Commit 145dd2b3 authored by Easwar Hariharan's avatar Easwar Hariharan Committed by Doug Ledford

IB/hfi1: Always turn on CDRs for low power QSFP modules

Clock and data recovery mechanisms (CDRs) in active QSFP modules
can be turned on or off to improve the bit error rate observed on
the channel. Signal integrity and bit error rate requirements require
us to always turn on any CDRs present in low power cables (power
dissipation 2.5W or lower). However, we adhere to the platform
designer's settings (provided in the platform configuration) for
higher power cables (dissipation 3.5W or higher) if the platform
designer has determined that the platform requires the CDRs to be
turned on (or off) and is capable of supplying and cooling the higher
power modules.

This patch also introduces the get_qsfp_power_class function to
centralize the bit twiddling required to determine the QSFP power class
across the code. Reusing this function improves the readability of code
that depends on knowing the power class of the cable, such as the
active and optical channel tuning algorithm.
Reviewed-by: default avatarDean Luick <dean.luick@intel.com>
Reviewed-by: default avatarDennis Dalessandro <dennis.dalessandro@intel.com>
Signed-off-by: default avatarEaswar Hariharan <easwar.hariharan@intel.com>
Signed-off-by: default avatarDoug Ledford <dledford@redhat.com>
parent e38d1e4f
...@@ -6199,18 +6199,13 @@ static void hreq_response(struct hfi1_devdata *dd, u8 return_code, u16 rsp_data) ...@@ -6199,18 +6199,13 @@ static void hreq_response(struct hfi1_devdata *dd, u8 return_code, u16 rsp_data)
/* /*
* Handle host requests from the 8051. * Handle host requests from the 8051.
*
* This is a work-queue function outside of the interrupt.
*/ */
void handle_8051_request(struct work_struct *work) static void handle_8051_request(struct hfi1_pportdata *ppd)
{ {
struct hfi1_pportdata *ppd = container_of(work, struct hfi1_pportdata,
dc_host_req_work);
struct hfi1_devdata *dd = ppd->dd; struct hfi1_devdata *dd = ppd->dd;
u64 reg; u64 reg;
u16 data = 0; u16 data = 0;
u8 type, i, lanes, *cache = ppd->qsfp_info.cache; u8 type;
u8 cdr_ctrl_byte = cache[QSFP_CDR_CTRL_BYTE_OFFS];
reg = read_csr(dd, DC_DC8051_CFG_EXT_DEV_1); reg = read_csr(dd, DC_DC8051_CFG_EXT_DEV_1);
if ((reg & DC_DC8051_CFG_EXT_DEV_1_REQ_NEW_SMASK) == 0) if ((reg & DC_DC8051_CFG_EXT_DEV_1_REQ_NEW_SMASK) == 0)
...@@ -6231,46 +6226,11 @@ void handle_8051_request(struct work_struct *work) ...@@ -6231,46 +6226,11 @@ void handle_8051_request(struct work_struct *work)
case HREQ_READ_CONFIG: case HREQ_READ_CONFIG:
case HREQ_SET_TX_EQ_ABS: case HREQ_SET_TX_EQ_ABS:
case HREQ_SET_TX_EQ_REL: case HREQ_SET_TX_EQ_REL:
case HREQ_ENABLE:
dd_dev_info(dd, "8051 request: request 0x%x not supported\n", dd_dev_info(dd, "8051 request: request 0x%x not supported\n",
type); type);
hreq_response(dd, HREQ_NOT_SUPPORTED, 0); hreq_response(dd, HREQ_NOT_SUPPORTED, 0);
break; break;
case HREQ_ENABLE:
lanes = data & 0xF;
for (i = 0; lanes; lanes >>= 1, i++) {
if (!(lanes & 1))
continue;
if (data & 0x200) {
/* enable TX CDR */
if (cache[QSFP_MOD_PWR_OFFS] & 0x8 &&
cache[QSFP_CDR_INFO_OFFS] & 0x80)
cdr_ctrl_byte |= (1 << (i + 4));
