diff options
Diffstat (limited to 'hw')
| -rw-r--r-- | hw/fsp/fsp-elog-read.c | 178 | ||||
| -rw-r--r-- | hw/fsp/fsp-elog-write.c | 106 | ||||
| -rw-r--r-- | hw/ipmi/ipmi-sel.c | 77 |
3 files changed, 188 insertions, 173 deletions
diff --git a/hw/fsp/fsp-elog-read.c b/hw/fsp/fsp-elog-read.c index a980281..351b3bd 100644 --- a/hw/fsp/fsp-elog-read.c +++ b/hw/fsp/fsp-elog-read.c @@ -1,4 +1,4 @@ -/* Copyright 2013-2014 IBM Corp. +/* Copyright 2013-2016 IBM Corp. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. @@ -16,44 +16,40 @@ /* - * This code will enable retrieving of error log from fsp->sapphire - * in sequence. - * Here, FSP would send next log only when sapphire sends a new - * log notification response to FSP. On Completion of reading - * the log from FSP, OPAL_EVENT_ERROR_LOG_AVAIL is signaled. - * This will remain raised until a call to opal_elog_read() - * is made and OPAL_SUCCESS is returned, upon which. - * the operation is complete and the event is cleared. - * This is READ action from FSP. + * This code will enable retrieving of error log from FSP -> Sapphire in + * sequence. + * Here, FSP would send next log only when Sapphire sends a new log notification + * response to FSP. On Completion of reading the log from FSP, + * OPAL_EVENT_ERROR_LOG_AVAIL is signaled. This will remain raised until a call + * to opal_elog_read() is made and OPAL_SUCCESS is returned. Upon which, the + * operation is complete and the event is cleared. This is READ action from FSP. */ /* * Design of READ error log : - * When we receive a new error log entry notificatiion from FSP, - * we queue it into the "pending" list. - * If the "pending" list is not empty, then we start the fetching log from FSP. + * When we receive a new error log entry notification from FSP, we queue it into + * the "pending" list. If the "pending" list is not empty, then we start + * fetching log from FSP. * - * When Linux reads a log entry, we dequeue it from the "pending" list - * and enqueue it to another "processed" list. At this point, if the - * "pending" list is not empty, we continue to fetch the next log. + * When Linux reads a log entry, we dequeue it from the "pending" list and + * enqueue it to another "processed" list. At this point, if the "pending" + * list is not empty, we continue to fetch the next log. * - * When Linux calls opal_resend_pending_logs(), we fetch the log - * corresponding to the head of the pending list and move it to the - * processed list, and continue this process this until the pending list is - * empty. If the pending list was empty earlier and is currently non-empty, we - * initiate an error log fetch. + * When Linux calls opal_resend_pending_logs(), we fetch the log corresponding + * to the head of the pending list and move it to the processed list, and + * continue this process until the pending list is empty. If the pending list + * was empty earlier and is currently non-empty, we initiate an error log fetch. * * When Linux acks an error log, we remove it from processed list. */ -#include <skiboot.h> -#include <fsp.h> -#include <cpu.h> -#include <lock.h> #include <errno.h> -#include <psi.h> +#include <fsp.h> #include <fsp-elog.h> +#include <lock.h> #include <opal-api.h> +#include <psi.h> +#include <skiboot.h> /* * Maximum number of entries that are pre-allocated @@ -61,7 +57,7 @@ */ #define ELOG_READ_MAX_RECORD 128 -/* structure to maintain log-id,log-size, pending and processed list */ +/* Structure to maintain log-id, log-size, pending and processed list. */ struct fsp_log_entry { uint32_t log_id; size_t log_size; @@ -71,30 +67,29 @@ struct fsp_log_entry { static LIST_HEAD(elog_read_pending); static LIST_HEAD(elog_read_processed); static LIST_HEAD(elog_read_free); - /* - * lock is used to protect overwriting of processed and pending list - * and also used while updating state of each log + * Lock is used to protect overwriting of processed and pending list + * and also used while updating state of each log. */ static struct lock elog_read_lock = LOCK_UNLOCKED; -/* log buffer to copy FSP log for READ */ -#define ELOG_READ_BUFFER_SIZE 0x00004000 +#define ELOG_READ_BUFFER_SIZE 0x00004000 +/* Log buffer to copy FSP log for read */ static void *elog_read_buffer; static uint32_t elog_head_id; /* FSP entry ID */ -static size_t elog_head_size; /* actual FSP log size */ -static uint32_t elog_read_retries; /* bad response status count */ +static size_t elog_head_size; /* Actual FSP log size */ +static uint32_t elog_read_retries; /* Bad response status count */ /* Initialize the state of the log */ static enum elog_head_state elog_read_from_fsp_head_state = ELOG_STATE_NONE; static bool elog_enabled = false; -/* Need forward declaration because of Circular dependency */ +/* Need forward declaration because of circular dependency. */ static void fsp_elog_queue_fetch(void); /* - * check the response message for mbox acknowledgment + * Check the response message for mbox acknowledgement * command send to FSP. */ static void fsp_elog_ack_complete(struct fsp_msg *msg) @@ -103,14 +98,14 @@ static void fsp_elog_ack_complete(struct fsp_msg *msg) val = (msg->resp->word1 >> 8) & 0xff; if (val != 0) - prerror("ELOG: Acknowledgment error\n"); + prerror("ELOG: Acknowledgement error\n"); + fsp_freemsg(msg); } -/* send Error Log PHYP Acknowledgment to FSP with entry ID */ +/* Send error log PHYP acknowledgement to FSP with entry ID. */ static int64_t fsp_send_elog_ack(uint32_t log_id) { - struct fsp_msg *ack_msg; ack_msg = fsp_mkmsg(FSP_CMD_ERRLOG_PHYP_ACK, 1, log_id); @@ -118,23 +113,24 @@ static int64_t fsp_send_elog_ack(uint32_t log_id) prerror("ELOG: Failed to allocate ack message\n"); return OPAL_INTERNAL_ERROR; } + if (fsp_queue_msg(ack_msg, fsp_elog_ack_complete)) { fsp_freemsg(ack_msg); ack_msg = NULL; prerror("ELOG: Error queueing elog ack complete\n"); return OPAL_INTERNAL_ERROR; } + return OPAL_SUCCESS; } -/* retrive error log from FSP with TCE for the data transfer */ +/* Retrieve error log from FSP with TCE for the data transfer. */ static void fsp_elog_check_and_fetch_head(void) { if (!elog_enabled) return; lock(&elog_read_lock); - if (elog_read_from_fsp_head_state != ELOG_STATE_NONE || list_empty(&elog_read_pending)) { unlock(&elog_read_lock); @@ -142,7 +138,6 @@ static void fsp_elog_check_and_fetch_head(void) } elog_read_retries = 0; - /* Start fetching first entry from the pending list */ fsp_elog_queue_fetch(); unlock(&elog_read_lock); @@ -163,14 +158,14 @@ void elog_set_head_state(bool opal_logs, enum elog_head_state state) fsp_logs_state = state; if (fsp_logs_state == ELOG_STATE_FETCHED_DATA || - opal_logs_state == ELOG_STATE_FETCHED_DATA) + opal_logs_state == ELOG_STATE_FETCHED_DATA) opal_update_pending_evt(OPAL_EVENT_ERROR_LOG_AVAIL, OPAL_EVENT_ERROR_LOG_AVAIL); else opal_update_pending_evt(OPAL_EVENT_ERROR_LOG_AVAIL, 0); } -/* this function should be called with the lock held */ +/* This function should be called with the lock held. */ static inline void fsp_elog_set_head_state(enum elog_head_state state) { elog_set_head_state(false, state); @@ -178,17 +173,17 @@ static inline void fsp_elog_set_head_state(enum elog_head_state state) } /* - * when we try maximum time of fetching log from fsp + * When, we try maximum time of fetching log from FSP * we call following function to delete log from the - * pending list and update the state to fetch next log + * pending list and update the state to fetch next log. * - * this function should be called with the lock held + * This function should be called with the lock held. */ static void fsp_elog_fetch_failure(uint8_t fsp_status) { struct fsp_log_entry *log_data; - /* read top list and delete the node */ + /* Read top list and delete the node */ log_data = list_top(&elog_read_pending, struct fsp_log_entry, link); if (!log_data) { /** @@ -204,8 +199,8 @@ static void fsp_elog_fetch_failure(uint8_t fsp_status) list_add(&elog_read_free, &log_data->link); prerror("ELOG: received invalid data: %x FSP status: 0x%x\n", log_data->log_id, fsp_status); - } + fsp_elog_set_head_state(ELOG_STATE_NONE); } @@ -213,12 +208,10 @@ static void fsp_elog_fetch_failure(uint8_t fsp_status) static void fsp_elog_read_complete(struct fsp_msg *read_msg) { uint8_t val; - /*struct fsp_log_entry *log_data;*/ lock(&elog_read_lock); val = (read_msg->resp->word1 >> 8) & 