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|
/**
* Description:
*
* This module adds CMIS support to ethtool. The changes are similar to
* the ones already existing in qsfp.c, but customized to use the memory
* addresses and logic as defined in the specification's document.
*
*/
#include <stdio.h>
#include <math.h>
#include <errno.h>
#include "internal.h"
#include "sff-common.h"
#include "cmis.h"
#include "netlink/extapi.h"
/* The maximum number of supported Banks. Relevant documents:
* [1] CMIS Rev. 5, page. 128, section 8.4.4, Table 8-40
*/
#define CMIS_MAX_BANKS 4
#define CMIS_CHANNELS_PER_BANK 8
#define CMIS_MAX_CHANNEL_NUM (CMIS_MAX_BANKS * CMIS_CHANNELS_PER_BANK)
/* We are not parsing further than Page 11h. */
#define CMIS_MAX_PAGES 18
struct cmis_memory_map {
const __u8 *lower_memory;
const __u8 *upper_memory[CMIS_MAX_BANKS][CMIS_MAX_PAGES];
#define page_00h upper_memory[0x0][0x0]
#define page_01h upper_memory[0x0][0x1]
#define page_02h upper_memory[0x0][0x2]
};
#define CMIS_PAGE_SIZE 0x80
#define CMIS_I2C_ADDRESS 0x50
static struct {
const char *str;
int offset;
__u8 value; /* Alarm is on if (offset & value) != 0. */
} cmis_aw_mod_flags[] = {
{ "Module temperature high alarm",
CMIS_TEMP_AW_OFFSET, CMIS_TEMP_HALARM_STATUS },
{ "Module temperature low alarm",
CMIS_TEMP_AW_OFFSET, CMIS_TEMP_LALARM_STATUS },
{ "Module temperature high warning",
CMIS_TEMP_AW_OFFSET, CMIS_TEMP_HWARN_STATUS },
{ "Module temperature low warning",
CMIS_TEMP_AW_OFFSET, CMIS_TEMP_LWARN_STATUS },
{ "Module voltage high alarm",
CMIS_VCC_AW_OFFSET, CMIS_VCC_HALARM_STATUS },
{ "Module voltage low alarm",
CMIS_VCC_AW_OFFSET, CMIS_VCC_LALARM_STATUS },
{ "Module voltage high warning",
CMIS_VCC_AW_OFFSET, CMIS_VCC_HWARN_STATUS },
{ "Module voltage low warning",
CMIS_VCC_AW_OFFSET, CMIS_VCC_LWARN_STATUS },
{ NULL, 0, 0 },
};
static struct {
const char *fmt_str;
int offset;
int adver_offset; /* In Page 01h. */
__u8 adver_value; /* Supported if (offset & value) != 0. */
} cmis_aw_chan_flags[] = {
{ "Laser bias current high alarm (Chan %d)",
CMIS_TX_BIAS_AW_HALARM_OFFSET,
CMIS_DIAG_CHAN_ADVER_OFFSET, CMIS_TX_BIAS_MON_MASK },
{ "Laser bias current low alarm (Chan %d)",
CMIS_TX_BIAS_AW_LALARM_OFFSET,
CMIS_DIAG_CHAN_ADVER_OFFSET, CMIS_TX_BIAS_MON_MASK },
{ "Laser bias current high warning (Chan %d)",
CMIS_TX_BIAS_AW_HWARN_OFFSET,
CMIS_DIAG_CHAN_ADVER_OFFSET, CMIS_TX_BIAS_MON_MASK },
{ "Laser bias current low warning (Chan %d)",
CMIS_TX_BIAS_AW_LWARN_OFFSET,
CMIS_DIAG_CHAN_ADVER_OFFSET, CMIS_TX_BIAS_MON_MASK },
{ "Laser tx power high alarm (Channel %d)",
CMIS_TX_PWR_AW_HALARM_OFFSET,
CMIS_DIAG_CHAN_ADVER_OFFSET, CMIS_TX_PWR_MON_MASK },
{ "Laser tx power low alarm (Channel %d)",
CMIS_TX_PWR_AW_LALARM_OFFSET,
CMIS_DIAG_CHAN_ADVER_OFFSET, CMIS_TX_PWR_MON_MASK },
{ "Laser tx power high warning (Channel %d)",
CMIS_TX_PWR_AW_HWARN_OFFSET,
CMIS_DIAG_CHAN_ADVER_OFFSET, CMIS_TX_PWR_MON_MASK },
{ "Laser tx power low warning (Channel %d)",
CMIS_TX_PWR_AW_LWARN_OFFSET,
CMIS_DIAG_CHAN_ADVER_OFFSET, CMIS_TX_PWR_MON_MASK },
{ "Laser rx power high alarm (Channel %d)",
CMIS_RX_PWR_AW_HALARM_OFFSET,
CMIS_DIAG_CHAN_ADVER_OFFSET, CMIS_RX_PWR_MON_MASK },
{ "Laser rx power low alarm (Channel %d)",
CMIS_RX_PWR_AW_LALARM_OFFSET,
CMIS_DIAG_CHAN_ADVER_OFFSET, CMIS_RX_PWR_MON_MASK },
{ "Laser rx power high warning (Channel %d)",
CMIS_RX_PWR_AW_HWARN_OFFSET,
CMIS_DIAG_CHAN_ADVER_OFFSET, CMIS_RX_PWR_MON_MASK },
{ "Laser rx power low warning (Channel %d)",
CMIS_RX_PWR_AW_LWARN_OFFSET,
CMIS_DIAG_CHAN_ADVER_OFFSET, CMIS_RX_PWR_MON_MASK },
{ NULL, 0, 0, 0 },
};
static void cmis_show_identifier(const struct cmis_memory_map *map)
{
sff8024_show_identifier(map->lower_memory, CMIS_ID_OFFSET);
}
static void cmis_show_connector(const struct cmis_memory_map *map)
{
sff8024_show_connector(map->page_00h, CMIS_CTOR_OFFSET);
}
static void cmis_show_oui(const struct cmis_memory_map *map)
{