} else {
/* disable TX CDR */
if (cache[QSFP_MOD_PWR_OFFS] & 0x8 &&
cache[QSFP_CDR_INFO_OFFS] & 0x80)
cdr_ctrl_byte &= ~(1 << (i + 4));
}
if (data & 0x800) {
/* enable RX CDR */
if (cache[QSFP_MOD_PWR_OFFS] & 0x4 &&
cache[QSFP_CDR_INFO_OFFS] & 0x40)
cdr_ctrl_byte |= (1 << i);
} else {
/* disable RX CDR */
if (cache[QSFP_MOD_PWR_OFFS] & 0x4 &&
cache[QSFP_CDR_INFO_OFFS] & 0x40)
cdr_ctrl_byte &= ~(1 << i);
}
}
one_qsfp_write(ppd, dd->hfi1_id, QSFP_CDR_CTRL_BYTE_OFFS,
&cdr_ctrl_byte, 1);
hreq_response(dd, HREQ_SUCCESS, data);
refresh_qsfp_cache(ppd, &ppd->qsfp_info);
break;
case HREQ_CONFIG_DONE: case HREQ_CONFIG_DONE:
hreq_response(dd, HREQ_SUCCESS, 0); hreq_response(dd, HREQ_SUCCESS, 0);
break; break;
...@@ -6278,7 +6238,6 @@ void handle_8051_request(struct work_struct *work) ...@@ -6278,7 +6238,6 @@ void handle_8051_request(struct work_struct *work)
case HREQ_INTERFACE_TEST: case HREQ_INTERFACE_TEST:
hreq_response(dd, HREQ_SUCCESS, data); hreq_response(dd, HREQ_SUCCESS, data);
break; break;
default: default:
dd_dev_err(dd, "8051 request: unknown request 0x%x\n", type); dd_dev_err(dd, "8051 request: unknown request 0x%x\n", type);
hreq_response(dd, HREQ_NOT_SUPPORTED, 0); hreq_response(dd, HREQ_NOT_SUPPORTED, 0);
...@@ -7534,7 +7493,7 @@ static void handle_8051_interrupt(struct hfi1_devdata *dd, u32 unused, u64 reg) ...@@ -7534,7 +7493,7 @@ static void handle_8051_interrupt(struct hfi1_devdata *dd, u32 unused, u64 reg)
host_msg &= ~(u64)LINKUP_ACHIEVED; host_msg &= ~(u64)LINKUP_ACHIEVED;
} }
if (host_msg & EXT_DEVICE_CFG_REQ) { if (host_msg & EXT_DEVICE_CFG_REQ) {
queue_work(ppd->hfi1_wq, &ppd->dc_host_req_work); handle_8051_request(ppd);
host_msg &= ~(u64)EXT_DEVICE_CFG_REQ; host_msg &= ~(u64)EXT_DEVICE_CFG_REQ;
} }
if (host_msg & VERIFY_CAP_FRAME) { if (host_msg & VERIFY_CAP_FRAME) {
......
...@@ -691,7 +691,6 @@ void handle_verify_cap(struct work_struct *work); ...@@ -691,7 +691,6 @@ void handle_verify_cap(struct work_struct *work);
void handle_freeze(struct work_struct *work); void handle_freeze(struct work_struct *work);
void handle_link_up(struct work_struct *work); void handle_link_up(struct work_struct *work);
void handle_link_down(struct work_struct *work); void handle_link_down(struct work_struct *work);
void handle_8051_request(struct work_struct *work);
void handle_link_downgrade(struct work_struct *work); void handle_link_downgrade(struct work_struct *work);
void handle_link_bounce(struct work_struct *work); void handle_link_bounce(struct work_struct *work);
void handle_sma_message(struct work_struct *work); void handle_sma_message(struct work_struct *work);
......
...@@ -606,7 +606,6 @@ struct hfi1_pportdata { ...@@ -606,7 +606,6 @@ struct hfi1_pportdata {
struct work_struct link_vc_work; struct work_struct link_vc_work;
struct work_struct link_up_work; struct work_struct link_up_work;
struct work_struct link_down_work; struct work_struct link_down_work;
struct work_struct dc_host_req_work;
struct work_struct sma_message_work; struct work_struct sma_message_work;
struct work_struct freeze_work; struct work_struct freeze_work;
struct work_struct link_downgrade_work; struct work_struct link_downgrade_work;
......
