0xFFFF));
raw = (__u64*)bd_data->raw_value;
} else {
goto invalid_id;
@@ -3044,8 +3716,8 @@ static void wdc_print_bd_ca_log_normal(void *data)
bd_data++;
if (bd_data->field_id == 0x0C) {
raw = (__u64*)bd_data->raw_value;
- printf(" Host bytes written (32mb) %20.0f\n",
- safe_div_fp((*raw & 0x00FFFFFFFFFFFFFF), 0xFFFF));
+ printf("host_bytes_written : %3"PRIu8"%% sectors: %.f\n",
+ bd_data->normalized_value, safe_div_fp((*raw & 0x00FFFFFFFFFFFFFF), 0xFFFF));
raw = (__u64*)bd_data->raw_value;
} else {
goto invalid_id;
@@ -3073,9 +3745,9 @@ static void wdc_print_bd_ca_log_json(void *data)
root = json_create_object();
if (bd_data->field_id == 0x00) {
raw = (__u64*)bd_data->raw_value;
- json_object_add_value_int(root, "Program fail counts",
+ json_object_add_value_int(root, "program_fail_count",
le64_to_cpu(*raw & 0x00FFFFFFFFFFFFFF));
- json_object_add_value_int(root, "% Remaining of allowable program fails",
+ json_object_add_value_int(root, "normalized",
bd_data->normalized_value);
} else {
goto invalid_id;
@@ -3083,9 +3755,9 @@ static void wdc_print_bd_ca_log_json(void *data)
bd_data++;
if (bd_data->field_id == 0x01) {
raw = (__u64*)bd_data->raw_value;
- json_object_add_value_int(root, "Erase fail count",
+ json_object_add_value_int(root, "erase_fail_count",
le64_to_cpu(*raw & 0x00FFFFFFFFFFFFFF));
- json_object_add_value_int(root, "% Remaining of allowable erase fails",
+ json_object_add_value_int(root, "normalized",
bd_data->normalized_value);
} else {
goto invalid_id;
@@ -3093,19 +3765,19 @@ static void wdc_print_bd_ca_log_json(void *data)
bd_data++;
if (bd_data->field_id == 0x02) {
word_raw = (__u16*)bd_data->raw_value;
- json_object_add_value_int(root, "Min erase cycles", le16_to_cpu(*word_raw));
+ json_object_add_value_int(root, "min", le16_to_cpu(*word_raw));
word_raw = (__u16*)&bd_data->raw_value[2];
- json_object_add_value_int(root, "Max erase cycles", le16_to_cpu(*word_raw));
+ json_object_add_value_int(root, "max", le16_to_cpu(*word_raw));
word_raw = (__u16*)&bd_data->raw_value[4];
- json_object_add_value_int(root, "Ave erase cycles", le16_to_cpu(*word_raw));
- json_object_add_value_int(root, "Wear Leveling Normalized", bd_data->normalized_value);
+ json_object_add_value_int(root, "avg", le16_to_cpu(*word_raw));
+ json_object_add_value_int(root, "wear_leveling-normalized", bd_data->normalized_value);
} else {
goto invalid_id;
}
bd_data++;
if (bd_data->field_id == 0x03) {
raw = (__u64*)bd_data->raw_value;
- json_object_add_value_int(root, "End to end error detection count",
+ json_object_add_value_int(root, "end_to_end_error_detection_count",
le64_to_cpu(*raw & 0x00FFFFFFFFFFFFFF));
} else {
goto invalid_id;
@@ -3113,7 +3785,7 @@ static void wdc_print_bd_ca_log_json(void *data)
bd_data++;
if (bd_data->field_id == 0x04) {
raw = (__u64*)bd_data->raw_value;
- json_object_add_value_int(root, "Crc error count",
+ json_object_add_value_int(root, "crc_error_count",
le64_to_cpu(*raw & 0x00FFFFFFFFFFFFFF));
} else {
goto invalid_id;
@@ -3121,7 +3793,7 @@ static void wdc_print_bd_ca_log_json(void *data)
bd_data++;
if (bd_data->field_id == 0x05) {
raw = (__u64*)bd_data->raw_value;
- json_object_add_value_float(root, "Timed workload media error",
+ json_object_add_value_float(root, "timed_workload_media_wear",
safe_div_fp((*raw & 0x00FFFFFFFFFFFFFF), 1024.0));
} else {
goto invalid_id;
@@ -3129,7 +3801,7 @@ static void wdc_print_bd_ca_log_json(void *data)
bd_data++;
if (bd_data->field_id == 0x06) {
raw = (__u64*)bd_data->raw_value;
- json_object_add_value_int(root, "Timed workload host reads %",
+ json_object_add_value_int(root, "timed_workload_host_reads",
le64_to_cpu(*raw & 0x00000000000000FF));
} else {
goto invalid_id;
@@ -3137,7 +3809,7 @@ static void wdc_print_bd_ca_log_json(void *data)
bd_data++;
if (bd_data->field_id == 0x07) {
raw = (__u64*)bd_data->raw_value;
- json_object_add_value_int(root, "Timed workload timer",
+ json_object_add_value_int(root, "timed_workload_timer",
le64_to_cpu(*raw & 0x00FFFFFFFFFFFFFF));
} else {
goto invalid_id;
@@ -3145,16 +3817,16 @@ static void wdc_print_bd_ca_log_json(void *data)
bd_data++;
if (bd_data->field_id == 0x08) {
byte_raw = (__u8*)bd_data->raw_value;
- json_object_add_value_int(root, "Throttle status %", *byte_raw);
+ json_object_add_value_int(root, "thermal_throttle_status", *byte_raw);
dword_raw = (__u32*)&bd_data->raw_value[1];
- json_object_add_value_int(root, "Throttling event counter", le32_to_cpu(*dword_raw));
+ json_object_add_value_int(root, "cnt", le32_to_cpu(*dword_raw));
} else {
goto invalid_id;
}
bd_data++;
if (bd_data->field_id == 0x09) {
raw = (__u64*)bd_data->raw_value;
- json_object_add_value_int(root, "Retry buffer overflow count",
+ json_object_add_value_int(root, "retry_buffer_overflow_count",
le64_to_cpu(*raw & 0x00FFFFFFFFFFFFFF));
} else {
goto invalid_id;
@@ -3162,7 +3834,7 @@ static void wdc_print_bd_ca_log_json(void *data)
bd_data++;
if (bd_data->field_id == 0x0A) {
raw = (__u64*)bd_data->raw_value;
- json_object_add_value_int(root, "Pll lock loss count",
+ json_object_add_value_int(root, "pll_lock_loss_count",
le64_to_cpu(*raw & 0x00FFFFFFFFFFFFFF));
} else {
goto invalid_id;
@@ -3170,7 +3842,7 @@ static void wdc_print_bd_ca_log_json(void *data)
bd_data++;
if (bd_data->field_id == 0x0B) {
raw = (__u64*)bd_data->raw_value;
- json_object_add_value_float(root, "Nand bytes written (32mb)",
+ json_object_add_value_float(root, "nand_bytes_written",
safe_div_fp((*raw & 0x00FFFFFFFFFFFFFF), 0xFFFF));
} else {
goto invalid_id;
@@ -3178,7 +3850,7 @@ static void wdc_print_bd_ca_log_json(void *data)
bd_data++;
if (bd_data->field_id == 0x0C) {
raw = (__u64*)bd_data->raw_value;
- json_object_add_value_float(root, "Host bytes written (32mb)",
+ json_object_add_value_float(root, "host_bytes_written",
safe_div_fp((*raw & 0x00FFFFFFFFFFFFFF), 0xFFFF));
raw = (__u64*)bd_data->raw_value;
} else {
@@ -3334,61 +4006,162 @@ static void wdc_get_commit_action_bin(__u8 commit_action_type, char *action_bin)
}
-static void wdc_print_fw_act_history_log_normal(struct wdc_fw_act_history_log_entry *fw_act_history_entry,
- int num_entries)
+static void wdc_print_fw_act_history_log_normal(__u8 *data, int num_entries, __u32 cust_id)
{
int i;
char previous_fw[9];
char new_fw[9];
char commit_action_bin[8];
- memset((void *)previous_fw, 0, 9);
- memset((void *)new_fw, 0, 9);
- memset((void *)commit_action_bin, 0, 8);
+ char time_str[11];
+ __u16 oldestEntryIdx = 0, entryIdx = 0;
char *null_fw = "--------";
-
-
- printf(" Firmware Activate History Log \n");
- printf(" Power on Hour Power Cycle Previous New \n");
- printf(" Entry hh:mm:ss Count Firmware Firmware Slot Action Result \n");
- printf(" ----- -------------- ------------ ---------- ---------- ----- ------ -------\n");
-
- for (i = 0; i < num_entries; i++) {
- memcpy(previous_fw, (char *)&(fw_act_history_entry->previous_fw_version), 8);
- if (strlen((char *)&(fw_act_history_entry->new_fw_version)) > 1)
- memcpy(new_fw, (char *)&(fw_act_history_entry->new_fw_version), 8);
- else
- memcpy(new_fw, null_fw, 8);
-
- printf("%5"PRIu32"", (uint32_t)le32_to_cpu(fw_act_history_entry->entry_num));
- printf(" ");
- printf("%02d:%02d:%02d", (int)(le64_to_cpu(fw_act_history_entry->power_on_seconds)/3600),
- (int)((le64_to_cpu(fw_act_history_entry->power_on_seconds)%3600)/60),
- (int)(le64_to_cpu(fw_act_history_entry->power_on_seconds)%60));
- printf(" ");
- printf("%8"PRIu32"", (uint32_t)le32_to_cpu(fw_act_history_entry->power_cycle_count));
- printf(" ");
- printf("%s", (char *)previous_fw);
- printf(" ");
- printf("%s", (char *)new_fw);
- printf(" ");
- printf("%2"PRIu8"", (uint8_t)fw_act_history_entry->slot_number);
- printf(" ");
- wdc_get_commit_action_bin(fw_act_history_entry->commit_action_type,(char *)&commit_action_bin);
- printf(" %s", (char *)commit_action_bin);
- printf(" ");
- if (le16_to_cpu(fw_act_history_entry->result) == 0)
- printf("pass");
+ memset((void *)time_str, 0, 11);
+
+ if (data[0] == WDC_NVME_GET_FW_ACT_HISTORY_C2_LOG_ID) {
+ printf(" Firmware Activate History Log \n");
+ if (cust_id == WDC_CUSTOMER_ID_0x1005) {
+ printf(" Power on Hour Power Cycle Previous New \n");
+ printf(" Entry hh:mm:ss Count Firmware Firmware Slot Action Result \n");
+ printf(" ----- ----------------- ----------------- --------- --------- ----- ------ -------\n");
+ } else {
+ printf(" Power Cycle Previous New \n");
+ printf(" Entry Timestamp Count Firmware Firmware Slot Action Result \n");
+ printf(" ----- ----------------- ----------------- --------- --------- ----- ------ -------\n");
+ }
+ struct wdc_fw_act_history_log_format_c2 *fw_act_history_entry = (struct wdc_fw_act_history_log_format_c2 *)(data);
+
+ if (num_entries == WDC_MAX_NUM_ACT_HIST_ENTRIES) {
+ /* find lowest/oldest entry */
+ for (i = 0; i < num_entries; i++) {
+ if (le16_to_cpu(fw_act_history_entry->entry[i].fw_act_hist_entries) >
+ le16_to_cpu(fw_act_history_entry->entry[i+1].fw_act_hist_entries)) {
+ oldestEntryIdx = i+1;
+ break;
+ }
+ }
+ }
+ if (oldestEntryIdx == WDC_MAX_NUM_ACT_HIST_ENTRIES)
+ entryIdx = 0;
else
- printf("fail #%d", (uint16_t)le16_to_cpu(fw_act_history_entry->result));
+ entryIdx = oldestEntryIdx;
+
+ for (i = 0; i < num_entries; i++) {
+ memset((void *)previous_fw, 0, 9);
+ memset((void *)new_fw, 0, 9);
+ memset((void *)commit_action_bin, 0, 8);
+
+ memcpy(previous_fw, (char *)&(fw_act_history_entry->entry[entryIdx].previous_fw_version), 8);
+ if (strlen((char *)&(fw_act_history_entry->entry[entryIdx].current_fw_version)) > 1)
+ memcpy(new_fw, (char *)&(fw_act_history_entry->entry[entryIdx].current_fw_version), 8);
+ else
+ memcpy(new_fw, null_fw, 8);
+
+ printf("%5"PRIu16"", (uint16_t)le16_to_cpu(fw_act_history_entry->entry[entryIdx].fw_act_hist_entries));
+ if (cust_id == WDC_CUSTOMER_ID_0x1005) {
+ printf(" ");
+ memset((void *)time_str, 0, 9);
+ sprintf((char *)time_str, "%04d:%02d:%02d", (int)(le64_to_cpu(fw_act_history_entry->entry[entryIdx].timestamp)/3600),
+ (int)((le64_to_cpu(fw_act_history_entry->entry[entryIdx].timestamp%3600)/60)),
+ (int)(le64_to_cpu(fw_act_history_entry->entry[entryIdx].timestamp%60)));
+
+ printf("%s", time_str);
+ printf(" ");
+ } else {
+ printf(" ");
+ uint64_t timestamp = (0x0000FFFFFFFFFFFF & le64_to_cpu(fw_act_history_entry->entry[entryIdx].timestamp));
+ printf("%16"PRIu64"", timestamp);
+ printf(" ");
+ }
- printf("\n");
+ printf("%16"PRIu64"", (uint64_t)le64_to_cpu(fw_act_history_entry->entry[entryIdx].power_cycle_count));
+ printf(" ");
+ printf("%s", (char *)previous_fw);
+ printf(" ");
+ printf("%s", (char *)new_fw);
+ printf(" ");
+ printf("%2"PRIu8"", (uint8_t)fw_act_history_entry->entry[entryIdx].slot_number);
+ printf(" ");
+ wdc_get_commit_action_bin(fw_act_history_entry->entry[entryIdx].commit_action_type,(char *)&commit_action_bin);
+ printf(" %s", (char *)commit_action_bin);
+ printf(" ");
+ if (le16_to_cpu(fw_act_history_entry->entry[entryIdx].result) == 0)
+ printf("pass");
+ else
+ printf("fail #%d", (uint16_t)le16_to_cpu(fw_act_history_entry->entry[entryIdx].result));
+ printf("\n");
+
+ entryIdx++;
+ if (entryIdx >= WDC_MAX_NUM_ACT_HIST_ENTRIES)
+ entryIdx = 0;
+ }
+ }
+ else
+ {
+ printf(" Firmware Activate History Log \n");
+ printf(" Power on Hour Power Cycle Previous New \n");
+ printf(" Entry hh:mm:ss Count Firmware Firmware Slot Action Result \n");
+ printf(" ----- -------------- -------------------- ---------- ---------- ----- ------ -------\n");
+
+ struct wdc_fw_act_history_log_entry *fw_act_history_entry = (struct wdc_fw_act_history_log_entry *)(data + sizeof(struct wdc_fw_act_history_log_hdr));
+
+ if (num_entries == WDC_MAX_NUM_ACT_HIST_ENTRIES) {
+ /* find lowest/oldest entry */
+ for (i = 0; i < num_entries; i++) {
+ if (le32_to_cpu(fw_act_history_entry[i].entry_num) > le32_to_cpu(fw_act_history_entry[i+1].entry_num)) {
+ oldestEntryIdx = i+1;
+ break;
+ }
+ }
+ }
- fw_act_history_entry++;
+ if (oldestEntryIdx == WDC_MAX_NUM_ACT_HIST_ENTRIES)
+ entryIdx = 0;
+ else
+ entryIdx = oldestEntryIdx;
+
+ for (i = 0; i < num_entries; i++) {
+ memset((void *)previous_fw, 0, 9);
+ memset((void *)new_fw, 0, 9);
+ memset((void *)commit_action_bin, 0, 8);
+
+ memcpy(previous_fw, (char *)&(fw_act_history_entry[entryIdx].previous_fw_version), 8);
+ if (strlen((char *)&(fw_act_history_entry[entryIdx].new_fw_version)) > 1)
