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|
/*
* Copyright (C) 2005 - 2015 Emulex
* All rights reserved.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License version 2
* as published by the Free Software Foundation. The full GNU General
* Public License is included in this distribution in the file called COPYING.
*
* Contact Information:
* linux-drivers@emulex.com
*
* Emulex
* 3333 Susan Street
* Costa Mesa, CA 92626
*/
#include <linux/module.h>
#include "be.h"
#include "be_cmds.h"
char *be_misconfig_evt_port_state[] = {
"Physical Link is functional",
"Optics faulted/incorrectly installed/not installed - Reseat optics. If issue not resolved, replace.",
"Optics of two types installed – Remove one optic or install matching pair of optics.",
"Incompatible optics – Replace with compatible optics for card to function.",
"Unqualified optics – Replace with Avago optics for Warranty and Technical Support.",
"Uncertified optics – Replace with Avago-certified optics to enable link operation."
};
static char *be_port_misconfig_evt_severity[] = {
"KERN_WARN",
"KERN_INFO",
"KERN_ERR",
"KERN_WARN"
};
static char *phy_state_oper_desc[] = {
"Link is non-operational",
"Link is operational",
""
};
static struct be_cmd_priv_map cmd_priv_map[] = {
{
OPCODE_ETH_ACPI_WOL_MAGIC_CONFIG,
CMD_SUBSYSTEM_ETH,
BE_PRIV_LNKMGMT | BE_PRIV_VHADM |
BE_PRIV_DEVCFG | BE_PRIV_DEVSEC
},
{
OPCODE_COMMON_GET_FLOW_CONTROL,
CMD_SUBSYSTEM_COMMON,
BE_PRIV_LNKQUERY | BE_PRIV_VHADM |
BE_PRIV_DEVCFG | BE_PRIV_DEVSEC
},
{
OPCODE_COMMON_SET_FLOW_CONTROL,
CMD_SUBSYSTEM_COMMON,
BE_PRIV_LNKMGMT | BE_PRIV_VHADM |
BE_PRIV_DEVCFG | BE_PRIV_DEVSEC
},
{
OPCODE_ETH_GET_PPORT_STATS,
CMD_SUBSYSTEM_ETH,
BE_PRIV_LNKMGMT | BE_PRIV_VHADM |
BE_PRIV_DEVCFG | BE_PRIV_DEVSEC
},
{
OPCODE_COMMON_GET_PHY_DETAILS,
CMD_SUBSYSTEM_COMMON,
BE_PRIV_LNKMGMT | BE_PRIV_VHADM |
BE_PRIV_DEVCFG | BE_PRIV_DEVSEC
},
{
OPCODE_LOWLEVEL_HOST_DDR_DMA,
CMD_SUBSYSTEM_LOWLEVEL,
BE_PRIV_DEVCFG | BE_PRIV_DEVSEC
},
{
OPCODE_LOWLEVEL_LOOPBACK_TEST,
CMD_SUBSYSTEM_LOWLEVEL,
BE_PRIV_DEVCFG | BE_PRIV_DEVSEC
},
{
OPCODE_LOWLEVEL_SET_LOOPBACK_MODE,
CMD_SUBSYSTEM_LOWLEVEL,
BE_PRIV_DEVCFG | BE_PRIV_DEVSEC
},
};
static bool be_cmd_allowed(struct be_adapter *adapter, u8 opcode, u8 subsystem)
{
int i;
int num_entries = sizeof(cmd_priv_map)/sizeof(struct be_cmd_priv_map);
u32 cmd_privileges = adapter->cmd_privileges;
for (i = 0; i < num_entries; i++)
if (opcode == cmd_priv_map[i].opcode &&
subsystem == cmd_priv_map[i].subsystem)
if (!(cmd_privileges & cmd_priv_map[i].priv_mask))
return false;
return true;
}
static inline void *embedded_payload(struct be_mcc_wrb *wrb)
{
return wrb->payload.embedded_payload;
}
static int be_mcc_notify(struct be_adapter *adapter)
{
struct be_queue_info *mccq = &adapter->mcc_obj.q;
u32 val = 0;
if (be_check_error(adapter, BE_ERROR_ANY))
return -EIO;
val |= mccq->id & DB_MCCQ_RING_ID_MASK;
val |= 1 << DB_MCCQ_NUM_POSTED_SHIFT;
wmb();
iowrite32(val, adapter->db + DB_MCCQ_OFFSET);
return 0;
}
/* To check if valid bit is set, check the entire word as we don't know
* the endianness of the data (old entry is host endian while a new entry is
* little endian) */
static inline bool be_mcc_compl_is_new(struct be_mcc_compl *compl)
{
u32 flags;
if (compl->flags != 0) {
flags = le32_to_cpu(compl->flags);
if (flags & CQE_FLAGS_VALID_MASK) {
compl->flags = flags;
return true;
}
}
return false;
}
/* Need to reset the entire word that houses the valid bit */
static inline void be_mcc_compl_use(struct be_mcc_compl *compl)
{
compl->flags = 0;
}
static struct be_cmd_resp_hdr *be_decode_resp_hdr(u32 tag0, u32 tag1)
{
unsigned long addr;
addr = tag1;
addr = ((addr << 16) << 16) | tag0;
return (void *)addr;
}
static bool be_skip_err_log(u8 opcode, u16 base_status, u16 addl_status)
{
if (base_status == MCC_STATUS_NOT_SUPPORTED ||
base_status == MCC_STATUS_ILLEGAL_REQUEST ||
addl_status == MCC_ADDL_STATUS_TOO_MANY_INTERFACES ||
addl_status == MCC_ADDL_STATUS_INSUFFICIENT_VLANS ||
(opcode == OPCODE_COMMON_WRITE_FLASHROM &&
(base_status == MCC_STATUS_ILLEGAL_FIELD ||
addl_status == MCC_ADDL_STATUS_FLASH_IMAGE_CRC_MISMATCH)))
return true;
else
return false;
}
/* Place holder for all the async MCC cmds wherein the caller is not in a busy
* loop (has not issued be_mcc_notify_wait())
*/
static void be_async_cmd_process(struct be_adapter *adapter,
struct be_mcc_compl *compl,
struct be_cmd_resp_hdr *resp_hdr)
{
enum mcc_base_status base_status = base_status(compl->status);
u8 opcode = 0, subsystem = 0;
if (resp_hdr) {
opcode = resp_hdr->opcode;
subsystem = resp_hdr->subsystem;
}
if (opcode == OPCODE_LOWLEVEL_LOOPBACK_TEST &&
subsystem == CMD_SUBSYSTEM_LOWLEVEL) {
complete(&adapter->et_cmd_compl);
return;
}
if (opcode == OPCODE_LOWLEVEL_SET_LOOPBACK_MODE &&
subsystem == CMD_SUBSYSTEM_LOWLEVEL) {
complete(&adapter->et_cmd_compl);
return;
}
if ((opcode == OPCODE_COMMON_WRITE_FLASHROM ||
opcode == OPCODE_COMMON_WRITE_OBJECT) &&
subsystem == CMD_SUBSYSTEM_COMMON) {
adapter->flash_status = compl->status;
complete(&adapter->et_cmd_compl);
return;
}
if ((opcode == OPCODE_ETH_GET_STATISTICS ||
opcode == OPCODE_ETH_GET_PPORT_STATS) &&
subsystem == CMD_SUBSYSTEM_ETH &&
base_status == MCC_STATUS_SUCCESS) {
be_parse_stats(adapter);
adapter->stats_cmd_sent = false;
return;
}
if (opcode == OPCODE_COMMON_GET_CNTL_ADDITIONAL_ATTRIBUTES &&
subsystem == CMD_SUBSYSTEM_COMMON) {
if (base_status == MCC_STATUS_SUCCESS) {
struct be_cmd_resp_get_cntl_addnl_attribs *resp =
(void *)resp_hdr;
adapter->hwmon_info.be_on_die_temp =
resp->on_die_temperature;
} else {
adapter->be_get_temp_freq = 0;
adapter->hwmon_info.be_on_die_temp =
BE_INVALID_DIE_TEMP;
}
return;
}
}
static int be_mcc_compl_process(struct be_adapter *adapter,
struct be_mcc_compl *compl)
{
enum mcc_base_status base_status;
enum mcc_addl_status addl_status;
struct be_cmd_resp_hdr *resp_hdr;
u8 opcode = 0, subsystem = 0;
/* Just swap the status to host endian; mcc tag is opaquely copied
* from mcc_wrb */
be_dws_le_to_cpu(compl, 4);
base_status = base_status(compl->status);
addl_status = addl_status(compl->status);
resp_hdr = be_decode_resp_hdr(compl->tag0, compl->tag1);
if (resp_hdr) {
opcode = resp_hdr->opcode;
subsystem = resp_hdr->subsystem;
}
be_async_cmd_process(adapter, compl, resp_hdr);
if (base_status != MCC_STATUS_SUCCESS &&
!be_skip_err_log(opcode, base_status, addl_status)) {
if (base_status == MCC_STATUS_UNAUTHORIZED_REQUEST ||
addl_status == MCC_ADDL_STATUS_INSUFFICIENT_PRIVILEGES) {
dev_warn(&adapter->pdev->dev,
"VF is not privileged to issue opcode %d-%d\n",
opcode, subsystem);
} else {
dev_err(&adapter->pdev->dev,
"opcode %d-%d failed:status %d-%d\n",
opcode, subsystem, base_status, addl_status);
}
}
return compl->status;
}
/* Link state evt is a string of bytes; no need for endian swapping */
static void be_async_link_state_process(struct be_adapter *adapter,
struct be_mcc_compl *compl)
{
struct be_async_event_link_state *evt =
(struct be_async_event_link_state *)compl;
/* When link status changes, link speed must be re-queried from FW */
adapter->phy.link_speed = -1;
/* On BEx the FW does not send a separate link status
* notification for physical and logical link.
* On other chips just process the logical link
* status notification
*/
if (!BEx_chip(adapter) &&
!(evt->port_link_status & LOGICAL_LINK_STATUS_MASK))
return;
/* For the initial link status do not rely on the ASYNC event as
* it may not be received in some cases.
*/
if (adapter->flags & BE_FLAGS_LINK_STATUS_INIT)
be_link_status_update(adapter,
evt->port_link_status & LINK_STATUS_MASK);
}
static void be_async_port_misconfig_event_process(struct be_adapter *adapter,
struct be_mcc_compl *compl)
{
struct be_async_event_misconfig_port *evt =
(struct be_async_event_misconfig_port *)compl;
u32 sfp_misconfig_evt_word1 = le32_to_cpu(evt->event_data_word1);
u32 sfp_misconfig_evt_word2 = le32_to_cpu(evt->event_data_word2);
u8 phy_oper_state = PHY_STATE_OPER_MSG_NONE;
struct device *dev = &adapter->pdev->dev;
u8 msg_severity = DEFAULT_MSG_SEVERITY;
u8 phy_state_info;
u8 new_phy_state;
new_phy_state =
(sfp_misconfig_evt_word1 >> (adapter->hba_port_num * 8)) & 0xff;
if (new_phy_state == adapter->phy_state)
return;
adapter->phy_state = new_phy_state;
/* for older fw that doesn't populate link effect data */
if (!sfp_misconfig_evt_word2)
goto log_message;
phy_state_info =
(sfp_misconfig_evt_word2 >> (adapter->hba_port_num * 8)) & 0xff;
if (phy_state_info & PHY_STATE_INFO_VALID) {
msg_severity = (phy_state_info & PHY_STATE_MSG_SEVERITY) >> 1;
if (be_phy_unqualified(new_phy_state))
phy_oper_state = (phy_state_info & PHY_STATE_OPER);
}
log_message:
/* Log an error message that would allow a user to determine
* whether the SFPs have an issue
*/
if (be_phy_state_unknown(new_phy_state))
dev_printk(be_port_misconfig_evt_severity[msg_severity], dev,
"Port %c: Unrecognized Optics state: 0x%x. %s",
adapter->port_name,
new_phy_state,
phy_state_oper_desc[phy_oper_state]);
else
dev_printk(be_port_misconfig_evt_severity[msg_severity], dev,
"Port %c: %s %s",
adapter->port_name,
be_misconfig_evt_port_state[new_phy_state],
phy_state_oper_desc[phy_oper_state]);
/* Log Vendor name and part no. if a misconfigured SFP is detected */
if (be_phy_misconfigured(new_phy_state))
adapter->flags |= BE_FLAGS_PHY_MISCONFIGURED;
}
/* Grp5 CoS Priority evt */
static void be_async_grp5_cos_priority_process(struct be_adapter *adapter,
struct be_mcc_compl *compl)
{
struct be_async_event_grp5_cos_priority *evt =
(struct be_async_event_grp5_cos_priority *)compl;
if (evt->valid) {
adapter->vlan_prio_bmap = evt->available_priority_bmap;
adapter->recommended_prio_bits =
evt->reco_default_priority << VLAN_PRIO_SHIFT;
}
}
/* Grp5 QOS Speed evt: qos_link_speed is in units of 10 Mbps */
static void be_async_grp5_qos_speed_process(struct be_adapter *adapter,
struct be_mcc_compl *compl)
{
struct be_async_event_grp5_qos_link_speed *evt =
(struct be_async_event_grp5_qos_link_speed *)compl;
if (adapter->phy.link_speed >= 0 &&
evt->physical_port == adapter->port_num)
adapter->phy.link_speed = le16_to_cpu(evt->qos_link_speed) * 10;
}
/*Grp5 PVID evt*/
static void be_async_grp5_pvid_state_process(struct be_adapter *adapter,
struct be_mcc_compl *compl)
{
struct be_async_event_grp5_pvid_state *evt =
(struct be_async_event_grp5_pvid_state *)compl;
if (evt->enabled) {
adapter->pvid = le16_to_cpu(evt->tag) & VLAN_VID_MASK;
dev_info(&adapter->pdev->dev, "LPVID: %d\n", adapter->pvid);
} else {
adapter->pvid = 0;
}
}
#define MGMT_ENABLE_MASK 0x4
static void be_async_grp5_fw_control_process(struct be_adapter *adapter,
struct be_mcc_compl *compl)
{
struct be_async_fw_control *evt = (struct be_async_fw_control *)compl;
u32 evt_dw1 = le32_to_cpu(evt->event_data_word1);
if (evt_dw1 & MGMT_ENABLE_MASK) {
adapter->flags |= BE_FLAGS_OS2BMC;
adapter->bmc_filt_mask = le32_to_cpu(evt->event_data_word2);
} else {
adapter->flags &= ~BE_FLAGS_OS2BMC;
}
}
static void be_async_grp5_evt_process(struct be_adapter *adapter,
struct be_mcc_compl *compl)
{
u8 event_type = (compl->flags >> ASYNC_EVENT_TYPE_SHIFT) &
ASYNC_EVENT_TYPE_MASK;
switch (event_type) {
case ASYNC_EVENT_COS_PRIORITY:
be_async_grp5_cos_priority_process(adapter, compl);
break;
case ASYNC_EVENT_QOS_SPEED:
be_async_grp5_qos_speed_process(adapter, compl);
break;
case ASYNC_EVENT_PVID_STATE:
be_async_grp5_pvid_state_process(adapter, compl);
break;
/* Async event to disable/enable os2bmc and/or mac-learning */
case ASYNC_EVENT_FW_CONTROL:
be_async_grp5_fw_control_process(adapter, compl);
break;
default:
break;
}
}
static void be_async_dbg_evt_process(struct be_adapter *adapter,
struct be_mcc_compl *cmp)
{
u8 event_type = 0;
struct be_async_event_qnq *evt = (struct be_async_event_qnq *)cmp;
event_type = (cmp->flags >> ASYNC_EVENT_TYPE_SHIFT) &
ASYNC_EVENT_TYPE_MASK;
switch (event_type) {
case ASYNC_DEBUG_EVENT_TYPE_QNQ:
if (evt->valid)
adapter->qnq_vid = le16_to_cpu(evt->vlan_tag);
adapter->flags |= BE_FLAGS_QNQ_ASYNC_EVT_RCVD;
break;
default:
dev_warn(&adapter->pdev->dev, "Unknown debug event 0x%x!\n",
event_type);
break;
}
}
static void be_async_sliport_evt_process(struct be_adapter *adapter,
struct be_mcc_compl *cmp)
{
u8 event_type = (cmp->flags >> ASYNC_EVENT_TYPE_SHIFT) &
ASYNC_EVENT_TYPE_MASK;
if (event_type == ASYNC_EVENT_PORT_MISCONFIG)
be_async_port_misconfig_event_process(adapter, cmp);
}
static inline bool is_link_state_evt(u32 flags)
{
return ((flags >> ASYNC_EVENT_CODE_SHIFT) & ASYNC_EVENT_CODE_MASK) ==
ASYNC_EVENT_CODE_LINK_STATE;
}
static inline bool is_grp5_evt(u32 flags)
{
return ((flags >> ASYNC_EVENT_CODE_SHIFT) & ASYNC_EVENT_CODE_MASK) ==
ASYNC_EVENT_CODE_GRP_5;
}
static inline bool is_dbg_evt(u32 flags)
{
return ((flags >> ASYNC_EVENT_CODE_SHIFT) & ASYNC_EVENT_CODE_MASK) ==
ASYNC_EVENT_CODE_QNQ;
}
static inline bool is_sliport_evt(u32 flags)
{
return ((flags >> ASYNC_EVENT_CODE_SHIFT) & ASYNC_EVENT_CODE_MASK) ==
ASYNC_EVENT_CODE_SLIPORT;
}
static void be_mcc_event_process(struct be_adapter *adapter,
struct be_mcc_compl *compl)
{
if (is_link_state_evt(compl->flags))
be_async_link_state_process(adapter, compl);
else if (is_grp5_evt(compl->flags))
be_async_grp5_evt_process(adapter, compl);
else if (is_dbg_evt(compl->flags))
be_async_dbg_evt_process(adapter, compl);
else if (is_sliport_evt(compl->flags))
be_async_sliport_evt_process(adapter, compl);
}
static struct be_mcc_compl *be_mcc_compl_get(struct be_adapter *adapter)
{
struct be_queue_info *mcc_cq = &adapter->mcc_obj.cq;
struct be_mcc_compl *compl = queue_tail_node(mcc_cq);
if (be_mcc_compl_is_new(compl)) {
queue_tail_inc(mcc_cq);
return compl;
}
return NULL;
}
void be_async_mcc_enable(struct be_adapter *adapter)
{
spin_lock_bh(&adapter->mcc_cq_lock);
be_cq_notify(adapter, adapter->mcc_obj.cq.id, true, 0);
adapter->mcc_obj.rearm_cq = true;
spin_unlock_bh(&adapter->mcc_cq_lock);
}
void be_async_mcc_disable(struct be_adapter *adapter)
{
spin_lock_bh(&adapter->mcc_cq_lock);
adapter->mcc_obj.rearm_cq = false;
be_cq_notify(adapter, adapter->mcc_obj.cq.id, false, 0);
spin_unlock_bh(&adapter->mcc_cq_lock);
}
int be_process_mcc(struct be_adapter *adapter)
{
struct be_mcc_compl *compl;
int num = 0, status = 0;