0xff; fsp_freemsg(read_msg); - if (elog_read_from_fsp_head_state == ELOG_STATE_REJECTED) { fsp_elog_set_head_state(ELOG_STATE_NONE); goto elog_read_out; @@ -232,14 +225,15 @@ static void fsp_elog_read_complete(struct fsp_msg *read_msg) case FSP_STATUS_DMA_ERROR: if (elog_read_retries++ < MAX_RETRIES) { /* - * for a error response value from FSP, we try to + * For a error response value from FSP, we try to * send fetch sp data mbox command again for three * times if response from FSP is still not valid - * we send generic error response to fsp. + * we send generic error response to FSP. */ fsp_elog_queue_fetch(); break; } + fsp_elog_fetch_failure(val); break; @@ -254,7 +248,7 @@ elog_read_out: fsp_elog_check_and_fetch_head(); } -/* read error log from FSP through mbox commands */ +/* Read error log from FSP through mbox commands */ static void fsp_elog_queue_fetch(void) { int rc; @@ -270,14 +264,14 @@ static void fsp_elog_queue_fetch(void) * was empty. */ prlog(PR_ERR, "%s: Inconsistent internal list state !\n", - __func__); + __func__); fsp_elog_set_head_state(ELOG_STATE_NONE); return; } + fsp_elog_set_head_state(ELOG_STATE_FETCHING); elog_head_id = entry->log_id; elog_head_size = entry->log_size; - rc = fsp_fetch_data_queue(flags, FSP_DATASET_ERRLOG, elog_head_id, 0, (void *)PSI_DMA_ERRLOG_READ_BUF, &elog_head_size, fsp_elog_read_complete); @@ -287,13 +281,13 @@ static void fsp_elog_queue_fetch(void) } } -/* opal interface for powernv to read log size and log ID from sapphire */ +/* OPAL interface for PowerNV to read log size and log ID from Sapphire. */ static int64_t fsp_opal_elog_info(uint64_t *opal_elog_id, uint64_t *opal_elog_size, uint64_t *elog_type) { struct fsp_log_entry *log_data; - /* copy type of the error log */ + /* Copy type of the error log */ *elog_type = ELOG_TYPE_PEL; /* Check if any OPAL log needs to be reported to the host */ @@ -305,6 +299,7 @@ static int64_t fsp_opal_elog_info(uint64_t *opal_elog_id, unlock(&elog_read_lock); return OPAL_WRONG_STATE; } + log_data = list_top(&elog_read_pending, struct fsp_log_entry, link); if (!log_data) { /** @@ -319,6 +314,7 @@ static int64_t fsp_opal_elog_info(uint64_t *opal_elog_id, unlock(&elog_read_lock); return OPAL_WRONG_STATE; } + *opal_elog_id = log_data->log_id; *opal_elog_size = log_data->log_size; fsp_elog_set_head_state(ELOG_STATE_HOST_INFO); @@ -326,20 +322,20 @@ static int64_t fsp_opal_elog_info(uint64_t *opal_elog_id, return OPAL_SUCCESS; } -/* opal interface for powernv to read log from sapphire */ +/* OPAL interface for PowerNV to read log from Sapphire. */ static int64_t fsp_opal_elog_read(uint64_t *buffer, uint64_t opal_elog_size, uint64_t opal_elog_id) { int size = opal_elog_size; struct fsp_log_entry *log_data; - - /* Check if any OPAL log needs to be reported to the host */ + /* Check if any OPAL log needs to be reported to the PowerNV */ if (opal_elog_read(buffer, opal_elog_size, opal_elog_id)) return OPAL_SUCCESS; + /* * Read top entry from list. - * as we know always top record of the list is fetched from FSP + * As we know always top record of the list is fetched from FSP */ lock(&elog_read_lock); if (elog_read_from_fsp_head_state != ELOG_STATE_HOST_INFO) { @@ -375,23 +371,22 @@ static int64_t fsp_opal_elog_read(uint64_t *buffer, uint64_t opal_elog_size, memcpy((void *)buffer, elog_read_buffer, size); /* - * once log is read from linux move record from pending + * Once log is read from linux move record from pending * to processed list and delete record from pending list - * and change state of the log to fetch next record + * and change state of the log to fetch next record. */ list_del(&log_data->link); list_add(&elog_read_processed, &log_data->link); fsp_elog_set_head_state(ELOG_STATE_NONE); unlock(&elog_read_lock); - - /* read error log from FSP */ + /* Read error log from FSP */ fsp_elog_check_and_fetch_head(); return OPAL_SUCCESS; } -/* set state of the log head before fetching the log */ +/* Set state of the log head before fetching the log. */ static void elog_reject_head(void) { if (elog_read_from_fsp_head_state == ELOG_STATE_FETCHING) @@ -400,7 +395,7 @@ static void elog_reject_head(void) fsp_elog_set_head_state(ELOG_STATE_NONE); } -/* opal