+ memcpy(new_fw, (char *)&(fw_act_history_entry[entryIdx].new_fw_version), 8);
+ else
+ memcpy(new_fw, null_fw, 8);
+
+ printf("%5"PRIu32"", (uint32_t)le32_to_cpu(fw_act_history_entry[entryIdx].entry_num));
+ printf(" ");
+ printf("%04d:%02d:%02d", (int)(le64_to_cpu(fw_act_history_entry[entryIdx].power_on_seconds)/3600),
+ (int)((le64_to_cpu(fw_act_history_entry[entryIdx].power_on_seconds)%3600)/60),
+ (int)(le64_to_cpu(fw_act_history_entry[entryIdx].power_on_seconds)%60));
+ printf(" ");
+ printf("%16"PRIu32"", (uint32_t)le32_to_cpu(fw_act_history_entry[entryIdx].power_cycle_count));
+ printf(" ");
+ printf("%s", (char *)previous_fw);
+ printf(" ");
+ printf("%s", (char *)new_fw);
+ printf(" ");
+ printf("%2"PRIu8"", (uint8_t)fw_act_history_entry[entryIdx].slot_number);
+ printf(" ");
+ wdc_get_commit_action_bin(fw_act_history_entry[entryIdx].commit_action_type,(char *)&commit_action_bin);
+ printf(" %s", (char *)commit_action_bin);
+ printf(" ");
+ if (le16_to_cpu(fw_act_history_entry[entryIdx].result) == 0)
+ printf("pass");
+ else
+ printf("fail #%d", (uint16_t)le16_to_cpu(fw_act_history_entry[entryIdx].result));
+
+ printf("\n");
+
+ entryIdx++;
+ if (entryIdx >= WDC_MAX_NUM_ACT_HIST_ENTRIES)
+ entryIdx = 0;
+ }
}
}
-static void wdc_print_fw_act_history_log_json(struct wdc_fw_act_history_log_entry *fw_act_history_entry,
- int num_entries)
+static void wdc_print_fw_act_history_log_json(__u8 *data, int num_entries, __u32 cust_id)
{
struct json_object *root;
int i;
@@ -3396,59 +4169,569 @@ static void wdc_print_fw_act_history_log_json(struct wdc_fw_act_history_log_entr
char new_fw[9];
char commit_action_bin[8];
char fail_str[32];
- char time_str[9];
+ char time_str[11];
memset((void *)previous_fw, 0, 9);
memset((void *)new_fw, 0, 9);
memset((void *)commit_action_bin, 0, 8);
- memset((void *)time_str, 0, 9);
+ memset((void *)time_str, 0, 11);
memset((void *)fail_str, 0, 11);
char *null_fw = "--------";
+ __u16 oldestEntryIdx = 0, entryIdx = 0;
root = json_create_object();
- for (i = 0; i < num_entries; i++) {
- memcpy(previous_fw, (char *)&(fw_act_history_entry->previous_fw_version), 8);
- if (strlen((char *)&(fw_act_history_entry->new_fw_version)) > 1)
- memcpy(new_fw, (char *)&(fw_act_history_entry->new_fw_version), 8);
+ if(data[0] == WDC_NVME_GET_FW_ACT_HISTORY_C2_LOG_ID) {
+ struct wdc_fw_act_history_log_format_c2 *fw_act_history_entry = (struct wdc_fw_act_history_log_format_c2 *)(data);
+
+ if (num_entries == WDC_MAX_NUM_ACT_HIST_ENTRIES) {
+ /* find lowest/oldest entry */
+ for (i = 0; i < num_entries; i++) {
+ if (le16_to_cpu(fw_act_history_entry->entry[i].fw_act_hist_entries) >
+ le16_to_cpu(fw_act_history_entry->entry[i+1].fw_act_hist_entries)) {
+ oldestEntryIdx = i+1;
+ break;
+ }
+ }
+ }
+ if (oldestEntryIdx == WDC_MAX_NUM_ACT_HIST_ENTRIES)
+ entryIdx = 0;
else
- memcpy(new_fw, null_fw, 8);
-
- json_object_add_value_int(root, "Entry",
- le32_to_cpu(fw_act_history_entry->entry_num));
-
- sprintf((char *)time_str, "%02d:%02d:%02d", (int)(le64_to_cpu(fw_act_history_entry->power_on_seconds)/3600),
- (int)((le64_to_cpu(fw_act_history_entry->power_on_seconds)%3600)/60),
- (int)(le64_to_cpu(fw_act_history_entry->power_on_seconds)%60));
- json_object_add_value_string(root, "Power on Hour", time_str);
-
- json_object_add_value_int(root, "Power Cycle Count",
- le32_to_cpu(fw_act_history_entry->power_cycle_count));
- json_object_add_value_string(root, "Previous Firmware",
- previous_fw);
- json_object_add_value_string(root, "New Firmware",
- new_fw);
- json_object_add_value_int(root, "Slot",
- fw_act_history_entry->slot_number);
-
- wdc_get_commit_action_bin(fw_act_history_entry->commit_action_type,(char *)&commit_action_bin);
- json_object_add_value_string(root, "Action", commit_action_bin);
-
- if (le16_to_cpu(fw_act_history_entry->result) == 0)
- json_object_add_value_string(root, "Result", "pass");
- else {
- sprintf((char *)fail_str, "fail #%d", (int)(le16_to_cpu(fw_act_history_entry->result)));
- json_object_add_value_string(root, "Result", fail_str);
+ entryIdx = oldestEntryIdx;
+
+ for (i = 0; i < num_entries; i++) {
+ memcpy(previous_fw, (char *)&(fw_act_history_entry->entry[entryIdx].previous_fw_version), 8);
+ if (strlen((char *)&(fw_act_history_entry->entry[entryIdx].current_fw_version)) > 1)
+ memcpy(new_fw, (char *)&(fw_act_history_entry->entry[entryIdx].current_fw_version), 8);
+ else
+ memcpy(new_fw, null_fw, 8);
+
+ json_object_add_value_int(root, "Entry",
+ le16_to_cpu(fw_act_history_entry->entry[entryIdx].fw_act_hist_entries));
+
+ if (cust_id == WDC_CUSTOMER_ID_0x1005) {
+ sprintf((char *)time_str, "%04d:%02d:%02d", (int)(le64_to_cpu(fw_act_history_entry->entry[entryIdx].timestamp)/3600),
+ (int)((le64_to_cpu(fw_act_history_entry->entry[entryIdx].timestamp%3600)/60)),
+ (int)(le64_to_cpu(fw_act_history_entry->entry[entryIdx].timestamp%60)));
+
+ json_object_add_value_string(root, "Power on Hour", time_str);
+
+ } else {
+ uint64_t timestamp = (0x0000FFFFFFFFFFFF & le64_to_cpu(fw_act_history_entry->entry[entryIdx].timestamp));
+ json_object_add_value_int(root, "Timestamp", timestamp);
+ }
+
+ json_object_add_value_int(root, "Power Cycle Count",
+ le64_to_cpu(fw_act_history_entry->entry[entryIdx].power_cycle_count));
+ json_object_add_value_string(root, "Previous Firmware",
+ previous_fw);
+ json_object_add_value_string(root, "New Firmware",
+ new_fw);
+ json_object_add_value_int(root, "Slot",
+ fw_act_history_entry->entry[entryIdx].slot_number);
+
+ wdc_get_commit_action_bin(fw_act_history_entry->entry[entryIdx].commit_action_type,(char *)&commit_action_bin);
+ json_object_add_value_string(root, "Action", commit_action_bin);
+
+ if (le16_to_cpu(fw_act_history_entry->entry[entryIdx].result) == 0)
+ json_object_add_value_string(root, "Result", "pass");
+ else {
+ sprintf((char *)fail_str, "fail #%d", (int)(le16_to_cpu(fw_act_history_entry->entry[entryIdx].result)));
+ json_object_add_value_string(root, "Result", fail_str);
+ }
+
+ entryIdx++;
+ if (entryIdx >= WDC_MAX_NUM_ACT_HIST_ENTRIES)
+ entryIdx = 0;
+ }
+ }
+ else {
+ struct wdc_fw_act_history_log_entry *fw_act_history_entry = (struct wdc_fw_act_history_log_entry *)(data + sizeof(struct wdc_fw_act_history_log_hdr));
+
+ if (num_entries == WDC_MAX_NUM_ACT_HIST_ENTRIES) {
+ /* find lowest/oldest entry */
+ for (i = 0; i < num_entries; i++) {
+ if (le32_to_cpu(fw_act_history_entry[i].entry_num) > le32_to_cpu(fw_act_history_entry[i+1].entry_num)) {
+ oldestEntryIdx = i+1;
+ break;
+ }
+ }
+ }
+ if (oldestEntryIdx == WDC_MAX_NUM_ACT_HIST_ENTRIES)
+ entryIdx = 0;
+ else
+ entryIdx = oldestEntryIdx;
+
+ for (i = 0; i < num_entries; i++) {
+ memcpy(previous_fw, (char *)&(fw_act_history_entry[entryIdx].previous_fw_version), 8);
+ if (strlen((char *)&(fw_act_history_entry[entryIdx].new_fw_version)) > 1)
+ memcpy(new_fw, (char *)&(fw_act_history_entry[entryIdx].new_fw_version), 8);
+ else
+ memcpy(new_fw, null_fw, 8);
+
+ json_object_add_value_int(root, "Entry",
+ le32_to_cpu(fw_act_history_entry[entryIdx].entry_num));
+
+ sprintf((char *)time_str, "%04d:%02d:%02d", (int)(le64_to_cpu(fw_act_history_entry[entryIdx].power_on_seconds)/3600),
+ (int)((le64_to_cpu(fw_act_history_entry[entryIdx].power_on_seconds)%3600)/60),
+ (int)(le64_to_cpu(fw_act_history_entry[entryIdx].power_on_seconds)%60));
+ json_object_add_value_string(root, "Power on Hour", time_str);
+
+ json_object_add_value_int(root, "Power Cycle Count",
+ le32_to_cpu(fw_act_history_entry[entryIdx].power_cycle_count));
+ json_object_add_value_string(root, "Previous Firmware",
+ previous_fw);
+ json_object_add_value_string(root, "New Firmware",
+ new_fw);
+ json_object_add_value_int(root, "Slot",
+ fw_act_history_entry[entryIdx].slot_number);
+
+ wdc_get_commit_action_bin(fw_act_history_entry[entryIdx].commit_action_type,(char *)&commit_action_bin);
+ json_object_add_value_string(root, "Action", commit_action_bin);
+
+ if (le16_to_cpu(fw_act_history_entry[entryIdx].result) == 0)
+ json_object_add_value_string(root, "Result", "pass");
+ else {
+ sprintf((char *)fail_str, "fail #%d", (int)(le16_to_cpu(fw_act_history_entry[entryIdx].result)));
+ json_object_add_value_string(root, "Result", fail_str);
+ }
+
+ entryIdx++;
+ if (entryIdx >= WDC_MAX_NUM_ACT_HIST_ENTRIES)
+ entryIdx = 0;
}
+ }
+
+ json_print_object(root, NULL);
+ printf("\n");
+
+ json_free_object(root);
+}
- fw_act_history_entry++;
+static void wdc_print_smart_cloud_attr_C0_normal(void *data)
+{
+ __u8 *log_data = (__u8*)data;
+ uint16_t smart_log_ver = 0;
+
+ printf(" SMART Cloud Attributes :- \n");
+
+ printf(" Physical media units written %.0Lf\n",
+ int128_to_double(&log_data[SCAO_PMUW]));
+ printf(" Physical media units Read %.0Lf\n",
+ int128_to_double(&log_data[SCAO_PMUR]));
+ printf(" Bad user nand blocks - Raw %"PRIu64"\n",
+ (uint64_t)le64_to_cpu(*(uint64_t *)&log_data[SCAO_BUNBR] & 0x0000FFFFFFFFFFFF));
+ printf(" Bad user nand blocks - Normalized %d\n",
+ (uint16_t)le16_to_cpu(*(uint16_t *)&log_data[SCAO_BUNBN]));
+ printf(" Bad system nand blocks - Raw %"PRIu64"\n",
+ (uint64_t)le64_to_cpu(*(uint64_t *)&log_data[SCAO_BSNBR] & 0x0000FFFFFFFFFFFF));
+ printf(" Bad system nand blocks - Normalized %d\n",
+ (uint16_t)le16_to_cpu(*(uint16_t *)&log_data[SCAO_BSNBN]));
+ printf(" XOR recovery count %"PRIu64"\n",
+ (uint64_t)le64_to_cpu(*(uint64_t *)&log_data[SCAO_XRC]));
+ printf(" Uncorrectable read error count %"PRIu64"\n",
+ (uint64_t)le64_to_cpu(*(uint64_t *)&log_data[SCAO_UREC]));
+ printf(" Soft ecc error count %"PRIu64"\n",
+ (uint64_t)le64_to_cpu(*(uint64_t *)&log_data[SCAO_SEEC]));
+ printf(" End to end corrected errors %"PRIu32"\n",
+ (uint32_t)le32_to_cpu(*(uint32_t *)&log_data[SCAO_EECE]));
+ printf(" End to end detected errors %"PRIu32"\n",
+ (uint32_t)le32_to_cpu(*(uint32_t *)&log_data[SCAO_EEDC]));
+ printf(" System data percent used %d\n",
+ (__u8)log_data[SCAO_SDPU]);
+ printf(" Refresh counts %"PRIu64"\n",
+ (uint64_t)(le64_to_cpu(*(uint64_t *)&log_data[SCAO_RFSC])& 0x00FFFFFFFFFFFFFF));
+ printf(" Max User data erase counts %"PRIu32"\n",
+ (uint32_t)le32_to_cpu(*(uint32_t *)&log_data[SCAO_MXUDEC]));
+ printf(" Min User data erase counts %"PRIu32"\n",
+ (uint32_t)le32_to_cpu(*(uint32_t *)&log_data[SCAO_MNUDEC]));
+ printf(" Number of Thermal throttling events %d\n",
+ (__u8)log_data[SCAO_NTTE]);
+ printf(" Current throttling status 0x%x\n",
+ (__u8)log_data[SCAO_CTS]);
+ printf(" PCIe correctable error count %"PRIu64"\n",
+ (uint64_t)le64_to_cpu(*(uint64_t *)&log_data[SCAO_PCEC]));
+ printf(" Incomplete shutdowns %"PRIu32"\n",
+ (uint32_t)le32_to_cpu(*(uint32_t *)&log_data[SCAO_ICS]));
+ printf(" Percent free blocks %d\n",
+ (__u8)log_data[SCAO_PFB]);
+ printf(" Capacitor health %"PRIu16"\n",
+ (uint16_t)le16_to_cpu(*(uint16_t *)&log_data[SCAO_CPH]));
+ printf(" Unaligned I/O %"PRIu64"\n",
+ (uint64_t)le64_to_cpu(*(uint64_t *)&log_data[SCAO_UIO]));
+ printf(" Security Version Number %"PRIu64"\n",
+ (uint64_t)le64_to_cpu(*(uint64_t *)&log_data[SCAO_SVN]));
+ printf(" NUSE - Namespace utilization %"PRIu64"\n",
+ (uint64_t)le64_to_cpu(*(uint64_t *)&log_data[SCAO_NUSE]));
+ printf(" PLP start count %.0Lf\n",
+ int128_to_double(&log_data[SCAO_PSC]));
+ printf(" Endurance estimate %.0Lf\n",
+ int128_to_double(&log_data[SCAO_EEST]));
+ smart_log_ver = (uint16_t)le16_to_cpu(*(uint16_t *)&log_data[SCAO_LPV]);
+ printf(" Log page version %"PRIu16"\n",smart_log_ver);
+ printf(" Log page GUID 0x");
+ printf("%lX%lX\n",(uint64_t)le64_to_cpu(*(uint64_t *)&log_data[SCAO_LPG + 8]),
+ (uint64_t)le64_to_cpu(*(uint64_t *)&log_data[SCAO_LPG]));
+ if(smart_log_ver > 2) {
+ printf(" Errata Version Field %d\n",
+ (__u8)log_data[SCAO_EVF]);
+ printf(" Point Version Field %"PRIu16"\n",
+ (uint16_t)log_data[SCAO_PVF]);
+ printf(" Minor Version Field %"PRIu16"\n",
+ (uint16_t)log_data[SCAO_MIVF]);
+ printf(" Major Version Field %d\n",
+ (__u8)log_data[SCAO_MAVF]);
+ printf(" NVMe Errata Version %d\n",
+ (__u8)log_data[SCAO_NEV]);
+ printf(" PCIe Link Retraining Count %"PRIu64"\n",
+ (uint64_t)le64_to_cpu(*(uint64_t *)&log_data[SCAO_PLRC]));
}
+ printf("\n");
+}
+static void wdc_print_smart_cloud_attr_C0_json(void *data)
+{
+ __u8 *log_data = (__u8*)data;
+ struct json_object *root;
+ uint16_t smart_log_ver = 0;
+
+ root = json_create_object();