sff8024_show_oui(map->page_00h, CMIS_VENDOR_OUI_OFFSET);
}
/**
* Print the revision compliance. Relevant documents:
* [1] CMIS Rev. 3, pag. 45, section 1.7.2.1, Table 18
* [2] CMIS Rev. 4, pag. 81, section 8.2.1, Table 8-2
*/
static void cmis_show_rev_compliance(const struct cmis_memory_map *map)
{
__u8 rev = map->lower_memory[CMIS_REV_COMPLIANCE_OFFSET];
int major = (rev >> 4) & 0x0F;
int minor = rev & 0x0F;
printf("\t%-41s : Rev. %d.%d\n", "Revision compliance", major, minor);
}
static void
cmis_show_signals_one(const struct cmis_memory_map *map, const char *name,
int off, int ioff, unsigned int imask)
{
unsigned int v;
int i;
if (!map->page_01h)
return;
v = 0;
for (i = 0; i < CMIS_MAX_BANKS && map->upper_memory[i][0x11]; i++)
v |= map->upper_memory[i][0x11][off] << (i * 8);
if (map->page_01h[ioff] & imask)
sff_show_lane_status(name, i * 8, "Yes", "No", v);
}
static void cmis_show_signals(const struct cmis_memory_map *map)
{
cmis_show_signals_one(map, "Rx loss of signal", CMIS_RX_LOS_OFFSET,
CMIS_DIAG_FLAGS_RX_OFFSET, CMIS_DIAG_FL_RX_LOS);
cmis_show_signals_one(map, "Tx loss of signal", CMIS_TX_LOS_OFFSET,
CMIS_DIAG_FLAGS_TX_OFFSET, CMIS_DIAG_FL_TX_LOS);
cmis_show_signals_one(map, "Rx loss of lock", CMIS_RX_LOL_OFFSET,
CMIS_DIAG_FLAGS_RX_OFFSET, CMIS_DIAG_FL_RX_LOL);
cmis_show_signals_one(map, "Tx loss of lock", CMIS_TX_LOL_OFFSET,
CMIS_DIAG_FLAGS_TX_OFFSET, CMIS_DIAG_FL_TX_LOL);
cmis_show_signals_one(map, "Tx fault", CMIS_TX_FAIL_OFFSET,
CMIS_DIAG_FLAGS_TX_OFFSET, CMIS_DIAG_FL_TX_FAIL);
cmis_show_signals_one(map, "Tx adaptive eq fault",
CMIS_TX_EQ_FAIL_OFFSET, CMIS_DIAG_FLAGS_TX_OFFSET,
CMIS_DIAG_FL_TX_ADAPTIVE_EQ_FAIL);
}
/**
* Print information about the device's power consumption.
* Relevant documents:
* [1] CMIS Rev. 3, pag. 59, section 1.7.3.9, Table 30
* [2] CMIS Rev. 4, pag. 94, section 8.3.9, Table 8-18
* [3] QSFP-DD Hardware Rev 5.0, pag. 22, section 4.2.1
*/
static void cmis_show_power_info(const struct cmis_memory_map *map)
{
float max_power = 0.0f;
__u8 base_power = 0;
__u8 power_class;
/* Get the power class (first 3 most significat bytes) */
power_class = (map->page_00h[CMIS_PWR_CLASS_OFFSET] >> 5) & 0x07;
/* Get the base power in multiples of 0.25W */
base_power = map->page_00h[CMIS_PWR_MAX_POWER_OFFSET];
max_power = base_power * 0.25f;
printf("\t%-41s : %d\n", "Power class", power_class + 1);
printf("\t%-41s : %.02fW\n", "Max power", max_power);
}
/**
* Print the cable assembly length, for both passive copper and active
* optical or electrical cables. The base length (bits 5-0) must be
* multiplied with the SMF length multiplier (bits 7-6) to obtain the
* correct value. Relevant documents:
* [1] CMIS Rev. 3, pag. 59, section 1.7.3.10, Table 31
* [2] CMIS Rev. 4, pag. 94, section 8.3.10, Table 8-19
*/
static void cmis_show_cbl_asm_len(const struct cmis_memory_map *map)
{
static const char *fn = "Cable assembly length";
float mul = 1.0f;
float val = 0.0f;
/* Check if max length */
if (map->page_00h[CMIS_CBL_ASM_LEN_OFFSET] == CMIS_6300M_MAX_LEN) {
printf("\t%-41s : > 6.3km\n", fn);
return;
}
/* Get the multiplier from the first two bits */
switch (map->page_00h[CMIS_CBL_ASM_LEN_OFFSET] & CMIS_LEN_MUL_MASK) {
case CMIS_MULTIPLIER_00:
mul = 0.1f;
break;
case CMIS_MULTIPLIER_01:
mul = 1.0f;
break;
case CMIS_MULTIPLIER_10:
mul = 10.0f;
break;
case CMIS_MULTIPLIER_11:
mul = 100.0f;
break;
default:
break;
}
/* Get base value from first 6 bits and multiply by mul */
val = (map->page_00h[CMIS_CBL_ASM_LEN_OFFSET] & CMIS_LEN_VAL_MASK);
val = (float)val * mul;
printf("\t%-41s : %0.2fm\n", fn, val);
}
/**
* Print the length for SMF fiber. The base length (bits 5-0) must be
* multiplied with the SMF length multiplier (bits 7-6) to obtain the
* correct value. Relevant documents:
* [1] CMIS Rev. 3, pag. 63, section 1.7.4.2, Table 39
* [2] CMIS Rev. 4, pag. 99, section 8.4.2, Table 8-27
*/
static void cmis_print_smf_cbl_len(const struct cmis_memory_map *map)
{