struct be_mcc_obj *mcc_obj = &adapter->mcc_obj;
spin_lock(&adapter->mcc_cq_lock);
while ((compl = be_mcc_compl_get(adapter))) {
if (compl->flags & CQE_FLAGS_ASYNC_MASK) {
be_mcc_event_process(adapter, compl);
} else if (compl->flags & CQE_FLAGS_COMPLETED_MASK) {
status = be_mcc_compl_process(adapter, compl);
atomic_dec(&mcc_obj->q.used);
}
be_mcc_compl_use(compl);
num++;
}
if (num)
be_cq_notify(adapter, mcc_obj->cq.id, mcc_obj->rearm_cq, num);
spin_unlock(&adapter->mcc_cq_lock);
return status;
}
/* Wait till no more pending mcc requests are present */
static int be_mcc_wait_compl(struct be_adapter *adapter)
{
#define mcc_timeout 120000 /* 12s timeout */
int i, status = 0;
struct be_mcc_obj *mcc_obj = &adapter->mcc_obj;
for (i = 0; i < mcc_timeout; i++) {
if (be_check_error(adapter, BE_ERROR_ANY))
return -EIO;
local_bh_disable();
status = be_process_mcc(adapter);
local_bh_enable();
if (atomic_read(&mcc_obj->q.used) == 0)
break;
udelay(100);
}
if (i == mcc_timeout) {
dev_err(&adapter->pdev->dev, "FW not responding\n");
be_set_error(adapter, BE_ERROR_FW);
return -EIO;
}
return status;
}
/* Notify MCC requests and wait for completion */
static int be_mcc_notify_wait(struct be_adapter *adapter)
{
int status;
struct be_mcc_wrb *wrb;
struct be_mcc_obj *mcc_obj = &adapter->mcc_obj;
u32 index = mcc_obj->q.head;
struct be_cmd_resp_hdr *resp;
index_dec(&index, mcc_obj->q.len);
wrb = queue_index_node(&mcc_obj->q, index);
resp = be_decode_resp_hdr(wrb->tag0, wrb->tag1);
status = be_mcc_notify(adapter);
if (status)
goto out;
status = be_mcc_wait_compl(adapter);
if (status == -EIO)
goto out;
status = (resp->base_status |
((resp->addl_status & CQE_ADDL_STATUS_MASK) <<
CQE_ADDL_STATUS_SHIFT));
out:
return status;
}
static int be_mbox_db_ready_wait(struct be_adapter *adapter, void __iomem *db)
{
int msecs = 0;
u32 ready;
do {
if (be_check_error(adapter, BE_ERROR_ANY))
return -EIO;
ready = ioread32(db);
if (ready == 0xffffffff)
return -1;
ready &= MPU_MAILBOX_DB_RDY_MASK;
if (ready)
break;
if (msecs > 4000) {
dev_err(&adapter->pdev->dev, "FW not responding\n");
be_set_error(adapter, BE_ERROR_FW);
be_detect_error(adapter);
return -1;
}
msleep(1);
msecs++;
} while (true);
return 0;
}
/*
* Insert the mailbox address into the doorbell in two steps
* Polls on the mbox doorbell till a command completion (or a timeout) occurs
*/
static int be_mbox_notify_wait(struct be_adapter *adapter)
{
int status;
u32 val = 0;
void __iomem *db = adapter->db + MPU_MAILBOX_DB_OFFSET;
struct be_dma_mem *mbox_mem = &adapter->mbox_mem;
struct be_mcc_mailbox *mbox = mbox_mem->va;
struct be_mcc_compl *compl = &mbox->compl;
/* wait for ready to be set */
status = be_mbox_db_ready_wait(adapter, db);
if (status != 0)
return status;
val |= MPU_MAILBOX_DB_HI_MASK;
/* at bits 2 - 31 place mbox dma addr msb bits 34 - 63 */
val |= (upper_32_bits(mbox_mem->dma) >> 2) << 2;
iowrite32(val, db);
/* wait for ready to be set */
status = be_mbox_db_ready_wait(adapter, db);
if (status != 0)
return status;
val = 0;
/* at bits 2 - 31 place mbox dma addr lsb bits 4 - 33 */
val |= (u32)(mbox_mem->dma >> 4) << 2;
iowrite32(val, db);
status = be_mbox_db_ready_wait(adapter, db);
if (status != 0)
return status;
/* A cq entry has been made now */
if (be_mcc_compl_is_new(compl)) {
status = be_mcc_compl_process(adapter, &mbox->compl);
be_mcc_compl_use(compl);
if (status)
return status;
} else {
dev_err(&adapter->pdev->dev, "invalid mailbox completion\n");
return -1;
}
return 0;
}
static u16 be_POST_stage_get(struct be_adapter *adapter)
{
u32 sem;
if (BEx_chip(adapter))
sem = ioread32(adapter->csr + SLIPORT_SEMAPHORE_OFFSET_BEx);
else
pci_read_config_dword(adapter->pdev,
SLIPORT_SEMAPHORE_OFFSET_SH, &sem);
return sem & POST_STAGE_MASK;
}
static int lancer_wait_ready(struct be_adapter *adapter)
{
#define SLIPORT_READY_TIMEOUT 30
u32 sliport_status;
int i;
for (i = 0; i < SLIPORT_READY_TIMEOUT; i++) {
sliport_status = ioread32(adapter->db + SLIPORT_STATUS_OFFSET);
if (sliport_status & SLIPORT_STATUS_RDY_MASK)
return 0;
if (sliport_status & SLIPORT_STATUS_ERR_MASK &&
!(sliport_status & SLIPORT_STATUS_RN_MASK))
return -EIO;
msleep(1000);
}
return sliport_status ? : -1;
}
int be_fw_wait_ready(struct be_adapter *adapter)
{
u16 stage;
int status, timeout = 0;
struct device *dev = &adapter->pdev->dev;
if (lancer_chip(adapter)) {
status = lancer_wait_ready(adapter);
if (status) {
stage = status;
goto err;
}
return 0;
}
do {
/* There's no means to poll POST state on BE2/3 VFs */
if (BEx_chip(adapter) && be_virtfn(adapter))
return 0;
stage = be_POST_stage_get(adapter);
if (stage == POST_STAGE_ARMFW_RDY)
return 0;
dev_info(dev, "Waiting for POST, %ds elapsed\n", timeout);
if (msleep_interruptible(2000)) {
dev_err(dev, "Waiting for POST aborted\n");
return -EINTR;
}
timeout += 2;
} while (timeout < 60);
err:
dev_err(dev, "POST timeout; stage=%#x\n", stage);
return -ETIMEDOUT;
}
static inline struct be_sge *nonembedded_sgl(struct be_mcc_wrb *wrb)
{
return &wrb->payload.sgl[0];
}
static inline void fill_wrb_tags(struct be_mcc_wrb *wrb, unsigned long addr)
{
wrb->tag0 = addr & 0xFFFFFFFF;
wrb->tag1 = upper_32_bits(addr);
}
/* Don't touch the hdr after it's prepared */
/* mem will be NULL for embedded commands */
static void be_wrb_cmd_hdr_prepare(struct be_cmd_req_hdr *req_hdr,
u8 subsystem, u8 opcode, int cmd_len,
struct be_mcc_wrb *wrb,
struct be_dma_mem *mem)
{
struct be_sge *sge;
req_hdr->opcode = opcode;
req_hdr->subsystem = subsystem;
req_hdr->request_length = cpu_to_le32(cmd_len - sizeof(*req_hdr));
req_hdr->version = 0;
fill_wrb_tags(wrb, (ulong) req_hdr);
wrb->payload_length = cmd_len;
if (mem) {
wrb->embedded |= (1 & MCC_WRB_SGE_CNT_MASK) <<
MCC_WRB_SGE_CNT_SHIFT;
sge = nonembedded_sgl(wrb);
sge->pa_hi = cpu_to_le32(upper_32_bits(mem->dma));
sge->pa_lo = cpu_to_le32(mem->dma & 0xFFFFFFFF);
sge->len = cpu_to_le32(mem->size);
} else
wrb->embedded |= MCC_WRB_EMBEDDED_MASK;
be_dws_cpu_to_le(wrb, 8);
}
static void be_cmd_page_addrs_prepare(struct phys_addr *pages, u32 max_pages,
struct be_dma_mem *mem)
{
int i, buf_pages = min(PAGES_4K_SPANNED(mem->va, mem->size), max_pages);
u64 dma = (u64)mem->dma;
for (i = 0; i < buf_pages; i++) {
pages[i].lo = cpu_to_le32(dma & 0xFFFFFFFF);
pages[i].hi = cpu_to_le32(upper_32_bits(dma));
dma += PAGE_SIZE_4K;
}
}
static inline struct be_mcc_wrb *wrb_from_mbox(struct be_adapter *adapter)
{
struct be_dma_mem *mbox_mem = &adapter->mbox_mem;
struct be_mcc_wrb *wrb
= &((struct be_mcc_mailbox *)(mbox_mem->va))->wrb;
memset(wrb, 0, sizeof(*wrb));
return wrb;
}
static struct be_mcc_wrb *wrb_from_mccq(struct be_adapter *adapter)
{
struct be_queue_info *mccq = &adapter->mcc_obj.q;
struct be_mcc_wrb *wrb;
if (!mccq->created)
return NULL;
if (atomic_read(&mccq->used) >= mccq->len)
return NULL;
wrb = queue_head_node(mccq);
queue_head_inc(mccq);
atomic_inc(&mccq->used);
memset(wrb, 0, sizeof(*wrb));
return wrb;
}
static bool use_mcc(struct be_adapter *adapter)
{
return adapter->mcc_obj.q.created;
}
/* Must be used only in process context */
static int be_cmd_lock(struct be_adapter *adapter)
{
if (use_mcc(adapter)) {
spin_lock_bh(&adapter->mcc_lock);
return 0;
} else {
return mutex_lock_interruptible(&adapter->mbox_lock);
}
}
/* Must be used only in process context */
static void be_cmd_unlock(struct be_adapter *adapter)
{
if (use_mcc(adapter))
spin_unlock_bh(&adapter->mcc_lock);
else
return mutex_unlock(&adapter->mbox_lock);
}
static struct be_mcc_wrb *be_cmd_copy(struct be_adapter *adapter,
struct be_mcc_wrb *wrb)
{
struct be_mcc_wrb *dest_wrb;
if (use_mcc(adapter)) {
dest_wrb = wrb_from_mccq(adapter);
if (!dest_wrb)
return NULL;
} else {
dest_wrb = wrb_from_mbox(adapter);
}
memcpy(dest_wrb, wrb, sizeof(*wrb));
if (wrb->embedded & cpu_to_le32(MCC_WRB_EMBEDDED_MASK))
fill_wrb_tags(dest_wrb, (ulong) embedded_payload(wrb));
return dest_wrb;
}
/* Must be used only in process context */
static int be_cmd_notify_wait(struct be_adapter *adapter,
struct be_mcc_wrb *wrb)
{
struct be_mcc_wrb *dest_wrb;
int status;
status = be_cmd_lock(adapter);
if (status)
return status;
dest_wrb = be_cmd_copy(adapter, wrb);
if (!dest_wrb) {
status = -EBUSY;
goto unlock;
}
if (use_mcc(adapter))
status = be_mcc_notify_wait(adapter);
else
status = be_mbox_notify_wait(adapter);
if (!status)
memcpy(wrb, dest_wrb, sizeof(*wrb));
unlock:
be_cmd_unlock(adapter);
return status;
}
/* Tell fw we're about to start firing cmds by writing a
* special pattern across the wrb hdr; uses mbox
*/
int be_cmd_fw_init(struct be_adapter *adapter)
{
u8 *wrb;
int status;
if (lancer_chip(adapter))
return 0;
if (mutex_lock_interruptible(&adapter->mbox_lock))
return -1;
wrb = (u8 *)wrb_from_mbox(adapter);
*wrb++ = 0xFF;
*wrb++ = 0x12;
*wrb++ = 0x34;
*wrb++ = 0xFF;
*wrb++ = 0xFF;
*wrb++ = 0x56;
*wrb++ = 0x78;
*wrb = 0xFF;
status = be_mbox_notify_wait(adapter);
mutex_unlock(&adapter->mbox_lock);
return status;
}
/* Tell fw we're done with firing cmds by writing a
* special pattern across the wrb hdr; uses mbox
*/
int be_cmd_fw_clean(struct be_adapter *adapter)
{
u8 *wrb;
int status;
if (lancer_chip(adapter))
return 0;
if (mutex_lock_interruptible(&adapter->mbox_lock))
return -1;
wrb = (u8 *)wrb_from_mbox(adapter);
*wrb++ = 0xFF;
*wrb++ = 0xAA;
*wrb++ = 0xBB;
*wrb++ = 0xFF;
*wrb++ = 0xFF;
*wrb++ = 0xCC;
*wrb++ = 0xDD;
*wrb = 0xFF;
status = be_mbox_notify_wait(adapter);
mutex_unlock(&adapter->mbox_lock);
return status;
}
int be_cmd_eq_create(struct be_adapter *adapter, struct be_eq_obj *eqo)
{
struct be_mcc_wrb *wrb;
struct be_cmd_req_eq_create *req;
struct be_dma_mem *q_mem = &eqo->q.dma_mem;
int status, ver = 0;
if (mutex_lock_interruptible(&adapter->mbox_lock))
return -1;
wrb = wrb_from_mbox(adapter);
req = embedded_payload(wrb);
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_COMMON,
OPCODE_COMMON_EQ_CREATE, sizeof(*req), wrb,
NULL);
/* Support for EQ_CREATEv2 available only SH-R onwards */
if (!(BEx_chip(adapter) || lancer_chip(adapter)))
ver = 2;
req->hdr.version = ver;
req->num_pages = cpu_to_le16(PAGES_4K_SPANNED(q_mem->va, q_mem->size));
AMAP_SET_BITS(struct amap_eq_context, valid, req->context, 1);
/* 4byte eqe*/
AMAP_SET_BITS(struct amap_eq_context, size, req->context, 0);
AMAP_SET_BITS(struct amap_eq_context, count, req->context,
__ilog2_u32(eqo->q.len / 256));
be_dws_cpu_to_le(req->context, sizeof(req->context));
be_cmd_page_addrs_prepare(req->pages, ARRAY_SIZE(req->pages), q_mem);
status = be_mbox_notify_wait(adapter);
if (!status) {
struct be_cmd_resp_eq_create *resp = embedded_payload(wrb);
eqo->q.id = le16_to_cpu(resp->eq_id);
eqo->msix_idx =
(ver == 2) ? le16_to_cpu(resp->msix_idx) : eqo->idx;
eqo->q.created = true;
}
mutex_unlock(&adapter->mbox_lock);
return status;
}
/* Use MCC */
int be_cmd_mac_addr_query(struct be_adapter *adapter, u8 *mac_addr,
bool permanent, u32 if_handle, u32 pmac_id)
{
struct be_mcc_wrb *wrb;
struct be_cmd_req_mac_query *req;
int status;
spin_lock_bh(&adapter->mcc_lock);
wrb = wrb_from_mccq(adapter);
if (!wrb) {
status = -EBUSY;
goto err;
}
req = embedded_payload(wrb);
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_COMMON,
OPCODE_COMMON_NTWK_MAC_QUERY, sizeof(*req), wrb,
NULL);
req->type = MAC_ADDRESS_TYPE_NETWORK;
if (permanent) {
req->permanent = 1;
} else {
req->if_id = cpu_to_le16((u16)if_handle);
req->pmac_id = cpu_to_le32(pmac_id);
req->permanent = 0;
}
status = be_mcc_notify_wait(adapter);
if (!status) {
struct be_cmd_resp_mac_query *resp = embedded_payload(wrb);
memcpy(mac_addr, resp->mac.addr, ETH_ALEN);
}
err:
spin_unlock_bh(&adapter->mcc_lock);
return status;
}
/* Uses synchronous MCCQ */
int be_cmd_pmac_add(struct be_adapter *adapter, u8 *mac_addr,
u32 if_id, u32 *pmac_id, u32 domain)
{
struct be_mcc_wrb *wrb;
struct be_cmd_req_pmac_add *req;
int status;
spin_lock_bh(&adapter->mcc_lock);
wrb = wrb_from_mccq(adapter);
if (!wrb) {
status = -EBUSY;
goto err;
}
req = embedded_payload(wrb);
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_COMMON,
OPCODE_COMMON_NTWK_PMAC_ADD, sizeof(*req), wrb,
NULL);
req->hdr.domain = domain;
req->if_id = cpu_to_le32(if_id);
memcpy(req->mac_address, mac_addr, ETH_ALEN);
status = be_mcc_notify_wait(adapter);
if (!status) {
struct be_cmd_resp_pmac_add *resp = embedded_payload(wrb);
*pmac_id = le32_to_cpu(resp->pmac_id);
}
err:
spin_unlock_bh(&adapter->mcc_lock);
if (status == MCC_STATUS_UNAUTHORIZED_REQUEST)
status = -EPERM;
return status;
}
/* Uses synchronous MCCQ */
int be_cmd_pmac_del(struct be_adapter *adapter, u32 if_id, int pmac_id, u32 dom)
{
struct be_mcc_wrb *wrb;
struct be_cmd_req_pmac_del *req;
int status;
if (pmac_id == -1)
return 0;
spin_lock_bh(&adapter->mcc_lock);
wrb = wrb_from_mccq(adapter);
if (!wrb) {
status = -EBUSY;
goto err;
}
req = embedded_payload(wrb);
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_COMMON,
OPCODE_COMMON_NTWK_PMAC_DEL, sizeof(*req),
wrb, NULL);
req->hdr.domain = dom;
req->if_id = cpu_to_le32(if_id);
req->pmac_id = cpu_to_le32(pmac_id);
status = be_mcc_notify_wait(adapter);
err:
spin_unlock_bh(&adapter->mcc_lock);
return status;
}
/* Uses Mbox */
int be_cmd_cq_create(struct be_adapter *adapter, struct be_queue_info *cq,
struct be_queue_info *eq, bool no_delay, int coalesce_wm)
{
struct be_mcc_wrb *wrb;
struct be_cmd_req_cq_create *req;
struct be_dma_mem *q_mem = &cq->dma_mem;
void *ctxt;
int status;
if (mutex_lock_interruptible(&adapter->mbox_lock))
return -1;
wrb = wrb_from_mbox(adapter);
req = embedded_payload(wrb);
ctxt = &req->context;
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_COMMON,
OPCODE_COMMON_CQ_CREATE, sizeof(*req), wrb,
NULL);
req->num_pages = cpu_to_le16(PAGES_4K_SPANNED(q_mem->va, q_mem->size));
if (BEx_chip(adapter)) {
AMAP_SET_BITS(struct amap_cq_context_be, coalescwm, ctxt,
coalesce_wm);
AMAP_SET_BITS(struct amap_cq_context_be, nodelay,
ctxt, no_delay);
AMAP_SET_BITS(struct amap_cq_context_be, count, ctxt,
__ilog2_u32(cq->len / 256));
AMAP_SET_BITS(struct amap_cq_context_be, valid, ctxt, 1);
AMAP_SET_BITS(struct amap_cq_context_be, eventable, ctxt, 1);
AMAP_SET_BITS(struct amap_cq_context_be, eqid, ctxt, eq->id);
} else {
req->hdr.version = 2;
req->page_size = 1; /* 1 for 4K */
/* coalesce-wm field in this cmd is not relevant to Lancer.