+ json_object_add_value_float(root, "Physical media units written",
+ int128_to_double(&log_data[SCAO_PMUW]));
+ json_object_add_value_int(root, "Physical media units Read",
+ int128_to_double(&log_data[SCAO_PMUR]));
+ json_object_add_value_uint(root, "Bad user nand blocks - Raw",
+ (uint64_t)le64_to_cpu(*(uint64_t *)&log_data[SCAO_BUNBR] & 0x0000FFFFFFFFFFFF));
+ json_object_add_value_uint(root, "Bad user nand blocks - Normalized",
+ (uint16_t)le16_to_cpu(*(uint16_t *)&log_data[SCAO_BUNBN]));
+ json_object_add_value_uint(root, "Bad system nand blocks - Raw",
+ (uint64_t)le64_to_cpu(*(uint64_t *)&log_data[SCAO_BSNBR] & 0x0000FFFFFFFFFFFF));
+ json_object_add_value_uint(root, "Bad system nand blocks - Normalized",
+ (uint16_t)le16_to_cpu(*(uint16_t *)&log_data[SCAO_BSNBN]));
+ json_object_add_value_uint(root, "XOR recovery count",
+ (uint64_t)le64_to_cpu(*(uint64_t *)&log_data[SCAO_XRC]));
+ json_object_add_value_uint(root, "Uncorrectable read error count",
+ (uint64_t)le64_to_cpu(*(uint64_t *)&log_data[SCAO_UREC]));
+ json_object_add_value_uint(root, "Soft ecc error count",
+ (uint64_t)le64_to_cpu(*(uint64_t *)&log_data[SCAO_SEEC]));
+ json_object_add_value_uint(root, "End to end corrected errors",
+ (uint32_t)le32_to_cpu(*(uint32_t *)&log_data[SCAO_EECE]));
+ json_object_add_value_uint(root, "End to end detected errors",
+ (uint32_t)le32_to_cpu(*(uint32_t *)&log_data[SCAO_EEDC]));
+ json_object_add_value_uint(root, "System data percent used",
+ (__u8)log_data[SCAO_SDPU]);
+ json_object_add_value_uint(root, "Refresh counts",
+ (uint64_t)(le64_to_cpu(*(uint64_t *)&log_data[SCAO_RFSC])& 0x00FFFFFFFFFFFFFF));
+ json_object_add_value_uint(root, "Max User data erase counts",
+ (uint32_t)le32_to_cpu(*(uint32_t *)&log_data[SCAO_MXUDEC]));
+ json_object_add_value_uint(root, "Min User data erase counts",
+ (uint32_t)le32_to_cpu(*(uint32_t *)&log_data[SCAO_MNUDEC]));
+ json_object_add_value_uint(root, "Number of Thermal throttling events",
+ (__u8)log_data[SCAO_NTTE]);
+ json_object_add_value_uint(root, "Current throttling status",
+ (__u8)log_data[SCAO_CTS]);
+ json_object_add_value_uint(root, "PCIe correctable error count",
+ (uint64_t)le64_to_cpu(*(uint64_t *)&log_data[SCAO_PCEC]));
+ json_object_add_value_uint(root, "Incomplete shutdowns",
+ (uint32_t)le32_to_cpu(*(uint32_t *)&log_data[SCAO_ICS]));
+ json_object_add_value_uint(root, "Percent free blocks",
+ (__u8)log_data[SCAO_PFB]);
+ json_object_add_value_uint(root, "Capacitor health",
+ (uint16_t)le16_to_cpu(*(uint16_t *)&log_data[SCAO_CPH]));
+ json_object_add_value_uint(root, "Unaligned I/O",
+ (uint64_t)le64_to_cpu(*(uint64_t *)&log_data[SCAO_UIO]));
+ json_object_add_value_uint(root, "Security Version Number",
+ (uint64_t)le64_to_cpu(*(uint64_t *)&log_data[SCAO_SVN]));
+ json_object_add_value_uint(root, "NUSE - Namespace utilization",
+ (uint64_t)le64_to_cpu(*(uint64_t *)&log_data[SCAO_NUSE]));
+ json_object_add_value_uint(root, "PLP start count",
+ int128_to_double(&log_data[SCAO_PSC]));
+ json_object_add_value_uint(root, "Endurance estimate",
+ int128_to_double(&log_data[SCAO_EEST]));
+ smart_log_ver = (uint16_t)le16_to_cpu(*(uint16_t *)&log_data[SCAO_LPV]);
+ json_object_add_value_uint(root, "Log page version", smart_log_ver);
+ char guid[40];
+ memset((void*)guid, 0, 40);
+ sprintf((char*)guid, "0x%lX%lX",(uint64_t)le64_to_cpu(*(uint64_t *)&log_data[SCAO_LPG + 8]),
+ (uint64_t)le64_to_cpu(*(uint64_t *)&log_data[SCAO_LPG]));
+ printf("GUID string:%s", guid);
+ json_object_add_value_string(root, "Log page GUID", guid);
+ if(smart_log_ver > 2){
+ json_object_add_value_uint(root, "Errata Version Field",
+ (__u8)log_data[SCAO_EVF]);
+ json_object_add_value_uint(root, "Point Version Field",
+ (uint16_t)log_data[SCAO_PVF]);
+ json_object_add_value_uint(root, "Minor Version Field",
+ (uint16_t)log_data[SCAO_MIVF]);
+ json_object_add_value_uint(root, "Major Version Field",
+ (__u8)log_data[SCAO_MAVF]);
+ json_object_add_value_uint(root, "NVMe Errata Version",
+ (__u8)log_data[SCAO_NEV]);
+ json_object_add_value_uint(root, "PCIe Link Retraining Count",
+ (uint64_t)le64_to_cpu(*(uint64_t *)&log_data[SCAO_PLRC]));
+ }
json_print_object(root, NULL);
printf("\n");
+ json_free_object(root);
+}
+
+static void wdc_print_eol_c0_normal(void *data)
+{
+ __u8 *log_data = (__u8*)data;
+
+ printf(" End of Life Log Page 0xC0 :- \n");
+
+ printf(" Realloc Block Count %"PRIu32"\n",
+ (uint32_t)le32_to_cpu(log_data[EOL_RBC]));
+ printf(" ECC Rate %"PRIu32"\n",
+ (uint32_t)le32_to_cpu(log_data[EOL_ECCR]));
+ printf(" Write Amp %"PRIu32"\n",
+ (uint32_t)le32_to_cpu(log_data[EOL_WRA]));
+ printf(" Percent Life Remaining %"PRIu32"\n",
+ (uint32_t)le32_to_cpu(log_data[EOL_PLR]));
+ printf(" Program Fail Count %"PRIu32"\n",
+ (uint32_t)le32_to_cpu(log_data[EOL_PFC]));
+ printf(" Erase Fail Count %"PRIu32"\n",
+ (uint32_t)le32_to_cpu(log_data[EOL_EFC]));
+ printf(" Raw Read Error Rate %"PRIu32"\n",
+ (uint32_t)le32_to_cpu(log_data[EOL_RRER]));
+
+}
+
+static void wdc_print_eol_c0_json(void *data)
+{
+ __u8 *log_data = (__u8*)data;
+ struct json_object *root;
+
+ root = json_create_object();
+
+ json_object_add_value_uint(root, "Realloc Block Count",
+ (uint32_t)le32_to_cpu(log_data[EOL_RBC]));
+ json_object_add_value_uint(root, "ECC Rate",
+ (uint32_t)le32_to_cpu(log_data[EOL_ECCR]));
+ json_object_add_value_uint(root, "Write Amp",
+ (uint32_t)le32_to_cpu(log_data[EOL_WRA]));
+ json_object_add_value_uint(root, "Percent Life Remaining",
+ (uint32_t)le32_to_cpu(log_data[EOL_PLR]));
+ json_object_add_value_uint(root, "Program Fail Count",
+ (uint32_t)le32_to_cpu(log_data[EOL_PFC]));
+ json_object_add_value_uint(root, "Erase Fail Count",
+ (uint32_t)le32_to_cpu(log_data[EOL_EFC]));
+ json_object_add_value_uint(root, "Raw Read Error Rate",
+ (uint32_t)le32_to_cpu(log_data[EOL_RRER]));
+
+ json_print_object(root, NULL);
+ printf("\n");
json_free_object(root);
}
+static int wdc_print_c0_cloud_attr_log(void *data, int fmt)
+{
+ if (!data) {
+ fprintf(stderr, "ERROR : WDC : Invalid buffer to read 0xC0 log\n");
+ return -1;
+ }
+ switch (fmt) {
+ case NORMAL:
+ wdc_print_smart_cloud_attr_C0_normal(data);
+ break;
+ case JSON:
+ wdc_print_smart_cloud_attr_C0_json(data);
+ break;
+ }
+ return 0;
+}
+
+static int wdc_print_c0_eol_log(void *data, int fmt)
+{
+ if (!data) {
+ fprintf(stderr, "ERROR : WDC : Invalid buffer to read 0xC0 log\n");
+ return -1;
+ }
+ switch (fmt) {
+ case NORMAL:
+ wdc_print_eol_c0_normal(data);
+ break;
+ case JSON:
+ wdc_print_eol_c0_json(data);
+ break;
+ }
+ return 0;
+}
+
+static int wdc_get_c0_log_page(int fd, char *format, int uuid_index)
+{
+ int ret = 0;
+ int fmt = -1;
+ int i = 0;
+ __u8 *data;
+ __u32 *cust_id;
+ uint32_t device_id, read_vendor_id;
+
+ if (!wdc_check_device(fd))
+ return -1;
+ fmt = validate_output_format(format);
+ if (fmt < 0) {
+ fprintf(stderr, "ERROR : WDC : invalid output format\n");
+ return fmt;
+ }
+
+ ret = wdc_get_pci_ids(&device_id, &read_vendor_id);
+
+ switch (device_id) {
+
+ case WDC_NVME_SN640_DEV_ID:
+ case WDC_NVME_SN640_DEV_ID_1:
+ case WDC_NVME_SN640_DEV_ID_2:
+ case WDC_NVME_SN640_DEV_ID_3:
+ case WDC_NVME_SN840_DEV_ID:
+ case WDC_NVME_SN840_DEV_ID_1:
+ if (!get_dev_mgment_cbs_data(fd, WDC_C2_CUSTOMER_ID_ID, (void*)&data)) {
+ fprintf(stderr, "%s: ERROR : WDC : 0xC2 Log Page entry ID 0x%x not found\n", __func__, WDC_C2_CUSTOMER_ID_ID);
+ return -1;
+ }
+
+ cust_id = (__u32*)data;
+
+ if ((*cust_id == WDC_CUSTOMER_ID_0x1004) || (*cust_id == WDC_CUSTOMER_ID_0x1008) ||
+ (*cust_id == WDC_CUSTOMER_ID_0x1005) || (*cust_id == WDC_CUSTOMER_ID_0x1304))
+ {
+ if (uuid_index == 0)
+ {
+ if ((data = (__u8*) malloc(sizeof (__u8) * WDC_NVME_SMART_CLOUD_ATTR_LEN)) == NULL) {
+ fprintf(stderr, "ERROR : WDC : malloc : %s\n", strerror(errno));
+ return -1;
+ }
+
+ /* Get the 0xC0 log data */
+ ret = nvme_get_log14(fd, 0xFFFFFFFF, WDC_NVME_GET_EOL_STATUS_LOG_OPCODE,
+ NVME_NO_LOG_LSP, 0, 0, false, uuid_index, WDC_NVME_SMART_CLOUD_ATTR_LEN, data);
+
+ if (strcmp(format, "json"))
+ fprintf(stderr, "NVMe Status:%s(%x)\n", nvme_status_to_string(ret), ret);
+
+ if (ret == 0) {
+
+ /* Verify GUID matches */
+ for (i=0; i<16; i++) {
+ if (scao_guid[i] != data[SCAO_LPG + i]) {
+ fprintf(stderr, "ERROR : WDC : Unknown GUID in C0 Log Page data\n");
+ int j;
+ fprintf(stderr, "ERROR : WDC : Expected GUID: 0x");
+ for (j = 0; j<16; j++) {
+ fprintf(stderr, "%x", scao_guid[j]);
+ }
+ fprintf(stderr, "\nERROR : WDC : Actual GUID: 0x");
+ for (j = 0; j<16; j++) {
+ fprintf(stderr, "%x", data[SCAO_LPG + j]);
+ }
+ fprintf(stderr, "\n");
+
+ ret = -1;
+ break;
+ }
+ }
+
+ if (ret == 0) {
+
+ /* parse the data */
+ wdc_print_c0_cloud_attr_log(data, fmt);
+ }
+ } else {
+ fprintf(stderr, "ERROR : WDC : Unable to read C0 Log Page data\n");
+ ret = -1;
+ }
+
+ free(data);
+ } else if (uuid_index == 1) {
+
+ if ((data = (__u8*) malloc(sizeof (__u8) * WDC_NVME_EOL_STATUS_LOG_LEN)) == NULL) {
+ fprintf(stderr, "ERROR : WDC : malloc : %s\n", strerror(errno));
+ return -1;
+ }
+
+ /* Get the 0xC0 log data */
+ ret = nvme_get_log14(fd, 0xFFFFFFFF, WDC_NVME_GET_EOL_STATUS_LOG_OPCODE,
+ NVME_NO_LOG_LSP, 0, 0, false, uuid_index, WDC_NVME_EOL_STATUS_LOG_LEN, data);
+
+ if (strcmp(format, "json"))
+ fprintf(stderr, "NVMe Status:%s(%x)\n", nvme_status_to_string(ret), ret);
+
+ if (ret == 0) {
+ /* parse the data */
+ wdc_print_c0_eol_log(data, fmt);
+ } else {
+ fprintf(stderr, "ERROR : WDC : Unable to read C0 Log Page data\n");
+ ret = -1;
+ }
+
+ free(data);
+ } else {
+ fprintf(stderr, "ERROR : WDC : Unknown uuid index\n");
+ ret = -1;
+ }
+ }
+ else {
+ if ((data = (__u8*) malloc(sizeof (__u8) * WDC_NVME_EOL_STATUS_LOG_LEN)) == NULL) {
+ fprintf(stderr, "ERROR : WDC : malloc : %s\n", strerror(errno));
+ return -1;
+ }
+
+ /* Get the 0xC0 log data */
+ ret = nvme_get_log(fd, 0xFFFFFFFF, WDC_NVME_GET_EOL_STATUS_LOG_OPCODE,
+ false, NVME_NO_LOG_LSP, WDC_NVME_EOL_STATUS_LOG_LEN, data);
+
+ if (strcmp(format, "json"))
+ fprintf(stderr, "NVMe Status:%s(%x)\n", nvme_status_to_string(ret), ret);
+
+ if (ret == 0) {
+ /* parse the data */
+ wdc_print_c0_eol_log(data, fmt);
+ } else {
+ fprintf(stderr, "ERROR : WDC : Unable to read C0 Log Page data\n");
+ ret = -1;
+ }
+
+ free(data);
+ }
+ break;
+
+ case WDC_NVME_ZN350_DEV_ID:
+ case WDC_NVME_ZN350_DEV_ID_1:
+ if ((data = (__u8*) malloc(sizeof (__u8) * WDC_NVME_SMART_CLOUD_ATTR_LEN)) == NULL) {
+ fprintf(stderr, "ERROR : WDC : malloc : %s\n", strerror(errno));
+ return -1;
+ }
+
+ /* Get the 0xC0 log data */
+ ret = nvme_get_log(fd, 0xFFFFFFFF, WDC_NVME_GET_SMART_CLOUD_ATTR_LOG_OPCODE,
+ false, NVME_NO_LOG_LSP, WDC_NVME_SMART_CLOUD_ATTR_LEN, data);
+
+ if (strcmp(format, "json"))
+ fprintf(stderr, "NVMe Status:%s(%x)\n", nvme_status_to_string(ret), ret);
+
+ if (ret == 0) {
+ /* parse the data */
+ wdc_print_c0_cloud_attr_log(data, fmt);
+ } else {
+ fprintf(stderr, "ERROR : WDC : Unable to read C0 Log Page data\n");
+ ret = -1;
+ }
+
+ free(data);
+ break;
+
+ default:
+ fprintf(stderr, "ERROR : WDC : Unknown device id - 0x%x\n", device_id);
+
+ ret = -1;
+ break;
+
+ }
+
+ return ret;
+}
+
static int wdc_print_fb_ca_log(struct wdc_ssd_ca_perf_stats *perf, int fmt)
{
if (!perf) {
@@ -3500,21 +4783,19 @@ static int wdc_print_d0_log(struct wdc_ssd_d0_smart_log *perf, int fmt)
return 0;
}
-static int wdc_print_fw_act_history_log(struct wdc_fw_act_history_log_entry *fw_act_history_entries,
- int num_entries,
- int fmt)
+static int wdc_print_fw_act_history_log(__u8 *data, int num_entries, int fmt, __u32 cust_id)
{
- if (!fw_act_history_entries) {
+ if (!data) {
fprintf(stderr, "ERROR : WDC : Invalid buffer to read fw activate history entries\n");
return -1;
}
switch (fmt) {
case NORMAL:
- wdc_print_fw_act_history_log_normal(fw_act_history_entries, num_entries);
+ wdc_print_fw_act_history_log_normal(data, num_entries, cust_id);
break;
case JSON:
- wdc_print_fw_act_history_log_json(fw_act_history_entries, num_entries);
+ wdc_print_fw_act_history_log_json(data, num_entries, cust_id);
break;
}
return 0;
@@ -3566,7 +4847,7 @@ static int wdc_get_ca_log_page(int fd, char *format)
memset(data, 0, sizeof (__u8) * WDC_FB_CA_LOG_BUF_LEN);
ret = nvme_get_log(fd, 0xFFFFFFFF, WDC_NVME_GET_DEVICE_INFO_LOG_OPCODE,
- false, WDC_FB_CA_LOG_BUF_LEN, data);
