linux/drivers/net/phy/sfp.c

1117 lines
26 KiB
C
Raw Normal View History

#include <linux/delay.h>
#include <linux/gpio/consumer.h>
#include <linux/i2c.h>
#include <linux/interrupt.h>
#include <linux/jiffies.h>
#include <linux/module.h>
#include <linux/mutex.h>
#include <linux/of.h>
#include <linux/phy.h>
#include <linux/platform_device.h>
#include <linux/rtnetlink.h>
#include <linux/slab.h>
#include <linux/workqueue.h>
#include "mdio-i2c.h"
#include "sfp.h"
#include "swphy.h"
enum {
GPIO_MODDEF0,
GPIO_LOS,
GPIO_TX_FAULT,
GPIO_TX_DISABLE,
GPIO_RATE_SELECT,
GPIO_MAX,
SFP_F_PRESENT = BIT(GPIO_MODDEF0),
SFP_F_LOS = BIT(GPIO_LOS),
SFP_F_TX_FAULT = BIT(GPIO_TX_FAULT),
SFP_F_TX_DISABLE = BIT(GPIO_TX_DISABLE),
SFP_F_RATE_SELECT = BIT(GPIO_RATE_SELECT),
SFP_E_INSERT = 0,
SFP_E_REMOVE,
SFP_E_DEV_DOWN,
SFP_E_DEV_UP,
SFP_E_TX_FAULT,
SFP_E_TX_CLEAR,
SFP_E_LOS_HIGH,
SFP_E_LOS_LOW,
SFP_E_TIMEOUT,
SFP_MOD_EMPTY = 0,
SFP_MOD_PROBE,
sfp: add high power module support This patch is the result of work by both Jon Nettleton and Russell King. Jon wrote the original patch, adding support for SFP modules which require a power level greater than '1'. Russell's changes: - Fix the power levels for big-endian, and make the code flow better. - Convert to use device_property_read_u8() - Warn for power levels exceeding host level SFF-8431 says: "To avoid exceeding system power supply limits and cooling capacity, all modules at power up by default shall operate with up to 1.0 W. Hosts supporting Power Level II or III operation may enable a Power Level II or III module through the 2-wire interface. Power Level II or III modules shall assert the power level declaration bit of SFF-8472." Print a warning for modules that exceed the host power level, and leave them operating in power level 1. - Fix i2c write The first byte of any write after the bus address is always the device address. In order to write a value to device D, address I, value V, we need to generate on the bus: S DDDDDDDD A IIIIIIII A VVVVVVVV A P where S = start, R = restart, A = ack, P = stop. Splitting this as two: S DDDDDDDD A IIIIIIII A R DDDDDDDD A VVVVVVVV A P results in the device's address register being written first by I and then by V - the addressed register within the device is not written. - Avoid power mode switching if 0xa2 is not implemented Some modules indicate that they support power level II or power level III, but do not implement address 0xa2, meaning that the bit to set them to high power mode is not accessible. These modules appear to have the sff8472_compliance field set to zero, and also do not implement diagnostics. Detect this, but also ensure that the module does not require the address switching mode, which we do not implement. - Use mW for power level rather than power level number. - Fix high power mode transition We must not switch to SFP_MOD_PRESENT state until we have finished initialising, because the remaining state machines check for that state. Add SFP_MOD_HPOWER as an intermediate state. - Use definition for I2C register address rather than constant. Signed-off-by: Jon Nettleton <jon@solid-run.com> Signed-off-by: Russell King <rmk+kernel@armlinux.org.uk> Signed-off-by: David S. Miller <davem@davemloft.net>
2018-02-27 15:53:12 +00:00
SFP_MOD_HPOWER,
SFP_MOD_PRESENT,
SFP_MOD_ERROR,
SFP_DEV_DOWN = 0,
SFP_DEV_UP,
SFP_S_DOWN = 0,
SFP_S_INIT,
SFP_S_WAIT_LOS,
SFP_S_LINK_UP,
SFP_S_TX_FAULT,
SFP_S_REINIT,
SFP_S_TX_DISABLE,
};
static const char *gpio_of_names[] = {
"mod-def0",
"los",
"tx-fault",
"tx-disable",
"rate-select0",
};
static const enum gpiod_flags gpio_flags[] = {
GPIOD_IN,
GPIOD_IN,
GPIOD_IN,
GPIOD_ASIS,
GPIOD_ASIS,
};
#define T_INIT_JIFFIES msecs_to_jiffies(300)
#define T_RESET_US 10
#define T_FAULT_RECOVER msecs_to_jiffies(1000)
/* SFP module presence detection is poor: the three MOD DEF signals are
* the same length on the PCB, which means it's possible for MOD DEF 0 to
* connect before the I2C bus on MOD DEF 1/2.