static const char *fn = "Length (SMF)";
float mul = 1.0f;
float val = 0.0f;
if (!map->page_01h)
return;
/* Get the multiplier from the first two bits */
switch (map->page_01h[CMIS_SMF_LEN_OFFSET] & CMIS_LEN_MUL_MASK) {
case CMIS_MULTIPLIER_00:
mul = 0.1f;
break;
case CMIS_MULTIPLIER_01:
mul = 1.0f;
break;
default:
break;
}
/* Get base value from first 6 bits and multiply by mul */
val = (map->page_01h[CMIS_SMF_LEN_OFFSET] & CMIS_LEN_VAL_MASK);
val = (float)val * mul;
printf("\t%-41s : %0.2fkm\n", fn, val);
}
/**
* Print relevant signal integrity control properties. Relevant documents:
* [1] CMIS Rev. 3, pag. 71, section 1.7.4.10, Table 46
* [2] CMIS Rev. 4, pag. 105, section 8.4.10, Table 8-34
*/
static void cmis_show_sig_integrity(const struct cmis_memory_map *map)
{
if (!map->page_01h)
return;
/* CDR Bypass control: 2nd bit from each byte */
printf("\t%-41s : ", "Tx CDR bypass control");
printf("%s\n", YESNO(map->page_01h[CMIS_SIG_INTEG_TX_OFFSET] & 0x02));
printf("\t%-41s : ", "Rx CDR bypass control");
printf("%s\n", YESNO(map->page_01h[CMIS_SIG_INTEG_RX_OFFSET] & 0x02));
/* CDR Implementation: 1st bit from each byte */
printf("\t%-41s : ", "Tx CDR");
printf("%s\n", YESNO(map->page_01h[CMIS_SIG_INTEG_TX_OFFSET] & 0x01));
printf("\t%-41s : ", "Rx CDR");
printf("%s\n", YESNO(map->page_01h[CMIS_SIG_INTEG_RX_OFFSET] & 0x01));
}
/**
* Print relevant media interface technology info. Relevant documents:
* [1] CMIS Rev. 3
* --> pag. 61, section 1.7.3.14, Table 36
* --> pag. 64, section 1.7.4.3, 1.7.4.4
* [2] CMIS Rev. 4
* --> pag. 97, section 8.3.14, Table 8-24
* --> pag. 98, section 8.4, Table 8-25
* --> page 100, section 8.4.3, 8.4.4
*/
static void cmis_show_mit_compliance(const struct cmis_memory_map *map)
{
static const char *cc = " (Copper cable,";
printf("\t%-41s : 0x%02x", "Transmitter technology",
map->page_00h[CMIS_MEDIA_INTF_TECH_OFFSET]);
switch (map->page_00h[CMIS_MEDIA_INTF_TECH_OFFSET]) {
case CMIS_850_VCSEL:
printf(" (850 nm VCSEL)\n");
break;
case CMIS_1310_VCSEL:
printf(" (1310 nm VCSEL)\n");
break;
case CMIS_1550_VCSEL:
printf(" (1550 nm VCSEL)\n");
break;
case CMIS_1310_FP:
printf(" (1310 nm FP)\n");
break;
case CMIS_1310_DFB:
printf(" (1310 nm DFB)\n");
break;
case CMIS_1550_DFB:
printf(" (1550 nm DFB)\n");
break;
case CMIS_1310_EML:
printf(" (1310 nm EML)\n");
break;
case CMIS_1550_EML:
printf(" (1550 nm EML)\n");
break;
case CMIS_OTHERS:
printf(" (Others/Undefined)\n");
break;
case CMIS_1490_DFB:
printf(" (1490 nm DFB)\n");
break;
case CMIS_COPPER_UNEQUAL:
printf("%s unequalized)\n", cc);
break;
case CMIS_COPPER_PASS_EQUAL:
printf("%s passive equalized)\n", cc);
break;
case CMIS_COPPER_NF_EQUAL:
printf("%s near and far end limiting active equalizers)\n", cc);
break;
case CMIS_COPPER_F_EQUAL:
printf("%s far end limiting active equalizers)\n", cc);
break;
case CMIS_COPPER_N_EQUAL:
printf("%s near end limiting active equalizers)\n", cc);
break;
case CMIS_COPPER_LINEAR_EQUAL:
printf("%s linear active equalizers)\n", cc);
break;
}
if (map->page_00h[CMIS_MEDIA_INTF_TECH_OFFSET] >= CMIS_COPPER_UNEQUAL) {
printf("\t%-41s : %udb\n", "Attenuation at 5GHz",
map->page_00h[CMIS_COPPER_ATT_5GHZ]);
printf("\t%-41s : %udb\n", "Attenuation at 7GHz",
map->page_00h[CMIS_COPPER_ATT_7GHZ]);
printf("\t%-41s : %udb\n", "Attenuation at 12.9GHz",
map->page_00h[CMIS_COPPER_ATT_12P9GHZ]);
printf("\t%-41s : %udb\n", "Attenuation at 25.8GHz",
map->page_00h[CMIS_COPPER_ATT_25P8GHZ]);
} else if (map->page_01h) {
printf("\t%-41s : %.3lfnm\n", "Laser wavelength",
(((map->page_01h[CMIS_NOM_WAVELENGTH_MSB] << 8) |
map->page_01h[CMIS_NOM_WAVELENGTH_LSB]) * 0.05));
printf("\t%-41s : %.3lfnm\n", "Laser wavelength tolerance",
(((map->page_01h[CMIS_WAVELENGTH_TOL_MSB] << 8) |
map->page_01h[CMIS_WAVELENGTH_TOL_LSB]) * 0.005));
}
}
/**
* Print relevant info about the maximum supported fiber media length
* for each type of fiber media at the maximum module-supported bit rate.