+ false, NVME_NO_LOG_LSP, WDC_FB_CA_LOG_BUF_LEN, data);
if (strcmp(format, "json"))
fprintf(stderr, "NVMe Status:%s(%x)\n", nvme_status_to_string(ret), ret);
@@ -3580,7 +4861,7 @@ static int wdc_get_ca_log_page(int fd, char *format)
}
} else {
- fprintf(stderr, "ERROR : WDC : Unsupported Customer id, id = %d\n", *cust_id);
+ fprintf(stderr, "ERROR : WDC : Unsupported Customer id, id = 0x%x\n", *cust_id);
return -1;
}
break;
@@ -3588,7 +4869,7 @@ static int wdc_get_ca_log_page(int fd, char *format)
case WDC_NVME_SN640_DEV_ID:
case WDC_NVME_SN640_DEV_ID_1:
case WDC_NVME_SN640_DEV_ID_2:
- case WDC_NVME_SN640_DEV_ID_3:
+ case WDC_NVME_SN640_DEV_ID_3:
case WDC_NVME_SN840_DEV_ID:
case WDC_NVME_SN840_DEV_ID_1:
@@ -3602,7 +4883,7 @@ static int wdc_get_ca_log_page(int fd, char *format)
memset(data, 0, sizeof (__u8) * WDC_FB_CA_LOG_BUF_LEN);
ret = nvme_get_log(fd, 0xFFFFFFFF, WDC_NVME_GET_DEVICE_INFO_LOG_OPCODE,
- false, WDC_FB_CA_LOG_BUF_LEN, data);
+ false, NVME_NO_LOG_LSP, WDC_FB_CA_LOG_BUF_LEN, data);
if (strcmp(format, "json"))
fprintf(stderr, "NVMe Status:%s(%x)\n", nvme_status_to_string(ret), ret);
@@ -3614,7 +4895,8 @@ static int wdc_get_ca_log_page(int fd, char *format)
fprintf(stderr, "ERROR : WDC : Unable to read CA Log Page data\n");
ret = -1;
}
- } else if ((*cust_id == WDC_CUSTOMER_ID_GN) || (*cust_id == WDC_CUSTOMER_ID_GD)) {
+ } else if ((*cust_id == WDC_CUSTOMER_ID_GN) || (*cust_id == WDC_CUSTOMER_ID_GD) ||
+ (*cust_id == WDC_CUSTOMER_ID_BD)) {
if ((data = (__u8*) malloc(sizeof (__u8) * WDC_BD_CA_LOG_BUF_LEN)) == NULL) {
fprintf(stderr, "ERROR : WDC : malloc : %s\n", strerror(errno));
@@ -3623,7 +4905,7 @@ static int wdc_get_ca_log_page(int fd, char *format)
memset(data, 0, sizeof (__u8) * WDC_BD_CA_LOG_BUF_LEN);
ret = nvme_get_log(fd, 0xFFFFFFFF, WDC_NVME_GET_DEVICE_INFO_LOG_OPCODE,
- false, WDC_BD_CA_LOG_BUF_LEN, data);
+ false, NVME_NO_LOG_LSP, WDC_BD_CA_LOG_BUF_LEN, data);
if (strcmp(format, "json"))
fprintf(stderr, "NVMe Status:%s(%x)\n", nvme_status_to_string(ret), ret);
@@ -3638,7 +4920,7 @@ static int wdc_get_ca_log_page(int fd, char *format)
break;
} else {
- fprintf(stderr, "ERROR : WDC : Unsupported Customer id, id = %d\n", *cust_id);
+ fprintf(stderr, "ERROR : WDC : Unsupported Customer id, id = 0x%x\n", *cust_id);
return -1;
}
break;
@@ -3687,7 +4969,7 @@ static int wdc_get_c1_log_page(int fd, char *format, uint8_t interval)
memset(data, 0, sizeof (__u8) * WDC_ADD_LOG_BUF_LEN);
ret = nvme_get_log(fd, 0x01, WDC_NVME_ADD_LOG_OPCODE, false,
- WDC_ADD_LOG_BUF_LEN, data);
+ NVME_NO_LOG_LSP, WDC_ADD_LOG_BUF_LEN, data);
if (strcmp(format, "json"))
fprintf(stderr, "NVMe Status:%s(%x)\n", nvme_status_to_string(ret), ret);
if (ret == 0) {
@@ -3740,7 +5022,7 @@ static int wdc_get_d0_log_page(int fd, char *format)
memset(data, 0, sizeof (__u8) * WDC_NVME_VU_SMART_LOG_LEN);
ret = nvme_get_log(fd, 0xFFFFFFFF, WDC_NVME_GET_VU_SMART_LOG_OPCODE,
- false, WDC_NVME_VU_SMART_LOG_LEN, data);
+ false, NVME_NO_LOG_LSP, WDC_NVME_VU_SMART_LOG_LEN, data);
if (strcmp(format, "json"))
fprintf(stderr, "NVMe Status:%s(%x)\n", nvme_status_to_string(ret), ret);
@@ -3763,23 +5045,33 @@ static int wdc_vs_smart_add_log(int argc, char **argv, struct command *command,
const char *desc = "Retrieve additional performance statistics.";
const char *interval = "Interval to read the statistics from [1, 15].";
int fd;
+ const char *log_page_version = "Log Page Version: 0 = vendor, 1 = WDC";
+ const char *log_page_mask = "Log Page Mask, comma separated list: 0xC0, 0xC1, 0xCA, 0xD0";
int ret = 0;
+ int uuid_index = 0;
+ int page_mask = 0, num, i;
+ int log_page_list[16];
__u64 capabilities = 0;
struct config {
uint8_t interval;
- int vendor_specific;
char *output_format;
+ __u8 log_page_version;
+ char *log_page_mask;
};
struct config cfg = {
.interval = 14,
.output_format = "normal",
+ .log_page_version = 0,
+ .log_page_mask = "",
};
OPT_ARGS(opts) = {
- OPT_UINT("interval", 'i', &cfg.interval, interval),
- OPT_FMT("output-format", 'o', &cfg.output_format, "Output Format: normal|json"),
+ OPT_UINT("interval", 'i', &cfg.interval, interval),
+ OPT_FMT("output-format", 'o', &cfg.output_format, "Output Format: normal|json"),
+ OPT_BYTE("log-page-version", 'l', &cfg.log_page_version, log_page_version),
+ OPT_LIST("log-page-mask", 'p', &cfg.log_page_mask, log_page_mask),
OPT_END()
};
@@ -3787,6 +5079,50 @@ static int wdc_vs_smart_add_log(int argc, char **argv, struct command *command,
if (fd < 0)
return fd;
+ if (cfg.log_page_version == 0) {
+ uuid_index = 0;
+ } else if (cfg.log_page_version == 1) {
+ uuid_index = 1;
+ } else {
+ fprintf(stderr, "ERROR : WDC: unsupported log page version for this command\n");
+ ret = -1;
+ goto out;
+ }
+
+ num = argconfig_parse_comma_sep_array(cfg.log_page_mask, log_page_list, 16);
+
+ if (num == -1) {
+ fprintf(stderr, "ERROR: WDC: log page list is malformed\n");
+ ret = -1;
+ goto out;
+ }
+
+ if (num == 0)
+ {
+ page_mask |= WDC_ALL_PAGE_MASK;
+ }
+ else
+ {
+ for (i = 0; i < num; i++)
+ {
+ if (log_page_list[i] == 0xc0) {
+ page_mask |= WDC_C0_PAGE_MASK;
+ }
+ if (log_page_list[i] == 0xc1) {
+ page_mask |= WDC_C1_PAGE_MASK;
+ }
+ if (log_page_list[i] == 0xca) {
+ page_mask |= WDC_CA_PAGE_MASK;
+ }
+ if (log_page_list[i] == 0xd0) {
+ page_mask |= WDC_D0_PAGE_MASK;
+ }
+ }
+ }
+ if (page_mask == 0)
+ fprintf(stderr, "ERROR : WDC: Unknown log page mask - %s\n", cfg.log_page_mask);
+
+
capabilities = wdc_get_drive_capabilities(fd);
if ((capabilities & WDC_DRIVE_CAP_SMART_LOG_MASK) == 0) {
@@ -3795,25 +5131,78 @@ static int wdc_vs_smart_add_log(int argc, char **argv, struct command *command,
goto out;
}
- if ((capabilities & (WDC_DRIVE_CAP_CA_LOG_PAGE)) == (WDC_DRIVE_CAP_CA_LOG_PAGE)) {
+ if (((capabilities & WDC_DRIVE_CAP_C0_LOG_PAGE) == WDC_DRIVE_CAP_C0_LOG_PAGE) &&
+ (page_mask & WDC_C0_PAGE_MASK)) {
+ /* Get 0xC0 log page if possible. */
+ ret = wdc_get_c0_log_page(fd, cfg.output_format, uuid_index);
+ if (ret)
+ fprintf(stderr, "ERROR : WDC : Failure reading the C0 Log Page, ret = %d\n", ret);
+ }
+ if (((capabilities & (WDC_DRIVE_CAP_CA_LOG_PAGE)) == (WDC_DRIVE_CAP_CA_LOG_PAGE)) &&
+ (page_mask & WDC_CA_PAGE_MASK)) {
/* Get the CA Log Page */
ret = wdc_get_ca_log_page(fd, cfg.output_format);
if (ret)
fprintf(stderr, "ERROR : WDC : Failure reading the CA Log Page, ret = %d\n", ret);
}
- if ((capabilities & WDC_DRIVE_CAP_C1_LOG_PAGE) == WDC_DRIVE_CAP_C1_LOG_PAGE) {
+ if (((capabilities & WDC_DRIVE_CAP_C1_LOG_PAGE) == WDC_DRIVE_CAP_C1_LOG_PAGE) &&
+ (page_mask & WDC_C1_PAGE_MASK)) {
/* Get the C1 Log Page */
ret = wdc_get_c1_log_page(fd, cfg.output_format, cfg.interval);
if (ret)
fprintf(stderr, "ERROR : WDC : Failure reading the C1 Log Page, ret = %d\n", ret);
}
- if ((capabilities & WDC_DRIVE_CAP_D0_LOG_PAGE) == WDC_DRIVE_CAP_D0_LOG_PAGE) {
+ if (((capabilities & WDC_DRIVE_CAP_D0_LOG_PAGE) == WDC_DRIVE_CAP_D0_LOG_PAGE) &&
+ (page_mask & WDC_D0_PAGE_MASK)) {
/* Get the D0 Log Page */
ret = wdc_get_d0_log_page(fd, cfg.output_format);
if (ret)
fprintf(stderr, "ERROR : WDC : Failure reading the D0 Log Page, ret = %d\n", ret);
}
+
out:
+
+ return ret;
+}
+
+static int wdc_do_clear_pcie_correctable_errors(int fd)
+{
+ int ret;
+ struct nvme_passthru_cmd admin_cmd;
+
+ memset(&admin_cmd, 0, sizeof (admin_cmd));
+ admin_cmd.opcode = WDC_NVME_CLEAR_PCIE_CORR_OPCODE;
+ admin_cmd.cdw12 = ((WDC_NVME_CLEAR_PCIE_CORR_SUBCMD << WDC_NVME_SUBCMD_SHIFT) |
+ WDC_NVME_CLEAR_PCIE_CORR_CMD);
+
+ ret = nvme_submit_admin_passthru(fd, &admin_cmd);
+ fprintf(stderr, "NVMe Status:%s(%x)\n", nvme_status_to_string(ret), ret);
+ return ret;
+}
+
+static int wdc_do_clear_pcie_correctable_errors_vuc(int fd)
+{
+ int ret;
+ struct nvme_passthru_cmd admin_cmd;
+
+ memset(&admin_cmd, 0, sizeof (admin_cmd));
+ admin_cmd.opcode = WDC_NVME_CLEAR_PCIE_CORR_OPCODE_VUC;
+
+ ret = nvme_submit_admin_passthru(fd, &admin_cmd);
+ fprintf(stderr, "NVMe Status:%s(%x)\n", nvme_status_to_string(ret), ret);
+ return ret;
+}
+
+static int wdc_do_clear_pcie_correctable_errors_fid(int fd)
+{
+ int ret;
+ __u32 result;
+ __u32 value = 1 << 31; /* Bit 31 - clear PCIe correctable count */
+
+ ret = nvme_set_feature(fd, 0, WDC_NVME_CLEAR_PCIE_CORR_FEATURE_ID, value,
+ 0, 0, 0, NULL, &result);
+
+ fprintf(stderr, "NVMe Status:%s(%x)\n", nvme_status_to_string(ret), ret);
return ret;
}
@@ -3823,7 +5212,6 @@ static int wdc_clear_pcie_correctable_errors(int argc, char **argv, struct comma
char *desc = "Clear PCIE Correctable Errors.";
int fd, ret;
__u64 capabilities = 0;
- struct nvme_passthru_cmd admin_cmd;
OPT_ARGS(opts) = {
OPT_END()
@@ -3839,28 +5227,32 @@ static int wdc_clear_pcie_correctable_errors(int argc, char **argv, struct comma
}
capabilities = wdc_get_drive_capabilities(fd);
- if ((capabilities & WDC_DRIVE_CAP_CLEAR_PCIE) == 0) {
+ if ((capabilities & WDC_DRIVE_CAP_CLEAR_PCIE_MASK) == 0) {
fprintf(stderr, "ERROR : WDC: unsupported device for this command\n");
ret = -1;
goto out;
}
+
+ if (capabilities & WDC_DRIVE_CAP_CLEAR_PCIE) {
+ ret = wdc_do_clear_pcie_correctable_errors(fd);
+ }
+ else if (capabilities & WDC_DRIVE_CAP_VUC_CLEAR_PCIE) {
+ ret = wdc_do_clear_pcie_correctable_errors_vuc(fd);
+ }
+ else {
+ ret = wdc_do_clear_pcie_correctable_errors_fid(fd);
+ }
- memset(&admin_cmd, 0, sizeof (admin_cmd));
- admin_cmd.opcode = WDC_NVME_CLEAR_PCIE_CORR_OPCODE;
- admin_cmd.cdw12 = ((WDC_NVME_CLEAR_PCIE_CORR_SUBCMD << WDC_NVME_SUBCMD_SHIFT) |
- WDC_NVME_CLEAR_PCIE_CORR_CMD);
-
- ret = nvme_submit_admin_passthru(fd, &admin_cmd);
- fprintf(stderr, "NVMe Status:%s(%x)\n", nvme_status_to_string(ret), ret);
out:
return ret;
}
+
static int wdc_drive_status(int argc, char **argv, struct command *command,
struct plugin *plugin)
{
char *desc = "Get Drive Status.";
int fd;
- int ret = -1;
+ int ret = 0;
__le32 system_eol_state;
__le32 user_eol_state;
__le32 format_corrupt_reason = cpu_to_le32(0xFFFFFFFF);
@@ -4022,7 +5414,6 @@ static int wdc_get_fw_act_history(int fd, char *format)
int fmt = -1;
__u8 *data;
struct wdc_fw_act_history_log_hdr *fw_act_history_hdr;
- struct wdc_fw_act_history_log_entry *fw_act_history_entry;
if (!wdc_check_device(fd))
return -1;
@@ -4047,7 +5438,7 @@ static int wdc_get_fw_act_history(int fd, char *format)
memset(data, 0, sizeof (__u8) * WDC_FW_ACT_HISTORY_LOG_BUF_LEN);
ret = nvme_get_log(fd, 0xFFFFFFFF, WDC_NVME_GET_FW_ACT_HISTORY_LOG_ID,
- false, WDC_FW_ACT_HISTORY_LOG_BUF_LEN, data);
+ false, NVME_NO_LOG_LSP, WDC_FW_ACT_HISTORY_LOG_BUF_LEN, data);
if (strcmp(format, "json"))
fprintf(stderr, "NVMe Status:%s(%x)\n", nvme_status_to_string(ret), ret);
@@ -4055,17 +5446,85 @@ static int wdc_get_fw_act_history(int fd, char *format)
if (ret == 0) {
/* parse the data */
fw_act_history_hdr = (struct wdc_fw_act_history_log_hdr *)(data);
- fw_act_history_entry = (struct wdc_fw_act_history_log_entry *)(data + sizeof(struct wdc_fw_act_history_log_hdr));
- if (fw_act_history_hdr->num_entries > 0)
- ret = wdc_print_fw_act_history_log(fw_act_history_entry, fw_act_history_hdr->num_entries, fmt);
- else
- fprintf(stderr, "INFO : WDC : No entries found in FW Activate History Log Page\n");
+ if ((fw_act_history_hdr->num_entries > 0) && (fw_act_history_hdr->num_entries <= WDC_MAX_NUM_ACT_HIST_ENTRIES))
+ ret = wdc_print_fw_act_history_log(data, fw_act_history_hdr->num_entries, fmt, 0);
+ else if (fw_act_history_hdr->num_entries == 0) {
+ fprintf(stderr, "INFO : WDC : No FW Activate History entries found.\n");
+ ret = 0;
+ }
+ else {
+ fprintf(stderr, "ERROR : WDC : Invalid number entries found in FW Activate History Log Page - %d\n", fw_act_history_hdr->num_entries);
+ ret = -1;
+ }
+ } else {
+ fprintf(stderr, "ERROR : WDC : Unable to read FW Activate History Log Page data\n");
+ ret = -1;
+ }
+
+ free(data);
+ return ret;
+}
+
+static int wdc_get_fw_act_history_C2(int fd, char *format)
+{
+ int ret = 0;
+ int fmt = -1;
+ __u8 *data;
+ __u32 *cust_id;
+ struct wdc_fw_act_history_log_format_c2 *fw_act_history_log;
+ __u32 num_entries = 0;
+
+ if (!wdc_check_device(fd))
+ return -1;
+
+ fmt = validate_output_format(format);
+ if (fmt < 0) {
+ fprintf(stderr, "ERROR : WDC : invalid output format\n");
+ return fmt;
+ }
+
+ if ((data = (__u8*) malloc(sizeof (__u8) * WDC_FW_ACT_HISTORY_C2_LOG_BUF_LEN)) == NULL) {
+ fprintf(stderr, "ERROR : WDC : malloc : %s\n", strerror(errno));