Interface for powernv to send ack to fsp with log ID */ +/* OPAL interface for PowerNV to send ack to FSP with log ID */ static int64_t fsp_opal_elog_ack(uint64_t ack_id) { int rc = 0; @@ -415,22 +410,26 @@ static int64_t fsp_opal_elog_ack(uint64_t ack_id) prerror("ELOG: failed to send acknowledgement: %d\n", rc); return rc; } + lock(&elog_read_lock); list_for_each_safe(&elog_read_processed, record, next_record, link) { if (record->log_id != ack_id) continue; + list_del(&record->link); list_add(&elog_read_free, &record->link); unlock(&elog_read_lock); return rc; } + list_for_each_safe(&elog_read_pending, record, next_record, link) { if (record->log_id != ack_id) continue; - /* It means host has sent ACK without reading actual data. + /* + * It means PowerNV has sent ACK without reading actual data. * Because of this elog_read_from_fsp_head_state may be * stuck in wrong state (ELOG_STATE_HOST_INFO) and not able - * to send remaining ELOGs to host. Hence reset ELOG state + * to send remaining ELOGs to PowerNV. Hence reset ELOG state * and start sending remaining ELOGs. */ list_del(&record->link); @@ -440,14 +439,14 @@ static int64_t fsp_opal_elog_ack(uint64_t ack_id) fsp_elog_check_and_fetch_head(); return rc; } - unlock(&elog_read_lock); + unlock(&elog_read_lock); return OPAL_PARAMETER; } /* - * once linux kexec's it ask to resend all logs which - * are not acknowledged from linux + * Once Linux kexec's it ask to resend all logs which + * are not acknowledged from Linux. */ static void fsp_opal_resend_pending_logs(void) { @@ -457,7 +456,7 @@ static void fsp_opal_resend_pending_logs(void) elog_enabled = true; unlock(&elog_read_lock); - /* Check if any Sapphire logs are pending */ + /* Check if any Sapphire logs are pending. */ opal_resend_pending_logs(); lock(&elog_read_lock); @@ -479,7 +478,7 @@ static void fsp_opal_resend_pending_logs(void) fsp_elog_check_and_fetch_head(); } -/* Disable ELOG event flag until host is ready to receive event */ +/* Disable ELOG event flag until PowerNV is ready to receive event */ static bool opal_kexec_elog_notify(void *data __unused) { lock(&elog_read_lock); @@ -491,7 +490,7 @@ static bool opal_kexec_elog_notify(void *data __unused) return true; } -/* fsp elog notify function */ +/* FSP elog notify function */ static bool fsp_elog_msg(uint32_t cmd_sub_mod, struct fsp_msg *msg) { int rc = 0; @@ -499,7 +498,6 @@ static bool fsp_elog_msg(uint32_t cmd_sub_mod, struct fsp_msg *msg) uint32_t log_id; uint32_t log_size; - if (cmd_sub_mod != FSP_CMD_ERRLOG_NOTIFICATION) return false; @@ -516,30 +514,30 @@ static bool fsp_elog_msg(uint32_t cmd_sub_mod, struct fsp_msg *msg) log_id, log_size); } - /* take a lock until we take out the node from elog_read_free */ + /* Take a lock until we take out the node from elog_read_free */ lock(&elog_read_lock); if (!list_empty(&elog_read_free)) { - /* Create a new entry in the pending list */ + /* Create a new entry in the pending list. */ record = list_pop(&elog_read_free, struct fsp_log_entry, link); record->log_id = log_id; record->log_size = log_size; list_add_tail(&elog_read_pending, &record->link); unlock(&elog_read_lock); - /* Send response back to FSP for a new elog notify message */ + /* Send response back to FSP for a new elog notify message. */ rc = fsp_queue_msg(fsp_mkmsg(FSP_RSP_ERRLOG_NOTIFICATION, 1, log_id), fsp_freemsg); if (rc) prerror("ELOG: Failed to queue errlog notification" " response: %d\n", rc); - /* read error log from FSP */ + /* Read error log from FSP */ fsp_elog_check_and_fetch_head(); } else { printf("ELOG: Log entry 0x%08x discarded\n", log_id); - /* unlock if elog_read_free is empty */ + /* Unlock if elog_read_free is empty. */ unlock(&elog_read_lock); rc = fsp_queue_msg(fsp_mkmsg(FSP_RSP_ERRLOG_NOTIFICATION, @@ -547,9 +545,10 @@ static bool fsp_elog_msg(uint32_t cmd_sub_mod, struct fsp_msg *msg) if (rc) prerror("ELOG: Failed to queue errlog notification" " response: %d\n", rc); + /* - * if list is full with max record then we - * send discarded by phyp (condition full) ack to FSP. + * If list is full with max record then we send discarded by + * phyp (condition full) ack