* Lancer uses COMMON_MODIFY_CQ to set this field
*/
if (!lancer_chip(adapter))
AMAP_SET_BITS(struct amap_cq_context_v2, coalescwm,
ctxt, coalesce_wm);
AMAP_SET_BITS(struct amap_cq_context_v2, nodelay, ctxt,
no_delay);
AMAP_SET_BITS(struct amap_cq_context_v2, count, ctxt,
__ilog2_u32(cq->len / 256));
AMAP_SET_BITS(struct amap_cq_context_v2, valid, ctxt, 1);
AMAP_SET_BITS(struct amap_cq_context_v2, eventable, ctxt, 1);
AMAP_SET_BITS(struct amap_cq_context_v2, eqid, ctxt, eq->id);
}
be_dws_cpu_to_le(ctxt, sizeof(req->context));
be_cmd_page_addrs_prepare(req->pages, ARRAY_SIZE(req->pages), q_mem);
status = be_mbox_notify_wait(adapter);
if (!status) {
struct be_cmd_resp_cq_create *resp = embedded_payload(wrb);
cq->id = le16_to_cpu(resp->cq_id);
cq->created = true;
}
mutex_unlock(&adapter->mbox_lock);
return status;
}
static u32 be_encoded_q_len(int q_len)
{
u32 len_encoded = fls(q_len); /* log2(len) + 1 */
if (len_encoded == 16)
len_encoded = 0;
return len_encoded;
}
static int be_cmd_mccq_ext_create(struct be_adapter *adapter,
struct be_queue_info *mccq,
struct be_queue_info *cq)
{
struct be_mcc_wrb *wrb;
struct be_cmd_req_mcc_ext_create *req;
struct be_dma_mem *q_mem = &mccq->dma_mem;
void *ctxt;
int status;
if (mutex_lock_interruptible(&adapter->mbox_lock))
return -1;
wrb = wrb_from_mbox(adapter);
req = embedded_payload(wrb);
ctxt = &req->context;
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_COMMON,
OPCODE_COMMON_MCC_CREATE_EXT, sizeof(*req), wrb,
NULL);
req->num_pages = cpu_to_le16(PAGES_4K_SPANNED(q_mem->va, q_mem->size));
if (BEx_chip(adapter)) {
AMAP_SET_BITS(struct amap_mcc_context_be, valid, ctxt, 1);
AMAP_SET_BITS(struct amap_mcc_context_be, ring_size, ctxt,
be_encoded_q_len(mccq->len));
AMAP_SET_BITS(struct amap_mcc_context_be, cq_id, ctxt, cq->id);
} else {
req->hdr.version = 1;
req->cq_id = cpu_to_le16(cq->id);
AMAP_SET_BITS(struct amap_mcc_context_v1, ring_size, ctxt,
be_encoded_q_len(mccq->len));
AMAP_SET_BITS(struct amap_mcc_context_v1, valid, ctxt, 1);
AMAP_SET_BITS(struct amap_mcc_context_v1, async_cq_id,
ctxt, cq->id);
AMAP_SET_BITS(struct amap_mcc_context_v1, async_cq_valid,
ctxt, 1);
}
/* Subscribe to Link State, Sliport Event and Group 5 Events
* (bits 1, 5 and 17 set)
*/
req->async_event_bitmap[0] =
cpu_to_le32(BIT(ASYNC_EVENT_CODE_LINK_STATE) |
BIT(ASYNC_EVENT_CODE_GRP_5) |
BIT(ASYNC_EVENT_CODE_QNQ) |
BIT(ASYNC_EVENT_CODE_SLIPORT));
be_dws_cpu_to_le(ctxt, sizeof(req->context));
be_cmd_page_addrs_prepare(req->pages, ARRAY_SIZE(req->pages), q_mem);
status = be_mbox_notify_wait(adapter);
if (!status) {
struct be_cmd_resp_mcc_create *resp = embedded_payload(wrb);
mccq->id = le16_to_cpu(resp->id);
mccq->created = true;
}
mutex_unlock(&adapter->mbox_lock);
return status;
}
static int be_cmd_mccq_org_create(struct be_adapter *adapter,
struct be_queue_info *mccq,
struct be_queue_info *cq)
{
struct be_mcc_wrb *wrb;
struct be_cmd_req_mcc_create *req;
struct be_dma_mem *q_mem = &mccq->dma_mem;
void *ctxt;
int status;
if (mutex_lock_interruptible(&adapter->mbox_lock))
return -1;
wrb = wrb_from_mbox(adapter);
req = embedded_payload(wrb);
ctxt = &req->context;
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_COMMON,
OPCODE_COMMON_MCC_CREATE, sizeof(*req), wrb,
NULL);
req->num_pages = cpu_to_le16(PAGES_4K_SPANNED(q_mem->va, q_mem->size));
AMAP_SET_BITS(struct amap_mcc_context_be, valid, ctxt, 1);
AMAP_SET_BITS(struct amap_mcc_context_be, ring_size, ctxt,
be_encoded_q_len(mccq->len));
AMAP_SET_BITS(struct amap_mcc_context_be, cq_id, ctxt, cq->id);
be_dws_cpu_to_le(ctxt, sizeof(req->context));
be_cmd_page_addrs_prepare(req->pages, ARRAY_SIZE(req->pages), q_mem);
status = be_mbox_notify_wait(adapter);
if (!status) {
struct be_cmd_resp_mcc_create *resp = embedded_payload(wrb);
mccq->id = le16_to_cpu(resp->id);
mccq->created = true;
}
mutex_unlock(&adapter->mbox_lock);
return status;
}
int be_cmd_mccq_create(struct be_adapter *adapter,
struct be_queue_info *mccq, struct be_queue_info *cq)
{
int status;
status = be_cmd_mccq_ext_create(adapter, mccq, cq);
if (status && BEx_chip(adapter)) {
dev_warn(&adapter->pdev->dev, "Upgrade to F/W ver 2.102.235.0 "
"or newer to avoid conflicting priorities between NIC "
"and FCoE traffic");
status = be_cmd_mccq_org_create(adapter, mccq, cq);
}
return status;
}
int be_cmd_txq_create(struct be_adapter *adapter, struct be_tx_obj *txo)
{
struct be_mcc_wrb wrb = {0};
struct be_cmd_req_eth_tx_create *req;
struct be_queue_info *txq = &txo->q;
struct be_queue_info *cq = &txo->cq;
struct be_dma_mem *q_mem = &txq->dma_mem;
int status, ver = 0;
req = embedded_payload(&wrb);
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_ETH,
OPCODE_ETH_TX_CREATE, sizeof(*req), &wrb, NULL);
if (lancer_chip(adapter)) {
req->hdr.version = 1;
} else if (BEx_chip(adapter)) {
if (adapter->function_caps & BE_FUNCTION_CAPS_SUPER_NIC)
req->hdr.version = 2;
} else { /* For SH */
req->hdr.version = 2;
}
if (req->hdr.version > 0)
req->if_id = cpu_to_le16(adapter->if_handle);
req->num_pages = PAGES_4K_SPANNED(q_mem->va, q_mem->size);
req->ulp_num = BE_ULP1_NUM;
req->type = BE_ETH_TX_RING_TYPE_STANDARD;
req->cq_id = cpu_to_le16(cq->id);
req->queue_size = be_encoded_q_len(txq->len);
be_cmd_page_addrs_prepare(req->pages, ARRAY_SIZE(req->pages), q_mem);
ver = req->hdr.version;
status = be_cmd_notify_wait(adapter, &wrb);
if (!status) {
struct be_cmd_resp_eth_tx_create *resp = embedded_payload(&wrb);
txq->id = le16_to_cpu(resp->cid);
if (ver == 2)
txo->db_offset = le32_to_cpu(resp->db_offset);
else
txo->db_offset = DB_TXULP1_OFFSET;
txq->created = true;
}
return status;
}
/* Uses MCC */
int be_cmd_rxq_create(struct be_adapter *adapter,
struct be_queue_info *rxq, u16 cq_id, u16 frag_size,
u32 if_id, u32 rss, u8 *rss_id)
{
struct be_mcc_wrb *wrb;
struct be_cmd_req_eth_rx_create *req;
struct be_dma_mem *q_mem = &rxq->dma_mem;
int status;
spin_lock_bh(&adapter->mcc_lock);
wrb = wrb_from_mccq(adapter);
if (!wrb) {
status = -EBUSY;
goto err;
}
req = embedded_payload(wrb);
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_ETH,
OPCODE_ETH_RX_CREATE, sizeof(*req), wrb, NULL);
req->cq_id = cpu_to_le16(cq_id);
req->frag_size = fls(frag_size) - 1;
req->num_pages = 2;
be_cmd_page_addrs_prepare(req->pages, ARRAY_SIZE(req->pages), q_mem);
req->interface_id = cpu_to_le32(if_id);
req->max_frame_size = cpu_to_le16(BE_MAX_JUMBO_FRAME_SIZE);
req->rss_queue = cpu_to_le32(rss);
status = be_mcc_notify_wait(adapter);
if (!status) {
struct be_cmd_resp_eth_rx_create *resp = embedded_payload(wrb);
rxq->id = le16_to_cpu(resp->id);
rxq->created = true;
*rss_id = resp->rss_id;
}
err:
spin_unlock_bh(&adapter->mcc_lock);
return status;
}
/* Generic destroyer function for all types of queues
* Uses Mbox
*/
int be_cmd_q_destroy(struct be_adapter *adapter, struct be_queue_info *q,
int queue_type)
{
struct be_mcc_wrb *wrb;
struct be_cmd_req_q_destroy *req;
u8 subsys = 0, opcode = 0;
int status;
if (mutex_lock_interruptible(&adapter->mbox_lock))
return -1;
wrb = wrb_from_mbox(adapter);
req = embedded_payload(wrb);
switch (queue_type) {
case QTYPE_EQ:
subsys = CMD_SUBSYSTEM_COMMON;
opcode = OPCODE_COMMON_EQ_DESTROY;
break;
case QTYPE_CQ:
subsys = CMD_SUBSYSTEM_COMMON;
opcode = OPCODE_COMMON_CQ_DESTROY;
break;
case QTYPE_TXQ:
subsys = CMD_SUBSYSTEM_ETH;
opcode = OPCODE_ETH_TX_DESTROY;
break;
case QTYPE_RXQ:
subsys = CMD_SUBSYSTEM_ETH;
opcode = OPCODE_ETH_RX_DESTROY;
break;
case QTYPE_MCCQ:
subsys = CMD_SUBSYSTEM_COMMON;
opcode = OPCODE_COMMON_MCC_DESTROY;
break;
default:
BUG();
}
be_wrb_cmd_hdr_prepare(&req->hdr, subsys, opcode, sizeof(*req), wrb,
NULL);
req->id = cpu_to_le16(q->id);
status = be_mbox_notify_wait(adapter);
q->created = false;
mutex_unlock(&adapter->mbox_lock);
return status;
}
/* Uses MCC */
int be_cmd_rxq_destroy(struct be_adapter *adapter, struct be_queue_info *q)
{
struct be_mcc_wrb *wrb;
struct be_cmd_req_q_destroy *req;
int status;
spin_lock_bh(&adapter->mcc_lock);
wrb = wrb_from_mccq(adapter);
if (!wrb) {
status = -EBUSY;
goto err;
}
req = embedded_payload(wrb);
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_ETH,
OPCODE_ETH_RX_DESTROY, sizeof(*req), wrb, NULL);
req->id = cpu_to_le16(q->id);
status = be_mcc_notify_wait(adapter);
q->created = false;
err:
spin_unlock_bh(&adapter->mcc_lock);
return status;
}
/* Create an rx filtering policy configuration on an i/f
* Will use MBOX only if MCCQ has not been created.
*/
int be_cmd_if_create(struct be_adapter *adapter, u32 cap_flags, u32 en_flags,
u32 *if_handle, u32 domain)
{
struct be_mcc_wrb wrb = {0};
struct be_cmd_req_if_create *req;
int status;
req = embedded_payload(&wrb);
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_COMMON,
OPCODE_COMMON_NTWK_INTERFACE_CREATE,
sizeof(*req), &wrb, NULL);
req->hdr.domain = domain;
req->capability_flags = cpu_to_le32(cap_flags);
req->enable_flags = cpu_to_le32(en_flags);
req->pmac_invalid = true;
status = be_cmd_notify_wait(adapter, &wrb);
if (!status) {
struct be_cmd_resp_if_create *resp = embedded_payload(&wrb);
*if_handle = le32_to_cpu(resp->interface_id);
/* Hack to retrieve VF's pmac-id on BE3 */
if (BE3_chip(adapter) && be_virtfn(adapter))
adapter->pmac_id[0] = le32_to_cpu(resp->pmac_id);
}
return status;
}
/* Uses MCCQ if available else MBOX */
int be_cmd_if_destroy(struct be_adapter *adapter, int interface_id, u32 domain)
{
struct be_mcc_wrb wrb = {0};
struct be_cmd_req_if_destroy *req;
int status;
if (interface_id == -1)
return 0;
req = embedded_payload(&wrb);
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_COMMON,
OPCODE_COMMON_NTWK_INTERFACE_DESTROY,
sizeof(*req), &wrb, NULL);
req->hdr.domain = domain;
req->interface_id = cpu_to_le32(interface_id);
status = be_cmd_notify_wait(adapter, &wrb);
return status;
}
/* Get stats is a non embedded command: the request is not embedded inside
* WRB but is a separate dma memory block
* Uses asynchronous MCC
*/
int be_cmd_get_stats(struct be_adapter *adapter, struct be_dma_mem *nonemb_cmd)
{
struct be_mcc_wrb *wrb;
struct be_cmd_req_hdr *hdr;
int status = 0;
spin_lock_bh(&adapter->mcc_lock);
wrb = wrb_from_mccq(adapter);
if (!wrb) {
status = -EBUSY;
goto err;
}
hdr = nonemb_cmd->va;
be_wrb_cmd_hdr_prepare(hdr, CMD_SUBSYSTEM_ETH,
OPCODE_ETH_GET_STATISTICS, nonemb_cmd->size, wrb,
nonemb_cmd);
/* version 1 of the cmd is not supported only by BE2 */
if (BE2_chip(adapter))
hdr->version = 0;
if (BE3_chip(adapter) || lancer_chip(adapter))
hdr->version = 1;
else
hdr->version = 2;
status = be_mcc_notify(adapter);
if (status)
goto err;
adapter->stats_cmd_sent = true;
err:
spin_unlock_bh(&adapter->mcc_lock);
return status;
}
/* Lancer Stats */
int lancer_cmd_get_pport_stats(struct be_adapter *adapter,
struct be_dma_mem *nonemb_cmd)
{
struct be_mcc_wrb *wrb;
struct lancer_cmd_req_pport_stats *req;
int status = 0;
if (!be_cmd_allowed(adapter, OPCODE_ETH_GET_PPORT_STATS,
CMD_SUBSYSTEM_ETH))
return -EPERM;
spin_lock_bh(&adapter->mcc_lock);
wrb = wrb_from_mccq(adapter);
if (!wrb) {
status = -EBUSY;
goto err;
}
req = nonemb_cmd->va;
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_ETH,
OPCODE_ETH_GET_PPORT_STATS, nonemb_cmd->size,
wrb, nonemb_cmd);
req->cmd_params.params.pport_num = cpu_to_le16(adapter->hba_port_num);
req->cmd_params.params.reset_stats = 0;
status = be_mcc_notify(adapter);
if (status)
goto err;
adapter->stats_cmd_sent = true;
err:
spin_unlock_bh(&adapter->mcc_lock);
return status;
}
static int be_mac_to_link_speed(int mac_speed)
{
switch (mac_speed) {
case PHY_LINK_SPEED_ZERO:
return 0;
case PHY_LINK_SPEED_10MBPS:
return 10;
case PHY_LINK_SPEED_100MBPS:
return 100;
case PHY_LINK_SPEED_1GBPS:
return 1000;
case PHY_LINK_SPEED_10GBPS:
return 10000;
case PHY_LINK_SPEED_20GBPS:
return 20000;
case PHY_LINK_SPEED_25GBPS:
return 25000;
case PHY_LINK_SPEED_40GBPS:
return 40000;
}
return 0;
}
/* Uses synchronous mcc
* Returns link_speed in Mbps
*/
int be_cmd_link_status_query(struct be_adapter *adapter, u16 *link_speed,
u8 *link_status, u32 dom)
{
struct be_mcc_wrb *wrb;
struct be_cmd_req_link_status *req;
int status;
spin_lock_bh(&adapter->mcc_lock);
if (link_status)
*link_status = LINK_DOWN;
wrb = wrb_from_mccq(adapter);
if (!wrb) {
status = -EBUSY;
goto err;
}
req = embedded_payload(wrb);
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_COMMON,
OPCODE_COMMON_NTWK_LINK_STATUS_QUERY,
sizeof(*req), wrb, NULL);
/* version 1 of the cmd is not supported only by BE2 */
if (!BE2_chip(adapter))
req->hdr.version = 1;
req->hdr.domain = dom;
status = be_mcc_notify_wait(adapter);
if (!status) {
struct be_cmd_resp_link_status *resp = embedded_payload(wrb);
if (link_speed) {
*link_speed = resp->link_speed ?