...@@ -496,7 +496,6 @@ void hfi1_init_pportdata(struct pci_dev *pdev, struct hfi1_pportdata *ppd, ...@@ -496,7 +496,6 @@ void hfi1_init_pportdata(struct pci_dev *pdev, struct hfi1_pportdata *ppd,
INIT_WORK(&ppd->link_vc_work, handle_verify_cap); INIT_WORK(&ppd->link_vc_work, handle_verify_cap);
INIT_WORK(&ppd->link_up_work, handle_link_up); INIT_WORK(&ppd->link_up_work, handle_link_up);
INIT_WORK(&ppd->link_down_work, handle_link_down); INIT_WORK(&ppd->link_down_work, handle_link_down);
INIT_WORK(&ppd->dc_host_req_work, handle_8051_request);
INIT_WORK(&ppd->freeze_work, handle_freeze); INIT_WORK(&ppd->freeze_work, handle_freeze);
INIT_WORK(&ppd->link_downgrade_work, handle_link_downgrade); INIT_WORK(&ppd->link_downgrade_work, handle_link_downgrade);
INIT_WORK(&ppd->sma_message_work, handle_sma_message); INIT_WORK(&ppd->sma_message_work, handle_sma_message);
......
...@@ -114,21 +114,11 @@ static int qual_power(struct hfi1_pportdata *ppd) ...@@ -114,21 +114,11 @@ static int qual_power(struct hfi1_pportdata *ppd)
if (ret) if (ret)
return ret; return ret;
if (QSFP_HIGH_PWR(cache[QSFP_MOD_PWR_OFFS]) != 4) cable_power_class = get_qsfp_power_class(cache[QSFP_MOD_PWR_OFFS]);
cable_power_class = QSFP_HIGH_PWR(cache[QSFP_MOD_PWR_OFFS]);
else
cable_power_class = QSFP_PWR(cache[QSFP_MOD_PWR_OFFS]);
if (cable_power_class <= 3 && cable_power_class > (power_class_max - 1)) if (cable_power_class > power_class_max)
ppd->offline_disabled_reason =
HFI1_ODR_MASK(OPA_LINKDOWN_REASON_POWER_POLICY);
else if (cable_power_class > 4 && cable_power_class > (power_class_max))
ppd->offline_disabled_reason = ppd->offline_disabled_reason =
HFI1_ODR_MASK(OPA_LINKDOWN_REASON_POWER_POLICY); HFI1_ODR_MASK(OPA_LINKDOWN_REASON_POWER_POLICY);
/*
* cable_power_class will never have value 4 as this simply
* means the high power settings are unused
*/
if (ppd->offline_disabled_reason == if (ppd->offline_disabled_reason ==
HFI1_ODR_MASK(OPA_LINKDOWN_REASON_POWER_POLICY)) { HFI1_ODR_MASK(OPA_LINKDOWN_REASON_POWER_POLICY)) {
...@@ -173,12 +163,9 @@ static int set_qsfp_high_power(struct hfi1_pportdata *ppd) ...@@ -173,12 +163,9 @@ static int set_qsfp_high_power(struct hfi1_pportdata *ppd)
u8 *cache = ppd->qsfp_info.cache; u8 *cache = ppd->qsfp_info.cache;
int ret; int ret;
if (QSFP_HIGH_PWR(cache[QSFP_MOD_PWR_OFFS]) != 4) cable_power_class = get_qsfp_power_class(cache[QSFP_MOD_PWR_OFFS]);
cable_power_class = QSFP_HIGH_PWR(cache[QSFP_MOD_PWR_OFFS]);
else
cable_power_class = QSFP_PWR(cache[QSFP_MOD_PWR_OFFS]);
if (cable_power_class) { if (cable_power_class > QSFP_POWER_CLASS_1) {
power_ctrl_byte = cache[QSFP_PWR_CTRL_BYTE_OFFS]; power_ctrl_byte = cache[QSFP_PWR_CTRL_BYTE_OFFS];
power_ctrl_byte |= 1; power_ctrl_byte |= 1;
...@@ -190,8 +177,7 @@ static int set_qsfp_high_power(struct hfi1_pportdata *ppd) ...@@ -190,8 +177,7 @@ static int set_qsfp_high_power(struct hfi1_pportdata *ppd)
if (ret != 1) if (ret != 1)
return -EIO; return -EIO;