* Relevant documents:
* [1] CMIS Rev. 3, page 64, section 1.7.4.2, Table 39
* [2] CMIS Rev. 4, page 99, section 8.4.2, Table 8-27
*/
static void cmis_show_link_len(const struct cmis_memory_map *map)
{
cmis_print_smf_cbl_len(map);
if (!map->page_01h)
return;
sff_show_value_with_unit(map->page_01h, CMIS_OM5_LEN_OFFSET,
"Length (OM5)", 2, "m");
sff_show_value_with_unit(map->page_01h, CMIS_OM4_LEN_OFFSET,
"Length (OM4)", 2, "m");
sff_show_value_with_unit(map->page_01h, CMIS_OM3_LEN_OFFSET,
"Length (OM3 50/125um)", 2, "m");
sff_show_value_with_unit(map->page_01h, CMIS_OM2_LEN_OFFSET,
"Length (OM2 50/125um)", 1, "m");
}
/**
* Show relevant information about the vendor. Relevant documents:
* [1] CMIS Rev. 3, page 56, section 1.7.3, Table 27
* [2] CMIS Rev. 4, page 91, section 8.2, Table 8-15
*/
static void cmis_show_vendor_info(const struct cmis_memory_map *map)
{
const char *clei;
sff_show_ascii(map->page_00h, CMIS_VENDOR_NAME_START_OFFSET,
CMIS_VENDOR_NAME_END_OFFSET, "Vendor name");
cmis_show_oui(map);
sff_show_ascii(map->page_00h, CMIS_VENDOR_PN_START_OFFSET,
CMIS_VENDOR_PN_END_OFFSET, "Vendor PN");
sff_show_ascii(map->page_00h, CMIS_VENDOR_REV_START_OFFSET,
CMIS_VENDOR_REV_END_OFFSET, "Vendor rev");
sff_show_ascii(map->page_00h, CMIS_VENDOR_SN_START_OFFSET,
CMIS_VENDOR_SN_END_OFFSET, "Vendor SN");
sff_show_ascii(map->page_00h, CMIS_DATE_YEAR_OFFSET,
CMIS_DATE_VENDOR_LOT_OFFSET + 1, "Date code");
clei = (const char *)(map->page_00h + CMIS_CLEI_START_OFFSET);
if (*clei && strncmp(clei, CMIS_CLEI_BLANK, CMIS_CLEI_LEN))
sff_show_ascii(map->page_00h, CMIS_CLEI_START_OFFSET,
CMIS_CLEI_END_OFFSET, "CLEI code");
}
/* Print the current Module State. Relevant documents:
* [1] CMIS Rev. 5, pag. 57, section 6.3.2.2, Figure 6-3
* [2] CMIS Rev. 5, pag. 60, section 6.3.2.3, Figure 6-4
* [3] CMIS Rev. 5, pag. 107, section 8.2.2, Table 8-6
*/
static void cmis_show_mod_state(const struct cmis_memory_map *map)
{
__u8 mod_state;
mod_state = (map->lower_memory[CMIS_MODULE_STATE_OFFSET] &
CMIS_MODULE_STATE_MASK) >> 1;
printf("\t%-41s : 0x%02x", "Module State", mod_state);
switch (mod_state) {
case CMIS_MODULE_STATE_MODULE_LOW_PWR:
printf(" (ModuleLowPwr)\n");
break;
case CMIS_MODULE_STATE_MODULE_PWR_UP:
printf(" (ModulePwrUp)\n");
break;
case CMIS_MODULE_STATE_MODULE_READY:
printf(" (ModuleReady)\n");
break;
case CMIS_MODULE_STATE_MODULE_PWR_DN:
printf(" (ModulePwrDn)\n");
break;
case CMIS_MODULE_STATE_MODULE_FAULT:
printf(" (ModuleFault)\n");
break;
default:
printf(" (reserved or unknown)\n");
break;
}
}
/* Print the Module Fault Information. Relevant documents:
* [1] CMIS Rev. 5, pag. 64, section 6.3.2.12
* [2] CMIS Rev. 5, pag. 115, section 8.2.10, Table 8-15
*/
static void cmis_show_mod_fault_cause(const struct cmis_memory_map *map)
{
__u8 mod_state, fault_cause;
mod_state = (map->lower_memory[CMIS_MODULE_STATE_OFFSET] &
CMIS_MODULE_STATE_MASK) >> 1;
if (mod_state != CMIS_MODULE_STATE_MODULE_FAULT)
return;
fault_cause = map->lower_memory[CMIS_MODULE_FAULT_OFFSET];
printf("\t%-41s : 0x%02x", "Module Fault Cause", fault_cause);
switch (fault_cause) {
case CMIS_MODULE_FAULT_NO_FAULT:
printf(" (No fault detected / not supported)\n");
break;
case CMIS_MODULE_FAULT_TEC_RUNAWAY:
printf(" (TEC runaway)\n");
break;
case CMIS_MODULE_FAULT_DATA_MEM_CORRUPTED:
printf(" (Data memory corrupted)\n");
break;
case CMIS_MODULE_FAULT_PROG_MEM_CORRUPTED:
printf(" (Program memory corrupted)\n");
break;
default:
printf(" (reserved or unknown)\n");
break;
}
}
/* Print the current Module-Level Controls. Relevant documents:
* [1] CMIS Rev. 5, pag. 58, section 6.3.2.2, Table 6-12
* [2] CMIS Rev. 5, pag. 111, section 8.2.6, Table 8-10
*/
static void cmis_show_mod_lvl_controls(const struct cmis_memory_map *map)
{
printf("\t%-41s : ", "LowPwrAllowRequestHW");
printf("%s\n", ONOFF(map->lower_memory[CMIS_MODULE_CONTROL_OFFSET] &
CMIS_LOW_PWR_ALLOW_REQUEST_HW_MASK));
printf("\t%-41s : ", "LowPwrRequestSW");
printf("%s\n", ONOFF(map->lower_memory[CMIS_MODULE_CONTROL_OFFSET] &
CMIS_LOW_PWR_REQUEST_SW_MASK));
}
static void cmis_parse_dom_power_type(const struct cmis_memory_map *map,
struct sff_diags *sd)
{
sd->rx_power_type = map->page_01h[CMIS_DIAG_TYPE_OFFSET] &
CMIS_RX_PWR_TYPE_MASK;
sd->tx_power_type = map->page_01h[CMIS_DIAG_CHAN_ADVER_OFFSET] &
CMIS_TX_PWR_MON_MASK;
}
static void cmis_parse_dom_mod_lvl_monitors(const struct cmis_memory_map *map,
struct sff_diags *sd)
{
sd->sfp_voltage[MCURR] = OFFSET_TO_U16_PTR(map->lower_memory,
CMIS_CURR_VCC_OFFSET);
sd->sfp_temp[MCURR] = (__s16)OFFSET_TO_U16_PTR(map->lower_memory,
CMIS_CURR_TEMP_OFFSET);
}
static void cmis_parse_dom_mod_lvl_thresh(const struct cmis_memory_map *map,
struct sff_diags *sd)
{
/* Page is not present in IOCTL path. */
if (!map->page_02h)
return;
sd->supports_alarms = 1;
sd->sfp_voltage[HALRM] = OFFSET_TO_U16_PTR(map->page_02h,
CMIS_VCC_HALRM_OFFSET);
sd->sfp_voltage[LALRM] = OFFSET_TO_U16_PTR(map->page_02h,
CMIS_VCC_LALRM_OFFSET);
sd->sfp_voltage[HWARN] = OFFSET_TO_U16_PTR(map->page_02h,
CMIS_VCC_HWARN_OFFSET);
sd->sfp_voltage[LWARN] = OFFSET_TO_U16_PTR(map->page_02h,
CMIS_VCC_LWARN_OFFSET);
sd->sfp_temp[HALRM] = (__s16)OFFSET_TO_U16_PTR(map->page_02h,
CMIS_TEMP_HALRM_OFFSET);
sd->sfp_temp[LALRM] = (__s16)OFFSET_TO_U16_PTR(map->page_02h,
CMIS_TEMP_LALRM_OFFSET);
sd->sfp_temp[HWARN] = (__s16)OFFSET_TO_U16_PTR(map->page_02h,
CMIS_TEMP_HWARN_OFFSET);
sd->sfp_temp[LWARN] = (__s16)OFFSET_TO_U16_PTR(map->page_02h,
CMIS_TEMP_LWARN_OFFSET);
}
static __u8 cmis_tx_bias_mul(const struct cmis_memory_map *map)
{
switch (map->page_01h[CMIS_DIAG_CHAN_ADVER_OFFSET] &
CMIS_TX_BIAS_MUL_MASK) {
case CMIS_TX_BIAS_MUL_1:
return 0;
case CMIS_TX_BIAS_MUL_2:
return 1;
case CMIS_TX_BIAS_MUL_4:
return 2;
}
return 0;
}
static void
cmis_parse_dom_chan_lvl_monitors_bank(const struct cmis_memory_map *map,
struct sff_diags *sd, int bank)
{
const __u8 *page_11h = map->upper_memory[bank][0x11];
int i;
if (!page_11h)
return;
for (i = 0; i < CMIS_CHANNELS_PER_BANK; i++) {
__u8 tx_bias_offset, rx_power_offset, tx_power_offset;
int chan = bank * CMIS_CHANNELS_PER_BANK + i;
__u8 bias_mul = cmis_tx_bias_mul(map);
tx_bias_offset = CMIS_TX_BIAS_OFFSET + i * sizeof(__u16);
rx_power_offset = CMIS_RX_PWR_OFFSET + i * sizeof(__u16);
tx_power_offset = CMIS_TX_PWR_OFFSET + i * sizeof(__u16);
sd->scd[chan].bias_cur = OFFSET_TO_U16_PTR(page_11h,
tx_bias_offset);
sd->scd[chan].bias_cur >>= bias_mul;
sd->scd[chan].rx_power = OFFSET_TO_U16_PTR(page_11h,
rx_power_offset);
sd->scd[chan].tx_power = OFFSET_TO_U16_PTR(page_11h,
tx_power_offset);
}
}
static void cmis_parse_dom_chan_lvl_monitors(const struct cmis_memory_map *map,