le16_to_cpu(resp->link_speed) * 10 :
be_mac_to_link_speed(resp->mac_speed);
if (!resp->logical_link_status)
*link_speed = 0;
}
if (link_status)
*link_status = resp->logical_link_status;
}
err:
spin_unlock_bh(&adapter->mcc_lock);
return status;
}
/* Uses synchronous mcc */
int be_cmd_get_die_temperature(struct be_adapter *adapter)
{
struct be_mcc_wrb *wrb;
struct be_cmd_req_get_cntl_addnl_attribs *req;
int status = 0;
spin_lock_bh(&adapter->mcc_lock);
wrb = wrb_from_mccq(adapter);
if (!wrb) {
status = -EBUSY;
goto err;
}
req = embedded_payload(wrb);
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_COMMON,
OPCODE_COMMON_GET_CNTL_ADDITIONAL_ATTRIBUTES,
sizeof(*req), wrb, NULL);
status = be_mcc_notify(adapter);
err:
spin_unlock_bh(&adapter->mcc_lock);
return status;
}
/* Uses synchronous mcc */
int be_cmd_get_fat_dump_len(struct be_adapter *adapter, u32 *dump_size)
{
struct be_mcc_wrb wrb = {0};
struct be_cmd_req_get_fat *req;
int status;
req = embedded_payload(&wrb);
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_COMMON,
OPCODE_COMMON_MANAGE_FAT, sizeof(*req),
&wrb, NULL);
req->fat_operation = cpu_to_le32(QUERY_FAT);
status = be_cmd_notify_wait(adapter, &wrb);
if (!status) {
struct be_cmd_resp_get_fat *resp = embedded_payload(&wrb);
if (dump_size && resp->log_size)
*dump_size = le32_to_cpu(resp->log_size) -
sizeof(u32);
}
return status;
}
int be_cmd_get_fat_dump(struct be_adapter *adapter, u32 buf_len, void *buf)
{
struct be_dma_mem get_fat_cmd;
struct be_mcc_wrb *wrb;
struct be_cmd_req_get_fat *req;
u32 offset = 0, total_size, buf_size,
log_offset = sizeof(u32), payload_len;
int status;
if (buf_len == 0)
return 0;
total_size = buf_len;
get_fat_cmd.size = sizeof(struct be_cmd_req_get_fat) + 60*1024;
get_fat_cmd.va = dma_zalloc_coherent(&adapter->pdev->dev,
get_fat_cmd.size,
&get_fat_cmd.dma, GFP_ATOMIC);
if (!get_fat_cmd.va)
return -ENOMEM;
spin_lock_bh(&adapter->mcc_lock);
while (total_size) {
buf_size = min(total_size, (u32)60*1024);
total_size -= buf_size;
wrb = wrb_from_mccq(adapter);
if (!wrb) {
status = -EBUSY;
goto err;
}
req = get_fat_cmd.va;
payload_len = sizeof(struct be_cmd_req_get_fat) + buf_size;
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_COMMON,
OPCODE_COMMON_MANAGE_FAT, payload_len,
wrb, &get_fat_cmd);
req->fat_operation = cpu_to_le32(RETRIEVE_FAT);
req->read_log_offset = cpu_to_le32(log_offset);
req->read_log_length = cpu_to_le32(buf_size);
req->data_buffer_size = cpu_to_le32(buf_size);
status = be_mcc_notify_wait(adapter);
if (!status) {
struct be_cmd_resp_get_fat *resp = get_fat_cmd.va;
memcpy(buf + offset,
resp->data_buffer,
le32_to_cpu(resp->read_log_length));
} else {
dev_err(&adapter->pdev->dev, "FAT Table Retrieve error\n");
goto err;
}
offset += buf_size;
log_offset += buf_size;
}
err:
dma_free_coherent(&adapter->pdev->dev, get_fat_cmd.size,
get_fat_cmd.va, get_fat_cmd.dma);
spin_unlock_bh(&adapter->mcc_lock);
return status;
}
/* Uses synchronous mcc */
int be_cmd_get_fw_ver(struct be_adapter *adapter)
{
struct be_mcc_wrb *wrb;
struct be_cmd_req_get_fw_version *req;
int status;
spin_lock_bh(&adapter->mcc_lock);
wrb = wrb_from_mccq(adapter);
if (!wrb) {
status = -EBUSY;
goto err;
}
req = embedded_payload(wrb);
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_COMMON,
OPCODE_COMMON_GET_FW_VERSION, sizeof(*req), wrb,
NULL);
status = be_mcc_notify_wait(adapter);
if (!status) {
struct be_cmd_resp_get_fw_version *resp = embedded_payload(wrb);
strlcpy(adapter->fw_ver, resp->firmware_version_string,
sizeof(adapter->fw_ver));
strlcpy(adapter->fw_on_flash, resp->fw_on_flash_version_string,
sizeof(adapter->fw_on_flash));
}
err:
spin_unlock_bh(&adapter->mcc_lock);
return status;
}
/* set the EQ delay interval of an EQ to specified value
* Uses async mcc
*/
static int __be_cmd_modify_eqd(struct be_adapter *adapter,
struct be_set_eqd *set_eqd, int num)
{
struct be_mcc_wrb *wrb;
struct be_cmd_req_modify_eq_delay *req;
int status = 0, i;
spin_lock_bh(&adapter->mcc_lock);
wrb = wrb_from_mccq(adapter);
if (!wrb) {
status = -EBUSY;
goto err;
}
req = embedded_payload(wrb);
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_COMMON,
OPCODE_COMMON_MODIFY_EQ_DELAY, sizeof(*req), wrb,
NULL);
req->num_eq = cpu_to_le32(num);
for (i = 0; i < num; i++) {
req->set_eqd[i].eq_id = cpu_to_le32(set_eqd[i].eq_id);
req->set_eqd[i].phase = 0;
req->set_eqd[i].delay_multiplier =
cpu_to_le32(set_eqd[i].delay_multiplier);
}
status = be_mcc_notify(adapter);
err:
spin_unlock_bh(&adapter->mcc_lock);
return status;
}
int be_cmd_modify_eqd(struct be_adapter *adapter, struct be_set_eqd *set_eqd,
int num)
{
int num_eqs, i = 0;
while (num) {
num_eqs = min(num, 8);
__be_cmd_modify_eqd(adapter, &set_eqd[i], num_eqs);
i += num_eqs;
num -= num_eqs;
}
return 0;
}
/* Uses sycnhronous mcc */
int be_cmd_vlan_config(struct be_adapter *adapter, u32 if_id, u16 *vtag_array,
u32 num, u32 domain)
{
struct be_mcc_wrb *wrb;
struct be_cmd_req_vlan_config *req;
int status;
spin_lock_bh(&adapter->mcc_lock);
wrb = wrb_from_mccq(adapter);
if (!wrb) {
status = -EBUSY;
goto err;
}
req = embedded_payload(wrb);
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_COMMON,
OPCODE_COMMON_NTWK_VLAN_CONFIG, sizeof(*req),
wrb, NULL);
req->hdr.domain = domain;
req->interface_id = if_id;
req->untagged = BE_IF_FLAGS_UNTAGGED & be_if_cap_flags(adapter) ? 1 : 0;
req->num_vlan = num;
memcpy(req->normal_vlan, vtag_array,
req->num_vlan * sizeof(vtag_array[0]));
status = be_mcc_notify_wait(adapter);
err:
spin_unlock_bh(&adapter->mcc_lock);
return status;
}
static int __be_cmd_rx_filter(struct be_adapter *adapter, u32 flags, u32 value)
{
struct be_mcc_wrb *wrb;
struct be_dma_mem *mem = &adapter->rx_filter;
struct be_cmd_req_rx_filter *req = mem->va;
int status;
spin_lock_bh(&adapter->mcc_lock);
wrb = wrb_from_mccq(adapter);
if (!wrb) {
status = -EBUSY;
goto err;
}
memset(req, 0, sizeof(*req));
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_COMMON,
OPCODE_COMMON_NTWK_RX_FILTER, sizeof(*req),
wrb, mem);
req->if_id = cpu_to_le32(adapter->if_handle);
req->if_flags_mask = cpu_to_le32(flags);
req->if_flags = (value == ON) ? req->if_flags_mask : 0;
if (flags & BE_IF_FLAGS_MULTICAST) {
struct netdev_hw_addr *ha;
int i = 0;
/* Reset mcast promisc mode if already set by setting mask
* and not setting flags field
*/
req->if_flags_mask |=
cpu_to_le32(BE_IF_FLAGS_MCAST_PROMISCUOUS &
be_if_cap_flags(adapter));
req->mcast_num = cpu_to_le32(netdev_mc_count(adapter->netdev));
netdev_for_each_mc_addr(ha, adapter->netdev)
memcpy(req->mcast_mac[i++].byte, ha->addr, ETH_ALEN);
}
status = be_mcc_notify_wait(adapter);
err:
spin_unlock_bh(&adapter->mcc_lock);
return status;
}
int be_cmd_rx_filter(struct be_adapter *adapter, u32 flags, u32 value)
{
struct device *dev = &adapter->pdev->dev;
if ((flags & be_if_cap_flags(adapter)) != flags) {
dev_warn(dev, "Cannot set rx filter flags 0x%x\n", flags);
dev_warn(dev, "Interface is capable of 0x%x flags only\n",
be_if_cap_flags(adapter));
}
flags &= be_if_cap_flags(adapter);
if (!flags)
return -ENOTSUPP;
return __be_cmd_rx_filter(adapter, flags, value);
}
/* Uses synchrounous mcc */
int be_cmd_set_flow_control(struct be_adapter *adapter, u32 tx_fc, u32 rx_fc)
{
struct be_mcc_wrb *wrb;
struct be_cmd_req_set_flow_control *req;
int status;
if (!be_cmd_allowed(adapter, OPCODE_COMMON_SET_FLOW_CONTROL,
CMD_SUBSYSTEM_COMMON))
return -EPERM;
spin_lock_bh(&adapter->mcc_lock);
wrb = wrb_from_mccq(adapter);
if (!wrb) {
status = -EBUSY;
goto err;
}
req = embedded_payload(wrb);
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_COMMON,
OPCODE_COMMON_SET_FLOW_CONTROL, sizeof(*req),
wrb, NULL);
req->hdr.version = 1;
req->tx_flow_control = cpu_to_le16((u16)tx_fc);
req->rx_flow_control = cpu_to_le16((u16)rx_fc);
status = be_mcc_notify_wait(adapter);
err:
spin_unlock_bh(&adapter->mcc_lock);
if (base_status(status) == MCC_STATUS_FEATURE_NOT_SUPPORTED)
return -EOPNOTSUPP;
return status;
}
/* Uses sycn mcc */
int be_cmd_get_flow_control(struct be_adapter *adapter, u32 *tx_fc, u32 *rx_fc)
{
struct be_mcc_wrb *wrb;
struct be_cmd_req_get_flow_control *req;
int status;
if (!be_cmd_allowed(adapter, OPCODE_COMMON_GET_FLOW_CONTROL,
CMD_SUBSYSTEM_COMMON))
return -EPERM;
spin_lock_bh(&adapter->mcc_lock);
wrb = wrb_from_mccq(adapter);
if (!wrb) {
status = -EBUSY;
goto err;
}
req = embedded_payload(wrb);
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_COMMON,
OPCODE_COMMON_GET_FLOW_CONTROL, sizeof(*req),
wrb, NULL);
status = be_mcc_notify_wait(adapter);
if (!status) {
struct be_cmd_resp_get_flow_control *resp =
embedded_payload(wrb);
*tx_fc = le16_to_cpu(resp->tx_flow_control);
*rx_fc = le16_to_cpu(resp->rx_flow_control);
}
err:
spin_unlock_bh(&adapter->mcc_lock);
return status;
}
/* Uses mbox */
int be_cmd_query_fw_cfg(struct be_adapter *adapter)
{
struct be_mcc_wrb *wrb;
struct be_cmd_req_query_fw_cfg *req;
int status;
if (mutex_lock_interruptible(&adapter->mbox_lock))
return -1;
wrb = wrb_from_mbox(adapter);
req = embedded_payload(wrb);
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_COMMON,
OPCODE_COMMON_QUERY_FIRMWARE_CONFIG,
sizeof(*req), wrb, NULL);
status = be_mbox_notify_wait(adapter);
if (!status) {
struct be_cmd_resp_query_fw_cfg *resp = embedded_payload(wrb);
adapter->port_num = le32_to_cpu(resp->phys_port);
adapter->function_mode = le32_to_cpu(resp->function_mode);
adapter->function_caps = le32_to_cpu(resp->function_caps);
adapter->asic_rev = le32_to_cpu(resp->asic_revision) & 0xFF;
dev_info(&adapter->pdev->dev,
"FW config: function_mode=0x%x, function_caps=0x%x\n",
adapter->function_mode, adapter->function_caps);
}
mutex_unlock(&adapter->mbox_lock);
return status;
}
/* Uses mbox */
int be_cmd_reset_function(struct be_adapter *adapter)
{
struct be_mcc_wrb *wrb;
struct be_cmd_req_hdr *req;
int status;
if (lancer_chip(adapter)) {
iowrite32(SLI_PORT_CONTROL_IP_MASK,
adapter->db + SLIPORT_CONTROL_OFFSET);
status = lancer_wait_ready(adapter);
if (status)
dev_err(&adapter->pdev->dev,
"Adapter in non recoverable error\n");
return status;
}
if (mutex_lock_interruptible(&adapter->mbox_lock))
return -1;
wrb = wrb_from_mbox(adapter);
req = embedded_payload(wrb);
be_wrb_cmd_hdr_prepare(req, CMD_SUBSYSTEM_COMMON,
OPCODE_COMMON_FUNCTION_RESET, sizeof(*req), wrb,
NULL);
status = be_mbox_notify_wait(adapter);
mutex_unlock(&adapter->mbox_lock);
return status;
}
int be_cmd_rss_config(struct be_adapter *adapter, u8 *rsstable,
u32 rss_hash_opts, u16 table_size, const u8 *rss_hkey)
{
struct be_mcc_wrb *wrb;
struct be_cmd_req_rss_config *req;
int status;
if (!(be_if_cap_flags(adapter) & BE_IF_FLAGS_RSS))
return 0;
spin_lock_bh(&adapter->mcc_lock);
wrb = wrb_from_mccq(adapter);
if (!wrb) {
status = -EBUSY;
goto err;
}
req = embedded_payload(wrb);
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_ETH,
OPCODE_ETH_RSS_CONFIG, sizeof(*req), wrb, NULL);
req->if_id = cpu_to_le32(adapter->if_handle);
req->enable_rss = cpu_to_le16(rss_hash_opts);
req->cpu_table_size_log2 = cpu_to_le16(fls(table_size) - 1);
if (!BEx_chip(adapter))
req->hdr.version = 1;
memcpy(req->cpu_table, rsstable, table_size);
memcpy(req->hash, rss_hkey, RSS_HASH_KEY_LEN);
be_dws_cpu_to_le(req->hash, sizeof(req->hash));
status = be_mcc_notify_wait(adapter);
err:
spin_unlock_bh(&adapter->mcc_lock);
return status;
}
/* Uses sync mcc */
int be_cmd_set_beacon_state(struct be_adapter *adapter, u8 port_num,
u8 bcn, u8 sts, u8 state)
{
struct be_mcc_wrb *wrb;
struct be_cmd_req_enable_disable_beacon *req;
int status;
spin_lock_bh(&adapter->mcc_lock);
wrb = wrb_from_mccq(adapter);
if (!wrb) {
status = -EBUSY;
goto err;
}
req = embedded_payload(wrb);
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_COMMON,
OPCODE_COMMON_ENABLE_DISABLE_BEACON,
sizeof(*req), wrb, NULL);
req->port_num = port_num;
req->beacon_state = state;
req->beacon_duration = bcn;
req->status_duration = sts;
status = be_mcc_notify_wait(adapter);
err:
spin_unlock_bh(&adapter->mcc_lock);
return status;
}
/* Uses sync mcc */
int be_cmd_get_beacon_state(struct be_adapter *adapter, u8 port_num, u32 *state)
{
struct be_mcc_wrb *wrb;
struct be_cmd_req_get_beacon_state *req;
int status;
spin_lock_bh(&adapter->mcc_lock);
wrb = wrb_from_mccq(adapter);
if (!wrb) {
status = -EBUSY;
goto err;
}
req = embedded_payload(wrb);
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_COMMON,
OPCODE_COMMON_GET_BEACON_STATE, sizeof(*req),
wrb, NULL);
req->port_num = port_num;
status = be_mcc_notify_wait(adapter);
if (!status) {
struct be_cmd_resp_get_beacon_state *resp =
embedded_payload(wrb);
*state = resp->beacon_state;
}
err:
spin_unlock_bh(&adapter->mcc_lock);
return status;
}
/* Uses sync mcc */
int be_cmd_read_port_transceiver_data(struct be_adapter *adapter,
u8 page_num, u8 *data)
{
struct be_dma_mem cmd;
struct be_mcc_wrb *wrb;
struct be_cmd_req_port_type *req;
int status;
if (page_num > TR_PAGE_A2)
return -EINVAL;
cmd.size = sizeof(struct be_cmd_resp_port_type);
cmd.va = dma_zalloc_coherent(&adapter->pdev->dev, cmd.size, &cmd.dma,
GFP_ATOMIC);
if (!cmd.va) {
dev_err(&adapter->pdev->dev, "Memory allocation failed\n");
return -ENOMEM;
}
spin_lock_bh(&adapter->mcc_lock);
wrb = wrb_from_mccq(adapter);
if (!wrb) {
status = -EBUSY;
goto err;
}
req = cmd.va;
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_COMMON,
OPCODE_COMMON_READ_TRANSRECV_DATA,
cmd.size, wrb, &cmd);
req->port = cpu_to_le32(adapter->hba_port_num);
req->page_num = cpu_to_le32(page_num);
status = be_mcc_notify_wait(adapter);
if (!status) {
struct be_cmd_resp_port_type *resp = cmd.va;
memcpy(data, resp->page_data, PAGE_DATA_LEN);
}
err:
spin_unlock_bh(&adapter->mcc_lock);
dma_free_coherent(&adapter->pdev->dev, cmd.size, cmd.va, cmd.dma);
return status;
}
static int lancer_cmd_write_object(struct be_adapter *adapter,
struct be_dma_mem *cmd, u32 data_size,
u32 data_offset, const char *obj_name,
u32 *data_written, u8 *change_status,
u8 *addn_status)
{
struct be_mcc_wrb *wrb;
struct lancer_cmd_req_write_object *req;
struct lancer_cmd_resp_write_object *resp;
void *ctxt = NULL;
int status;
spin_lock_bh(&adapter->mcc_lock);
adapter->flash_status = 0;
wrb = wrb_from_mccq(adapter);
if (!wrb) {
status = -EBUSY;
goto err_unlock;
}
req = embedded_payload(wrb);
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_COMMON,
OPCODE_COMMON_WRITE_OBJECT,
sizeof(struct lancer_cmd_req_write_object), wrb,
NULL);
ctxt = &req->context;
AMAP_SET_BITS(struct amap_lancer_write_obj_context,
write_length, ctxt, data_size);
if (data_size == 0)
AMAP_SET_BITS(struct amap_lancer_write_obj_context,
eof, ctxt, 1);
else
AMAP_SET_BITS(struct amap_lancer_write_obj_context,
eof, ctxt, 0);
be_dws_cpu_to_le(ctxt, sizeof(req->context));
req->write_offset = cpu_to_le32(data_offset);
strlcpy(req->object_name, obj_name, sizeof(req->object_name));
req->descriptor_count = cpu_to_le32(1);
req->buf_len = cpu_to_le32(data_size);
req->addr_low = cpu_to_le32((cmd->dma +
sizeof(struct lancer_cmd_req_write_object))
& 0xFFFFFFFF);
req->addr_high = cpu_to_le32(upper_32_bits(cmd->dma +
sizeof(struct lancer_cmd_req_write_object)));
status = be_mcc_notify(adapter);
if (status)
goto err_unlock;
spin_unlock_bh(&adapter->mcc_lock);
if (!wait_for_completion_timeout(&adapter->et_cmd_compl,
msecs_to_jiffies(60000)))
status = -ETIMEDOUT;
else
status = adapter->flash_status;
resp = embedded_payload(wrb);
if (!status) {
*data_written = le32_to_cpu(resp->actual_write_len);
*change_status = resp->change_status;
} else {
*addn_status = resp->additional_status;
}
return status;
err_unlock:
spin_unlock_bh(&adapter->mcc_lock);
return status;
}
int be_cmd_query_cable_type(struct be_adapter *adapter)
{
u8 page_data[PAGE_DATA_LEN];
int status;
status = be_cmd_read_port_transceiver_data(adapter, TR_PAGE_A0,
page_data);
if (!status) {
switch (adapter->phy.interface_type) {
case PHY_TYPE_QSFP:
adapter->phy.cable_type =
page_data[QSFP_PLUS_CABLE_TYPE_OFFSET];
break;
case PHY_TYPE_SFP_PLUS_10GB:
adapter->phy.cable_type =
page_data[SFP_PLUS_CABLE_TYPE_OFFSET];
break;
default:
adapter->phy.cable_type = 0;
break;
}
}
return status;
}
int be_cmd_query_sfp_info(struct be_adapter *adapter)
{
u8 page_data[PAGE_DATA_LEN];
int status;
status = be_cmd_read_port_transceiver_data(adapter, TR_PAGE_A0,
page_data);
if (!status) {
strlcpy(adapter->phy.vendor_name, page_data +
SFP_VENDOR_NAME_OFFSET, SFP_VENDOR_NAME_LEN - 1);
strlcpy(adapter->phy.vendor_pn,
page_data + SFP_VENDOR_PN_OFFSET,
SFP_VENDOR_NAME_LEN - 1);
}
return status;
}
static int lancer_cmd_delete_object(struct be_adapter *adapter,
const char *obj_name)
{
struct lancer_cmd_req_delete_object *req;
struct be_mcc_wrb *wrb;
int status;
spin_lock_bh(&adapter->mcc_lock);
wrb = wrb_from_mccq(adapter);
if (!wrb) {