if (cable_power_class > 3) { if (cable_power_class > QSFP_POWER_CLASS_4) {
/* > power class 4*/
power_ctrl_byte |= (1 << 2); power_ctrl_byte |= (1 << 2);
ret = qsfp_write(ppd, ppd->dd->hfi1_id, ret = qsfp_write(ppd, ppd->dd->hfi1_id,
QSFP_PWR_CTRL_BYTE_OFFS, QSFP_PWR_CTRL_BYTE_OFFS,
...@@ -212,12 +198,21 @@ static void apply_rx_cdr(struct hfi1_pportdata *ppd, ...@@ -212,12 +198,21 @@ static void apply_rx_cdr(struct hfi1_pportdata *ppd,
{ {
u32 rx_preset; u32 rx_preset;
u8 *cache = ppd->qsfp_info.cache; u8 *cache = ppd->qsfp_info.cache;
int cable_power_class;
if (!((cache[QSFP_MOD_PWR_OFFS] & 0x4) && if (!((cache[QSFP_MOD_PWR_OFFS] & 0x4) &&
(cache[QSFP_CDR_INFO_OFFS] & 0x40))) (cache[QSFP_CDR_INFO_OFFS] & 0x40)))
return; return;
/* rx_preset preset to zero to catch error */ /* RX CDR present, bypass supported */
cable_power_class = get_qsfp_power_class(cache[QSFP_MOD_PWR_OFFS]);
if (cable_power_class <= QSFP_POWER_CLASS_3) {
/* Power class <= 3, ignore config & turn RX CDR on */
*cdr_ctrl_byte |= 0xF;
return;
}
get_platform_config_field( get_platform_config_field(
ppd->dd, PLATFORM_CONFIG_RX_PRESET_TABLE, ppd->dd, PLATFORM_CONFIG_RX_PRESET_TABLE,
rx_preset_index, RX_PRESET_TABLE_QSFP_RX_CDR_APPLY, rx_preset_index, RX_PRESET_TABLE_QSFP_RX_CDR_APPLY,
...@@ -250,15 +245,25 @@ static void apply_rx_cdr(struct hfi1_pportdata *ppd, ...@@ -250,15 +245,25 @@ static void apply_rx_cdr(struct hfi1_pportdata *ppd,
static void apply_tx_cdr(struct hfi1_pportdata *ppd, static void apply_tx_cdr(struct hfi1_pportdata *ppd,
u32 tx_preset_index, u32 tx_preset_index,
u8 *ctr_ctrl_byte) u8 *cdr_ctrl_byte)
{ {
u32 tx_preset; u32 tx_preset;
u8 *cache = ppd->qsfp_info.cache; u8 *cache = ppd->qsfp_info.cache;
int cable_power_class;
if (!((cache[QSFP_MOD_PWR_OFFS] & 0x8) && if (!((cache[QSFP_MOD_PWR_OFFS] & 0x8) &&
(cache[QSFP_CDR_INFO_OFFS] & 0x80))) (cache[QSFP_CDR_INFO_OFFS] & 0x80)))
return; return;
/* TX CDR present, bypass supported */
cable_power_class = get_qsfp_power_class(cache[QSFP_MOD_PWR_OFFS]);
if (cable_power_class <= QSFP_POWER_CLASS_3) {
/* Power class <= 3, ignore config & turn TX CDR on */
*cdr_ctrl_byte |= 0xF0;
return;
}
get_platform_config_field( get_platform_config_field(
ppd->dd, ppd->dd,
PLATFORM_CONFIG_TX_PRESET_TABLE, tx_preset_index, PLATFORM_CONFIG_TX_PRESET_TABLE, tx_preset_index,
...@@ -282,10 +287,10 @@ static void apply_tx_cdr(struct hfi1_pportdata *ppd, ...@@ -282,10 +287,10 @@ static void apply_tx_cdr(struct hfi1_pportdata *ppd,
(tx_preset << 2) | (tx_preset << 3)); (tx_preset << 2) | (tx_preset << 3));
if (tx_preset) if (tx_preset)
*ctr_ctrl_byte |= (tx_preset << 4); *cdr_ctrl_byte |= (tx_preset << 4);
else else
/* Preserve current/determined RX CDR status */ /* Preserve current/determined RX CDR status */
*ctr_ctrl_byte &= ((tx_preset << 4) | 0xF); *cdr_ctrl_byte &= ((tx_preset << 4) | 0xF);
} }
static void apply_cdr_settings( static void apply_cdr_settings(
......