+ return -1;
+ }
+
+ memset(data, 0, sizeof (__u8) * WDC_FW_ACT_HISTORY_C2_LOG_BUF_LEN);
+
+ ret = nvme_get_log(fd, 0xFFFFFFFF, WDC_NVME_GET_FW_ACT_HISTORY_C2_LOG_ID,
+ false, NVME_NO_LOG_LSP, WDC_FW_ACT_HISTORY_C2_LOG_BUF_LEN, data);
+
+ if (strcmp(format, "json"))
+ fprintf(stderr, "NVMe Status:%s(%x)\n", nvme_status_to_string(ret), ret);
+
+ if (ret == 0) {
+ /* parse the data */
+ fw_act_history_log = (struct wdc_fw_act_history_log_format_c2*)(data);
+ num_entries = le32_to_cpu(fw_act_history_log->num_entries);
+
+ if ((num_entries > 0) && (num_entries <= WDC_MAX_NUM_ACT_HIST_ENTRIES)) {
+ /* get the FW customer id */
+ if (!get_dev_mgment_cbs_data(fd, WDC_C2_CUSTOMER_ID_ID, (void*)&cust_id)) {
+ fprintf(stderr, "%s: ERROR : WDC : 0xC2 Log Page entry ID 0x%x not found\n", __func__, WDC_C2_CUSTOMER_ID_ID);
+ ret = -1;
+ goto freeData;
+ }
+
+ ret = wdc_print_fw_act_history_log(data, num_entries, fmt, *cust_id);
+ } else if (num_entries == 0) {
+ fprintf(stderr, "INFO : WDC : No FW Activate History entries found.\n");
+ ret = 0;
+ }
+ else {
+ fprintf(stderr, "ERROR : WDC : Invalid number entries found in FW Activate History Log Page - %d\n", num_entries);
+ ret = -1;
+ }
} else {
fprintf(stderr, "ERROR : WDC : Unable to read FW Activate History Log Page data\n");
ret = -1;
}
+freeData:
free(data);
return ret;
}
@@ -4098,16 +5557,86 @@ static int wdc_vs_fw_activate_history(int argc, char **argv, struct command *com
return fd;
capabilities = wdc_get_drive_capabilities(fd);
-
- if ((capabilities & WDC_DRIVE_CAP_FW_ACTIVATE_HISTORY) == WDC_DRIVE_CAP_FW_ACTIVATE_HISTORY) {
- ret = wdc_get_fw_act_history(fd, cfg.output_format);
- if (ret)
- fprintf(stderr, "ERROR : WDC : Failure reading the FW Activate History, ret = %d\n", ret);
- } else {
+ if ((capabilities & WDC_DRIVE_CAP_FW_ACTIVATE_HISTORY_MASK) == 0) {
fprintf(stderr, "ERROR : WDC: unsupported device for this command\n");
ret = -1;
+ goto out;
}
+ if (capabilities & WDC_DRIVE_CAP_FW_ACTIVATE_HISTORY) {
+ int uuid_index = 0;
+ bool c0GuidMatch = false;
+ __u8 *data;
+ int i;
+
+ /* check for the GUID in the 0xC0 log page to determine which log page to use to */
+ /* to retrieve fw activate history data */
+ if ((data = (__u8*) malloc(sizeof (__u8) * WDC_NVME_SMART_CLOUD_ATTR_LEN)) == NULL) {
+ fprintf(stderr, "ERROR : WDC : malloc : %s\n", strerror(errno));
+ return -1;
+ }
+
+ /* Get the 0xC0 log data */
+ ret = nvme_get_log14(fd, 0xFFFFFFFF, WDC_NVME_GET_SMART_CLOUD_ATTR_LOG_OPCODE,
+ NVME_NO_LOG_LSP, 0, 0, false, uuid_index, WDC_NVME_SMART_CLOUD_ATTR_LEN, data);
+
+ if (ret == 0) {
+ /* Verify GUID matches */
+ for (i=0; i<16; i++) {
+ if (scao_guid[i] != data[SCAO_LPG + i]) {
+ c0GuidMatch = false;
+ break;
+ }
+ }
+
+ if (i == 16) {
+ c0GuidMatch = true;
+ }
+ }
+
+ free(data);
+ if (c0GuidMatch) {
+ ret = wdc_get_fw_act_history_C2(fd, cfg.output_format);
+ }
+ else {
+ ret = wdc_get_fw_act_history(fd, cfg.output_format);
+ }
+ } else {
+ ret = wdc_get_fw_act_history_C2(fd, cfg.output_format);
+ }
+
+ if (ret)
+ fprintf(stderr, "ERROR : WDC : Failure reading the FW Activate History, ret = %d\n", ret);
+out:
+ return ret;
+}
+
+static int wdc_do_clear_fw_activate_history_vuc(int fd)
+{
+ int ret = -1;
+ struct nvme_passthru_cmd admin_cmd;
+
+ memset(&admin_cmd, 0, sizeof (admin_cmd));
+ admin_cmd.opcode = WDC_NVME_CLEAR_FW_ACT_HIST_OPCODE;
+ admin_cmd.cdw12 = ((WDC_NVME_CLEAR_FW_ACT_HIST_SUBCMD << WDC_NVME_SUBCMD_SHIFT) |
+ WDC_NVME_CLEAR_FW_ACT_HIST_CMD);
+
+ ret = nvme_submit_admin_passthru(fd, &admin_cmd);
+ fprintf(stderr, "NVMe Status:%s(%x)\n", nvme_status_to_string(ret), ret);
+
+ return ret;
+}
+
+static int wdc_do_clear_fw_activate_history_fid(int fd)
+{
+ int ret = -1;
+ __u32 result;
+ __u32 value = 1 << 31; /* Bit 31 - Clear Firmware Update History Log */
+
+ ret = nvme_set_feature(fd, 0, WDC_NVME_CLEAR_FW_ACT_HIST_VU_FID, value,
+ 0, 0, 0, NULL, &result);
+
+ fprintf(stderr, "NVMe Status:%s(%x)\n", nvme_status_to_string(ret), ret);
return ret;
}
@@ -4118,7 +5647,6 @@ static int wdc_clear_fw_activate_history(int argc, char **argv, struct command *
int fd;
int ret = -1;
__u64 capabilities = 0;
- struct nvme_passthru_cmd admin_cmd;
OPT_ARGS(opts) = {
OPT_END()
@@ -4129,19 +5657,18 @@ static int wdc_clear_fw_activate_history(int argc, char **argv, struct command *
return fd;
capabilities = wdc_get_drive_capabilities(fd);
- if ((capabilities & WDC_DRIVE_CAP_CLEAR_FW_ACT_HISTORY) != WDC_DRIVE_CAP_CLEAR_FW_ACT_HISTORY) {
+ if ((capabilities & WDC_DRIVE_CAP_CLEAR_FW_ACT_HISTORY_MASK) == 0) {
fprintf(stderr, "ERROR : WDC: unsupported device for this command\n");
ret = -1;
goto out;
}
- memset(&admin_cmd, 0, sizeof (admin_cmd));
- admin_cmd.opcode = WDC_NVME_CLEAR_FW_ACT_HIST_OPCODE;
- admin_cmd.cdw12 = ((WDC_NVME_CLEAR_FW_ACT_HIST_SUBCMD << WDC_NVME_SUBCMD_SHIFT) |
- WDC_NVME_CLEAR_FW_ACT_HIST_CMD);
-
- ret = nvme_submit_admin_passthru(fd, &admin_cmd);
- fprintf(stderr, "NVMe Status:%s(%x)\n", nvme_status_to_string(ret), ret);
+ if (capabilities & WDC_DRIVE_CAP_CLEAR_FW_ACT_HISTORY) {
+ ret = wdc_do_clear_fw_activate_history_vuc(fd);
+ }
+ else {
+ ret = wdc_do_clear_fw_activate_history_fid(fd);
+ }
out:
return ret;
@@ -4811,7 +6338,7 @@ static int wdc_do_drive_essentials(int fd, char *dir, char *key)
memset(dataBuffer, 0, dataBufferSize);
ret = nvme_get_log(fd, WDC_DE_GLOBAL_NSID, deVULogPagesList[vuLogIdx].logPageId,
- false, dataBufferSize, dataBuffer);
+ false, NVME_NO_LOG_LSP, dataBufferSize, dataBuffer);
if (ret) {
fprintf(stderr, "ERROR : WDC : nvme_get_log() for log page 0x%x failed, ret = %d\n",
deVULogPagesList[vuLogIdx].logPageId, ret);
@@ -5025,7 +6552,6 @@ static int wdc_do_drive_info(int fd, __u32 *result)
return ret;
}
-
static int wdc_drive_resize(int argc, char **argv,
struct command *command, struct plugin *plugin)
{
@@ -5230,13 +6756,16 @@ static const char *nvme_log_id_to_string(__u8 log_id)
case NVME_LOG_SANITIZE: return "Sanitize Status Log ID";
case WDC_LOG_ID_C0: return "WDC Vendor Unique Log ID";
+ case WDC_LOG_ID_C1: return "WDC Vendor Unique Log ID";
case WDC_LOG_ID_C2: return "WDC Vendor Unique Log ID";
case WDC_LOG_ID_C4: return "WDC Vendor Unique Log ID";
case WDC_LOG_ID_C5: return "WDC Vendor Unique Log ID";
case WDC_LOG_ID_C6: return "WDC Vendor Unique Log ID";
+ case WDC_LOG_ID_C8: return "WDC Vendor Unique Log ID";
case WDC_LOG_ID_CA: return "WDC Vendor Unique Log ID";
case WDC_LOG_ID_CB: return "WDC Vendor Unique Log ID";
case WDC_LOG_ID_D0: return "WDC Vendor Unique Log ID";
+ case WDC_LOG_ID_D1: return "WDC Vendor Unique Log ID";
case WDC_LOG_ID_D6: return "WDC Vendor Unique Log ID";
case WDC_LOG_ID_D7: return "WDC Vendor Unique Log ID";
case WDC_LOG_ID_D8: return "WDC Vendor Unique Log ID";
@@ -5258,7 +6787,9 @@ static int wdc_log_page_directory(int argc, char **argv, struct command *command
int ret = 0;
__u64 capabilities = 0;
struct wdc_c2_cbs_data *cbs_data = NULL;
- int i;
+ int i;
+ __u8 log_id = 0;
+ __u32 device_id, read_vendor_id;
struct config {
char *output_format;
@@ -5288,10 +6819,14 @@ static int wdc_log_page_directory(int argc, char **argv, struct command *command
if ((capabilities & WDC_DRIVE_CAP_LOG_PAGE_DIR) == 0) {
fprintf(stderr, "ERROR : WDC: unsupported device for this command\n");
ret = -1;
- } else {
+ }
+ else {
+ ret = wdc_get_pci_ids(&device_id, &read_vendor_id);
+ log_id = (device_id == WDC_NVME_ZN350_DEV_ID || device_id == WDC_NVME_ZN350_DEV_ID_1) ?
+ WDC_NVME_GET_DEV_MGMNT_LOG_PAGE_OPCODE_C8 : WDC_NVME_GET_DEV_MGMNT_LOG_PAGE_OPCODE;
/* verify the 0xC2 Device Manageability log page is supported */
- if (wdc_nvme_check_supported_log_page(fd, WDC_NVME_GET_DEV_MGMNT_LOG_PAGE_OPCODE) == false) {
- fprintf(stderr, "%s: ERROR : WDC : 0xC2 Log Page not supported\n", __func__);
+ if (wdc_nvme_check_supported_log_page(fd, log_id) == false) {
+ fprintf(stderr, "%s: ERROR : WDC : 0x%x Log Page not supported\n", __func__, log_id);
ret = -1;
goto out;
}
@@ -5491,51 +7026,349 @@ static int wdc_dump_telemetry_hdr(int fd, int log_id, struct nvme_telemetry_log_
return ret;
}
-static void wdc_print_nand_stats_normal(struct wdc_nand_stats *data)
-{
- printf(" NAND Statistics :- \n");
- printf(" NAND Writes TLC (Bytes) %.0Lf\n",
- int128_to_double(data->nand_write_tlc));
- printf(" NAND Writes SLC (Bytes) %.0Lf\n",
- int128_to_double(data->nand_write_slc));
- printf(" NAND Program Failures %"PRIu32"\n",
- (uint32_t)le32_to_cpu(data->nand_prog_failure));
- printf(" NAND Erase Failures %"PRIu32"\n",
- (uint32_t)le32_to_cpu(data->nand_erase_failure));
- printf(" Bad Block Count %"PRIu32"\n",
- (uint32_t)le32_to_cpu(data->bad_block_count));
- printf(" NAND XOR/RAID Recovery Trigger Events %"PRIu64"\n",
- le64_to_cpu(data->nand_rec_trigger_event));
- printf(" E2E Error Counter %"PRIu64"\n",
- le64_to_cpu(data->e2e_error_counter));
- printf(" Number Successful NS Resizing Events %"PRIu64"\n",
- le64_to_cpu(data->successful_ns_resize_event));
+static void wdc_print_nand_stats_normal(__u16 version, void *data)
+{
+ struct wdc_nand_stats *nand_stats = (struct wdc_nand_stats *)(data);
+ struct wdc_nand_stats_V3 *nand_stats_v3 = (struct wdc_nand_stats_V3 *)(data);
+ __u64 temp_raw;
+ __u16 temp_norm;
+ __u64 *temp_ptr = NULL;
+
+ switch (version)
+ {
+ case 0:
+ printf(" NAND Statistics :- \n");
+ printf(" NAND Writes TLC (Bytes) %.0Lf\n",
+ int128_to_double(nand_stats->nand_write_tlc));
+ printf(" NAND Writes SLC (Bytes) %.0Lf\n",
+ int128_to_double(nand_stats->nand_write_slc));
+ printf(" NAND Program Failures %"PRIu32"\n",
+ (uint32_t)le32_to_cpu(nand_stats->nand_prog_failure));
+ printf(" NAND Erase Failures %"PRIu32"\n",
+ (uint32_t)le32_to_cpu(nand_stats->nand_erase_failure));
+ printf(" Bad Block Count %"PRIu32"\n",
+ (uint32_t)le32_to_cpu(nand_stats->bad_block_count));
+ printf(" NAND XOR/RAID Recovery Trigger Events %"PRIu64"\n",
+ le64_to_cpu(nand_stats->nand_rec_trigger_event));
+ printf(" E2E Error Counter %"PRIu64"\n",
+ le64_to_cpu(nand_stats->e2e_error_counter));
+ printf(" Number Successful NS Resizing Events %"PRIu64"\n",
+ le64_to_cpu(nand_stats->successful_ns_resize_event));
+ printf(" log page version %"PRIu16"\n",
+ le16_to_cpu(nand_stats->log_page_version));
+ break;
+ case 3:
+ printf(" NAND Statistics V3:- \n");
+ printf(" TLC Units Written %.0Lf\n",
+ int128_to_double(nand_stats_v3->nand_write_tlc));
+ printf(" SLC Units Written %.0Lf\n",
+ int128_to_double(nand_stats_v3->nand_write_slc));
+ temp_ptr = (__u64 *)nand_stats_v3->bad_nand_block_count;
+ temp_norm = (__u16)(*temp_ptr & 0x000000000000FFFF);
+ temp_raw = ((*temp_ptr & 0xFFFFFFFFFFFF0000) >> 16);
+ printf(" Bad NAND Blocks Count - Normalized %"PRIu16"\n",
+ le16_to_cpu(temp_norm));
+ printf(" Bad NAND Blocks Count - Raw %"PRIu64"\n",
+ le64_to_cpu(temp_raw));
+ printf(" NAND XOR Recovery count %"PRIu64"\n",
+ le64_to_cpu(nand_stats_v3->xor_recovery_count));
+ printf(" UECC Read Error count %"PRIu64"\n",
+ le64_to_cpu(nand_stats_v3->uecc_read_error_count));
+ printf(" SSD End to End corrected errors %"PRIu64"\n",
+ le64_to_cpu(nand_stats_v3->ssd_correction_counts[0]));
+ printf(" SSD End to End detected errors %"PRIu32"\n",
+ le32_to_cpu(nand_stats_v3->ssd_correction_counts[8]));
+ printf(" SSD End to End uncorrected E2E errors %"PRIu32"\n",
+ le32_to_cpu(nand_stats_v3->ssd_correction_counts[12]));
+ printf(" System data %% life-used %u\n",
+ nand_stats_v3->percent_life_used);
+ printf(" User Data Erase Counts - TLC Min %"PRIu64"\n",
+ le64_to_cpu(nand_stats_v3->user_data_erase_counts[0]));
+ printf(" User Data Erase Counts - TLC Max %"PRIu64"\n",
+ le64_to_cpu(nand_stats_v3->user_data_erase_counts[1]));
+ printf(" User Data Erase Counts - SLC Min %"PRIu64"\n",
+ le64_to_cpu(nand_stats_v3->user_data_erase_counts[2]));
+ printf(" User Data Erase Counts - SLC Max %"PRIu64"\n",
+ le64_to_cpu(nand_stats_v3->user_data_erase_counts[3]));
+ temp_ptr = (__u64 *)nand_stats_v3->program_fail_count;
+ temp_norm = (__u16)(*temp_ptr & 0x000000000000FFFF);
+ temp_raw = ((*temp_ptr & 0xFFFFFFFFFFFF0000) >> 16);
+ printf(" Program Fail Count - Normalized %"PRIu16"\n",
+ le16_to_cpu(temp_norm));
+ printf(" Program Fail Count - Raw %"PRIu64"\n",
+ le64_to_cpu(temp_raw));
+ temp_ptr = (__u64 *)nand_stats_v3->erase_fail_count;
+ temp_norm = (__u16)(*temp_ptr & 0x000000000000FFFF);