status = -EBUSY;
goto err;
}
req = embedded_payload(wrb);
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_COMMON,
OPCODE_COMMON_DELETE_OBJECT,
sizeof(*req), wrb, NULL);
strlcpy(req->object_name, obj_name, sizeof(req->object_name));
status = be_mcc_notify_wait(adapter);
err:
spin_unlock_bh(&adapter->mcc_lock);
return status;
}
int lancer_cmd_read_object(struct be_adapter *adapter, struct be_dma_mem *cmd,
u32 data_size, u32 data_offset, const char *obj_name,
u32 *data_read, u32 *eof, u8 *addn_status)
{
struct be_mcc_wrb *wrb;
struct lancer_cmd_req_read_object *req;
struct lancer_cmd_resp_read_object *resp;
int status;
spin_lock_bh(&adapter->mcc_lock);
wrb = wrb_from_mccq(adapter);
if (!wrb) {
status = -EBUSY;
goto err_unlock;
}
req = embedded_payload(wrb);
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_COMMON,
OPCODE_COMMON_READ_OBJECT,
sizeof(struct lancer_cmd_req_read_object), wrb,
NULL);
req->desired_read_len = cpu_to_le32(data_size);
req->read_offset = cpu_to_le32(data_offset);
strcpy(req->object_name, obj_name);
req->descriptor_count = cpu_to_le32(1);
req->buf_len = cpu_to_le32(data_size);
req->addr_low = cpu_to_le32((cmd->dma & 0xFFFFFFFF));
req->addr_high = cpu_to_le32(upper_32_bits(cmd->dma));
status = be_mcc_notify_wait(adapter);
resp = embedded_payload(wrb);
if (!status) {
*data_read = le32_to_cpu(resp->actual_read_len);
*eof = le32_to_cpu(resp->eof);
} else {
*addn_status = resp->additional_status;
}
err_unlock:
spin_unlock_bh(&adapter->mcc_lock);
return status;
}
static int be_cmd_write_flashrom(struct be_adapter *adapter,
struct be_dma_mem *cmd, u32 flash_type,
u32 flash_opcode, u32 img_offset, u32 buf_size)
{
struct be_mcc_wrb *wrb;
struct be_cmd_write_flashrom *req;
int status;
spin_lock_bh(&adapter->mcc_lock);
adapter->flash_status = 0;
wrb = wrb_from_mccq(adapter);
if (!wrb) {
status = -EBUSY;
goto err_unlock;
}
req = cmd->va;
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_COMMON,
OPCODE_COMMON_WRITE_FLASHROM, cmd->size, wrb,
cmd);
req->params.op_type = cpu_to_le32(flash_type);
if (flash_type == OPTYPE_OFFSET_SPECIFIED)
req->params.offset = cpu_to_le32(img_offset);
req->params.op_code = cpu_to_le32(flash_opcode);
req->params.data_buf_size = cpu_to_le32(buf_size);
status = be_mcc_notify(adapter);
if (status)
goto err_unlock;
spin_unlock_bh(&adapter->mcc_lock);
if (!wait_for_completion_timeout(&adapter->et_cmd_compl,
msecs_to_jiffies(40000)))
status = -ETIMEDOUT;
else
status = adapter->flash_status;
return status;
err_unlock:
spin_unlock_bh(&adapter->mcc_lock);
return status;
}
static int be_cmd_get_flash_crc(struct be_adapter *adapter, u8 *flashed_crc,
u16 img_optype, u32 img_offset, u32 crc_offset)
{
struct be_cmd_read_flash_crc *req;
struct be_mcc_wrb *wrb;
int status;
spin_lock_bh(&adapter->mcc_lock);
wrb = wrb_from_mccq(adapter);
if (!wrb) {
status = -EBUSY;
goto err;
}
req = embedded_payload(wrb);
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_COMMON,
OPCODE_COMMON_READ_FLASHROM, sizeof(*req),
wrb, NULL);
req->params.op_type = cpu_to_le32(img_optype);
if (img_optype == OPTYPE_OFFSET_SPECIFIED)
req->params.offset = cpu_to_le32(img_offset + crc_offset);
else
req->params.offset = cpu_to_le32(crc_offset);
req->params.op_code = cpu_to_le32(FLASHROM_OPER_REPORT);
req->params.data_buf_size = cpu_to_le32(0x4);
status = be_mcc_notify_wait(adapter);
if (!status)
memcpy(flashed_crc, req->crc, 4);
err:
spin_unlock_bh(&adapter->mcc_lock);
return status;
}
static char flash_cookie[2][16] = {"*** SE FLAS", "H DIRECTORY *** "};
static bool phy_flashing_required(struct be_adapter *adapter)
{
return (adapter->phy.phy_type == PHY_TYPE_TN_8022 &&
adapter->phy.interface_type == PHY_TYPE_BASET_10GB);
}
static bool is_comp_in_ufi(struct be_adapter *adapter,
struct flash_section_info *fsec, int type)
{
int i = 0, img_type = 0;
struct flash_section_info_g2 *fsec_g2 = NULL;
if (BE2_chip(adapter))
fsec_g2 = (struct flash_section_info_g2 *)fsec;
for (i = 0; i < MAX_FLASH_COMP; i++) {
if (fsec_g2)
img_type = le32_to_cpu(fsec_g2->fsec_entry[i].type);
else
img_type = le32_to_cpu(fsec->fsec_entry[i].type);
if (img_type == type)
return true;
}
return false;
}
static struct flash_section_info *get_fsec_info(struct be_adapter *adapter,
int header_size,
const struct firmware *fw)
{
struct flash_section_info *fsec = NULL;
const u8 *p = fw->data;
p += header_size;
while (p < (fw->data + fw->size)) {
fsec = (struct flash_section_info *)p;
if (!memcmp(flash_cookie, fsec->cookie, sizeof(flash_cookie)))
return fsec;
p += 32;
}
return NULL;
}
static int be_check_flash_crc(struct be_adapter *adapter, const u8 *p,
u32 img_offset, u32 img_size, int hdr_size,
u16 img_optype, bool *crc_match)
{
u32 crc_offset;
int status;
u8 crc[4];
status = be_cmd_get_flash_crc(adapter, crc, img_optype, img_offset,
img_size - 4);
if (status)
return status;
crc_offset = hdr_size + img_offset + img_size - 4;
/* Skip flashing, if crc of flashed region matches */
if (!memcmp(crc, p + crc_offset, 4))
*crc_match = true;
else
*crc_match = false;
return status;
}
static int be_flash(struct be_adapter *adapter, const u8 *img,
struct be_dma_mem *flash_cmd, int optype, int img_size,
u32 img_offset)
{
u32 flash_op, num_bytes, total_bytes = img_size, bytes_sent = 0;
struct be_cmd_write_flashrom *req = flash_cmd->va;
int status;
while (total_bytes) {
num_bytes = min_t(u32, 32 * 1024, total_bytes);
total_bytes -= num_bytes;
if (!total_bytes) {
if (optype == OPTYPE_PHY_FW)
flash_op = FLASHROM_OPER_PHY_FLASH;
else
flash_op = FLASHROM_OPER_FLASH;
} else {
if (optype == OPTYPE_PHY_FW)
flash_op = FLASHROM_OPER_PHY_SAVE;
else
flash_op = FLASHROM_OPER_SAVE;
}
memcpy(req->data_buf, img, num_bytes);
img += num_bytes;
status = be_cmd_write_flashrom(adapter, flash_cmd, optype,
flash_op, img_offset +
bytes_sent, num_bytes);
if (base_status(status) == MCC_STATUS_ILLEGAL_REQUEST &&
optype == OPTYPE_PHY_FW)
break;
else if (status)
return status;
bytes_sent += num_bytes;
}
return 0;
}
/* For BE2, BE3 and BE3-R */
static int be_flash_BEx(struct be_adapter *adapter,
const struct firmware *fw,
struct be_dma_mem *flash_cmd, int num_of_images)
{
int img_hdrs_size = (num_of_images * sizeof(struct image_hdr));
struct device *dev = &adapter->pdev->dev;
struct flash_section_info *fsec = NULL;
int status, i, filehdr_size, num_comp;
const struct flash_comp *pflashcomp;
bool crc_match;
const u8 *p;
struct flash_comp gen3_flash_types[] = {
{ BE3_ISCSI_PRIMARY_IMAGE_START, OPTYPE_ISCSI_ACTIVE,
BE3_COMP_MAX_SIZE, IMAGE_FIRMWARE_ISCSI},
{ BE3_REDBOOT_START, OPTYPE_REDBOOT,
BE3_REDBOOT_COMP_MAX_SIZE, IMAGE_BOOT_CODE},
{ BE3_ISCSI_BIOS_START, OPTYPE_BIOS,
BE3_BIOS_COMP_MAX_SIZE, IMAGE_OPTION_ROM_ISCSI},
{ BE3_PXE_BIOS_START, OPTYPE_PXE_BIOS,
BE3_BIOS_COMP_MAX_SIZE, IMAGE_OPTION_ROM_PXE},
{ BE3_FCOE_BIOS_START, OPTYPE_FCOE_BIOS,
BE3_BIOS_COMP_MAX_SIZE, IMAGE_OPTION_ROM_FCOE},
{ BE3_ISCSI_BACKUP_IMAGE_START, OPTYPE_ISCSI_BACKUP,
BE3_COMP_MAX_SIZE, IMAGE_FIRMWARE_BACKUP_ISCSI},
{ BE3_FCOE_PRIMARY_IMAGE_START, OPTYPE_FCOE_FW_ACTIVE,
BE3_COMP_MAX_SIZE, IMAGE_FIRMWARE_FCOE},
{ BE3_FCOE_BACKUP_IMAGE_START, OPTYPE_FCOE_FW_BACKUP,
BE3_COMP_MAX_SIZE, IMAGE_FIRMWARE_BACKUP_FCOE},
{ BE3_NCSI_START, OPTYPE_NCSI_FW,
BE3_NCSI_COMP_MAX_SIZE, IMAGE_NCSI},
{ BE3_PHY_FW_START, OPTYPE_PHY_FW,
BE3_PHY_FW_COMP_MAX_SIZE, IMAGE_FIRMWARE_PHY}
};
struct flash_comp gen2_flash_types[] = {
{ BE2_ISCSI_PRIMARY_IMAGE_START, OPTYPE_ISCSI_ACTIVE,
BE2_COMP_MAX_SIZE, IMAGE_FIRMWARE_ISCSI},
{ BE2_REDBOOT_START, OPTYPE_REDBOOT,
BE2_REDBOOT_COMP_MAX_SIZE, IMAGE_BOOT_CODE},
{ BE2_ISCSI_BIOS_START, OPTYPE_BIOS,
BE2_BIOS_COMP_MAX_SIZE, IMAGE_OPTION_ROM_ISCSI},
{ BE2_PXE_BIOS_START, OPTYPE_PXE_BIOS,
BE2_BIOS_COMP_MAX_SIZE, IMAGE_OPTION_ROM_PXE},
{ BE2_FCOE_BIOS_START, OPTYPE_FCOE_BIOS,
BE2_BIOS_COMP_MAX_SIZE, IMAGE_OPTION_ROM_FCOE},
{ BE2_ISCSI_BACKUP_IMAGE_START, OPTYPE_ISCSI_BACKUP,
BE2_COMP_MAX_SIZE, IMAGE_FIRMWARE_BACKUP_ISCSI},
{ BE2_FCOE_PRIMARY_IMAGE_START, OPTYPE_FCOE_FW_ACTIVE,
BE2_COMP_MAX_SIZE, IMAGE_FIRMWARE_FCOE},
{ BE2_FCOE_BACKUP_IMAGE_START, OPTYPE_FCOE_FW_BACKUP,
BE2_COMP_MAX_SIZE, IMAGE_FIRMWARE_BACKUP_FCOE}
};
if (BE3_chip(adapter)) {
pflashcomp = gen3_flash_types;
filehdr_size = sizeof(struct flash_file_hdr_g3);
num_comp = ARRAY_SIZE(gen3_flash_types);
} else {
pflashcomp = gen2_flash_types;
filehdr_size = sizeof(struct flash_file_hdr_g2);
num_comp = ARRAY_SIZE(gen2_flash_types);
img_hdrs_size = 0;
}
/* Get flash section info*/
fsec = get_fsec_info(adapter, filehdr_size + img_hdrs_size, fw);
if (!fsec) {
dev_err(dev, "Invalid Cookie. FW image may be corrupted\n");
return -1;
}
for (i = 0; i < num_comp; i++) {
if (!is_comp_in_ufi(adapter, fsec, pflashcomp[i].img_type))
continue;
if ((pflashcomp[i].optype == OPTYPE_NCSI_FW) &&
memcmp(adapter->fw_ver, "3.102.148.0", 11) < 0)
continue;
if (pflashcomp[i].optype == OPTYPE_PHY_FW &&
!phy_flashing_required(adapter))
continue;
if (pflashcomp[i].optype == OPTYPE_REDBOOT) {
status = be_check_flash_crc(adapter, fw->data,
pflashcomp[i].offset,
pflashcomp[i].size,
filehdr_size +
img_hdrs_size,
OPTYPE_REDBOOT, &crc_match);
if (status) {
dev_err(dev,
"Could not get CRC for 0x%x region\n",
pflashcomp[i].optype);
continue;
}
if (crc_match)
continue;
}
p = fw->data + filehdr_size + pflashcomp[i].offset +
img_hdrs_size;
if (p + pflashcomp[i].size > fw->data + fw->size)
return -1;
status = be_flash(adapter, p, flash_cmd, pflashcomp[i].optype,
pflashcomp[i].size, 0);
if (status) {
dev_err(dev, "Flashing section type 0x%x failed\n",
pflashcomp[i].img_type);
return status;
}
}
return 0;
}
static u16 be_get_img_optype(struct flash_section_entry fsec_entry)
{
u32 img_type = le32_to_cpu(fsec_entry.type);
u16 img_optype = le16_to_cpu(fsec_entry.optype);
if (img_optype != 0xFFFF)
return img_optype;
switch (img_type) {
case IMAGE_FIRMWARE_ISCSI:
img_optype = OPTYPE_ISCSI_ACTIVE;
break;
case IMAGE_BOOT_CODE:
img_optype = OPTYPE_REDBOOT;
break;
case IMAGE_OPTION_ROM_ISCSI:
img_optype = OPTYPE_BIOS;
break;
case IMAGE_OPTION_ROM_PXE:
img_optype = OPTYPE_PXE_BIOS;
break;
case IMAGE_OPTION_ROM_FCOE:
img_optype = OPTYPE_FCOE_BIOS;
break;
case IMAGE_FIRMWARE_BACKUP_ISCSI:
img_optype = OPTYPE_ISCSI_BACKUP;
break;
case IMAGE_NCSI:
img_optype = OPTYPE_NCSI_FW;
break;
case IMAGE_FLASHISM_JUMPVECTOR:
img_optype = OPTYPE_FLASHISM_JUMPVECTOR;
break;
case IMAGE_FIRMWARE_PHY:
img_optype = OPTYPE_SH_PHY_FW;
break;
case IMAGE_REDBOOT_DIR:
img_optype = OPTYPE_REDBOOT_DIR;
break;
case IMAGE_REDBOOT_CONFIG:
img_optype = OPTYPE_REDBOOT_CONFIG;
break;
case IMAGE_UFI_DIR:
img_optype = OPTYPE_UFI_DIR;
break;
default:
break;
}
return img_optype;
}
static int be_flash_skyhawk(struct be_adapter *adapter,
const struct firmware *fw,
struct be_dma_mem *flash_cmd, int num_of_images)
{
int img_hdrs_size = num_of_images * sizeof(struct image_hdr);
bool crc_match, old_fw_img, flash_offset_support = true;
struct device *dev = &adapter->pdev->dev;
struct flash_section_info *fsec = NULL;
u32 img_offset, img_size, img_type;
u16 img_optype, flash_optype;
int status, i, filehdr_size;
const u8 *p;
filehdr_size = sizeof(struct flash_file_hdr_g3);
fsec = get_fsec_info(adapter, filehdr_size + img_hdrs_size, fw);
if (!fsec) {
dev_err(dev, "Invalid Cookie. FW image may be corrupted\n");
return -EINVAL;
}
retry_flash:
for (i = 0; i < le32_to_cpu(fsec->fsec_hdr.num_images); i++) {
img_offset = le32_to_cpu(fsec->fsec_entry[i].offset);
img_size = le32_to_cpu(fsec->fsec_entry[i].pad_size);
img_type = le32_to_cpu(fsec->fsec_entry[i].type);
img_optype = be_get_img_optype(fsec->fsec_entry[i]);
old_fw_img = fsec->fsec_entry[i].optype == 0xFFFF;
if (img_optype == 0xFFFF)
continue;
if (flash_offset_support)
flash_optype = OPTYPE_OFFSET_SPECIFIED;
else
flash_optype = img_optype;
/* Don't bother verifying CRC if an old FW image is being
* flashed
*/
if (old_fw_img)
goto flash;
status = be_check_flash_crc(adapter, fw->data, img_offset,
img_size, filehdr_size +
img_hdrs_size, flash_optype,
&crc_match);
if (base_status(status) == MCC_STATUS_ILLEGAL_REQUEST ||
base_status(status) == MCC_STATUS_ILLEGAL_FIELD) {
/* The current FW image on the card does not support
* OFFSET based flashing. Retry using older mechanism
* of OPTYPE based flashing
*/
if (flash_optype == OPTYPE_OFFSET_SPECIFIED) {
flash_offset_support = false;
goto retry_flash;
}
/* The current FW image on the card does not recognize
* the new FLASH op_type. The FW download is partially
* complete. Reboot the server now to enable FW image
* to recognize the new FLASH op_type. To complete the
* remaining process, download the same FW again after
* the reboot.
*/
dev_err(dev, "Flash incomplete. Reset the server\n");
dev_err(dev, "Download FW image again after reset\n");
return -EAGAIN;
} else if (status) {
dev_err(dev, "Could not get CRC for 0x%x region\n",
img_optype);
return -EFAULT;
}
if (crc_match)
continue;
flash:
p = fw->data + filehdr_size + img_offset + img_hdrs_size;
if (p + img_size > fw->data + fw->size)
return -1;
status = be_flash(adapter, p, flash_cmd, flash_optype, img_size,
img_offset);
/* The current FW image on the card does not support OFFSET
* based flashing. Retry using older mechanism of OPTYPE based
* flashing
*/
if (base_status(status) == MCC_STATUS_ILLEGAL_FIELD &&
flash_optype == OPTYPE_OFFSET_SPECIFIED) {
flash_offset_support = false;
goto retry_flash;
}
/* For old FW images ignore ILLEGAL_FIELD error or errors on
* UFI_DIR region
*/
if (old_fw_img &&
(base_status(status) == MCC_STATUS_ILLEGAL_FIELD ||
(img_optype == OPTYPE_UFI_DIR &&
base_status(status) == MCC_STATUS_FAILED))) {
continue;
} else if (status) {
dev_err(dev, "Flashing section type 0x%x failed\n",
img_type);
switch (addl_status(status)) {
case MCC_ADDL_STATUS_MISSING_SIGNATURE:
dev_err(dev,
"Digital signature missing in FW\n");
return -EINVAL;
case MCC_ADDL_STATUS_INVALID_SIGNATURE:
dev_err(dev,
"Invalid digital signature in FW\n");
return -EINVAL;
default:
return -EFAULT;
}
}
}
return 0;
}
int lancer_fw_download(struct be_adapter *adapter,
const struct firmware *fw)
{
struct device *dev = &adapter->pdev->dev;
struct be_dma_mem flash_cmd;
const u8 *data_ptr = NULL;
u8 *dest_image_ptr = NULL;
size_t image_size = 0;
u32 chunk_size = 0;
u32 data_written = 0;
u32 offset = 0;
int status = 0;
u8 add_status = 0;
u8 change_status;
if (!IS_ALIGNED(fw->size, sizeof(u32))) {
dev_err(dev, "FW image size should be multiple of 4\n");
return -EINVAL;
}
flash_cmd.size = sizeof(struct lancer_cmd_req_write_object)
+ LANCER_FW_DOWNLOAD_CHUNK;
flash_cmd.va = dma_zalloc_coherent(dev, flash_cmd.size,
&flash_cmd.dma, GFP_KERNEL);
if (!flash_cmd.va)
return -ENOMEM;
dest_image_ptr = flash_cmd.va +
sizeof(struct lancer_cmd_req_write_object);
image_size = fw->size;
data_ptr = fw->data;
while (image_size) {
chunk_size = min_t(u32, image_size, LANCER_FW_DOWNLOAD_CHUNK);
/* Copy the image chunk content. */
memcpy(dest_image_ptr, data_ptr, chunk_size);
status = lancer_cmd_write_object(adapter, &flash_cmd,
chunk_size, offset,
LANCER_FW_DOWNLOAD_LOCATION,
&data_written, &change_status,
&add_status);
if (status)
break;
offset += data_written;
data_ptr += data_written;
image_size -= data_written;
}
if (!status) {
/* Commit the FW written */
status = lancer_cmd_write_object(adapter, &flash_cmd,
0, offset,
LANCER_FW_DOWNLOAD_LOCATION,
&data_written, &change_status,
&add_status);
}
dma_free_coherent(dev, flash_cmd.size, flash_cmd.va, flash_cmd.dma);
if (status) {
dev_err(dev, "Firmware load error\n");
return be_cmd_status(status);
}
dev_info(dev, "Firmware flashed successfully\n");
if (change_status == LANCER_FW_RESET_NEEDED) {
dev_info(dev, "Resetting adapter to activate new FW\n");
status = lancer_physdev_ctrl(adapter,
PHYSDEV_CONTROL_FW_RESET_MASK);
if (status) {
dev_err(dev, "Adapter busy, could not reset FW\n");
dev_err(dev, "Reboot server to activate new FW\n");
}
} else if (change_status != LANCER_NO_RESET_NEEDED) {
dev_info(dev, "Reboot server to activate new FW\n");
}
return 0;
}
/* Check if the flash image file is compatible with the adapter that
* is being flashed.
*/
static bool be_check_ufi_compatibility(struct be_adapter *adapter,
struct flash_file_hdr_g3 *fhdr)
{
if (!fhdr) {
dev_err(&adapter->pdev->dev, "Invalid FW UFI file");
return false;
}
/* First letter of the build version is used to identify
* which chip this image file is meant for.
*/
switch (fhdr->build[0]) {
case BLD_STR_UFI_TYPE_SH:
if (!skyhawk_chip(adapter))
return false;
break;
case BLD_STR_UFI_TYPE_BE3:
if (!BE3_chip(adapter))
return false;
break;
case BLD_STR_UFI_TYPE_BE2:
if (!BE2_chip(adapter))
return false;
break;
default:
return false;
}
/* In BE3 FW images the "asic_type_rev" field doesn't track the
* asic_rev of the chips it is compatible with.