...@@ -466,7 +466,28 @@ const char * const hfi1_qsfp_devtech[16] = { ...@@ -466,7 +466,28 @@ const char * const hfi1_qsfp_devtech[16] = {
#define QSFP_DUMP_CHUNK 16 /* Holds longest string */ #define QSFP_DUMP_CHUNK 16 /* Holds longest string */
#define QSFP_DEFAULT_HDR_CNT 224 #define QSFP_DEFAULT_HDR_CNT 224
static const char *pwr_codes = "1.5W2.0W2.5W3.5W"; #define QSFP_PWR(pbyte) (((pbyte) >> 6) & 3)
#define QSFP_HIGH_PWR(pbyte) ((pbyte) & 3)
/* For use with QSFP_HIGH_PWR macro */
#define QSFP_HIGH_PWR_UNUSED 0 /* Bits [1:0] = 00 implies low power module */
/*
* Takes power class byte [Page 00 Byte 129] in SFF 8636
* Returns power class as integer (1 through 7, per SFF 8636 rev 2.4)
*/
int get_qsfp_power_class(u8 power_byte)
{
if (QSFP_HIGH_PWR(power_byte) == QSFP_HIGH_PWR_UNUSED)
/* power classes count from 1, their bit encodings from 0 */
return (QSFP_PWR(power_byte) + 1);
/*
* 00 in the high power classes stands for unused, bringing
* balance to the off-by-1 offset above, we add 4 here to
* account for the difference between the low and high power
* groups
*/
return (QSFP_HIGH_PWR(power_byte) + 4);
}
int qsfp_mod_present(struct hfi1_pportdata *ppd) int qsfp_mod_present(struct hfi1_pportdata *ppd)
{ {
...@@ -537,6 +558,16 @@ int get_cable_info(struct hfi1_devdata *dd, u32 port_num, u32 addr, u32 len, ...@@ -537,6 +558,16 @@ int get_cable_info(struct hfi1_devdata *dd, u32 port_num, u32 addr, u32 len,
return ret; return ret;
} }
static const char *pwr_codes[8] = {"N/AW",
"1.5W",
"2.0W",
"2.5W",
"3.5W",
"4.0W",
"4.5W",
"5.0W"
};
int qsfp_dump(struct hfi1_pportdata *ppd, char *buf, int len) int qsfp_dump(struct hfi1_pportdata *ppd, char *buf, int len)
{ {
u8 *cache = &ppd->qsfp_info.cache[0]; u8 *cache = &ppd->qsfp_info.cache[0];
...@@ -546,6 +577,7 @@ int qsfp_dump(struct hfi1_pportdata *ppd, char *buf, int len) ...@@ -546,6 +577,7 @@ int qsfp_dump(struct hfi1_pportdata *ppd, char *buf, int len)
int bidx = 0; int bidx = 0;
u8 *atten = &cache[QSFP_ATTEN_OFFS]; u8 *atten = &cache[QSFP_ATTEN_OFFS];
u8 *vendor_oui = &cache[QSFP_VOUI_OFFS]; u8 *vendor_oui = &cache[QSFP_VOUI_OFFS];
u8 power_byte = 0;
sofar = 0; sofar = 0;
lenstr[0] = ' '; lenstr[0] = ' ';
...@@ -555,9 +587,9 @@ int qsfp_dump(struct hfi1_pportdata *ppd, char *buf, int len) ...@@ -555,9 +587,9 @@ int qsfp_dump(struct hfi1_pportdata *ppd, char *buf, int len)
if (QSFP_IS_CU(cache[QSFP_MOD_TECH_OFFS])) if (QSFP_IS_CU(cache[QSFP_MOD_TECH_OFFS]))
sprintf(lenstr, "%dM ", cache[QSFP_MOD_LEN_OFFS]); sprintf(lenstr, "%dM ", cache[QSFP_MOD_LEN_OFFS]);
power_byte = cache[QSFP_MOD_PWR_OFFS];
sofar += scnprintf(buf + sofar, len - sofar, "PWR:%.3sW\n", sofar += scnprintf(buf + sofar, len - sofar, "PWR:%.3sW\n",
pwr_codes + pwr_codes[get_qsfp_power_class(power_byte)]);
(QSFP_PWR(cache[QSFP_MOD_PWR_OFFS]) * 4));
sofar += scnprintf(buf + sofar, len - sofar, "TECH:%s%s\n", sofar += scnprintf(buf + sofar, len - sofar, "TECH:%s%s\n",
lenstr, lenstr,
......