+ temp_raw = ((*temp_ptr & 0xFFFFFFFFFFFF0000) >> 16);
+ printf(" Erase Fail Count - Normalized %"PRIu16"\n",
+ le16_to_cpu(temp_norm));
+ printf(" Erase Fail Count - Raw %"PRIu64"\n",
+ le64_to_cpu(temp_raw));
+ printf(" PCIe Correctable Error Count %"PRIu16"\n",
+ le16_to_cpu(nand_stats_v3->correctable_error_count));
+ printf(" %% Free Blocks (User) %u\n",
+ nand_stats_v3->percent_free_blocks_user);
+ printf(" Security Version Number %"PRIu64"\n",
+ le64_to_cpu(nand_stats_v3->security_version_number));
+ printf(" %% Free Blocks (System) %u\n",
+ nand_stats_v3->percent_free_blocks_system);
+ printf(" Data Set Management Commands %.0Lf\n",
+ int128_to_double(nand_stats_v3->trim_completions));
+ printf(" Estimate of Incomplete Trim Data %"PRIu64"\n",
+ le64_to_cpu(nand_stats_v3->trim_completions[16]));
+ printf(" %% of completed trim %u\n",
+ nand_stats_v3->trim_completions[24]);
+ printf(" Background Back-Pressure-Guage %u\n",
+ nand_stats_v3->back_pressure_guage);
+ printf(" Soft ECC Error Count %"PRIu64"\n",
+ le64_to_cpu(nand_stats_v3->soft_ecc_error_count));
+ printf(" Refresh Count %"PRIu64"\n",
+ le64_to_cpu(nand_stats_v3->refresh_count));
+ temp_ptr = (__u64 *)nand_stats_v3->bad_sys_nand_block_count;
+ temp_norm = (__u16)(*temp_ptr & 0x000000000000FFFF);
+ temp_raw = ((*temp_ptr & 0xFFFFFFFFFFFF0000) >> 16);
+ printf(" Bad System Nand Block Count - Normalized %"PRIu16"\n",
+ le16_to_cpu(temp_norm));
+ printf(" Bad System Nand Block Count - Raw %"PRIu64"\n",
+ le64_to_cpu(temp_raw));
+ printf(" Endurance Estimate %.0Lf\n",
+ int128_to_double(nand_stats_v3->endurance_estimate));
+ printf(" Thermal Throttling Count %u\n",
+ nand_stats_v3->thermal_throttling_st_ct[0]);
+ printf(" Thermal Throttling Status %u\n",
+ nand_stats_v3->thermal_throttling_st_ct[1]);
+ printf(" Unaligned I/O %"PRIu64"\n",
+ le64_to_cpu(nand_stats_v3->unaligned_IO));
+ printf(" Physical Media Units Read %.0Lf\n",
+ int128_to_double(nand_stats_v3->physical_media_units));
+ printf(" log page version %"PRIu16"\n",
+ le16_to_cpu(nand_stats_v3->log_page_version));
+ break;
+
+ default:
+ fprintf(stderr, "WDC: Nand Stats ERROR : Invalid version\n");
+ break;
+
+ }
}
-static void wdc_print_nand_stats_json(struct wdc_nand_stats *data)
+static void wdc_print_nand_stats_json(__u16 version, void *data)
{
+ struct wdc_nand_stats *nand_stats = (struct wdc_nand_stats *)(data);
+ struct wdc_nand_stats_V3 *nand_stats_v3 = (struct wdc_nand_stats_V3 *)(data);
struct json_object *root;
+ root = json_create_object();
+ __u64 temp_raw;
+ __u16 temp_norm;
+ __u64 *temp_ptr = NULL;
+
+ switch (version)
+ {
+
+ case 0:
+
+ json_object_add_value_float(root, "NAND Writes TLC (Bytes)",
+ int128_to_double(nand_stats->nand_write_tlc));
+ json_object_add_value_float(root, "NAND Writes SLC (Bytes)",
+ int128_to_double(nand_stats->nand_write_slc));
+ json_object_add_value_uint(root, "NAND Program Failures",
+ le32_to_cpu(nand_stats->nand_prog_failure));
+ json_object_add_value_uint(root, "NAND Erase Failures",
+ le32_to_cpu(nand_stats->nand_erase_failure));
+ json_object_add_value_uint(root, "Bad Block Count",
+ le32_to_cpu(nand_stats->bad_block_count));
+ json_object_add_value_uint(root, "NAND XOR/RAID Recovery Trigger Events",
+ le64_to_cpu(nand_stats->nand_rec_trigger_event));
+ json_object_add_value_uint(root, "E2E Error Counter",
+ le64_to_cpu(nand_stats->e2e_error_counter));
+ json_object_add_value_uint(root, "Number Successful NS Resizing Events",
+ le64_to_cpu(nand_stats->successful_ns_resize_event));
+
+ json_print_object(root, NULL);
+ printf("\n");
+ break;
+
+ case 3:
+
+ json_object_add_value_float(root, "NAND Writes TLC (Bytes)",
+ int128_to_double(nand_stats_v3->nand_write_tlc));
+ json_object_add_value_float(root, "NAND Writes SLC (Bytes)",
+ int128_to_double(nand_stats_v3->nand_write_slc));
+ temp_ptr = (__u64 *)nand_stats_v3->bad_nand_block_count;
+ temp_norm = (__u16)(*temp_ptr & 0x000000000000FFFF);
+ temp_raw = ((*temp_ptr & 0xFFFFFFFFFFFF0000) >> 16);
+ json_object_add_value_uint(root, "Bad NAND Blocks Count - Normalized",
+ le16_to_cpu(temp_norm));
+ json_object_add_value_uint(root, "Bad NAND Blocks Count - Raw",
+ le64_to_cpu(temp_raw));
+ json_object_add_value_uint(root, "NAND XOR Recovery count",
+ le64_to_cpu(nand_stats_v3->xor_recovery_count));
+ json_object_add_value_uint(root, "UECC Read Error count",
+ le64_to_cpu(nand_stats_v3->uecc_read_error_count));
+ json_object_add_value_uint(root, "SSD End to End corrected errors",
+ le64_to_cpu(nand_stats_v3->ssd_correction_counts[0]));
+ json_object_add_value_uint(root, "SSD End to End detected errors",
+ le32_to_cpu(nand_stats_v3->ssd_correction_counts[8]));
+ json_object_add_value_uint(root, "SSD End to End uncorrected E2E errors",
+ le32_to_cpu(nand_stats_v3->ssd_correction_counts[12]));
+ json_object_add_value_uint(root, "System data % life-used",
+ nand_stats_v3->percent_life_used);
+ json_object_add_value_uint(root, "User Data Erase Counts - SLC Min",
+ le64_to_cpu(nand_stats_v3->user_data_erase_counts[0]));
+ json_object_add_value_uint(root, "User Data Erase Counts - SLC Max",
+ le64_to_cpu(nand_stats_v3->user_data_erase_counts[1]));
+ json_object_add_value_uint(root, "User Data Erase Counts - TLC Min",
+ le64_to_cpu(nand_stats_v3->user_data_erase_counts[2]));
+ json_object_add_value_uint(root, "User Data Erase Counts - TLC Max",
+ le64_to_cpu(nand_stats_v3->user_data_erase_counts[3]));
+ temp_ptr = (__u64 *)nand_stats_v3->program_fail_count;
+ temp_norm = (__u16)(*temp_ptr & 0x000000000000FFFF);
+ temp_raw = ((*temp_ptr & 0xFFFFFFFFFFFF0000) >> 16);
+ json_object_add_value_uint(root, "Program Fail Count - Normalized",
+ le16_to_cpu(temp_norm));
+ json_object_add_value_uint(root, "Program Fail Count - Raw",
+ le64_to_cpu(temp_raw));
+ temp_ptr = (__u64 *)nand_stats_v3->erase_fail_count;
+ temp_norm = (__u16)(*temp_ptr & 0x000000000000FFFF);
+ temp_raw = ((*temp_ptr & 0xFFFFFFFFFFFF0000) >> 16);
+ json_object_add_value_uint(root, "Erase Fail Count - Normalized",
+ le16_to_cpu(temp_norm));
+ json_object_add_value_uint(root, "Erase Fail Count - Raw",
+ le64_to_cpu(temp_raw));
+ json_object_add_value_uint(root, "PCIe Correctable Error Count",
+ le16_to_cpu(nand_stats_v3->correctable_error_count));
+ json_object_add_value_uint(root, "% Free Blocks (User)",
+ nand_stats_v3->percent_free_blocks_user);
+ json_object_add_value_uint(root, "Security Version Number",
+ le64_to_cpu(nand_stats_v3->security_version_number));
+ json_object_add_value_uint(root, "% Free Blocks (System)",
+ nand_stats_v3->percent_free_blocks_system);
+ json_object_add_value_float(root, "Data Set Management Commands",
+ int128_to_double(nand_stats_v3->trim_completions));
+ json_object_add_value_uint(root, "Estimate of Incomplete Trim Data",
+ le64_to_cpu(nand_stats_v3->trim_completions[16]));
+ json_object_add_value_uint(root, "%% of completed trim",
+ nand_stats_v3->trim_completions[24]);
+ json_object_add_value_uint(root, "Background Back-Pressure-Guage",
+ nand_stats_v3->back_pressure_guage);
+ json_object_add_value_uint(root, "Soft ECC Error Count",
+ le64_to_cpu(nand_stats_v3->soft_ecc_error_count));
+ json_object_add_value_uint(root, "Refresh Count",
+ le64_to_cpu(nand_stats_v3->refresh_count));
+ temp_ptr = (__u64 *)nand_stats_v3->bad_sys_nand_block_count;
+ temp_norm = (__u16)(*temp_ptr & 0x000000000000FFFF);
+ temp_raw = ((*temp_ptr & 0xFFFFFFFFFFFF0000) >> 16);
+ json_object_add_value_uint(root, "Bad System Nand Block Count - Normalized",
+ le16_to_cpu(temp_norm));
+ json_object_add_value_uint(root, "Bad System Nand Block Count - Raw",
+ le64_to_cpu(temp_raw));
+ json_object_add_value_float(root, "Endurance Estimate",
+ int128_to_double(nand_stats_v3->endurance_estimate));
+ json_object_add_value_uint(root, "Thermal Throttling Status",
+ nand_stats_v3->thermal_throttling_st_ct[0]);
+ json_object_add_value_uint(root, "Thermal Throttling Count",
+ nand_stats_v3->thermal_throttling_st_ct[1]);
+ json_object_add_value_uint(root, "Unaligned I/O",
+ le64_to_cpu(nand_stats_v3->unaligned_IO));
+ json_object_add_value_float(root, "Physical Media Units Read",
+ int128_to_double(nand_stats_v3->physical_media_units));
+ json_object_add_value_uint(root, "log page version",
+ le16_to_cpu(nand_stats_v3->log_page_version));
+
+ json_print_object(root, NULL);
+ printf("\n");
+ break;
+
+ default:
+ printf("%s: Invalid Stats Version = %d\n", __func__, version);
+ break;
+
+ }
+
+ json_free_object(root);
+
+}
+
+static void wdc_print_pcie_stats_normal(struct wdc_vs_pcie_stats *pcie_stats)
+{
+ printf(" PCIE Statistics :- \n");
+ printf(" Unsupported Request Error Counter %20"PRIu64"\n",
+ le64_to_cpu(pcie_stats->unsupportedRequestErrorCount));
+ printf(" ECRC Error Status Counter %20"PRIu64"\n",
+ le64_to_cpu(pcie_stats->ecrcErrorStatusCount));
+ printf(" Malformed TLP Status Counter %20"PRIu64"\n",
+ le64_to_cpu(pcie_stats->malformedTlpStatusCount));
+ printf(" Receiver Overflow Status Counter %20"PRIu64"\n",
+ le64_to_cpu(pcie_stats->receiverOverflowStatusCount));
+ printf(" Unexpected Completion Status Counter %20"PRIu64"\n",
+ le64_to_cpu(pcie_stats->unexpectedCmpltnStatusCount));
+ printf(" Complete Abort Status Counter %20"PRIu64"\n",
+ le64_to_cpu(pcie_stats->completeAbortStatusCount));
+ printf(" Completion Timeout Status Counter %20"PRIu64"\n",
+ le64_to_cpu(pcie_stats->cmpltnTimoutStatusCount));
+ printf(" Flow Control Error Status Counter %20"PRIu64"\n",
+ le64_to_cpu(pcie_stats->flowControlErrorStatusCount));
+ printf(" Poisoned TLP Status Counter %20"PRIu64"\n",
+ le64_to_cpu(pcie_stats->poisonedTlpStatusCount));
+ printf(" Dlink Protocol Error Status Counter %20"PRIu64"\n",
+ le64_to_cpu(pcie_stats->dLinkPrtclErrorStatusCount));
+ printf(" Advisory Non Fatal Error Status Counter %20"PRIu64"\n",
+ le64_to_cpu(pcie_stats->advsryNFatalErrStatusCount));
+ printf(" Replay Timer TO Status Counter %20"PRIu64"\n",
+ le64_to_cpu(pcie_stats->replayTimerToStatusCount));
+ printf(" Replay Number Rollover Status Counter %20"PRIu64"\n",
+ le64_to_cpu(pcie_stats->replayNumRolloverStCount));
+ printf(" Bad DLLP Status Counter %20"PRIu64"\n",
+ le64_to_cpu(pcie_stats->badDllpStatusCount));
+ printf(" Bad TLP Status Counter %20"PRIu64"\n",
+ le64_to_cpu(pcie_stats->badTlpStatusCount));
+ printf(" Receiver Error Status Counter %20"PRIu64"\n",
+ le64_to_cpu(pcie_stats->receiverErrStatusCount));
+
+}
+static void wdc_print_pcie_stats_json(struct wdc_vs_pcie_stats *pcie_stats)
+{
+ struct json_object *root;
root = json_create_object();
- json_object_add_value_float(root, "NAND Writes TLC (Bytes)",
- int128_to_double(data->nand_write_tlc));
- json_object_add_value_float(root, "NAND Writes SLC (Bytes)",
- int128_to_double(data->nand_write_slc));
- json_object_add_value_uint(root, "NAND Program Failures",
- le32_to_cpu(data->nand_prog_failure));
- json_object_add_value_uint(root, "NAND Erase Failures",
- le32_to_cpu(data->nand_erase_failure));
- json_object_add_value_uint(root, "Bad Block Count",
- le32_to_cpu(data->bad_block_count));
- json_object_add_value_uint(root, "NAND XOR/RAID Recovery Trigger Events",
- le64_to_cpu(data->nand_rec_trigger_event));
- json_object_add_value_uint(root, "E2E Error Counter",
- le64_to_cpu(data->e2e_error_counter));
- json_object_add_value_uint(root, "Number Successful NS Resizing Events",
- le64_to_cpu(data->successful_ns_resize_event));
+
+ json_object_add_value_uint(root, "Unsupported Request Error Counter",
+ le64_to_cpu(pcie_stats->unsupportedRequestErrorCount));
+ json_object_add_value_uint(root, "ECRC Error Status Counter",
+ le64_to_cpu(pcie_stats->ecrcErrorStatusCount));
+ json_object_add_value_uint(root, "Malformed TLP Status Counter",
+ le64_to_cpu(pcie_stats->malformedTlpStatusCount));
+
+ json_object_add_value_uint(root, "Receiver Overflow Status Counter",
+ le64_to_cpu(pcie_stats->receiverOverflowStatusCount));
+ json_object_add_value_uint(root, "Unexpected Completion Status Counter",
+ le64_to_cpu(pcie_stats->unexpectedCmpltnStatusCount));
+ json_object_add_value_uint(root, "Complete Abort Status Counter",
+ le64_to_cpu(pcie_stats->completeAbortStatusCount));
+ json_object_add_value_uint(root, "Completion Timeout Status Counter",
+ le64_to_cpu(pcie_stats->cmpltnTimoutStatusCount));