* When asic_type_rev is 0 the image is compatible only with
* pre-BE3-R chips (asic_rev < 0x10)
*/
if (BEx_chip(adapter) && fhdr->asic_type_rev == 0)
return adapter->asic_rev < 0x10;
else
return (fhdr->asic_type_rev >= adapter->asic_rev);
}
int be_fw_download(struct be_adapter *adapter, const struct firmware *fw)
{
struct device *dev = &adapter->pdev->dev;
struct flash_file_hdr_g3 *fhdr3;
struct image_hdr *img_hdr_ptr;
int status = 0, i, num_imgs;
struct be_dma_mem flash_cmd;
fhdr3 = (struct flash_file_hdr_g3 *)fw->data;
if (!be_check_ufi_compatibility(adapter, fhdr3)) {
dev_err(dev, "Flash image is not compatible with adapter\n");
return -EINVAL;
}
flash_cmd.size = sizeof(struct be_cmd_write_flashrom);
flash_cmd.va = dma_zalloc_coherent(dev, flash_cmd.size, &flash_cmd.dma,
GFP_KERNEL);
if (!flash_cmd.va)
return -ENOMEM;
num_imgs = le32_to_cpu(fhdr3->num_imgs);
for (i = 0; i < num_imgs; i++) {
img_hdr_ptr = (struct image_hdr *)(fw->data +
(sizeof(struct flash_file_hdr_g3) +
i * sizeof(struct image_hdr)));
if (!BE2_chip(adapter) &&
le32_to_cpu(img_hdr_ptr->imageid) != 1)
continue;
if (skyhawk_chip(adapter))
status = be_flash_skyhawk(adapter, fw, &flash_cmd,
num_imgs);
else
status = be_flash_BEx(adapter, fw, &flash_cmd,
num_imgs);
}
dma_free_coherent(dev, flash_cmd.size, flash_cmd.va, flash_cmd.dma);
if (!status)
dev_info(dev, "Firmware flashed successfully\n");
return status;
}
int be_cmd_enable_magic_wol(struct be_adapter *adapter, u8 *mac,
struct be_dma_mem *nonemb_cmd)
{
struct be_mcc_wrb *wrb;
struct be_cmd_req_acpi_wol_magic_config *req;
int status;
spin_lock_bh(&adapter->mcc_lock);
wrb = wrb_from_mccq(adapter);
if (!wrb) {
status = -EBUSY;
goto err;
}
req = nonemb_cmd->va;
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_ETH,
OPCODE_ETH_ACPI_WOL_MAGIC_CONFIG, sizeof(*req),
wrb, nonemb_cmd);
memcpy(req->magic_mac, mac, ETH_ALEN);
status = be_mcc_notify_wait(adapter);
err:
spin_unlock_bh(&adapter->mcc_lock);
return status;
}
int be_cmd_set_loopback(struct be_adapter *adapter, u8 port_num,
u8 loopback_type, u8 enable)
{
struct be_mcc_wrb *wrb;
struct be_cmd_req_set_lmode *req;
int status;
if (!be_cmd_allowed(adapter, OPCODE_LOWLEVEL_SET_LOOPBACK_MODE,
CMD_SUBSYSTEM_LOWLEVEL))
return -EPERM;
spin_lock_bh(&adapter->mcc_lock);
wrb = wrb_from_mccq(adapter);
if (!wrb) {
status = -EBUSY;
goto err_unlock;
}
req = embedded_payload(wrb);
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_LOWLEVEL,
OPCODE_LOWLEVEL_SET_LOOPBACK_MODE, sizeof(*req),
wrb, NULL);
req->src_port = port_num;
req->dest_port = port_num;
req->loopback_type = loopback_type;
req->loopback_state = enable;
status = be_mcc_notify(adapter);
if (status)
goto err_unlock;
spin_unlock_bh(&adapter->mcc_lock);
if (!wait_for_completion_timeout(&adapter->et_cmd_compl,
msecs_to_jiffies(SET_LB_MODE_TIMEOUT)))
status = -ETIMEDOUT;
return status;
err_unlock:
spin_unlock_bh(&adapter->mcc_lock);
return status;
}
int be_cmd_loopback_test(struct be_adapter *adapter, u32 port_num,
u32 loopback_type, u32 pkt_size, u32 num_pkts,
u64 pattern)
{
struct be_mcc_wrb *wrb;
struct be_cmd_req_loopback_test *req;
struct be_cmd_resp_loopback_test *resp;
int status;
if (!be_cmd_allowed(adapter, OPCODE_LOWLEVEL_LOOPBACK_TEST,
CMD_SUBSYSTEM_LOWLEVEL))
return -EPERM;
spin_lock_bh(&adapter->mcc_lock);
wrb = wrb_from_mccq(adapter);
if (!wrb) {
status = -EBUSY;
goto err;
}
req = embedded_payload(wrb);
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_LOWLEVEL,
OPCODE_LOWLEVEL_LOOPBACK_TEST, sizeof(*req), wrb,
NULL);
req->hdr.timeout = cpu_to_le32(15);
req->pattern = cpu_to_le64(pattern);
req->src_port = cpu_to_le32(port_num);
req->dest_port = cpu_to_le32(port_num);
req->pkt_size = cpu_to_le32(pkt_size);
req->num_pkts = cpu_to_le32(num_pkts);
req->loopback_type = cpu_to_le32(loopback_type);
status = be_mcc_notify(adapter);
if (status)
goto err;
spin_unlock_bh(&adapter->mcc_lock);
wait_for_completion(&adapter->et_cmd_compl);
resp = embedded_payload(wrb);
status = le32_to_cpu(resp->status);
return status;
err:
spin_unlock_bh(&adapter->mcc_lock);
return status;
}
int be_cmd_ddr_dma_test(struct be_adapter *adapter, u64 pattern,
u32 byte_cnt, struct be_dma_mem *cmd)
{
struct be_mcc_wrb *wrb;
struct be_cmd_req_ddrdma_test *req;
int status;
int i, j = 0;
if (!be_cmd_allowed(adapter, OPCODE_LOWLEVEL_HOST_DDR_DMA,
CMD_SUBSYSTEM_LOWLEVEL))
return -EPERM;
spin_lock_bh(&adapter->mcc_lock);
wrb = wrb_from_mccq(adapter);
if (!wrb) {
status = -EBUSY;
goto err;
}
req = cmd->va;
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_LOWLEVEL,
OPCODE_LOWLEVEL_HOST_DDR_DMA, cmd->size, wrb,
cmd);
req->pattern = cpu_to_le64(pattern);
req->byte_count = cpu_to_le32(byte_cnt);
for (i = 0; i < byte_cnt; i++) {
req->snd_buff[i] = (u8)(pattern >> (j*8));
j++;
if (j > 7)
j = 0;
}
status = be_mcc_notify_wait(adapter);
if (!status) {
struct be_cmd_resp_ddrdma_test *resp;
resp = cmd->va;
if ((memcmp(resp->rcv_buff, req->snd_buff, byte_cnt) != 0) ||
resp->snd_err) {
status = -1;
}
}
err:
spin_unlock_bh(&adapter->mcc_lock);
return status;
}
int be_cmd_get_seeprom_data(struct be_adapter *adapter,
struct be_dma_mem *nonemb_cmd)
{
struct be_mcc_wrb *wrb;
struct be_cmd_req_seeprom_read *req;
int status;
spin_lock_bh(&adapter->mcc_lock);
wrb = wrb_from_mccq(adapter);
if (!wrb) {
status = -EBUSY;
goto err;
}
req = nonemb_cmd->va;
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_COMMON,
OPCODE_COMMON_SEEPROM_READ, sizeof(*req), wrb,
nonemb_cmd);
status = be_mcc_notify_wait(adapter);
err:
spin_unlock_bh(&adapter->mcc_lock);
return status;
}
int be_cmd_get_phy_info(struct be_adapter *adapter)
{
struct be_mcc_wrb *wrb;
struct be_cmd_req_get_phy_info *req;
struct be_dma_mem cmd;
int status;
if (!be_cmd_allowed(adapter, OPCODE_COMMON_GET_PHY_DETAILS,
CMD_SUBSYSTEM_COMMON))
return -EPERM;
spin_lock_bh(&adapter->mcc_lock);
wrb = wrb_from_mccq(adapter);
if (!wrb) {
status = -EBUSY;
goto err;
}
cmd.size = sizeof(struct be_cmd_req_get_phy_info);
cmd.va = dma_zalloc_coherent(&adapter->pdev->dev, cmd.size, &cmd.dma,
GFP_ATOMIC);
if (!cmd.va) {
dev_err(&adapter->pdev->dev, "Memory alloc failure\n");
status = -ENOMEM;
goto err;
}
req = cmd.va;
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_COMMON,
OPCODE_COMMON_GET_PHY_DETAILS, sizeof(*req),
wrb, &cmd);
status = be_mcc_notify_wait(adapter);
if (!status) {
struct be_phy_info *resp_phy_info =
cmd.va + sizeof(struct be_cmd_req_hdr);
adapter->phy.phy_type = le16_to_cpu(resp_phy_info->phy_type);
adapter->phy.interface_type =
le16_to_cpu(resp_phy_info->interface_type);
adapter->phy.auto_speeds_supported =
le16_to_cpu(resp_phy_info->auto_speeds_supported);
adapter->phy.fixed_speeds_supported =
le16_to_cpu(resp_phy_info->fixed_speeds_supported);
adapter->phy.misc_params =
le32_to_cpu(resp_phy_info->misc_params);
if (BE2_chip(adapter)) {
adapter->phy.fixed_speeds_supported =
BE_SUPPORTED_SPEED_10GBPS |
BE_SUPPORTED_SPEED_1GBPS;
}
}
dma_free_coherent(&adapter->pdev->dev, cmd.size, cmd.va, cmd.dma);
err:
spin_unlock_bh(&adapter->mcc_lock);
return status;
}
static int be_cmd_set_qos(struct be_adapter *adapter, u32 bps, u32 domain)
{
struct be_mcc_wrb *wrb;
struct be_cmd_req_set_qos *req;
int status;
spin_lock_bh(&adapter->mcc_lock);
wrb = wrb_from_mccq(adapter);
if (!wrb) {
status = -EBUSY;
goto err;
}
req = embedded_payload(wrb);
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_COMMON,
OPCODE_COMMON_SET_QOS, sizeof(*req), wrb, NULL);
req->hdr.domain = domain;
req->valid_bits = cpu_to_le32(BE_QOS_BITS_NIC);
req->max_bps_nic = cpu_to_le32(bps);
status = be_mcc_notify_wait(adapter);
err:
spin_unlock_bh(&adapter->mcc_lock);
return status;
}
int be_cmd_get_cntl_attributes(struct be_adapter *adapter)
{
struct be_mcc_wrb *wrb;
struct be_cmd_req_cntl_attribs *req;
struct be_cmd_resp_cntl_attribs *resp;
int status, i;
int payload_len = max(sizeof(*req), sizeof(*resp));
struct mgmt_controller_attrib *attribs;
struct be_dma_mem attribs_cmd;
u32 *serial_num;
if (mutex_lock_interruptible(&adapter->mbox_lock))
return -1;
memset(&attribs_cmd, 0, sizeof(struct be_dma_mem));
attribs_cmd.size = sizeof(struct be_cmd_resp_cntl_attribs);
attribs_cmd.va = dma_zalloc_coherent(&adapter->pdev->dev,
attribs_cmd.size,
&attribs_cmd.dma, GFP_ATOMIC);
if (!attribs_cmd.va) {
dev_err(&adapter->pdev->dev, "Memory allocation failure\n");
status = -ENOMEM;
goto err;
}
wrb = wrb_from_mbox(adapter);
if (!wrb) {
status = -EBUSY;
goto err;
}
req = attribs_cmd.va;
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_COMMON,
OPCODE_COMMON_GET_CNTL_ATTRIBUTES, payload_len,
wrb, &attribs_cmd);
status = be_mbox_notify_wait(adapter);
if (!status) {
attribs = attribs_cmd.va + sizeof(struct be_cmd_resp_hdr);
adapter->hba_port_num = attribs->hba_attribs.phy_port;
serial_num = attribs->hba_attribs.controller_serial_number;
for (i = 0; i < CNTL_SERIAL_NUM_WORDS; i++)
adapter->serial_num[i] = le32_to_cpu(serial_num[i]) &
(BIT_MASK(16) - 1);
}
err:
mutex_unlock(&adapter->mbox_lock);
if (attribs_cmd.va)
dma_free_coherent(&adapter->pdev->dev, attribs_cmd.size,
attribs_cmd.va, attribs_cmd.dma);
return status;
}
/* Uses mbox */
int be_cmd_req_native_mode(struct be_adapter *adapter)
{
struct be_mcc_wrb *wrb;
struct be_cmd_req_set_func_cap *req;
int status;
if (mutex_lock_interruptible(&adapter->mbox_lock))
return -1;
wrb = wrb_from_mbox(adapter);
if (!wrb) {
status = -EBUSY;
goto err;
}
req = embedded_payload(wrb);
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_COMMON,
OPCODE_COMMON_SET_DRIVER_FUNCTION_CAP,
sizeof(*req), wrb, NULL);
req->valid_cap_flags = cpu_to_le32(CAPABILITY_SW_TIMESTAMPS |
CAPABILITY_BE3_NATIVE_ERX_API);
req->cap_flags = cpu_to_le32(CAPABILITY_BE3_NATIVE_ERX_API);
status = be_mbox_notify_wait(adapter);
if (!status) {
struct be_cmd_resp_set_func_cap *resp = embedded_payload(wrb);
adapter->be3_native = le32_to_cpu(resp->cap_flags) &
CAPABILITY_BE3_NATIVE_ERX_API;
if (!adapter->be3_native)
dev_warn(&adapter->pdev->dev,
"adapter not in advanced mode\n");
}
err:
mutex_unlock(&adapter->mbox_lock);
return status;
}
/* Get privilege(s) for a function */
int be_cmd_get_fn_privileges(struct be_adapter *adapter, u32 *privilege,
u32 domain)
{
struct be_mcc_wrb *wrb;
struct be_cmd_req_get_fn_privileges *req;
int status;
spin_lock_bh(&adapter->mcc_lock);
wrb = wrb_from_mccq(adapter);
if (!wrb) {
status = -EBUSY;
goto err;
}
req = embedded_payload(wrb);
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_COMMON,
OPCODE_COMMON_GET_FN_PRIVILEGES, sizeof(*req),
wrb, NULL);
req->hdr.domain = domain;
status = be_mcc_notify_wait(adapter);
if (!status) {
struct be_cmd_resp_get_fn_privileges *resp =
embedded_payload(wrb);
*privilege = le32_to_cpu(resp->privilege_mask);
/* In UMC mode FW does not return right privileges.
* Override with correct privilege equivalent to PF.
*/
if (BEx_chip(adapter) && be_is_mc(adapter) &&
be_physfn(adapter))
*privilege = MAX_PRIVILEGES;
}
err:
spin_unlock_bh(&adapter->mcc_lock);
return status;
}
/* Set privilege(s) for a function */
int be_cmd_set_fn_privileges(struct be_adapter *adapter, u32 privileges,
u32 domain)
{
struct be_mcc_wrb *wrb;
struct be_cmd_req_set_fn_privileges *req;
int status;
spin_lock_bh(&adapter->mcc_lock);
wrb = wrb_from_mccq(adapter);
if (!wrb) {
status = -EBUSY;
goto err;
}
req = embedded_payload(wrb);
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_COMMON,
OPCODE_COMMON_SET_FN_PRIVILEGES, sizeof(*req),
wrb, NULL);
req->hdr.domain = domain;
if (lancer_chip(adapter))
req->privileges_lancer = cpu_to_le32(privileges);
else
req->privileges = cpu_to_le32(privileges);
status = be_mcc_notify_wait(adapter);
err:
spin_unlock_bh(&adapter->mcc_lock);
return status;
}
/* pmac_id_valid: true => pmac_id is supplied and MAC address is requested.
* pmac_id_valid: false => pmac_id or MAC address is requested.
* If pmac_id is returned, pmac_id_valid is returned as true
*/
int be_cmd_get_mac_from_list(struct be_adapter *adapter, u8 *mac,
bool *pmac_id_valid, u32 *pmac_id, u32 if_handle,
u8 domain)
{
struct be_mcc_wrb *wrb;
struct be_cmd_req_get_mac_list *req;
int status;
int mac_count;
struct be_dma_mem get_mac_list_cmd;
int i;
memset(&get_mac_list_cmd, 0, sizeof(struct be_dma_mem));
get_mac_list_cmd.size = sizeof(struct be_cmd_resp_get_mac_list);
get_mac_list_cmd.va = dma_zalloc_coherent(&adapter->pdev->dev,
get_mac_list_cmd.size,
&get_mac_list_cmd.dma,
GFP_ATOMIC);
if (!get_mac_list_cmd.va) {
dev_err(&adapter->pdev->dev,
"Memory allocation failure during GET_MAC_LIST\n");
return -ENOMEM;
}
spin_lock_bh(&adapter->mcc_lock);
wrb = wrb_from_mccq(adapter);
if (!wrb) {
status = -EBUSY;
goto out;
}
req = get_mac_list_cmd.va;
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_COMMON,
OPCODE_COMMON_GET_MAC_LIST,
get_mac_list_cmd.size, wrb, &get_mac_list_cmd);
req->hdr.domain = domain;
req->mac_type = MAC_ADDRESS_TYPE_NETWORK;
if (*pmac_id_valid) {
req->mac_id = cpu_to_le32(*pmac_id);
req->iface_id = cpu_to_le16(if_handle);
req->perm_override = 0;
} else {
req->perm_override = 1;
}
status = be_mcc_notify_wait(adapter);
if (!status) {
struct be_cmd_resp_get_mac_list *resp =
get_mac_list_cmd.va;
if (*pmac_id_valid) {
memcpy(mac, resp->macid_macaddr.mac_addr_id.macaddr,
ETH_ALEN);
goto out;
}
mac_count = resp->true_mac_count + resp->pseudo_mac_count;
/* Mac list returned could contain one or more active mac_ids
* or one or more true or pseudo permanent mac addresses.
* If an active mac_id is present, return first active mac_id
* found.
*/
for (i = 0; i < mac_count; i++) {
struct get_list_macaddr *mac_entry;
u16 mac_addr_size;
u32 mac_id;
mac_entry = &resp->macaddr_list[i];
mac_addr_size = le16_to_cpu(mac_entry->mac_addr_size);
/* mac_id is a 32 bit value and mac_addr size
* is 6 bytes
*/
if (mac_addr_size == sizeof(u32)) {
*pmac_id_valid = true;
mac_id = mac_entry->mac_addr_id.s_mac_id.mac_id;
*pmac_id = le32_to_cpu(mac_id);
goto out;
}
}
/* If no active mac_id found, return first mac addr */
*pmac_id_valid = false;
memcpy(mac, resp->macaddr_list[0].mac_addr_id.macaddr,
ETH_ALEN);
}
out:
spin_unlock_bh(&adapter->mcc_lock);
dma_free_coherent(&adapter->pdev->dev, get_mac_list_cmd.size,
get_mac_list_cmd.va, get_mac_list_cmd.dma);
return status;
}
int be_cmd_get_active_mac(struct be_adapter *adapter, u32 curr_pmac_id,
u8 *mac, u32 if_handle, bool active, u32 domain)
{
if (!active)
be_cmd_get_mac_from_list(adapter, mac, &active, &curr_pmac_id,
if_handle, domain);
if (BEx_chip(adapter))
return be_cmd_mac_addr_query(adapter, mac, false,
if_handle, curr_pmac_id);
else
/* Fetch the MAC address using pmac_id */
return be_cmd_get_mac_from_list(adapter, mac, &active,
&curr_pmac_id,
if_handle, domain);
}
int be_cmd_get_perm_mac(struct be_adapter *adapter, u8 *mac)
{
int status;
bool pmac_valid = false;
eth_zero_addr(mac);
if (BEx_chip(adapter)) {
if (be_physfn(adapter))
status = be_cmd_mac_addr_query(adapter, mac, true, 0,
0);
else
status = be_cmd_mac_addr_query(adapter, mac, false,
adapter->if_handle, 0);
} else {
status = be_cmd_get_mac_from_list(adapter, mac, &pmac_valid,
NULL, adapter->if_handle, 0);
}
return status;
}
/* Uses synchronous MCCQ */
int be_cmd_set_mac_list(struct be_adapter *adapter, u8 *mac_array,
u8 mac_count, u32 domain)
{
struct be_mcc_wrb *wrb;
struct be_cmd_req_set_mac_list *req;
int status;
struct be_dma_mem cmd;
memset(&cmd, 0, sizeof(struct be_dma_mem));
cmd.size = sizeof(struct be_cmd_req_set_mac_list);
cmd.va = dma_zalloc_coherent(&adapter->pdev->dev, cmd.size, &cmd.dma,
GFP_KERNEL);
if (!cmd.va)
return -ENOMEM;
spin_lock_bh(&adapter->mcc_lock);
wrb = wrb_from_mccq(adapter);
if (!wrb) {
status = -EBUSY;
goto err;
}
req = cmd.va;
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_COMMON,
OPCODE_COMMON_SET_MAC_LIST, sizeof(*req),
wrb, &cmd);
req->hdr.domain = domain;
req->mac_count = mac_count;
if (mac_count)
memcpy(req->mac, mac_array, ETH_ALEN*mac_count);
status = be_mcc_notify_wait(adapter);
err:
dma_free_coherent(&adapter->pdev->dev, cmd.size, cmd.va, cmd.dma);
spin_unlock_bh(&adapter->mcc_lock);
return status;
}
/* Wrapper to delete any active MACs and provision the new mac.