*
* The SFP MSA specifies 300ms as t_init (the time taken for TX_FAULT to
* be deasserted) but makes no mention of the earliest time before we can
* access the I2C EEPROM. However, Avago modules require 300ms.
*/
#define T_PROBE_INIT msecs_to_jiffies(300)
sfp: add high power module support This patch is the result of work by both Jon Nettleton and Russell King. Jon wrote the original patch, adding support for SFP modules which require a power level greater than '1'. Russell's changes: - Fix the power levels for big-endian, and make the code flow better. - Convert to use device_property_read_u8() - Warn for power levels exceeding host level SFF-8431 says: "To avoid exceeding system power supply limits and cooling capacity, all modules at power up by default shall operate with up to 1.0 W. Hosts supporting Power Level II or III operation may enable a Power Level II or III module through the 2-wire interface. Power Level II or III modules shall assert the power level declaration bit of SFF-8472." Print a warning for modules that exceed the host power level, and leave them operating in power level 1. - Fix i2c write The first byte of any write after the bus address is always the device address. In order to write a value to device D, address I, value V, we need to generate on the bus: S DDDDDDDD A IIIIIIII A VVVVVVVV A P where S = start, R = restart, A = ack, P = stop. Splitting this as two: S DDDDDDDD A IIIIIIII A R DDDDDDDD A VVVVVVVV A P results in the device's address register being written first by I and then by V - the addressed register within the device is not written. - Avoid power mode switching if 0xa2 is not implemented Some modules indicate that they support power level II or power level III, but do not implement address 0xa2, meaning that the bit to set them to high power mode is not accessible. These modules appear to have the sff8472_compliance field set to zero, and also do not implement diagnostics. Detect this, but also ensure that the module does not require the address switching mode, which we do not implement. - Use mW for power level rather than power level number. - Fix high power mode transition We must not switch to SFP_MOD_PRESENT state until we have finished initialising, because the remaining state machines check for that state. Add SFP_MOD_HPOWER as an intermediate state. - Use definition for I2C register address rather than constant. Signed-off-by: Jon Nettleton <jon@solid-run.com> Signed-off-by: Russell King <rmk+kernel@armlinux.org.uk> Signed-off-by: David S. Miller <davem@davemloft.net>
2018-02-27 15:53:12 +00:00
#define T_HPOWER_LEVEL msecs_to_jiffies(300)
#define T_PROBE_RETRY msecs_to_jiffies(100)
/* SFP modules appear to always have their PHY configured for bus address
* 0x56 (which with mdio-i2c, translates to a PHY address of 22).
*/
#define SFP_PHY_ADDR 22
/* Give this long for the PHY to reset. */
#define T_PHY_RESET_MS 50
static DEFINE_MUTEX(sfp_mutex);
struct sff_data {
unsigned int gpios;
bool (*module_supported)(const struct sfp_eeprom_id *id);
};
struct sfp {
struct device *dev;
struct i2c_adapter *i2c;
struct mii_bus *i2c_mii;
struct sfp_bus *sfp_bus;
struct phy_device *mod_phy;
const struct sff_data *type;
sfp: add high power module support This patch is the result of work by both Jon Nettleton and Russell King. Jon wrote the original patch, adding support for SFP modules which require a power level greater than '1'. Russell's changes: - Fix the power levels for big-endian, and make the code flow better. - Convert to use device_property_read_u8() - Warn for power levels exceeding host level SFF-8431 says: "To avoid exceeding system power supply limits and cooling capacity, all modules at power up by default shall operate with up to 1.0 W. Hosts supporting Power Level II or III operation may enable a Power Level II or III module through the 2-wire interface. Power Level II or III modules shall assert the power level declaration bit of SFF-8472." Print a warning for modules that exceed the host power level, and leave them operating in power level 1. - Fix i2c write The first byte of any write after the bus address is always the device address. In order to write a value to device D, address I, value V, we need to generate on the bus: S DDDDDDDD A IIIIIIII A VVVVVVVV A P where S = start, R = restart, A = ack, P = stop. Splitting this as two: S DDDDDDDD A IIIIIIII A R DDDDDDDD A VVVVVVVV A P results