+ json_object_add_value_uint(root, "Flow Control Error Status Counter",
+ le64_to_cpu(pcie_stats->flowControlErrorStatusCount));
+ json_object_add_value_uint(root, "Poisoned TLP Status Counter",
+ le64_to_cpu(pcie_stats->poisonedTlpStatusCount));
+ json_object_add_value_uint(root, "Dlink Protocol Error Status Counter",
+ le64_to_cpu(pcie_stats->dLinkPrtclErrorStatusCount));
+ json_object_add_value_uint(root, "Advisory Non Fatal Error Status Counter",
+ le64_to_cpu(pcie_stats->advsryNFatalErrStatusCount));
+ json_object_add_value_uint(root, "Replay Timer TO Status Counter",
+ le64_to_cpu(pcie_stats->replayTimerToStatusCount));
+ json_object_add_value_uint(root, "Replay Number Rollover Status Counter",
+ le64_to_cpu(pcie_stats->replayNumRolloverStCount));
+ json_object_add_value_uint(root, "Bad DLLP Status Counter",
+ le64_to_cpu(pcie_stats->badDllpStatusCount));
+ json_object_add_value_uint(root, "Bad TLP Status Counter",
+ le64_to_cpu(pcie_stats->badTlpStatusCount));
+ json_object_add_value_uint(root, "Receiver Error Status Counter",
+ le64_to_cpu(pcie_stats->receiverErrStatusCount));
json_print_object(root, NULL);
printf("\n");
+
json_free_object(root);
}
@@ -5544,7 +7377,7 @@ static int wdc_do_vs_nand_stats(int fd, char *format)
int ret;
int fmt = -1;
uint8_t *output = NULL;
- struct wdc_nand_stats *nand_stats;
+ __u16 version = 0;
if ((output = (uint8_t*)calloc(WDC_NVME_NAND_STATS_SIZE, sizeof(uint8_t))) == NULL) {
fprintf(stderr, "ERROR : WDC : calloc : %s\n", strerror(errno));
@@ -5553,7 +7386,7 @@ static int wdc_do_vs_nand_stats(int fd, char *format)
}
ret = nvme_get_log(fd, 0xFFFFFFFF, WDC_NVME_NAND_STATS_LOG_ID,
- false, WDC_NVME_NAND_STATS_SIZE, (void*)output);
+ false, NVME_NO_LOG_LSP, WDC_NVME_NAND_STATS_SIZE, (void*)output);
if (ret) {
fprintf(stderr, "ERROR : WDC : %s : Failed to retreive NAND stats\n", __func__);
goto out;
@@ -5565,14 +7398,15 @@ static int wdc_do_vs_nand_stats(int fd, char *format)
goto out;
}
+ version = output[WDC_NVME_NAND_STATS_SIZE - 2];
+
/* parse the data */
- nand_stats = (struct wdc_nand_stats *)(output);
switch (fmt) {
case NORMAL:
- wdc_print_nand_stats_normal(nand_stats);
+ wdc_print_nand_stats_normal(version, output);
break;
case JSON:
- wdc_print_nand_stats_json(nand_stats);
+ wdc_print_nand_stats_json(version, output);
break;
}
}
@@ -5586,6 +7420,7 @@ static int wdc_vs_nand_stats(int argc, char **argv, struct command *command,
struct plugin *plugin)
{
const char *desc = "Retrieve NAND statistics.";
+
int fd;
int ret = 0;
__u64 capabilities = 0;
@@ -5621,6 +7456,97 @@ static int wdc_vs_nand_stats(int argc, char **argv, struct command *command,
return ret;
}
+static int wdc_do_vs_pcie_stats(int fd,
+ struct wdc_vs_pcie_stats *pcieStatsPtr)
+{
+ int ret;
+ struct nvme_admin_cmd admin_cmd;
+ int pcie_stats_size = sizeof(struct wdc_vs_pcie_stats);
+
+ memset(&admin_cmd, 0, sizeof (struct nvme_admin_cmd));
+ admin_cmd.opcode = WDC_NVME_PCIE_STATS_OPCODE;
+ admin_cmd.addr = (__u64)(uintptr_t)pcieStatsPtr;
+ admin_cmd.data_len = pcie_stats_size;
+
+ ret = nvme_submit_admin_passthru(fd, &admin_cmd);
+
+ return ret;
+}
+
+static int wdc_vs_pcie_stats(int argc, char **argv, struct command *command,
+ struct plugin *plugin)
+{
+ const char *desc = "Retrieve PCIE statistics.";
+
+ int fd;
+ int ret = 0;
+ __u64 capabilities = 0;
+ int fmt = -1;
+ struct wdc_vs_pcie_stats *pcieStatsPtr = NULL;
+ int pcie_stats_size = sizeof(struct wdc_vs_pcie_stats);
+ bool huge;
+
+ struct config {
+ char *output_format;
+ };
+
+ struct config cfg = {
+ .output_format = "normal",
+ };
+
+ OPT_ARGS(opts) = {
+ OPT_FMT("output-format", 'o', &cfg.output_format, "Output Format: normal|json"),
+ OPT_END()
+ };
+
+ fd = parse_and_open(argc, argv, desc, opts);
+ if (fd < 0)
+ return fd;
+
+ fmt = validate_output_format(cfg.output_format);
+ if (fmt < 0) {
+ fprintf(stderr, "ERROR : WDC : invalid output format\n");
+ ret = fmt;
+ goto out;
+ }
+
+ pcieStatsPtr = nvme_alloc(pcie_stats_size, &huge);
+ if (pcieStatsPtr == NULL) {
+ fprintf(stderr, "ERROR : WDC : PCIE Stats alloc : %s\n", strerror(errno));
+ ret = -1;
+ goto out;
+ }
+
+ memset((void *)pcieStatsPtr, 0, pcie_stats_size);
+
+ capabilities = wdc_get_drive_capabilities(fd);
+
+ if ((capabilities & WDC_DRIVE_CAP_PCIE_STATS) == 0) {
+ fprintf(stderr, "ERROR : WDC: unsupported device for this command\n");
+ ret = -1;
+ } else {
+ ret = wdc_do_vs_pcie_stats(fd, pcieStatsPtr);
+ if (ret)
+ fprintf(stderr, "ERROR : WDC : Failure reading PCIE statistics, ret = 0x%x\n", ret);
+ else {
+ /* parse the data */
+ switch (fmt) {
+ case NORMAL:
+ wdc_print_pcie_stats_normal(pcieStatsPtr);
+ break;
+ case JSON:
+ wdc_print_pcie_stats_json(pcieStatsPtr);
+ break;
+ }
+ }
+ }
+
+ nvme_free(pcieStatsPtr, huge);
+
+out:
+ return ret;
+}
+
static int wdc_vs_drive_info(int argc, char **argv,
struct command *command, struct plugin *plugin)
{
@@ -5630,8 +7556,24 @@ static int wdc_vs_drive_info(int argc, char **argv,
__le32 result;
__u16 size;
double rev;
+ struct nvme_id_ctrl ctrl;
+ char vsData[32] = {0};
+ char major_rev = 0, minor_rev = 0;
+ int fmt = -1;
+ struct json_object *root = NULL;
+ char formatter[41] = { 0 };
+ char rev_str[8] = { 0 };
+
+ struct config {
+ char *output_format;
+ };
+
+ struct config cfg = {
+ .output_format = "normal",
+ };
OPT_ARGS(opts) = {
+ OPT_FMT("output-format", 'o', &cfg.output_format, "Output Format: normal|json"),
OPT_END()
};
@@ -5639,25 +7581,558 @@ static int wdc_vs_drive_info(int argc, char **argv,
if (fd < 0)
return fd;
+ fmt = validate_output_format(cfg.output_format);
+ if (fmt < 0) {
+ fprintf(stderr, "ERROR : WDC %s invalid output format\n", __func__);
+ return fmt;
+ }
+
+ /* get the id ctrl data used to fill in drive info below */
+ ret = nvme_identify_ctrl(fd, &ctrl);
+
+ if (ret) {
+ fprintf(stderr, "ERROR : WDC %s: Identify Controller failed\n", __func__);
+ return ret;
+ }
+
wdc_check_device(fd);
capabilities = wdc_get_drive_capabilities(fd);
if ((capabilities & WDC_DRIVE_CAP_INFO) == WDC_DRIVE_CAP_INFO) {
ret = wdc_do_drive_info(fd, &result);
+
+ if (!ret) {
+ size = (__u16)((cpu_to_le32(result) & 0xffff0000) >> 16);
+ rev = (double)(cpu_to_le32(result) & 0x0000ffff);
+
+ if (fmt == NORMAL) {
+ printf("Drive HW Revison: %4.1f\n", (.1 * rev));
+ printf("FTL Unit Size: 0x%x KB\n", size);
+ printf("Customer SN: %-.*s\n", (int)sizeof(ctrl.sn), &ctrl.sn[0]);
+ }
+ else if (fmt == JSON) {
+ root = json_create_object();
+ sprintf(rev_str, "%4.1f", (.1 * rev));
+ json_object_add_value_string(root, "Drive HW Revison", rev_str);
+
+ json_object_add_value_int(root, "FTL Unit Size", le16_to_cpu(size));
+ wdc_StrFormat(formatter, sizeof(formatter), &ctrl.sn[0], sizeof(ctrl.sn));
+ json_object_add_value_string(root, "Customer SN", formatter);
+
+ json_print_object(root, NULL);
+ printf("\n");
+
+ json_free_object(root);
+ }
+ }
+ }
+ else if ((capabilities & WDC_DRIVE_CAP_INFO_2) == WDC_DRIVE_CAP_INFO_2) {
+ memcpy(vsData, &ctrl.vs[0], 32);
+
+ major_rev = ctrl.sn[12];
+ minor_rev = ctrl.sn[13];
+
+ if (fmt == NORMAL) {
+ printf("Drive HW Revision: %c.%c \n", major_rev, minor_rev);
+ printf("Customer SN: %-.*s\n", 14, &ctrl.sn[0]);
+ }
+ else if (fmt == JSON) {
+ root = json_create_object();
+ sprintf(rev_str, "%c.%c", major_rev, minor_rev);
+ json_object_add_value_string(root, "Drive HW Revison", rev_str);
+ wdc_StrFormat(formatter, sizeof(formatter), &ctrl.sn[0], 14);
+ json_object_add_value_string(root, "Customer SN", formatter);
+
+ json_print_object(root, NULL);
+ printf("\n");
+
+ json_free_object(root);
+ }
} else {
fprintf(stderr, "ERROR : WDC: unsupported device for this command\n");
- ret = -1;
+ return -1;
}
- if (!ret) {
- size = (__u16)((cpu_to_le32(result) & 0xffff0000) >> 16);
- rev = (double)(cpu_to_le32(result) & 0x0000ffff);
- printf("Drive HW Revison: %4.1f\n", (.1 * rev));
- printf("FTL Unit Size: 0x%x KB\n", size);
+ fprintf(stderr, "NVMe Status:%s(%x)\n", nvme_status_to_string(ret), ret);
+ return ret;
+}
+
+static int wdc_vs_temperature_stats(int argc, char **argv,
+ struct command *command, struct plugin *plugin)
+{
+ const char *desc = "Send a vs-temperature-stats command.";
+ struct nvme_smart_log smart_log;
+ struct nvme_id_ctrl id_ctrl;
+ uint64_t capabilities = 0;
+ __u32 hctm_tmt;
+ int fd, ret;
+ int temperature, temp_tmt1, temp_tmt2;
+ int fmt = -1;
+
+ struct config {
+ char *output_format;
+ };
+
+ struct config cfg = {
+ .output_format = "normal",
+ };
+
+ OPT_ARGS(opts) = {
+ OPT_FMT("output-format", 'o', &cfg.output_format, "Output Format: normal|json"),
+ OPT_END()
+ };
+
+ fd = parse_and_open(argc, argv, desc, opts);
+ if (fd < 0)
+ return fd;
+
+ fmt = validate_output_format(cfg.output_format);
+ if (fmt < 0) {
+ fprintf(stderr, "ERROR : WDC : invalid output format\n");
+ ret = fmt;
+ goto END;
}
+ /* check if command is supported */
+ wdc_check_device(fd);
+ capabilities = wdc_get_drive_capabilities(fd);
+ if ((capabilities & WDC_DRIVE_CAP_TEMP_STATS) != WDC_DRIVE_CAP_TEMP_STATS) {
+ fprintf(stderr, "ERROR : WDC: unsupported device for this command\n");
+ return -1;
+ }
+
+ /* get the temperature stats or report errors */
+ ret = nvme_identify_ctrl(fd, &id_ctrl);
+ if (ret != 0)
+ goto END;
+ ret = nvme_smart_log(fd, NVME_NSID_ALL, &smart_log);
+ if (ret != 0)
+ goto END;
+
+ /* convert from Kelvin to degrees Celsius */
+ temperature = ((smart_log.temperature[1] << 8) | smart_log.temperature[0]) - 273;
+
+ /* retrieve HCTM Thermal Management Temperatures */
+ nvme_get_feature(fd, 0, 0x10, 0, 0, 0, 0, &hctm_tmt);
+ temp_tmt1 = ((hctm_tmt >> 16) & 0xffff) ? ((hctm_tmt >> 16) & 0xffff) - 273 : 0;
+ temp_tmt2 = (hctm_tmt & 0xffff) ? (hctm_tmt & 0xffff) - 273 : 0;
+
+ if (fmt == NORMAL) {
+ /* print the temperature stats */
+ printf("Temperature Stats for NVME device:%s namespace-id:%x\n",
+ devicename, WDC_DE_GLOBAL_NSID);
+
+ printf("Current Composite Temperature : %d °C\n", temperature);
+ printf("WCTEMP : %"PRIu16" °C\n", id_ctrl.wctemp - 273);
+ printf("CCTEMP : %"PRIu16" °C\n", id_ctrl.cctemp - 273);
+ printf("DITT support : 0\n");
+ printf("HCTM support : %"PRIu16"\n", id_ctrl.hctma);
+
+ printf("HCTM Light (TMT1) : %"PRIu16" °C\n", temp_tmt1);
+ printf("TMT1 Transition Counter : %"PRIu32"\n", smart_log.thm_temp1_trans_count);
+ printf("TMT1 Total Time : %"PRIu32"\n", smart_log.thm_temp1_total_time);
+
+ printf("HCTM Heavy (TMT2) : %"PRIu16" °C\n", temp_tmt2);
+ printf("TMT2 Transition Counter : %"PRIu32"\n", smart_log.thm_temp2_trans_count);
+ printf("TMT2 Total Time : %"PRIu32"\n", smart_log.thm_temp2_total_time);
+ printf("Thermal Shutdown Threshold : 95 °C\n");
+ }
+ else if (fmt == JSON) {
+ struct json_object *root;
+ root = json_create_object();
+
+ json_object_add_value_int(root, "Current Composite Temperature", le32_to_cpu(temperature));
+ json_object_add_value_int(root, "WCTEMP", le16_to_cpu(id_ctrl.wctemp - 273));
+ json_object_add_value_int(root, "CCTEMP", le16_to_cpu(id_ctrl.cctemp - 273));
+ json_object_add_value_int(root, "DITT support", 0);
+ json_object_add_value_int(root, "HCTM support", le16_to_cpu(id_ctrl.hctma));
+
+ json_object_add_value_int(root, "HCTM Light (TMT1)", le16_to_cpu(temp_tmt1));
+ json_object_add_value_int(root, "TMT1 Transition Counter", le32_to_cpu(smart_log.thm_temp1_trans_count));
+ json_object_add_value_int(root, "TMT1 Total Time", le32_to_cpu(smart_log.thm_temp1_total_time));
+
+ json_object_add_value_int(root, "HCTM Light (TMT2)", le16_to_cpu(temp_tmt2));
+ json_object_add_value_int(root, "TMT2 Transition Counter", le32_to_cpu(smart_log.thm_temp2_trans_count));
+ json_object_add_value_int(root, "TMT2 Total Time", le32_to_cpu(smart_log.thm_temp2_total_time));
+ json_object_add_value_int(root, "Thermal Shutdown Threshold", 95);
+
+ json_print_object(root, NULL);
+ printf("\n");
+
+ json_free_object(root);
+ }
+ else
+ printf("%s: Invalid format\n", __func__);
+
+END:
fprintf(stderr, "NVMe Status:%s(%x)\n", nvme_status_to_string(ret), ret);
return ret;
}
+static int wdc_capabilities(int argc, char **argv,
+ struct command *command, struct plugin *plugin)
+{
+ const char *desc = "Send a capabilities command.";
+ uint64_t capabilities = 0;
+ int fd;
+
+ OPT_ARGS(opts) =
+ {
+ OPT_END()
+ };
+
+ fd = parse_and_open(argc, argv, desc, opts);
+ if (fd < 0)
+ return fd;
+
+ /* get capabilities */