struct sff_diags *sd)
{
int i;
for (i = 0; i < CMIS_MAX_BANKS; i++)
cmis_parse_dom_chan_lvl_monitors_bank(map, sd, i);
}
static void cmis_parse_dom_chan_lvl_thresh(const struct cmis_memory_map *map,
struct sff_diags *sd)
{
__u8 bias_mul = cmis_tx_bias_mul(map);
if (!map->page_02h)
return;
sd->bias_cur[HALRM] = OFFSET_TO_U16_PTR(map->page_02h,
CMIS_TX_BIAS_HALRM_OFFSET);
sd->bias_cur[HALRM] >>= bias_mul;
sd->bias_cur[LALRM] = OFFSET_TO_U16_PTR(map->page_02h,
CMIS_TX_BIAS_LALRM_OFFSET);
sd->bias_cur[LALRM] >>= bias_mul;
sd->bias_cur[HWARN] = OFFSET_TO_U16_PTR(map->page_02h,
CMIS_TX_BIAS_HWARN_OFFSET);
sd->bias_cur[HWARN] >>= bias_mul;
sd->bias_cur[LWARN] = OFFSET_TO_U16_PTR(map->page_02h,
CMIS_TX_BIAS_LWARN_OFFSET);
sd->bias_cur[LWARN] >>= bias_mul;
sd->tx_power[HALRM] = OFFSET_TO_U16_PTR(map->page_02h,
CMIS_TX_PWR_HALRM_OFFSET);
sd->tx_power[LALRM] = OFFSET_TO_U16_PTR(map->page_02h,
CMIS_TX_PWR_LALRM_OFFSET);
sd->tx_power[HWARN] = OFFSET_TO_U16_PTR(map->page_02h,
CMIS_TX_PWR_HWARN_OFFSET);
sd->tx_power[LWARN] = OFFSET_TO_U16_PTR(map->page_02h,
CMIS_TX_PWR_LWARN_OFFSET);
sd->rx_power[HALRM] = OFFSET_TO_U16_PTR(map->page_02h,
CMIS_RX_PWR_HALRM_OFFSET);
sd->rx_power[LALRM] = OFFSET_TO_U16_PTR(map->page_02h,
CMIS_RX_PWR_LALRM_OFFSET);
sd->rx_power[HWARN] = OFFSET_TO_U16_PTR(map->page_02h,
CMIS_RX_PWR_HWARN_OFFSET);
sd->rx_power[LWARN] = OFFSET_TO_U16_PTR(map->page_02h,
CMIS_RX_PWR_LWARN_OFFSET);
}
static void cmis_parse_dom(const struct cmis_memory_map *map,
struct sff_diags *sd)
{
cmis_parse_dom_power_type(map, sd);
cmis_parse_dom_mod_lvl_monitors(map, sd);
cmis_parse_dom_mod_lvl_thresh(map, sd);
cmis_parse_dom_chan_lvl_monitors(map, sd);
cmis_parse_dom_chan_lvl_thresh(map, sd);
}
/* Print module-level monitoring values. Relevant documents:
* [1] CMIS Rev. 5, page 110, section 8.2.5, Table 8-9
*/
static void cmis_show_dom_mod_lvl_monitors(const struct sff_diags *sd)
{
PRINT_TEMP("Module temperature", sd->sfp_temp[MCURR]);
PRINT_VCC("Module voltage", sd->sfp_voltage[MCURR]);
}
/* Print channel Tx laser bias current. Relevant documents:
* [1] CMIS Rev. 5, page 165, section 8.9.4, Table 8-79
*/
static void
cmis_show_dom_chan_lvl_tx_bias_bank(const struct cmis_memory_map *map,
const struct sff_diags *sd, int bank)
{
const __u8 *page_11h = map->upper_memory[bank][0x11];
int i;
if (!page_11h)
return;
for (i = 0; i < CMIS_CHANNELS_PER_BANK; i++) {
int chan = bank * CMIS_CHANNELS_PER_BANK + i;
char fmt_str[80];
snprintf(fmt_str, 80, "%s (Channel %d)",
"Laser tx bias current", chan + 1);
PRINT_BIAS(fmt_str, sd->scd[chan].bias_cur);
}
}
static void cmis_show_dom_chan_lvl_tx_bias(const struct cmis_memory_map *map,
const struct sff_diags *sd)
{
int i;
if(!(map->page_01h[CMIS_DIAG_CHAN_ADVER_OFFSET] &
CMIS_TX_BIAS_MON_MASK))
return;
for (i = 0; i < CMIS_MAX_BANKS; i++)
cmis_show_dom_chan_lvl_tx_bias_bank(map, sd, i);
}
/* Print channel Tx average optical power. Relevant documents:
* [1] CMIS Rev. 5, page 165, section 8.9.4, Table 8-79
*/
static void
cmis_show_dom_chan_lvl_tx_power_bank(const struct cmis_memory_map *map,
const struct sff_diags *sd, int bank)
{
const __u8 *page_11h = map->upper_memory[bank][0x11];
int i;
if (!page_11h)
return;
for (i = 0; i < CMIS_CHANNELS_PER_BANK; i++) {
int chan = bank * CMIS_CHANNELS_PER_BANK + i;
char fmt_str[80];