in the device's address register being written first by I and then by V - the addressed register within the device is not written. - Avoid power mode switching if 0xa2 is not implemented Some modules indicate that they support power level II or power level III, but do not implement address 0xa2, meaning that the bit to set them to high power mode is not accessible. These modules appear to have the sff8472_compliance field set to zero, and also do not implement diagnostics. Detect this, but also ensure that the module does not require the address switching mode, which we do not implement. - Use mW for power level rather than power level number. - Fix high power mode transition We must not switch to SFP_MOD_PRESENT state until we have finished initialising, because the remaining state machines check for that state. Add SFP_MOD_HPOWER as an intermediate state. - Use definition for I2C register address rather than constant. Signed-off-by: Jon Nettleton <jon@solid-run.com> Signed-off-by: Russell King <rmk+kernel@armlinux.org.uk> Signed-off-by: David S. Miller <davem@davemloft.net>
2018-02-27 15:53:12 +00:00
u32 max_power_mW;
unsigned int (*get_state)(struct sfp *);
void (*set_state)(struct sfp *, unsigned int);
int (*read)(struct sfp *, bool, u8, void *, size_t);
sfp: add high power module support This patch is the result of work by both Jon Nettleton and Russell King. Jon wrote the original patch, adding support for SFP modules which require a power level greater than '1'. Russell's changes: - Fix the power levels for big-endian, and make the code flow better. - Convert to use device_property_read_u8() - Warn for power levels exceeding host level SFF-8431 says: "To avoid exceeding system power supply limits and cooling capacity, all modules at power up by default shall operate with up to 1.0 W. Hosts supporting Power Level II or III operation may enable a Power Level II or III module through the 2-wire interface. Power Level II or III modules shall assert the power level declaration bit of SFF-8472." Print a warning for modules that exceed the host power level, and leave them operating in power level 1. - Fix i2c write The first byte of any write after the bus address is always the device address. In order to write a value to device D, address I, value V, we need to generate on the bus: S DDDDDDDD A IIIIIIII A VVVVVVVV A P where S = start, R = restart, A = ack, P = stop. Splitting this as two: S DDDDDDDD A IIIIIIII A R DDDDDDDD A VVVVVVVV A P results in the device's address register being written first by I and then by V - the addressed register within the device is not written. - Avoid power mode switching if 0xa2 is not implemented Some modules indicate that they support power level II or power level III, but do not implement address 0xa2, meaning that the bit to set them to high power mode is not accessible. These modules appear to have the sff8472_compliance field set to zero, and also do not implement diagnostics. Detect this, but also ensure that the module does not require the address switching mode, which we do not implement. - Use mW for power level rather than power level number. - Fix high power mode transition We must not switch to SFP_MOD_PRESENT state until we have finished initialising, because the remaining state machines check for that state. Add SFP_MOD_HPOWER as an intermediate state. - Use definition for I2C register address rather than constant. Signed-off-by: Jon Nettleton <jon@solid-run.com> Signed-off-by: Russell King <rmk+kernel@armlinux.org.uk> Signed-off-by: David S. Miller <davem@davemloft.net>
2018-02-27 15:53:12 +00:00
int (*write)(struct sfp *, bool, u8, void *, size_t);
struct gpio_desc *gpio[GPIO_MAX];
unsigned int state;
struct delayed_work poll;
struct delayed_work timeout;
struct mutex sm_mutex;
unsigned char sm_mod_state;
unsigned char sm_dev_state;
unsigned short sm_state;
unsigned int sm_retries;
struct sfp_eeprom_id id;
};
static bool sff_module_supported(const struct sfp_eeprom_id *id)
{
return id->base.phys_id == SFP_PHYS_ID_SFF &&
id->base.phys_ext_id == SFP_PHYS_EXT_ID_SFP;
}
static const struct sff_data sff_data = {
.gpios = SFP_F_LOS | SFP_F_TX_FAULT | SFP_F_TX_DISABLE,
.module_supported = sff_module_supported,
};
static bool sfp_module_supported(const struct sfp_eeprom_id *id)
{
return id->base.phys_id == SFP_PHYS_ID_SFP &&
id->base.phys_ext_id == SFP_PHYS_EXT_ID_SFP;
}
static const struct sff_data sfp_data = {