* Changes to MAC_LIST are allowed iff none of the MAC addresses in the
* current list are active.
*/
int be_cmd_set_mac(struct be_adapter *adapter, u8 *mac, int if_id, u32 dom)
{
bool active_mac = false;
u8 old_mac[ETH_ALEN];
u32 pmac_id;
int status;
status = be_cmd_get_mac_from_list(adapter, old_mac, &active_mac,
&pmac_id, if_id, dom);
if (!status && active_mac)
be_cmd_pmac_del(adapter, if_id, pmac_id, dom);
return be_cmd_set_mac_list(adapter, mac, mac ? 1 : 0, dom);
}
int be_cmd_set_hsw_config(struct be_adapter *adapter, u16 pvid,
u32 domain, u16 intf_id, u16 hsw_mode, u8 spoofchk)
{
struct be_mcc_wrb *wrb;
struct be_cmd_req_set_hsw_config *req;
void *ctxt;
int status;
spin_lock_bh(&adapter->mcc_lock);
wrb = wrb_from_mccq(adapter);
if (!wrb) {
status = -EBUSY;
goto err;
}
req = embedded_payload(wrb);
ctxt = &req->context;
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_COMMON,
OPCODE_COMMON_SET_HSW_CONFIG, sizeof(*req), wrb,
NULL);
req->hdr.domain = domain;
AMAP_SET_BITS(struct amap_set_hsw_context, interface_id, ctxt, intf_id);
if (pvid) {
AMAP_SET_BITS(struct amap_set_hsw_context, pvid_valid, ctxt, 1);
AMAP_SET_BITS(struct amap_set_hsw_context, pvid, ctxt, pvid);
}
if (!BEx_chip(adapter) && hsw_mode) {
AMAP_SET_BITS(struct amap_set_hsw_context, interface_id,
ctxt, adapter->hba_port_num);
AMAP_SET_BITS(struct amap_set_hsw_context, pport, ctxt, 1);
AMAP_SET_BITS(struct amap_set_hsw_context, port_fwd_type,
ctxt, hsw_mode);
}
/* Enable/disable both mac and vlan spoof checking */
if (!BEx_chip(adapter) && spoofchk) {
AMAP_SET_BITS(struct amap_set_hsw_context, mac_spoofchk,
ctxt, spoofchk);
AMAP_SET_BITS(struct amap_set_hsw_context, vlan_spoofchk,
ctxt, spoofchk);
}
be_dws_cpu_to_le(req->context, sizeof(req->context));
status = be_mcc_notify_wait(adapter);
err:
spin_unlock_bh(&adapter->mcc_lock);
return status;
}
/* Get Hyper switch config */
int be_cmd_get_hsw_config(struct be_adapter *adapter, u16 *pvid,
u32 domain, u16 intf_id, u8 *mode, bool *spoofchk)
{
struct be_mcc_wrb *wrb;
struct be_cmd_req_get_hsw_config *req;
void *ctxt;
int status;
u16 vid;
spin_lock_bh(&adapter->mcc_lock);
wrb = wrb_from_mccq(adapter);
if (!wrb) {
status = -EBUSY;
goto err;
}
req = embedded_payload(wrb);
ctxt = &req->context;
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_COMMON,
OPCODE_COMMON_GET_HSW_CONFIG, sizeof(*req), wrb,
NULL);
req->hdr.domain = domain;
AMAP_SET_BITS(struct amap_get_hsw_req_context, interface_id,
ctxt, intf_id);
AMAP_SET_BITS(struct amap_get_hsw_req_context, pvid_valid, ctxt, 1);
if (!BEx_chip(adapter) && mode) {
AMAP_SET_BITS(struct amap_get_hsw_req_context, interface_id,
ctxt, adapter->hba_port_num);
AMAP_SET_BITS(struct amap_get_hsw_req_context, pport, ctxt, 1);
}
be_dws_cpu_to_le(req->context, sizeof(req->context));
status = be_mcc_notify_wait(adapter);
if (!status) {
struct be_cmd_resp_get_hsw_config *resp =
embedded_payload(wrb);
be_dws_le_to_cpu(&resp->context, sizeof(resp->context));
vid = AMAP_GET_BITS(struct amap_get_hsw_resp_context,
pvid, &resp->context);
if (pvid)
*pvid = le16_to_cpu(vid);
if (mode)
*mode = AMAP_GET_BITS(struct amap_get_hsw_resp_context,
port_fwd_type, &resp->context);
if (spoofchk)
*spoofchk =
AMAP_GET_BITS(struct amap_get_hsw_resp_context,
spoofchk, &resp->context);
}
err:
spin_unlock_bh(&adapter->mcc_lock);
return status;
}
static bool be_is_wol_excluded(struct be_adapter *adapter)
{
struct pci_dev *pdev = adapter->pdev;
if (be_virtfn(adapter))
return true;
switch (pdev->subsystem_device) {
case OC_SUBSYS_DEVICE_ID1:
case OC_SUBSYS_DEVICE_ID2:
case OC_SUBSYS_DEVICE_ID3:
case OC_SUBSYS_DEVICE_ID4:
return true;
default:
return false;
}
}
int be_cmd_get_acpi_wol_cap(struct be_adapter *adapter)
{
struct be_mcc_wrb *wrb;
struct be_cmd_req_acpi_wol_magic_config_v1 *req;
int status = 0;
struct be_dma_mem cmd;
if (!be_cmd_allowed(adapter, OPCODE_ETH_ACPI_WOL_MAGIC_CONFIG,
CMD_SUBSYSTEM_ETH))
return -EPERM;
if (be_is_wol_excluded(adapter))
return status;
if (mutex_lock_interruptible(&adapter->mbox_lock))
return -1;
memset(&cmd, 0, sizeof(struct be_dma_mem));
cmd.size = sizeof(struct be_cmd_resp_acpi_wol_magic_config_v1);
cmd.va = dma_zalloc_coherent(&adapter->pdev->dev, cmd.size, &cmd.dma,
GFP_ATOMIC);
if (!cmd.va) {
dev_err(&adapter->pdev->dev, "Memory allocation failure\n");
status = -ENOMEM;
goto err;
}
wrb = wrb_from_mbox(adapter);
if (!wrb) {
status = -EBUSY;
goto err;
}
req = cmd.va;
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_ETH,
OPCODE_ETH_ACPI_WOL_MAGIC_CONFIG,
sizeof(*req), wrb, &cmd);
req->hdr.version = 1;
req->query_options = BE_GET_WOL_CAP;
status = be_mbox_notify_wait(adapter);
if (!status) {
struct be_cmd_resp_acpi_wol_magic_config_v1 *resp;
resp = (struct be_cmd_resp_acpi_wol_magic_config_v1 *)cmd.va;
adapter->wol_cap = resp->wol_settings;
if (adapter->wol_cap & BE_WOL_CAP)
adapter->wol_en = true;
}
err:
mutex_unlock(&adapter->mbox_lock);
if (cmd.va)
dma_free_coherent(&adapter->pdev->dev, cmd.size, cmd.va,
cmd.dma);
return status;
}
int be_cmd_set_fw_log_level(struct be_adapter *adapter, u32 level)
{
struct be_dma_mem extfat_cmd;
struct be_fat_conf_params *cfgs;
int status;
int i, j;
memset(&extfat_cmd, 0, sizeof(struct be_dma_mem));
extfat_cmd.size = sizeof(struct be_cmd_resp_get_ext_fat_caps);
extfat_cmd.va = dma_zalloc_coherent(&adapter->pdev->dev,
extfat_cmd.size, &extfat_cmd.dma,
GFP_ATOMIC);
if (!extfat_cmd.va)
return -ENOMEM;
status = be_cmd_get_ext_fat_capabilites(adapter, &extfat_cmd);
if (status)
goto err;
cfgs = (struct be_fat_conf_params *)
(extfat_cmd.va + sizeof(struct be_cmd_resp_hdr));
for (i = 0; i < le32_to_cpu(cfgs->num_modules); i++) {
u32 num_modes = le32_to_cpu(cfgs->module[i].num_modes);
for (j = 0; j < num_modes; j++) {
if (cfgs->module[i].trace_lvl[j].mode == MODE_UART)
cfgs->module[i].trace_lvl[j].dbg_lvl =
cpu_to_le32(level);
}
}
status = be_cmd_set_ext_fat_capabilites(adapter, &extfat_cmd, cfgs);
err:
dma_free_coherent(&adapter->pdev->dev, extfat_cmd.size, extfat_cmd.va,
extfat_cmd.dma);
return status;
}
int be_cmd_get_fw_log_level(struct be_adapter *adapter)
{
struct be_dma_mem extfat_cmd;
struct be_fat_conf_params *cfgs;
int status, j;
int level = 0;
memset(&extfat_cmd, 0, sizeof(struct be_dma_mem));
extfat_cmd.size = sizeof(struct be_cmd_resp_get_ext_fat_caps);
extfat_cmd.va = dma_zalloc_coherent(&adapter->pdev->dev,
extfat_cmd.size, &extfat_cmd.dma,
GFP_ATOMIC);
if (!extfat_cmd.va) {
dev_err(&adapter->pdev->dev, "%s: Memory allocation failure\n",
__func__);
goto err;
}
status = be_cmd_get_ext_fat_capabilites(adapter, &extfat_cmd);
if (!status) {
cfgs = (struct be_fat_conf_params *)(extfat_cmd.va +
sizeof(struct be_cmd_resp_hdr));
for (j = 0; j < le32_to_cpu(cfgs->module[0].num_modes); j++) {
if (cfgs->module[0].trace_lvl[j].mode == MODE_UART)
level = cfgs->module[0].trace_lvl[j].dbg_lvl;
}
}
dma_free_coherent(&adapter->pdev->dev, extfat_cmd.size, extfat_cmd.va,
extfat_cmd.dma);
err:
return level;
}
int be_cmd_get_ext_fat_capabilites(struct be_adapter *adapter,
struct be_dma_mem *cmd)
{
struct be_mcc_wrb *wrb;
struct be_cmd_req_get_ext_fat_caps *req;
int status;
if (mutex_lock_interruptible(&adapter->mbox_lock))
return -1;
wrb = wrb_from_mbox(adapter);
if (!wrb) {
status = -EBUSY;
goto err;
}
req = cmd->va;
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_COMMON,
OPCODE_COMMON_GET_EXT_FAT_CAPABILITES,
cmd->size, wrb, cmd);
req->parameter_type = cpu_to_le32(1);
status = be_mbox_notify_wait(adapter);
err:
mutex_unlock(&adapter->mbox_lock);
return status;
}
int be_cmd_set_ext_fat_capabilites(struct be_adapter *adapter,
struct be_dma_mem *cmd,
struct be_fat_conf_params *configs)
{
struct be_mcc_wrb *wrb;
struct be_cmd_req_set_ext_fat_caps *req;
int status;
spin_lock_bh(&adapter->mcc_lock);
wrb = wrb_from_mccq(adapter);
if (!wrb) {
status = -EBUSY;
goto err;
}
req = cmd->va;
memcpy(&req->set_params, configs, sizeof(struct be_fat_conf_params));
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_COMMON,
OPCODE_COMMON_SET_EXT_FAT_CAPABILITES,
cmd->size, wrb, cmd);
status = be_mcc_notify_wait(adapter);
err:
spin_unlock_bh(&adapter->mcc_lock);
return status;
}
int be_cmd_query_port_name(struct be_adapter *adapter)
{
struct be_cmd_req_get_port_name *req;
struct be_mcc_wrb *wrb;
int status;
if (mutex_lock_interruptible(&adapter->mbox_lock))
return -1;
wrb = wrb_from_mbox(adapter);
req = embedded_payload(wrb);
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_COMMON,
OPCODE_COMMON_GET_PORT_NAME, sizeof(*req), wrb,
NULL);
if (!BEx_chip(adapter))
req->hdr.version = 1;
status = be_mbox_notify_wait(adapter);
if (!status) {
struct be_cmd_resp_get_port_name *resp = embedded_payload(wrb);
adapter->port_name = resp->port_name[adapter->hba_port_num];
} else {
adapter->port_name = adapter->hba_port_num + '0';
}
mutex_unlock(&adapter->mbox_lock);
return status;
}
/* When more than 1 NIC descriptor is present in the descriptor list,
* the caller must specify the pf_num to obtain the NIC descriptor
* corresponding to its pci function.
* get_vft must be true when the caller wants the VF-template desc of the
* PF-pool.
* The pf_num should be set to PF_NUM_IGNORE when the caller knows
* that only it's NIC descriptor is present in the descriptor list.
*/
static struct be_nic_res_desc *be_get_nic_desc(u8 *buf, u32 desc_count,
bool get_vft, u8 pf_num)
{
struct be_res_desc_hdr *hdr = (struct be_res_desc_hdr *)buf;
struct be_nic_res_desc *nic;
int i;
for (i = 0; i < desc_count; i++) {
if (hdr->desc_type == NIC_RESOURCE_DESC_TYPE_V0 ||
hdr->desc_type == NIC_RESOURCE_DESC_TYPE_V1) {
nic = (struct be_nic_res_desc *)hdr;
if ((pf_num == PF_NUM_IGNORE ||
nic->pf_num == pf_num) &&
(!get_vft || nic->flags & BIT(VFT_SHIFT)))
return nic;
}
hdr->desc_len = hdr->desc_len ? : RESOURCE_DESC_SIZE_V0;
hdr = (void *)hdr + hdr->desc_len;
}
return NULL;
}
static struct be_nic_res_desc *be_get_vft_desc(u8 *buf, u32 desc_count,
u8 pf_num)
{
return be_get_nic_desc(buf, desc_count, true, pf_num);
}
static struct be_nic_res_desc *be_get_func_nic_desc(u8 *buf, u32 desc_count,
u8 pf_num)
{
return be_get_nic_desc(buf, desc_count, false, pf_num);
}
static struct be_pcie_res_desc *be_get_pcie_desc(u8 *buf, u32 desc_count,
u8 pf_num)
{
struct be_res_desc_hdr *hdr = (struct be_res_desc_hdr *)buf;
struct be_pcie_res_desc *pcie;
int i;
for (i = 0; i < desc_count; i++) {
if (hdr->desc_type == PCIE_RESOURCE_DESC_TYPE_V0 ||
hdr->desc_type == PCIE_RESOURCE_DESC_TYPE_V1) {
pcie = (struct be_pcie_res_desc *)hdr;
if (pcie->pf_num == pf_num)
return pcie;
}
hdr->desc_len = hdr->desc_len ? : RESOURCE_DESC_SIZE_V0;
hdr = (void *)hdr + hdr->desc_len;
}
return NULL;
}
static struct be_port_res_desc *be_get_port_desc(u8 *buf, u32 desc_count)
{
struct be_res_desc_hdr *hdr = (struct be_res_desc_hdr *)buf;
int i;
for (i = 0; i < desc_count; i++) {
if (hdr->desc_type == PORT_RESOURCE_DESC_TYPE_V1)
return (struct be_port_res_desc *)hdr;
hdr->desc_len = hdr->desc_len ? : RESOURCE_DESC_SIZE_V0;
hdr = (void *)hdr + hdr->desc_len;
}
return NULL;
}
static void be_copy_nic_desc(struct be_resources *res,
struct be_nic_res_desc *desc)
{
res->max_uc_mac = le16_to_cpu(desc->unicast_mac_count);
res->max_vlans = le16_to_cpu(desc->vlan_count);
res->max_mcast_mac = le16_to_cpu(desc->mcast_mac_count);
res->max_tx_qs = le16_to_cpu(desc->txq_count);
res->max_rss_qs = le16_to_cpu(desc->rssq_count);
res->max_rx_qs = le16_to_cpu(desc->rq_count);
res->max_evt_qs = le16_to_cpu(desc->eq_count);
res->max_cq_count = le16_to_cpu(desc->cq_count);
res->max_iface_count = le16_to_cpu(desc->iface_count);
res->max_mcc_count = le16_to_cpu(desc->mcc_count);
/* Clear flags that driver is not interested in */
res->if_cap_flags = le32_to_cpu(desc->cap_flags) &
BE_IF_CAP_FLAGS_WANT;
}
/* Uses Mbox */
int be_cmd_get_func_config(struct be_adapter *adapter, struct be_resources *res)
{
struct be_mcc_wrb *wrb;
struct be_cmd_req_get_func_config *req;
int status;
struct be_dma_mem cmd;
if (mutex_lock_interruptible(&adapter->mbox_lock))
return -1;
memset(&cmd, 0, sizeof(struct be_dma_mem));
cmd.size = sizeof(struct be_cmd_resp_get_func_config);
cmd.va = dma_zalloc_coherent(&adapter->pdev->dev, cmd.size, &cmd.dma,
GFP_ATOMIC);
if (!cmd.va) {
dev_err(&adapter->pdev->dev, "Memory alloc failure\n");
status = -ENOMEM;
goto err;
}
wrb = wrb_from_mbox(adapter);
if (!wrb) {
status = -EBUSY;
goto err;
}
req = cmd.va;
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_COMMON,
OPCODE_COMMON_GET_FUNC_CONFIG,
cmd.size, wrb, &cmd);
if (skyhawk_chip(adapter))
req->hdr.version = 1;
status = be_mbox_notify_wait(adapter);
if (!status) {
struct be_cmd_resp_get_func_config *resp = cmd.va;
u32 desc_count = le32_to_cpu(resp->desc_count);
struct be_nic_res_desc *desc;
/* GET_FUNC_CONFIG returns resource descriptors of the
* current function only. So, pf_num should be set to
* PF_NUM_IGNORE.
*/
desc = be_get_func_nic_desc(resp->func_param, desc_count,
PF_NUM_IGNORE);
if (!desc) {
status = -EINVAL;
goto err;
}
/* Store pf_num & vf_num for later use in GET_PROFILE_CONFIG */
adapter->pf_num = desc->pf_num;
adapter->vf_num = desc->vf_num;
if (res)
be_copy_nic_desc(res, desc);
}
err:
mutex_unlock(&adapter->mbox_lock);
if (cmd.va)
dma_free_coherent(&adapter->pdev->dev, cmd.size, cmd.va,
cmd.dma);
return status;
}
/* Will use MBOX only if MCCQ has not been created */
int be_cmd_get_profile_config(struct be_adapter *adapter,
struct be_resources *res, u8 query, u8 domain)
{
struct be_cmd_resp_get_profile_config *resp;
struct be_cmd_req_get_profile_config *req;
struct be_nic_res_desc *vf_res;
struct be_pcie_res_desc *pcie;
struct be_port_res_desc *port;
struct be_nic_res_desc *nic;
struct be_mcc_wrb wrb = {0};
struct be_dma_mem cmd;
u16 desc_count;
int status;
memset(&cmd, 0, sizeof(struct be_dma_mem));
cmd.size = sizeof(struct be_cmd_resp_get_profile_config);
cmd.va = dma_zalloc_coherent(&adapter->pdev->dev, cmd.size, &cmd.dma,
GFP_ATOMIC);
if (!cmd.va)
return -ENOMEM;
req = cmd.va;
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_COMMON,
OPCODE_COMMON_GET_PROFILE_CONFIG,
cmd.size, &wrb, &cmd);
if (!lancer_chip(adapter))
req->hdr.version = 1;
req->type = ACTIVE_PROFILE_TYPE;
req->hdr.domain = domain;
/* When QUERY_MODIFIABLE_FIELDS_TYPE bit is set, cmd returns the
* descriptors with all bits set to "1" for the fields which can be
* modified using SET_PROFILE_CONFIG cmd.