+ wdc_check_device(fd);
+ capabilities = wdc_get_drive_capabilities(fd);
+
+ /* print command and supported status */
+ printf("WDC Plugin Capabilities for NVME device:%s\n", devicename);
+ printf("cap-diag : %s\n",
+ capabilities & WDC_DRIVE_CAP_CAP_DIAG ? "Supported" : "Not Supported");
+ printf("drive-log : %s\n",
+ capabilities & WDC_DRIVE_CAP_DRIVE_LOG ? "Supported" : "Not Supported");
+ printf("get-crash-dump : %s\n",
+ capabilities & WDC_DRIVE_CAP_CRASH_DUMP ? "Supported" : "Not Supported");
+ printf("get-pfail-dump : %s\n",
+ capabilities & WDC_DRIVE_CAP_PFAIL_DUMP ? "Supported" : "Not Supported");
+ printf("id-ctrl : Supported\n");
+ printf("purge : Supported\n");
+ printf("purge-monitor : Supported\n");
+ printf("vs-internal-log : %s\n",
+ capabilities & WDC_DRIVE_CAP_INTERNAL_LOG_MASK ? "Supported" : "Not Supported");
+ printf("vs-nand-stats : %s\n",
+ capabilities & WDC_DRIVE_CAP_NAND_STATS ? "Supported" : "Not Supported");
+ printf("vs-smart-add-log : %s\n",
+ capabilities & WDC_DRIVE_CAP_SMART_LOG_MASK ? "Supported" : "Not Supported");
+ printf("--C0 Log Page : %s\n",
+ capabilities & WDC_DRIVE_CAP_C0_LOG_PAGE ? "Supported" : "Not Supported");
+ printf("--C1 Log Page : %s\n",
+ capabilities & WDC_DRIVE_CAP_C1_LOG_PAGE ? "Supported" : "Not Supported");
+ printf("--CA Log Page : %s\n",
+ capabilities & WDC_DRIVE_CAP_CA_LOG_PAGE ? "Supported" : "Not Supported");
+ printf("--D0 Log Page : %s\n",
+ capabilities & WDC_DRIVE_CAP_D0_LOG_PAGE ? "Supported" : "Not Supported");
+ printf("clear-pcie-correctable-errors : %s\n",
+ capabilities & WDC_DRIVE_CAP_CLEAR_PCIE_MASK ? "Supported" : "Not Supported");
+ printf("drive-essentials : %s\n",
+ capabilities & WDC_DRIVE_CAP_DRIVE_ESSENTIALS ? "Supported" : "Not Supported");
+ printf("get-drive-status : %s\n",
+ capabilities & WDC_DRIVE_CAP_DRIVE_STATUS ? "Supported" : "Not Supported");
+ printf("clear-assert-dump : %s\n",
+ capabilities & WDC_DRIVE_CAP_CLEAR_ASSERT ? "Supported" : "Not Supported");
+ printf("drive-resize : %s\n",
+ capabilities & WDC_DRIVE_CAP_RESIZE ? "Supported" : "Not Supported");
+ printf("vs-fw-activate-history : %s\n",
+ capabilities & WDC_DRIVE_CAP_FW_ACTIVATE_HISTORY_MASK ? "Supported" : "Not Supported");
+ printf("clear-fw-activate-history : %s\n",
+ capabilities & WDC_DRIVE_CAP_CLEAR_FW_ACT_HISTORY_MASK ? "Supported" : "Not Supported");
+ printf("vs-telemetry-controller-option: %s\n",
+ capabilities & WDC_DRVIE_CAP_DISABLE_CTLR_TELE_LOG ? "Supported" : "Not Supported");
+ printf("vs-error-reason-identifier : %s\n",
+ capabilities & WDC_DRIVE_CAP_REASON_ID ? "Supported" : "Not Supported");
+ printf("log-page-directory : %s\n",
+ capabilities & WDC_DRIVE_CAP_LOG_PAGE_DIR ? "Supported" : "Not Supported");
+ printf("namespace-resize : %s\n",
+ capabilities & WDC_DRIVE_CAP_NS_RESIZE ? "Supported" : "Not Supported");
+ printf("vs-drive-info : %s\n",
+ capabilities & (WDC_DRIVE_CAP_INFO | WDC_DRIVE_CAP_INFO_2) ? "Supported" : "Not Supported");
+ printf("vs-temperature-stats : %s\n",
+ capabilities & WDC_DRIVE_CAP_TEMP_STATS ? "Supported" : "Not Supported");
+ printf("cloud-SSD-plugin-version : %s\n",
+ capabilities & WDC_DRIVE_CAP_CLOUD_SSD_VERSION ? "Supported" : "Not Supported");
+ printf("vs-pcie-stats : %s\n",
+ capabilities & WDC_DRIVE_CAP_PCIE_STATS ? "Supported" : "Not Supported");
+ printf("capabilities : Supported\n");
+ return 0;
+}
+
+static int wdc_cloud_ssd_plugin_version(int argc, char **argv,
+ struct command *command, struct plugin *plugin)
+{
+ const char *desc = "Get Cloud SSD Plugin Version command.";
+ uint64_t capabilities = 0;
+ int fd;
+
+ OPT_ARGS(opts) =
+ {
+ OPT_END()
+ };
+
+ fd = parse_and_open(argc, argv, desc, opts);
+ if (fd < 0)
+ return fd;
+
+ /* get capabilities */
+ wdc_check_device(fd);
+ capabilities = wdc_get_drive_capabilities(fd);
+
+ if ((capabilities & WDC_DRIVE_CAP_CLOUD_SSD_VERSION) == WDC_DRIVE_CAP_CLOUD_SSD_VERSION) {
+ /* print command and supported status */
+ printf("WDC Cloud SSD Plugin Version: 1.0\n");
+ } else {
+ fprintf(stderr, "ERROR : WDC: unsupported device for this command\n");
+ }
+
+ return 0;
+}
+
+static int wdc_enc_get_log(int argc, char **argv, struct command *command,
+ struct plugin *plugin)
+{
+ char *desc = "Get Enclosure Log.";
+ char *file = "Output file pathname.";
+ char *size = "Data retrieval transfer size.";
+ char *log = "Enclosure Log Page ID.";
+ FILE *output_fd;
+ int xfer_size = 0;
+ int fd;
+ int len;
+ int err;
+
+ struct config {
+ char *file;
+ __u32 xfer_size;
+ __u32 log_id;
+ };
+
+ struct config cfg = {
+ .file = NULL,
+ .xfer_size = 0,
+ .log_id = 0xffffffff,
+ };
+
+ OPT_ARGS(opts) = {
+ OPT_FILE("output-file", 'o', &cfg.file, file),
+ OPT_UINT("transfer-size", 's', &cfg.xfer_size, size),
+ OPT_UINT("log-id", 'l', &cfg.log_id, log),
+ OPT_END()
+ };
+
+ err = fd = parse_and_open(argc, argv, desc, opts);
+ if (fd < 0) {
+ goto ret;
+ }
+
+ if (!wdc_enc_check_model(fd)) {
+ err = -EINVAL;
+ goto closed_fd;
+ }
+
+ if (cfg.log_id > 0xff) {
+ fprintf(stderr, "Invalid log identifier: %d. Valid 0xd1, 0xd2, 0xd3, 0xd4, 0xe2, 0xe4\n", cfg.log_id);
+ goto closed_fd;
+ }
+
+ if (cfg.xfer_size != 0) {
+ xfer_size = cfg.xfer_size;
+ if (!wdc_check_power_of_2(cfg.xfer_size)) {
+ fprintf(stderr, "%s: ERROR : xfer-size (%d) must be a power of 2\n", __func__, cfg.xfer_size);
+ err = -EINVAL;
+ goto closed_fd;
+ }
+ }
+
+ /* Log IDs are only for specific enclosures */
+ if (cfg.log_id) {
+ xfer_size = (xfer_size) ? xfer_size : WDC_NVME_ENC_LOG_SIZE_CHUNK;
+ len = cfg.file==NULL?0:strlen(cfg.file);
+ if (len > 0) {
+ output_fd = fopen(cfg.file,"wb");
+ if (output_fd == 0) {
+ fprintf(stderr, "%s: ERROR : opening:%s : %s\n", __func__,cfg.file, strerror(errno));
+ err = -EINVAL;
+ goto closed_fd;
+ }
+ } else {
+ output_fd = stdout;
+ }
+ if (cfg.log_id == WDC_ENC_NIC_CRASH_DUMP_ID_SLOT_1 || cfg.log_id == WDC_ENC_NIC_CRASH_DUMP_ID_SLOT_2
+ || cfg.log_id == WDC_ENC_NIC_CRASH_DUMP_ID_SLOT_3 || cfg.log_id == WDC_ENC_NIC_CRASH_DUMP_ID_SLOT_4) {
+ fprintf(stderr, "args - sz:%x logid:%x of:%s\n",xfer_size,cfg.log_id,cfg.file);
+ err = wdc_enc_get_nic_log(fd, cfg.log_id, xfer_size, WDC_NVME_ENC_NIC_LOG_SIZE, output_fd);
+ } else {
+ fprintf(stderr, "args - sz:%x logid:%x of:%s\n",xfer_size,cfg.log_id,cfg.file);
+ err = wdc_enc_submit_move_data(fd, NULL, 0, xfer_size, output_fd, cfg.log_id, 0, 0);
+ }
+
+ if (err == WDC_RESULT_NOT_AVAILABLE) {
+ fprintf(stderr, "No Log/Crashdump available\n");
+ err = 0;
+ } else if (err) {
+ fprintf(stderr, "ERROR:0x%x Failed to collect log-id:%x \n",err, cfg.log_id);
+ }
+ }
+closed_fd:
+ close(fd);
+ret:
+ return nvme_status_to_errno(err, false);
+}
+
+static int wdc_enc_submit_move_data(int fd, char *cmd, int len, int xfer_size, FILE *out, int log_id, int cdw14, int cdw15)
+{
+ struct timespec time;
+ uint32_t response_size, more;
+ int err;
+ int handle;
+ uint32_t offset = 0;
+ char *buf;
+
+ buf = (char *)malloc(sizeof(__u8) * xfer_size);
+ if (buf == NULL) {
+ fprintf(stderr, "%s: ERROR : malloc : %s\n", __func__, strerror(errno));
+ return -1;
+ }
+ /* send something no matter what */
+ cmd = (len) ? cmd : buf;
+ len = (len) ? len : 0x20;
+
+ struct nvme_admin_cmd nvme_cmd = {
+ .opcode = WDC_NVME_ADMIN_ENC_MGMT_SND,
+ .nsid = 0,
+ .addr = (__u64)(uintptr_t) cmd,
+ .data_len = ((len + sizeof(uint32_t) - 1)/sizeof(uint32_t)) * sizeof(uint32_t),
+ .cdw10 = len,
+ .cdw12 = log_id,
+ .cdw13 = 0,
+ .cdw14 = cdw14,
+ .cdw15 = cdw15,
+ };
+
+ clock_gettime(CLOCK_REALTIME, &time);
+ srand(time.tv_nsec);
+ handle = random(); /* Handle to associate send request with receive request */
+ nvme_cmd.cdw11 = handle;
+
+#ifdef WDC_NVME_CLI_DEBUG
+ unsigned char *d = (unsigned char*) nvme_cmd.addr;
+ unsigned char *md = (unsigned char*) nvme_cmd.metadata;
+ printf("NVME_ADMIN_COMMAND:\n" \
+ "opcode: 0x%02x, flags: 0x%02x, rsvd: 0x%04x, nsid: 0x%08x, cdw2: 0x%08x, cdw3: 0x%08x, " \
+ "metadata_len: 0x%08x, data_len: 0x%08x, cdw10: 0x%08x, cdw11: 0x%08x, cdw12: 0x%08x, " \
+ "cdw13: 0x%08x, cdw14: 0x%08x, cdw15: 0x%08x, timeout_ms: 0x%08x, result: 0x%08x, " \
+ "metadata: %s, " \
+ "data: %s\n", \
+ nvme_cmd.opcode, nvme_cmd.flags, nvme_cmd.rsvd1, nvme_cmd.nsid, nvme_cmd.cdw2, nvme_cmd.cdw3, \
+ nvme_cmd.metadata_len, nvme_cmd.data_len, nvme_cmd.cdw10, nvme_cmd.cdw11, nvme_cmd.cdw12, \
+ nvme_cmd.cdw13, nvme_cmd.cdw14, nvme_cmd.cdw15, nvme_cmd.timeout_ms, nvme_cmd.result,
+ md, \
+ d);
+#endif
+ nvme_cmd.result = 0;
+ err = nvme_submit_passthru(fd, NVME_IOCTL_ADMIN_CMD, &nvme_cmd);
+ if (err == NVME_SC_INTERNAL) {
+ fprintf(stderr, "%s: WARNING : WDC : No log ID:x%x available\n",
+ __func__, log_id);
+ }
+ else if (err != 0) {
+ fprintf(stderr, "%s: ERROR : WDC : NVMe Snd Mgmt Status:%s(x%x)\n",
+ __func__, nvme_status_to_string(err), err );
+ } else {
+ if (nvme_cmd.result == WDC_RESULT_NOT_AVAILABLE)
+ {
+ free(buf);
+ return WDC_RESULT_NOT_AVAILABLE;
+ }
+
+ do {
+ /* Sent request, now go retrieve response */
+ nvme_cmd.flags = 0;
+ nvme_cmd.opcode = WDC_NVME_ADMIN_ENC_MGMT_RCV;
+ nvme_cmd.addr = (__u64)(uintptr_t) buf;
+ nvme_cmd.data_len = xfer_size;
+ nvme_cmd.cdw10 = xfer_size / sizeof(uint32_t);
+ nvme_cmd.cdw11 = handle;
+ nvme_cmd.cdw12 = log_id;
+ nvme_cmd.cdw13 = offset / sizeof(uint32_t);
+ nvme_cmd.cdw14 = cdw14;
+ nvme_cmd.cdw15 = cdw15;
+ nvme_cmd.result = 0; /* returned result !=0 indicates more data available */
+ err = nvme_submit_passthru(fd, NVME_IOCTL_ADMIN_CMD, &nvme_cmd);
+ if (err != 0) {
+ more = 0;
+ fprintf(stderr, "%s: ERROR : WDC : NVMe Rcv Mgmt Status:%s(x%x)\n",
+ __func__, nvme_status_to_string(err), err);
+ } else {
+ more = nvme_cmd.result & WDC_RESULT_MORE_DATA;
+ response_size = nvme_cmd.result & ~WDC_RESULT_MORE_DATA;
+ fwrite(buf, response_size, 1, out);
+ offset += response_size;
+ if (more && (response_size & (sizeof(uint32_t)-1))) {
+ fprintf(stderr, "%s: ERROR : WDC : NVMe Rcv Mgmt response size:x%x not LW aligned\n",
+ __func__, response_size);
+ }
+ }
+ } while (more);
+ free(buf);
+ }
+
+ return err;
+}
+
+static int wdc_enc_get_nic_log(int fd, __u8 log_id, __u32 xfer_size, __u32 data_len, FILE *out)
+{
+ __u8 *dump_data;
+ __u32 curr_data_offset, curr_data_len;
+ int i, ret;
+ struct nvme_admin_cmd admin_cmd;
+ __u32 dump_length = data_len;
+ __u32 numd;
+ __u16 numdu, numdl;
+
+ dump_data = (__u8 *) malloc(sizeof (__u8) * dump_length);
+ if (dump_data == NULL) {
+ fprintf(stderr, "%s: ERROR : malloc : %s\n",__func__, strerror(errno));
+ return -1;
+ }
+ memset(dump_data, 0, sizeof (__u8) * dump_length);
+ memset(&admin_cmd, 0, sizeof (struct nvme_admin_cmd));
+ curr_data_offset = 0;
+ curr_data_len = xfer_size;
+ i = 0;
+
+ numd = (curr_data_len >> 2) - 1;
+ numdu = numd >> 16;
+ numdl = numd & 0xffff;
+ admin_cmd.opcode = nvme_admin_get_log_page;
+ admin_cmd.nsid = curr_data_offset;
+ admin_cmd.addr = (__u64)(uintptr_t) dump_data;
+ admin_cmd.data_len = curr_data_len;
+ admin_cmd.cdw10 = log_id | (numdl << 16);
+ admin_cmd.cdw11 = numdu;
+ while (curr_data_offset < data_len) {
+#ifdef WDC_NVME_CLI_DEBUG
+ fprintf(stderr, "nsid 0x%08x addr 0x%08llx, data_len 0x%08x, cdw10 0x%08x, cdw11 0x%08x, cdw12 0x%08x, cdw13 0x%08x, cdw14 0x%08x \n", admin_cmd.nsid, admin_cmd.addr, admin_cmd.data_len, admin_cmd.cdw10, admin_cmd.cdw11, admin_cmd.cdw12, admin_cmd.cdw13, admin_cmd.cdw14);
+#endif
+ ret = nvme_submit_admin_passthru(fd, &admin_cmd);
+ if (ret !=0 ) {
+ fprintf(stderr, "%s: ERROR : WDC : NVMe Status:%s(%x)\n",__func__, nvme_status_to_string(ret), ret);
+ fprintf(stderr, "%s: ERROR : WDC : Get chunk %d, size = 0x%x, offset = 0x%x, addr = 0x%lx\n",
+ __func__, i, admin_cmd.data_len, curr_data_offset, (long unsigned int)admin_cmd.addr);
+ break;
+ }
+
+ if ((curr_data_offset + xfer_size) <= data_len)
+ curr_data_len = xfer_size;
+ else
+ curr_data_len = data_len - curr_data_offset; /* last transfer */
+
+ curr_data_offset += curr_data_len;
+ numd = (curr_data_len >> 2) - 1;
+ numdu = numd >> 16;
+ numdl = numd & 0xffff;
+ admin_cmd.addr = (__u64)(uintptr_t)dump_data + (__u64)curr_data_offset;
+ admin_cmd.nsid = curr_data_offset;
+ admin_cmd.data_len = curr_data_len;
+ admin_cmd.cdw10 = log_id | (numdl << 16);
+ admin_cmd.cdw11 = numdu;
+ i++;
+ }
+ fwrite(dump_data, data_len, 1, out);
+ free(dump_data);
+ return ret;
+}