...@@ -82,8 +82,9 @@ ...@@ -82,8 +82,9 @@
/* Byte 128 is Identifier: must be 0x0c for QSFP, or 0x0d for QSFP+ */ /* Byte 128 is Identifier: must be 0x0c for QSFP, or 0x0d for QSFP+ */
#define QSFP_MOD_ID_OFFS 128 #define QSFP_MOD_ID_OFFS 128
/* /*
* Byte 129 is "Extended Identifier". We only care about D7,D6: Power class * Byte 129 is "Extended Identifier".
* 0:1.5W, 1:2.0W, 2:2.5W, 3:3.5W * For bits [7:6]: 0:1.5W, 1:2.0W, 2:2.5W, 3:3.5W
* For bits [1:0]: 0:Unused, 1:4W, 2:4.5W, 3:5W
*/ */
#define QSFP_MOD_PWR_OFFS 129 #define QSFP_MOD_PWR_OFFS 129
/* Byte 130 is Connector type. Not Intel req'd */ /* Byte 130 is Connector type. Not Intel req'd */
...@@ -190,6 +191,9 @@ extern const char *const hfi1_qsfp_devtech[16]; ...@@ -190,6 +191,9 @@ extern const char *const hfi1_qsfp_devtech[16];
#define QSFP_HIGH_BIAS_WARNING 0x22 #define QSFP_HIGH_BIAS_WARNING 0x22
#define QSFP_LOW_BIAS_WARNING 0x11 #define QSFP_LOW_BIAS_WARNING 0x11
#define QSFP_ATTEN_SDR(attenarray) (attenarray[0])
#define QSFP_ATTEN_DDR(attenarray) (attenarray[1])
/* /*
* struct qsfp_data encapsulates state of QSFP device for one port. * struct qsfp_data encapsulates state of QSFP device for one port.
* it will be part of port-specific data if a board supports QSFP. * it will be part of port-specific data if a board supports QSFP.
...@@ -201,12 +205,6 @@ extern const char *const hfi1_qsfp_devtech[16]; ...@@ -201,12 +205,6 @@ extern const char *const hfi1_qsfp_devtech[16];
* and let the qsfp_lock arbitrate access to common resources. * and let the qsfp_lock arbitrate access to common resources.
* *
*/ */
#define QSFP_PWR(pbyte) (((pbyte) >> 6) & 3)
#define QSFP_HIGH_PWR(pbyte) (((pbyte) & 3) | 4)
#define QSFP_ATTEN_SDR(attenarray) (attenarray[0])
#define QSFP_ATTEN_DDR(attenarray) (attenarray[1])
struct qsfp_data { struct qsfp_data {
/* Helps to find our way */ /* Helps to find our way */
struct hfi1_pportdata *ppd; struct hfi1_pportdata *ppd;
...@@ -223,6 +221,7 @@ struct qsfp_data { ...@@ -223,6 +221,7 @@ struct qsfp_data {
int refresh_qsfp_cache(struct hfi1_pportdata *ppd, int refresh_qsfp_cache(struct hfi1_pportdata *ppd,
struct qsfp_data *cp); struct qsfp_data *cp);
int get_qsfp_power_class(u8 power_byte);
int qsfp_mod_present(struct hfi1_pportdata *ppd); int qsfp_mod_present(struct hfi1_pportdata *ppd);
int get_cable_info(struct hfi1_devdata *dd, u32 port_num, u32 addr, int get_cable_info(struct hfi1_devdata *dd, u32 port_num, u32 addr,
u32 len, u8 *data); u32 len, u8 *data);
......
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