to FSP. * * At some point in the future, we'll get notified again. * This is largely up to FSP as to when they tell us about @@ -583,13 +582,14 @@ static int init_elog_read_free_list(uint32_t num_entries) list_add_tail(&elog_read_free, &entry->link); entry++; } + return 0; out_err: return -ENOMEM; } -/* fsp elog read init function */ +/* FSP elog read init function */ void fsp_elog_read_init(void) { int val = 0; @@ -607,18 +607,18 @@ void fsp_elog_read_init(void) fsp_tce_map(PSI_DMA_ERRLOG_READ_BUF, elog_read_buffer, PSI_DMA_ERRLOG_READ_BUF_SZ); - /* pre allocate memory for 128 record */ + /* Pre allocate memory for 128 record */ val = init_elog_read_free_list(ELOG_READ_MAX_RECORD); if (val != 0) return; - /* register Eror log Class D2 */ + /* Register error log class D2 */ fsp_register_client(&fsp_get_elog_notify, FSP_MCLASS_ERR_LOG); - /* Register for sync on host reboot call */ + /* Register for sync on PowerNV reboot call */ opal_add_host_sync_notifier(opal_kexec_elog_notify, NULL); - /* register opal Interface */ + /* Register OPAL interface */ opal_register(OPAL_ELOG_READ, fsp_opal_elog_read, 3); opal_register(OPAL_ELOG_ACK, fsp_opal_elog_ack, 1); opal_register(OPAL_ELOG_RESEND, fsp_opal_resend_pending_logs, 0); diff --git a/hw/fsp/fsp-elog-write.c b/hw/fsp/fsp-elog-write.c index 175b547..9243931 100644 --- a/hw/fsp/fsp-elog-write.c +++ b/hw/fsp/fsp-elog-write.c @@ -1,4 +1,4 @@ -/* Copyright 2013-2014 IBM Corp. +/* Copyright 2013-2016 IBM Corp. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. @@ -16,24 +16,23 @@ /* - * This code will enable generation and pushing of error log - * from powernv, sapphire to FSP - * Critical events from sapphire that needs to be reported - * will be pushed on to FSP after converting the - * error log to Platform Error Log (PEL) format. - * This is termed as WRITE action to FSP. + * This code will enable generation and pushing of error log from Sapphire + * to FSP. + * Critical events from Sapphire that needs to be reported will be pushed + * on to FSP after converting the error log to Platform Error Log(PEL) format. + * This is termed as write action to FSP. */ -#include <skiboot.h> -#include <fsp.h> #include <cpu.h> -#include <lock.h> #include <errno.h> +#include <fsp.h> #include <fsp-elog.h> -#include <timebase.h> +#include <lock.h> +#include <opal-api.h> #include <pel.h> #include <pool.h> -#include <opal-api.h> +#include <skiboot.h> +#include <timebase.h> static LIST_HEAD(elog_write_to_fsp_pending); static LIST_HEAD(elog_write_to_host_pending); @@ -43,8 +42,8 @@ static struct lock elog_write_lock = LOCK_UNLOCKED; static struct lock elog_panic_write_lock = LOCK_UNLOCKED; static struct lock elog_write_to_host_lock = LOCK_UNLOCKED; -/* log buffer to copy FSP log for READ */ #define ELOG_WRITE_TO_FSP_BUFFER_SIZE 0x00004000 +/* Log buffer to copy OPAL log for write to FSP. */ static void *elog_write_to_fsp_buffer; #define ELOG_PANIC_WRITE_BUFFER_SIZE 0x00004000 @@ -59,7 +58,7 @@ static uint32_t elog_write_retries; static uint32_t elog_plid_fsp_commit = -1; static enum elog_head_state elog_write_to_host_head_state = ELOG_STATE_NONE; -/* Need forward declaration because of Circular dependency */ +/* Need forward declaration because of circular dependency */ static int opal_send_elog_to_fsp(void); static void remove_elog_head_entry(void) @@ -73,11 +72,13 @@ static void remove_elog_head_entry(void) if (head->plid == elog_plid_fsp_commit) { entry = list_pop(&elog_write_to_fsp_pending, struct errorlog, link); - opal_elog_complete(entry, elog_write_retries < MAX_RETRIES); + opal_elog_complete(entry, + elog_write_retries < MAX_RETRIES); /* Reset the counter */ elog_plid_fsp_commit = -1; } } + elog_write_retries = 0; unlock(&elog_write_lock); } @@ -91,14 +92,14 @@ static void opal_fsp_write_complete(struct fsp_msg *read_msg) switch (val) { case FSP_STATUS_SUCCESS: - remove_elog_head_entry(); - break; - + remove_elog_head_entry(); + break; default: if (elog_write_retries++ >= MAX_RETRIES) { remove_elog_head_entry(); prerror("ELOG: Error in writing to FSP (0x%x)!\n", val); } + break; } @@ -106,7 +107,7 @@ static void opal_fsp_write_complete(struct fsp_msg *read_msg) prerror("ELOG: Error sending elog to FSP !