snprintf(fmt_str, 80, "%s (Channel %d)",
"Transmit avg optical power", chan + 1);
PRINT_xX_PWR(fmt_str, sd->scd[chan].tx_power);
}
}
static void cmis_show_dom_chan_lvl_tx_power(const struct cmis_memory_map *map,
const struct sff_diags *sd)
{
int i;
if (!sd->tx_power_type)
return;
for (i = 0; i < CMIS_MAX_BANKS; i++)
cmis_show_dom_chan_lvl_tx_power_bank(map, sd, i);
}
/* Print channel Rx input optical power. Relevant documents:
* [1] CMIS Rev. 5, page 165, section 8.9.4, Table 8-79
*/
static void
cmis_show_dom_chan_lvl_rx_power_bank(const struct cmis_memory_map *map,
const struct sff_diags *sd, int bank)
{
const __u8 *page_11h = map->upper_memory[bank][0x11];
int i;
if (!page_11h)
return;
for (i = 0; i < CMIS_CHANNELS_PER_BANK; i++) {
int chan = bank * CMIS_CHANNELS_PER_BANK + i;
char *rx_power_str;
char fmt_str[80];
if (!sd->rx_power_type)
rx_power_str = "Receiver signal OMA";
else
rx_power_str = "Rcvr signal avg optical power";
snprintf(fmt_str, 80, "%s (Channel %d)", rx_power_str,
chan + 1);
PRINT_xX_PWR(fmt_str, sd->scd[chan].rx_power);
}
}
static void cmis_show_dom_chan_lvl_rx_power(const struct cmis_memory_map *map,
const struct sff_diags *sd)
{
int i;
if(!(map->page_01h[CMIS_DIAG_CHAN_ADVER_OFFSET] & CMIS_RX_PWR_MON_MASK))
return;
for (i = 0; i < CMIS_MAX_BANKS; i++)
cmis_show_dom_chan_lvl_rx_power_bank(map, sd, i);
}
static void cmis_show_dom_chan_lvl_monitors(const struct cmis_memory_map *map,
const struct sff_diags *sd)
{
cmis_show_dom_chan_lvl_tx_bias(map, sd);
cmis_show_dom_chan_lvl_tx_power(map, sd);
cmis_show_dom_chan_lvl_rx_power(map, sd);
}
/* Print module-level flags. Relevant documents:
* [1] CMIS Rev. 5, page 109, section 8.2.4, Table 8-8
*/
static void cmis_show_dom_mod_lvl_flags(const struct cmis_memory_map *map)
{
int i;
for (i = 0; cmis_aw_mod_flags[i].str; i++) {
printf("\t%-41s : %s\n", cmis_aw_mod_flags[i].str,
map->lower_memory[cmis_aw_mod_flags[i].offset] &
cmis_aw_mod_flags[i].value ? "On" : "Off");
}
}
/* Print channel-level flags. Relevant documents:
* [1] CMIS Rev. 5, page 162, section 8.9.3, Table 8-77
* [1] CMIS Rev. 5, page 164, section 8.9.3, Table 8-78
*/
static void cmis_show_dom_chan_lvl_flags_chan(const struct cmis_memory_map *map,
int bank, int chan)
{
const __u8 *page_11h = map->upper_memory[bank][0x11];
int i;
for (i = 0; cmis_aw_chan_flags[i].fmt_str; i++) {
char str[80];
if (!(map->page_01h[cmis_aw_chan_flags[i].adver_offset] &
cmis_aw_chan_flags[i].adver_value))
continue;
snprintf(str, 80, cmis_aw_chan_flags[i].fmt_str, chan + 1);
printf("\t%-41s : %s\n", str,
page_11h[cmis_aw_chan_flags[i].offset] & chan ?
"On" : "Off");
}
}
static void
cmis_show_dom_chan_lvl_flags_bank(const struct cmis_memory_map *map,
int bank)
{
const __u8 *page_11h = map->upper_memory[bank][0x11];
int i;
if (!page_11h)
return;
for (i = 0; i < CMIS_CHANNELS_PER_BANK; i++) {
int chan = bank * CMIS_CHANNELS_PER_BANK + i;
cmis_show_dom_chan_lvl_flags_chan(map, bank, chan);
}
}
static void cmis_show_dom_chan_lvl_flags(const struct cmis_memory_map *map)
{
int i;
for (i = 0; i < CMIS_MAX_BANKS; i++)
cmis_show_dom_chan_lvl_flags_bank(map, i);
}
static void cmis_show_dom(const struct cmis_memory_map *map)
{
struct sff_diags sd = {};
/* Diagnostic information is only relevant when the module memory
* model is paged and not flat.