*/
if (query == RESOURCE_MODIFIABLE)
req->type |= QUERY_MODIFIABLE_FIELDS_TYPE;
status = be_cmd_notify_wait(adapter, &wrb);
if (status)
goto err;
resp = cmd.va;
desc_count = le16_to_cpu(resp->desc_count);
pcie = be_get_pcie_desc(resp->func_param, desc_count,
adapter->pf_num);
if (pcie)
res->max_vfs = le16_to_cpu(pcie->num_vfs);
port = be_get_port_desc(resp->func_param, desc_count);
if (port)
adapter->mc_type = port->mc_type;
nic = be_get_func_nic_desc(resp->func_param, desc_count,
adapter->pf_num);
if (nic)
be_copy_nic_desc(res, nic);
vf_res = be_get_vft_desc(resp->func_param, desc_count,
adapter->pf_num);
if (vf_res)
res->vf_if_cap_flags = vf_res->cap_flags;
err:
if (cmd.va)
dma_free_coherent(&adapter->pdev->dev, cmd.size, cmd.va,
cmd.dma);
return status;
}
/* Will use MBOX only if MCCQ has not been created */
static int be_cmd_set_profile_config(struct be_adapter *adapter, void *desc,
int size, int count, u8 version, u8 domain)
{
struct be_cmd_req_set_profile_config *req;
struct be_mcc_wrb wrb = {0};
struct be_dma_mem cmd;
int status;
memset(&cmd, 0, sizeof(struct be_dma_mem));
cmd.size = sizeof(struct be_cmd_req_set_profile_config);
cmd.va = dma_zalloc_coherent(&adapter->pdev->dev, cmd.size, &cmd.dma,
GFP_ATOMIC);
if (!cmd.va)
return -ENOMEM;
req = cmd.va;
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_COMMON,
OPCODE_COMMON_SET_PROFILE_CONFIG, cmd.size,
&wrb, &cmd);
req->hdr.version = version;
req->hdr.domain = domain;
req->desc_count = cpu_to_le32(count);
memcpy(req->desc, desc, size);
status = be_cmd_notify_wait(adapter, &wrb);
if (cmd.va)
dma_free_coherent(&adapter->pdev->dev, cmd.size, cmd.va,
cmd.dma);
return status;
}
/* Mark all fields invalid */
static void be_reset_nic_desc(struct be_nic_res_desc *nic)
{
memset(nic, 0, sizeof(*nic));
nic->unicast_mac_count = 0xFFFF;
nic->mcc_count = 0xFFFF;
nic->vlan_count = 0xFFFF;
nic->mcast_mac_count = 0xFFFF;
nic->txq_count = 0xFFFF;
nic->rq_count = 0xFFFF;
nic->rssq_count = 0xFFFF;
nic->lro_count = 0xFFFF;
nic->cq_count = 0xFFFF;
nic->toe_conn_count = 0xFFFF;
nic->eq_count = 0xFFFF;
nic->iface_count = 0xFFFF;
nic->link_param = 0xFF;
nic->channel_id_param = cpu_to_le16(0xF000);
nic->acpi_params = 0xFF;
nic->wol_param = 0x0F;
nic->tunnel_iface_count = 0xFFFF;
nic->direct_tenant_iface_count = 0xFFFF;
nic->bw_min = 0xFFFFFFFF;
nic->bw_max = 0xFFFFFFFF;
}
/* Mark all fields invalid */
static void be_reset_pcie_desc(struct be_pcie_res_desc *pcie)
{
memset(pcie, 0, sizeof(*pcie));
pcie->sriov_state = 0xFF;
pcie->pf_state = 0xFF;
pcie->pf_type = 0xFF;
pcie->num_vfs = 0xFFFF;
}
int be_cmd_config_qos(struct be_adapter *adapter, u32 max_rate, u16 link_speed,
u8 domain)
{
struct be_nic_res_desc nic_desc;
u32 bw_percent;
u16 version = 0;
if (BE3_chip(adapter))
return be_cmd_set_qos(adapter, max_rate / 10, domain);
be_reset_nic_desc(&nic_desc);
nic_desc.pf_num = adapter->pf_num;
nic_desc.vf_num = domain;
nic_desc.bw_min = 0;
if (lancer_chip(adapter)) {
nic_desc.hdr.desc_type = NIC_RESOURCE_DESC_TYPE_V0;
nic_desc.hdr.desc_len = RESOURCE_DESC_SIZE_V0;
nic_desc.flags = (1 << QUN_SHIFT) | (1 << IMM_SHIFT) |
(1 << NOSV_SHIFT);
nic_desc.bw_max = cpu_to_le32(max_rate / 10);
} else {
version = 1;
nic_desc.hdr.desc_type = NIC_RESOURCE_DESC_TYPE_V1;
nic_desc.hdr.desc_len = RESOURCE_DESC_SIZE_V1;
nic_desc.flags = (1 << IMM_SHIFT) | (1 << NOSV_SHIFT);
bw_percent = max_rate ? (max_rate * 100) / link_speed : 100;
nic_desc.bw_max = cpu_to_le32(bw_percent);
}
return be_cmd_set_profile_config(adapter, &nic_desc,
nic_desc.hdr.desc_len,
1, version, domain);
}
static void be_fill_vf_res_template(struct be_adapter *adapter,
struct be_resources pool_res,
u16 num_vfs, u16 num_vf_qs,
struct be_nic_res_desc *nic_vft)
{
u32 vf_if_cap_flags = pool_res.vf_if_cap_flags;
struct be_resources res_mod = {0};
/* Resource with fields set to all '1's by GET_PROFILE_CONFIG cmd,
* which are modifiable using SET_PROFILE_CONFIG cmd.
*/
be_cmd_get_profile_config(adapter, &res_mod, RESOURCE_MODIFIABLE, 0);
/* If RSS IFACE capability flags are modifiable for a VF, set the
* capability flag as valid and set RSS and DEFQ_RSS IFACE flags if
* more than 1 RSSQ is available for a VF.
* Otherwise, provision only 1 queue pair for VF.
*/
if (res_mod.vf_if_cap_flags & BE_IF_FLAGS_RSS) {
nic_vft->flags |= BIT(IF_CAPS_FLAGS_VALID_SHIFT);
if (num_vf_qs > 1) {
vf_if_cap_flags |= BE_IF_FLAGS_RSS;
if (pool_res.if_cap_flags & BE_IF_FLAGS_DEFQ_RSS)
vf_if_cap_flags |= BE_IF_FLAGS_DEFQ_RSS;
} else {
vf_if_cap_flags &= ~(BE_IF_FLAGS_RSS |
BE_IF_FLAGS_DEFQ_RSS);
}
} else {
num_vf_qs = 1;
}
if (res_mod.vf_if_cap_flags & BE_IF_FLAGS_VLAN_PROMISCUOUS) {
nic_vft->flags |= BIT(IF_CAPS_FLAGS_VALID_SHIFT);
vf_if_cap_flags &= ~BE_IF_FLAGS_VLAN_PROMISCUOUS;
}
nic_vft->cap_flags = cpu_to_le32(vf_if_cap_flags);
nic_vft->rq_count = cpu_to_le16(num_vf_qs);
nic_vft->txq_count = cpu_to_le16(num_vf_qs);
nic_vft->rssq_count = cpu_to_le16(num_vf_qs);
nic_vft->cq_count = cpu_to_le16(pool_res.max_cq_count /
(num_vfs + 1));
/* Distribute unicast MACs, VLANs, IFACE count and MCCQ count equally
* among the PF and it's VFs, if the fields are changeable
*/
if (res_mod.max_uc_mac == FIELD_MODIFIABLE)
nic_vft->unicast_mac_count = cpu_to_le16(pool_res.max_uc_mac /
(num_vfs + 1));
if (res_mod.max_vlans == FIELD_MODIFIABLE)
nic_vft->vlan_count = cpu_to_le16(pool_res.max_vlans /
(num_vfs + 1));
if (res_mod.max_iface_count == FIELD_MODIFIABLE)
nic_vft->iface_count = cpu_to_le16(pool_res.max_iface_count /
(num_vfs + 1));
if (res_mod.max_mcc_count == FIELD_MODIFIABLE)
nic_vft->mcc_count = cpu_to_le16(pool_res.max_mcc_count /
(num_vfs + 1));
}
int be_cmd_set_sriov_config(struct be_adapter *adapter,
struct be_resources pool_res, u16 num_vfs,
u16 num_vf_qs)
{
struct {
struct be_pcie_res_desc pcie;
struct be_nic_res_desc nic_vft;
} __packed desc;
/* PF PCIE descriptor */
be_reset_pcie_desc(&desc.pcie);
desc.pcie.hdr.desc_type = PCIE_RESOURCE_DESC_TYPE_V1;
desc.pcie.hdr.desc_len = RESOURCE_DESC_SIZE_V1;
desc.pcie.flags = BIT(IMM_SHIFT) | BIT(NOSV_SHIFT);
desc.pcie.pf_num = adapter->pdev->devfn;
desc.pcie.sriov_state = num_vfs ? 1 : 0;
desc.pcie.num_vfs = cpu_to_le16(num_vfs);
/* VF NIC Template descriptor */
be_reset_nic_desc(&desc.nic_vft);
desc.nic_vft.hdr.desc_type = NIC_RESOURCE_DESC_TYPE_V1;
desc.nic_vft.hdr.desc_len = RESOURCE_DESC_SIZE_V1;
desc.nic_vft.flags = BIT(VFT_SHIFT) | BIT(IMM_SHIFT) | BIT(NOSV_SHIFT);
desc.nic_vft.pf_num = adapter->pdev->devfn;
desc.nic_vft.vf_num = 0;
be_fill_vf_res_template(adapter, pool_res, num_vfs, num_vf_qs,
&desc.nic_vft);
return be_cmd_set_profile_config(adapter, &desc,
2 * RESOURCE_DESC_SIZE_V1, 2, 1, 0);
}
int be_cmd_manage_iface(struct be_adapter *adapter, u32 iface, u8 op)
{
struct be_mcc_wrb *wrb;
struct be_cmd_req_manage_iface_filters *req;
int status;
if (iface == 0xFFFFFFFF)
return -1;
spin_lock_bh(&adapter->mcc_lock);
wrb = wrb_from_mccq(adapter);
if (!wrb) {
status = -EBUSY;
goto err;
}
req = embedded_payload(wrb);
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_COMMON,
OPCODE_COMMON_MANAGE_IFACE_FILTERS, sizeof(*req),
wrb, NULL);
req->op = op;
req->target_iface_id = cpu_to_le32(iface);
status = be_mcc_notify_wait(adapter);
err:
spin_unlock_bh(&adapter->mcc_lock);
return status;
}
int be_cmd_set_vxlan_port(struct be_adapter *adapter, __be16 port)
{
struct be_port_res_desc port_desc;
memset(&port_desc, 0, sizeof(port_desc));
port_desc.hdr.desc_type = PORT_RESOURCE_DESC_TYPE_V1;
port_desc.hdr.desc_len = RESOURCE_DESC_SIZE_V1;
port_desc.flags = (1 << IMM_SHIFT) | (1 << NOSV_SHIFT);
port_desc.link_num = adapter->hba_port_num;
if (port) {
port_desc.nv_flags = NV_TYPE_VXLAN | (1 << SOCVID_SHIFT) |
(1 << RCVID_SHIFT);
port_desc.nv_port = swab16(port);
} else {
port_desc.nv_flags = NV_TYPE_DISABLED;
port_desc.nv_port = 0;
}
return be_cmd_set_profile_config(adapter, &port_desc,
RESOURCE_DESC_SIZE_V1, 1, 1, 0);
}
int be_cmd_get_if_id(struct be_adapter *adapter, struct be_vf_cfg *vf_cfg,
int vf_num)
{
struct be_mcc_wrb *wrb;
struct be_cmd_req_get_iface_list *req;
struct be_cmd_resp_get_iface_list *resp;
int status;
spin_lock_bh(&adapter->mcc_lock);
wrb = wrb_from_mccq(adapter);
if (!wrb) {
status = -EBUSY;
goto err;
}
req = embedded_payload(wrb);
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_COMMON,
OPCODE_COMMON_GET_IFACE_LIST, sizeof(*resp),
wrb, NULL);
req->hdr.domain = vf_num + 1;
status = be_mcc_notify_wait(adapter);
if (!status) {
resp = (struct be_cmd_resp_get_iface_list *)req;
vf_cfg->if_handle = le32_to_cpu(resp->if_desc.if_id);
}
err:
spin_unlock_bh(&adapter->mcc_lock);
return status;
}
static int lancer_wait_idle(struct be_adapter *adapter)
{
#define SLIPORT_IDLE_TIMEOUT 30
u32 reg_val;
int status = 0, i;
for (i = 0; i < SLIPORT_IDLE_TIMEOUT; i++) {
reg_val = ioread32(adapter->db + PHYSDEV_CONTROL_OFFSET);
if ((reg_val & PHYSDEV_CONTROL_INP_MASK) == 0)
break;
ssleep(1);
}
if (i == SLIPORT_IDLE_TIMEOUT)
status = -1;
return status;
}
int lancer_physdev_ctrl(struct be_adapter *adapter, u32 mask)
{
int status = 0;
status = lancer_wait_idle(adapter);
if (status)
return status;
iowrite32(mask, adapter->db + PHYSDEV_CONTROL_OFFSET);
return status;
}
/* Routine to check whether dump image is present or not */
bool dump_present(struct be_adapter *adapter)
{
u32 sliport_status = 0;
sliport_status = ioread32(adapter->db + SLIPORT_STATUS_OFFSET);
return !!(sliport_status & SLIPORT_STATUS_DIP_MASK);
}
int lancer_initiate_dump(struct be_adapter *adapter)
{
struct device *dev = &adapter->pdev->dev;
int status;
if (dump_present(adapter)) {
dev_info(dev, "Previous dump not cleared, not forcing dump\n");
return -EEXIST;
}
/* give firmware reset and diagnostic dump */
status = lancer_physdev_ctrl(adapter, PHYSDEV_CONTROL_FW_RESET_MASK |
PHYSDEV_CONTROL_DD_MASK);
if (status < 0) {
dev_err(dev, "FW reset failed\n");
return status;
}
status = lancer_wait_idle(adapter);
if (status)
return status;
if (!dump_present(adapter)) {
dev_err(dev, "FW dump not generated\n");
return -EIO;
}
return 0;
}
int lancer_delete_dump(struct be_adapter *adapter)
{
int status;
status = lancer_cmd_delete_object(adapter, LANCER_FW_DUMP_FILE);
return be_cmd_status(status);
}
/* Uses sync mcc */
int be_cmd_enable_vf(struct be_adapter *adapter, u8 domain)
{
struct be_mcc_wrb *wrb;
struct be_cmd_enable_disable_vf *req;
int status;
if (BEx_chip(adapter))
return 0;
spin_lock_bh(&adapter->mcc_lock);
wrb = wrb_from_mccq(adapter);
if (!wrb) {
status = -EBUSY;
goto err;
}
req = embedded_payload(wrb);
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_COMMON,
OPCODE_COMMON_ENABLE_DISABLE_VF, sizeof(*req),
wrb, NULL);
req->hdr.domain = domain;
req->enable = 1;
status = be_mcc_notify_wait(adapter);
err:
spin_unlock_bh(&adapter->mcc_lock);
return status;
}
int be_cmd_intr_set(struct be_adapter *adapter, bool intr_enable)
{
struct be_mcc_wrb *wrb;
struct be_cmd_req_intr_set *req;
int status;
if (mutex_lock_interruptible(&adapter->mbox_lock))
return -1;
wrb = wrb_from_mbox(adapter);
req = embedded_payload(wrb);
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_COMMON,
OPCODE_COMMON_SET_INTERRUPT_ENABLE, sizeof(*req),
wrb, NULL);
req->intr_enabled = intr_enable;
status = be_mbox_notify_wait(adapter);
mutex_unlock(&adapter->mbox_lock);
return status;
}
/* Uses MBOX */
int be_cmd_get_active_profile(struct be_adapter *adapter, u16 *profile_id)
{
struct be_cmd_req_get_active_profile *req;
struct be_mcc_wrb *wrb;
int status;
if (mutex_lock_interruptible(&adapter->mbox_lock))
return -1;
wrb = wrb_from_mbox(adapter);
if (!wrb) {
status = -EBUSY;
goto err;
}
req = embedded_payload(wrb);
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_COMMON,
OPCODE_COMMON_GET_ACTIVE_PROFILE, sizeof(*req),
wrb, NULL);
status = be_mbox_notify_wait(adapter);
if (!status) {
struct be_cmd_resp_get_active_profile *resp =
embedded_payload(wrb);
*profile_id = le16_to_cpu(resp->active_profile_id);
}
err:
mutex_unlock(&adapter->mbox_lock);
return status;
}
int __be_cmd_set_logical_link_config(struct be_adapter *adapter,
int link_state, int version, u8 domain)
{
struct be_mcc_wrb *wrb;
struct be_cmd_req_set_ll_link *req;
int status;
spin_lock_bh(&adapter->mcc_lock);
wrb = wrb_from_mccq(adapter);
if (!wrb) {
status = -EBUSY;
goto err;
}
req = embedded_payload(wrb);
be_wrb_cmd_hdr_prepare(&req->hdr, CMD_SUBSYSTEM_COMMON,
OPCODE_COMMON_SET_LOGICAL_LINK_CONFIG,
sizeof(*req), wrb, NULL);
req->hdr.version = version;
req->hdr.domain = domain;
if (link_state == IFLA_VF_LINK_STATE_ENABLE ||
link_state == IFLA_VF_LINK_STATE_AUTO)
req->link_config |= PLINK_ENABLE;
if (link_state == IFLA_VF_LINK_STATE_AUTO)
req->link_config |= PLINK_TRACK;
status = be_mcc_notify_wait(adapter);
err:
spin_unlock_bh(&adapter->mcc_lock);
return status;
}
int be_cmd_set_logical_link_config(struct be_adapter *adapter,
int link_state, u8 domain)
{
int status;
if (BEx_chip(adapter))
return -EOPNOTSUPP;
status = __be_cmd_set_logical_link_config(adapter, link_state,
2, domain);
/* Version 2 of the command will not be recognized by older FW.
* On such a failure issue version 1 of the command.
*/
if (base_status(status) == MCC_STATUS_ILLEGAL_REQUEST)
status = __be_cmd_set_logical_link_config(adapter, link_state,
1, domain);
return status;
}
int be_roce_mcc_cmd(void *netdev_handle, void *wrb_payload,
int wrb_payload_size, u16 *cmd_status, u16 *ext_status)
{
struct be_adapter *adapter = netdev_priv(netdev_handle);
struct be_mcc_wrb *wrb;
struct be_cmd_req_hdr *hdr = (struct be_cmd_req_hdr *)wrb_payload;
struct be_cmd_req_hdr *req;
struct be_cmd_resp_hdr *resp;
int status;
spin_lock_bh(&adapter->mcc_lock);
wrb = wrb_from_mccq(adapter);
if (!wrb) {
status = -EBUSY;
goto err;
}
req = embedded_payload(wrb);
resp = embedded_payload(wrb);
be_wrb_cmd_hdr_prepare(req, hdr->subsystem,
hdr->opcode, wrb_payload_size, wrb, NULL);
memcpy(req, wrb_payload, wrb_payload_size);
be_dws_cpu_to_le(req, wrb_payload_size);
status = be_mcc_notify_wait(adapter);
if (cmd_status)
*cmd_status = (status & 0xffff);
if (ext_status)
*ext_status = 0;
memcpy(wrb_payload, resp, sizeof(*resp) + resp->response_length);
be_dws_le_to_cpu(wrb_payload, sizeof(*resp) + resp->response_length);
err:
spin_unlock_bh(&adapter->mcc_lock);
return status;
}
EXPORT_SYMBOL(be_roce_mcc_cmd);
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