\n"); } -/* write PEL format hex dump of the log to FSP */ +/* Write PEL format hex dump of the log to FSP */ static int64_t fsp_opal_elog_write(size_t opal_elog_size) { struct fsp_msg *elog_msg; @@ -117,12 +118,14 @@ static int64_t fsp_opal_elog_write(size_t opal_elog_size) prerror("ELOG: Failed to create message for WRITE to FSP\n"); return OPAL_INTERNAL_ERROR; } + if (fsp_queue_msg(elog_msg, opal_fsp_write_complete)) { fsp_freemsg(elog_msg); elog_msg = NULL; prerror("FSP: Error queueing elog update\n"); return OPAL_INTERNAL_ERROR; } + return OPAL_SUCCESS; } @@ -160,13 +163,13 @@ bool opal_elog_info(uint64_t *opal_elog_id, uint64_t *opal_elog_size) rc = true; } } + unlock(&elog_write_to_host_lock); return rc; } static void opal_commit_elog_in_host(void) { - struct errorlog *buf; lock(&elog_write_to_host_lock); @@ -175,14 +178,14 @@ static void opal_commit_elog_in_host(void) buf = list_top(&elog_write_to_host_pending, struct errorlog, link); buf->log_size = create_pel_log(buf, - (char *)elog_write_to_host_buffer, - ELOG_WRITE_TO_HOST_BUFFER_SIZE); + (char *)elog_write_to_host_buffer, + ELOG_WRITE_TO_HOST_BUFFER_SIZE); fsp_elog_write_set_head_state(ELOG_STATE_FETCHED_DATA); } + unlock(&elog_write_to_host_lock); } - bool opal_elog_read(uint64_t *buffer, uint64_t opal_elog_size, uint64_t opal_elog_id) { @@ -198,6 +201,7 @@ bool opal_elog_read(uint64_t *buffer, uint64_t opal_elog_size, unlock(&elog_write_to_host_lock); return rc; } + if ((opal_elog_id != log_data->plid) && (opal_elog_size != log_data->log_size)) { unlock(&elog_write_to_host_lock); @@ -206,12 +210,12 @@ bool opal_elog_read(uint64_t *buffer, uint64_t opal_elog_size, memcpy((void *)buffer, elog_write_to_host_buffer, opal_elog_size); - list_del(&log_data->link); list_add(&elog_write_to_host_processed, &log_data->link); fsp_elog_write_set_head_state(ELOG_STATE_NONE); rc = true; } + unlock(&elog_write_to_host_lock); opal_commit_elog_in_host(); return rc; @@ -226,9 +230,10 @@ bool opal_elog_ack(uint64_t ack_id) lock(&elog_write_to_host_lock); if (!list_empty(&elog_write_to_host_processed)) { list_for_each_safe(&elog_write_to_host_processed, record, - next_record, link) { + next_record, link) { if (record->plid != ack_id) continue; + list_del(&record->link); opal_elog_complete(record, true); rc = true; @@ -237,14 +242,15 @@ bool opal_elog_ack(uint64_t ack_id) if ((!rc) && (!list_empty(&elog_write_to_host_pending))) { log_data = list_top(&elog_write_to_host_pending, - struct errorlog, link); + struct errorlog, link); if (ack_id == log_data->plid) fsp_elog_write_set_head_state(ELOG_STATE_NONE); list_for_each_safe(&elog_write_to_host_pending, record, - next_record, link) { + next_record, link) { if (record->plid != ack_id) continue; + list_del(&record->link); opal_elog_complete(record, true); rc = true; @@ -253,6 +259,7 @@ bool opal_elog_ack(uint64_t ack_id) return rc; } } + unlock(&elog_write_to_host_lock); return rc; } @@ -267,6 +274,7 @@ void opal_resend_pending_logs(void) struct errorlog, link); list_add_tail(&elog_write_to_host_pending, &record->link); } + fsp_elog_write_set_head_state(ELOG_STATE_NONE); unlock(&elog_write_to_host_lock); opal_commit_elog_in_host(); @@ -282,9 +290,9 @@ static int opal_send_elog_to_fsp(void) struct errorlog *head; int rc = OPAL_SUCCESS; - /* Convert entry to PEL - * and push it down to FSP. We wait for the ack from - * FSP. + /* + * Convert entry to PEL and push it down to FSP. + * Then we wait for the ack from FSP. */ lock(&elog_write_lock); if (!list_empty(&elog_write_to_fsp_pending)) { @@ -295,12 +303,13 @@ static int opal_send_elog_to_fsp(void) elog_plid_fsp_commit = head->plid; head->log_size = create_pel_log(head, - (char *)elog_write_to_fsp_buffer, - ELOG_WRITE_TO_FSP_BUFFER_SIZE); + (char *)elog_write_to_fsp_buffer, + ELOG_WRITE_TO_FSP_BUFFER_SIZE); rc = fsp_opal_elog_write(head->log_size); unlock(&elog_write_lock); return rc; } + unlock(&elog_write_lock); return rc; } @@ -337,12 +346,13 @@ static int opal_push_logs_sync_to_fsp(struct errorlog *buf) rc = (elog_msg->resp->word1 >> 8) & 0xff; fsp_freemsg(elog_msg); } - unlock(&elog_panic_write_lock); + unlock(&elog_panic_write_lock); if (rc != OPAL_SUCCESS) opal_elog_complete(buf, false); else opal_elog_complete(buf, true); + return rc; } @@ -362,6 +372,7 @@ int elog_fsp_commit(struct errorlog *buf) rc = opal_send_elog_to_fsp(); return rc; } + list_add_tail(&elog_write_to_fsp_pending, &buf->link); unlock(&elog_write_lock); return rc; @@ -369,7 +380,6 @@ int elog_fsp_commit(struct errorlog *buf) static void elog_append_write_to_host(struct errorlog *buf) { - lock(&elog_write_to_host_lock); if (list_empty(&elog_write_to_host_pending)) { list_add(&elog_write_to_host_pending, &buf->link); @@ -390,36 +400,36 @@ static void elog_timeout_poll(void *data __unused) if (list_empty(&elog_write_to_fsp_pending)) { unlock(&elog_write_lock); return; - } else { - head = list_top(&elog_write_to_fsp_pending, - struct errorlog, link); - now = mftb(); - if ((tb_compare(now, head->elog_timeout) == TB_AAFTERB) || + } + + head = list_top(&elog_write_to_fsp_pending, struct errorlog, link); + now = mftb(); + if ((tb_compare(now, head->elog_timeout) == TB_AAFTERB) || (tb_compare(now, head->elog_timeout) == TB_AEQUALB)) { - entry = list_pop(&elog_write_to_fsp_pending, - struct errorlog, link); - unlock(&elog_write_lock); - elog_append_write_to_host(entry); - } else - unlock(&elog_write_lock); + entry = list_pop(&elog_write_to_fsp_pending, + struct errorlog, link); + unlock(&elog_write_lock); + elog_append_write_to_host(entry); + } else { + unlock(&elog_write_lock); } } -/* fsp elog init function */ +/* FSP elog init function */ void fsp_elog_write_init(void) { if (!fsp_present()) return; elog_panic_write_buffer = memalign(TCE_PSIZE, - ELOG_PANIC_WRITE_BUFFER_SIZE); + ELOG_PANIC_WRITE_BUFFER_SIZE); if (!elog_panic_write_buffer) { prerror("FSP: could not allocate ELOG_PANIC_WRITE_BUFFER!\n"); return; } elog_write_to_fsp_buffer = memalign(TCE_PSIZE, - ELOG_WRITE_TO_FSP_BUFFER_SIZE); + ELOG_WRITE_TO_FSP_BUFFER_SIZE); if (!elog_write_to_fsp_buffer) { prerror("FSP: could not allocate ELOG_WRITE_BUFFER!\n"); return; diff --git a/hw/ipmi/ipmi-sel.c b/hw/ipmi/ipmi-sel.c index d26059b..369cebc 100644 --- a/hw/ipmi/ipmi-sel.c +++ b/hw/ipmi/ipmi-sel.c @@ -1,4 +1,4 @@ -/* Copyright 2013-2014 IBM Corp. +/* Copyright 2013-2016 IBM Corp. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. @@ -146,14 +146,14 @@ void ipmi_sel_init(void) memset(&ipmi_sel_panic_msg, 0, sizeof(struct ipmi_sel_panic_msg)); ipmi_sel_panic_msg.msg = ipmi_mkmsg(IPMI_DEFAULT_INTERFACE, - IPMI_RESERVE_SEL, ipmi_elog_poll, - NULL, NULL, IPMI_MAX_REQ_SIZE, 2); + IPMI_RESERVE_SEL, ipmi_elog_poll, + NULL, NULL, IPMI_MAX_REQ_SIZE, 2); } /* - * Allocate IPMI message - * For normal event, allocate memory using ipmi_mkmsg and for PANIC - * event, use pre-allocated buffer. + * Allocate IPMI message: + * For normal event, allocate memory using ipmi_mkmsg and for PANIC + * event, use pre-allocated buffer. */ static struct ipmi_msg *ipmi_sel_alloc_msg(struct errorlog *elog_buf) { @@ -175,13 +175,12 @@ static struct ipmi_msg *ipmi_sel_alloc_msg(struct errorlog *elog_buf) ipmi_sel_panic_msg.busy = true; unlock(&ipmi_sel_panic_msg.lock); - ipmi_init_msg(msg, IPMI_DEFAULT_INTERFACE, - IPMI_RESERVE_SEL, ipmi_elog_poll, - elog_buf, IPMI_MAX_REQ_SIZE, 2); + ipmi_init_msg(msg, IPMI_DEFAULT_INTERFACE, IPMI_RESERVE_SEL, + ipmi_elog_poll, elog_buf, IPMI_MAX_REQ_SIZE, 2); } else { msg = ipmi_mkmsg(IPMI_DEFAULT_INTERFACE, IPMI_RESERVE_SEL, - ipmi_elog_poll, elog_buf, - NULL, IPMI_MAX_REQ_SIZE, 2); + ipmi_elog_poll, elog_buf, NULL, + IPMI_MAX_REQ_SIZE, 2); } return msg; @@ -196,6 +195,7 @@ static void ipmi_sel_free_msg(struct ipmi_msg *msg) } else { ipmi_free_msg(msg); } + msg = NULL; } @@ -277,15 +277,15 @@ static void ipmi_log_sel_event_error(struct ipmi_msg *msg) static void ipmi_log_sel_event_complete(struct ipmi_msg *msg) { - prlog(PR_INFO, "SEL: New event logged [ID : %x%x]\n", - msg->data[1], msg->data[0]); + prlog(PR_INFO, "SEL: New event logged [ID : %x%x]\n", msg->data[1], + msg->data[0]); ipmi_sel_free_msg(msg); } /* Log SEL event with eSEL record ID */ -static void ipmi_log_sel_event(struct ipmi_msg *msg, - uint8_t event_severity, uint16_t esel_record_id) +static void