*/
if (map->lower_memory[CMIS_MEMORY_MODEL_OFFSET] &
CMIS_MEMORY_MODEL_MASK)
return;
cmis_parse_dom(map, &sd);
cmis_show_dom_mod_lvl_monitors(&sd);
cmis_show_dom_chan_lvl_monitors(map, &sd);
cmis_show_dom_mod_lvl_flags(map);
cmis_show_dom_chan_lvl_flags(map);
if (sd.supports_alarms)
sff_show_thresholds(sd);
}
static void cmis_show_all_common(const struct cmis_memory_map *map)
{
cmis_show_identifier(map);
cmis_show_power_info(map);
cmis_show_connector(map);
cmis_show_cbl_asm_len(map);
cmis_show_sig_integrity(map);
cmis_show_mit_compliance(map);
cmis_show_link_len(map);
cmis_show_vendor_info(map);
cmis_show_rev_compliance(map);
cmis_show_signals(map);
cmis_show_mod_state(map);
cmis_show_mod_fault_cause(map);
cmis_show_mod_lvl_controls(map);
cmis_show_dom(map);
}
static void cmis_memory_map_init_buf(struct cmis_memory_map *map,
const __u8 *id)
{
/* Lower Memory and Page 00h are always present.
*
* Offset into Upper Memory is between page size and twice the page
* size. Therefore, set the base address of each page to base address
* plus page size multiplied by the page number.
*/
map->lower_memory = id;
map->page_00h = id;
/* Page 01h is only present when the module memory model is paged and
* not flat.
*/
if (map->lower_memory[CMIS_MEMORY_MODEL_OFFSET] &
CMIS_MEMORY_MODEL_MASK)
return;
map->page_01h = id + CMIS_PAGE_SIZE;
}
void cmis_show_all_ioctl(const __u8 *id)
{
struct cmis_memory_map map = {};
cmis_memory_map_init_buf(&map, id);
cmis_show_all_common(&map);
}
static void cmis_request_init(struct ethtool_module_eeprom *request, u8 bank,
u8 page, u32 offset)
{
request->offset = offset;
request->length = CMIS_PAGE_SIZE;
request->page = page;
request->bank = bank;
request->i2c_address = CMIS_I2C_ADDRESS;
request->data = NULL;
}
static int cmis_num_banks_get(const struct cmis_memory_map *map,
int *p_num_banks)
{
switch (map->page_01h[CMIS_PAGES_ADVER_OFFSET] &
CMIS_BANKS_SUPPORTED_MASK) {
case CMIS_BANK_0_SUPPORTED:
*p_num_banks = 1;
break;
case CMIS_BANK_0_1_SUPPORTED:
*p_num_banks = 2;
break;
case CMIS_BANK_0_3_SUPPORTED:
*p_num_banks = 4;
break;
default:
return -EINVAL;
}
return 0;
}
static int
cmis_memory_map_init_pages(struct cmd_context *ctx,
struct cmis_memory_map *map)
{
struct ethtool_module_eeprom request;
int num_banks, i, ret;
/* Lower Memory and Page 00h are always present.
*
* Offset into Upper Memory is between page size and twice the page
* size. Therefore, set the base address of each page to its base
* address minus page size.
*/
cmis_request_init(&request, 0, 0x0, 0);
ret = nl_get_eeprom_page(ctx, &request);
if (ret < 0)
return ret;
map->lower_memory = request.data;
cmis_request_init(&request, 0, 0x0, CMIS_PAGE_SIZE);
ret = nl_get_eeprom_page(ctx, &request);
if (ret < 0)
return ret;
map->page_00h = request.data - CMIS_PAGE_SIZE;
/* Pages 01h and 02h are only present when the module memory model is
* paged and not flat.
*/
if (map->lower_memory[CMIS_MEMORY_MODEL_OFFSET] &
CMIS_MEMORY_MODEL_MASK)
return 0;
cmis_request_init(&request, 0, 0x1, CMIS_PAGE_SIZE);
ret = nl_get_eeprom_page(ctx, &request);
if (ret < 0)
return ret;
map->page_01h = request.data - CMIS_PAGE_SIZE;
cmis_request_init(&request, 0, 0x2, CMIS_PAGE_SIZE);
ret = nl_get_eeprom_page(ctx, &request);
if (ret < 0)
return ret;
map->page_02h = request.data - CMIS_PAGE_SIZE;
/* Bank 0 of Page 11h provides lane-specific registers for the first 8
* lanes, and each additional Banks provides support for an additional
* 8 lanes. Only initialize supported Banks.
*/
ret = cmis_num_banks_get(map, &num_banks);
if (ret < 0)
return ret;
for (i = 0; i < num_banks; i++) {
cmis_request_init(&request, i, 0x11, CMIS_PAGE_SIZE);
ret = nl_get_eeprom_page(ctx, &request);
if (ret < 0)
return ret;
map->upper_memory[i][0x11] = request.data - CMIS_PAGE_SIZE;
}
return 0;
}
int cmis_show_all_nl(struct cmd_context *ctx)
{
struct cmis_memory_map map = {};
int ret;
ret = cmis_memory_map_init_pages(ctx, &map);
if (ret < 0)
return ret;
cmis_show_all_common(&map);
return 0;
}
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