ipmi_log_sel_event(struct ipmi_msg *msg, uint8_t event_severity, + uint16_t esel_record_id) { /* Fill required SEL event fields */ ipmi_update_sel_record(event_severity, esel_record_id); @@ -335,23 +335,23 @@ static void ipmi_elog_poll(struct ipmi_msg *msg) size_t req_size; ipmi_init_esel_record(); - if (msg->cmd == IPMI_CMD(IPMI_RESERVE_SEL)) { first = true; reservation_id = msg->data[0]; reservation_id |= msg->data[1] << 8; if (!reservation_id) { - /* According to specification we should never + /* + * According to specification we should never * get here, but just in case we do we cancel - * sending the message. */ + * sending the message. + */ prerror("Invalid reservation id"); opal_elog_complete(elog_buf, false); ipmi_sel_free_msg(msg); return; } - pel_size = create_pel_log(elog_buf, - pel_buf, IPMI_MAX_PEL_SIZE); + pel_size = create_pel_log(elog_buf, pel_buf, IPMI_MAX_PEL_SIZE); esel_size = pel_size + sizeof(struct sel_record); esel_index = 0; record_id = 0; @@ -362,9 +362,11 @@ static void ipmi_elog_poll(struct ipmi_msg *msg) /* Start or continue the IPMI_PARTIAL_ADD_SEL */ if (esel_index >= esel_size) { - /* We're all done. Invalidate the resevation id to + /* + * We're all done. Invalidate the resevation id to * ensure we get an error if we cut in on another eSEL - * message. */ + * message. + */ reservation_id = 0; esel_index = 0; @@ -396,14 +398,14 @@ static void ipmi_elog_poll(struct ipmi_msg *msg) if (first) { first = false; - memcpy(&msg->data[ESEL_HDR_SIZE], - &sel_record, sizeof(struct sel_record)); + memcpy(&msg->data[ESEL_HDR_SIZE], &sel_record, + sizeof(struct sel_record)); esel_index = sizeof(struct sel_record); msg->req_size = esel_index + ESEL_HDR_SIZE; } else { pel_index = esel_index - sizeof(struct sel_record); - memcpy(&msg->data[ESEL_HDR_SIZE], - &pel_buf[pel_index], msg->req_size - ESEL_HDR_SIZE); + memcpy(&msg->data[ESEL_HDR_SIZE], &pel_buf[pel_index], + msg->req_size - ESEL_HDR_SIZE); esel_index += msg->req_size - ESEL_HDR_SIZE; } @@ -416,25 +418,27 @@ int ipmi_elog_commit(struct errorlog *elog_buf) struct ipmi_msg *msg; /* Only log events that needs attention */ - if (elog_buf->event_severity < OPAL_PREDICTIVE_ERR_FAULT_RECTIFY_REBOOT || - elog_buf->elog_origin != ORG_SAPPHIRE) { + if (elog_buf->event_severity < + OPAL_PREDICTIVE_ERR_FAULT_RECTIFY_REBOOT || + elog_buf->elog_origin != ORG_SAPPHIRE) { prlog(PR_INFO, "dropping non severe PEL event\n"); opal_elog_complete(elog_buf, true); return 0; } - /* We pass a large request size in to mkmsg so that we have a + /* + * We pass a large request size in to mkmsg so that we have a * large enough allocation to reuse the message to pass the - * PEL data via a series of partial add commands. */ + * PEL data via a series of partial add commands. + */ msg = ipmi_sel_alloc_msg(elog_buf); if (!msg) { opal_elog_complete(elog_buf, false); return OPAL_RESOURCE; } - msg->error = ipmi_elog_error; + msg->error = ipmi_elog_error; msg->req_size = 0; - if (elog_buf->event_severity == OPAL_ERROR_PANIC) ipmi_queue_msg_sync(msg); else @@ -491,6 +495,7 @@ static void sel_power(uint8_t power) } else { opal_queue_msg(OPAL_MSG_SHUTDOWN, NULL, NULL, SOFT_OFF); } + break; case SOFT_REBOOT: prlog(PR_NOTICE, "Soft reboot requested\n"); @@ -501,6 +506,7 @@ static void sel_power(uint8_t power) } else { opal_queue_msg(OPAL_MSG_SHUTDOWN, NULL, NULL, SOFT_REBOOT); } + break; default: prlog(PR_WARNING, "requested bad power state: %02x\n", @@ -510,7 +516,7 @@ static void sel_power(uint8_t power) static uint32_t occ_sensor_id_to_chip(uint8_t sensor, uint32_t *chip) { - /* todo: lookup sensor ID node in the DT, and map to a chip id */ + /* TODO: Lookup sensor ID node in the DT, and map to a chip id */ (void)sensor; *chip = 0; return 0; @@ -553,9 +559,8 @@ void ipmi_parse_sel(struct ipmi_msg *msg) msg->resp_size, sel.netfun, sel.cmd); /* Only accept OEM SEL messages */ - if (sel.id[0] != SEL_OEM_ID_0 || - sel.id[1] != SEL_OEM_ID_1 || - sel.type != SEL_RECORD_TYPE_OEM) { + if (sel.id[0] != SEL_OEM_ID_0 || sel.id[1] != SEL_OEM_ID_1 || + sel.type != SEL_RECORD_TYPE_OEM) { prlog(PR_WARNING, "unknown SEL %02x%02x (type %02x)\n", sel.id[0], sel.id[1], sel.type); return; |