.gpios = SFP_F_PRESENT | SFP_F_LOS | SFP_F_TX_FAULT |
SFP_F_TX_DISABLE | SFP_F_RATE_SELECT,
.module_supported = sfp_module_supported,
};
static const struct of_device_id sfp_of_match[] = {
{ .compatible = "sff,sff", .data = &sff_data, },
{ .compatible = "sff,sfp", .data = &sfp_data, },
{ },
};
MODULE_DEVICE_TABLE(of, sfp_of_match);
static unsigned long poll_jiffies;
static unsigned int sfp_gpio_get_state(struct sfp *sfp)
{
unsigned int i, state, v;
for (i = state = 0; i < GPIO_MAX; i++) {
if (gpio_flags[i] != GPIOD_IN || !sfp->gpio[i])
continue;
v = gpiod_get_value_cansleep(sfp->gpio[i]);
if (v)
state |= BIT(i);
}
return state;
}
static unsigned int sff_gpio_get_state(struct sfp *sfp)
{
return sfp_gpio_get_state(sfp) | SFP_F_PRESENT;
}
static void sfp_gpio_set_state(struct sfp *sfp, unsigned int state)
{
if (state & SFP_F_PRESENT) {
/* If the module is present, drive the signals */
if (sfp->gpio[GPIO_TX_DISABLE])
gpiod_direction_output(sfp->gpio[GPIO_TX_DISABLE],
state & SFP_F_TX_DISABLE);
if (state & SFP_F_RATE_SELECT)
gpiod_direction_output(sfp->gpio[GPIO_RATE_SELECT],
state & SFP_F_RATE_SELECT);
} else {
/* Otherwise, let them float to the pull-ups */
if (sfp->gpio[GPIO_TX_DISABLE])
gpiod_direction_input(sfp->gpio[GPIO_TX_DISABLE]);
if (state & SFP_F_RATE_SELECT)
gpiod_direction_input(sfp->gpio[GPIO_RATE_SELECT]);
}
}
sfp: add high power module support This patch is the result of work by both Jon Nettleton and Russell King. Jon wrote the original patch, adding support for SFP modules which require a power level greater than '1'. Russell's changes: - Fix the power levels for big-endian, and make the code flow better. - Convert to use device_property_read_u8() - Warn for power levels exceeding host level SFF-8431 says: "To avoid exceeding system power supply limits and cooling capacity, all modules at power up by default shall operate with up to 1.0 W. Hosts supporting Power Level II or III operation may enable a Power Level II or III module through the 2-wire interface. Power Level II or III modules shall assert the power level declaration bit of SFF-8472." Print a warning for modules that exceed the host power level, and leave them operating in power level 1. - Fix i2c write The first byte of any write after the bus address is always the device address. In order to write a value to device D, address I, value V, we need to generate on the bus: S DDDDDDDD A IIIIIIII A VVVVVVVV A P where S = start, R = restart, A = ack, P = stop. Splitting this as two: S DDDDDDDD A IIIIIIII A R DDDDDDDD A VVVVVVVV A P results in the device's address register being written first by I and then by V - the addressed register within the device is not written. - Avoid power mode switching if 0xa2 is not implemented Some modules indicate that they support power level II or power level III, but do not implement address 0xa2, meaning that the bit to set them to high power mode is not accessible. These modules appear to have the sff8472_compliance field set to zero, and also do not implement diagnostics. Detect this, but also ensure that the module does not require the address switching mode, which we do not implement. - Use mW for power level rather than power level number. - Fix high power mode transition We must not switch to SFP_MOD_PRESENT state until we have finished initialising, because the remaining state machines check for that state. Add SFP_MOD_HPOWER as an intermediate state. - Use definition for I2C register address rather than constant. Signed-off-by: Jon Nettleton <jon@solid-run.com> Signed-off-by: Russell King <rmk+kernel@armlinux.org.uk> Signed-off-by: David S. Miller <davem@davemloft.net>
2018-02-27 15:53:12 +00:00
static int sfp_i2c_read(struct sfp *sfp, bool a2, u8 dev_addr, void *buf,
size_t len)
{
struct i2c_msg msgs[2];
sfp: add high power module support This patch is the result of work by both Jon Nettleton and Russell King. Jon wrote the original patch, adding support for SFP modules which require a power level greater than '1'. Russell's changes: - Fix the power levels for big-endian, and make the code flow better. - Convert to use device_property_read_u8() - Warn for power levels exceeding host level SFF-8431 says: "To avoid exceeding system power supply limits and cooling capacity, all modules at power up by default shall operate with up to 1.0 W. Hosts supporting Power Level II or III operation may enable a Power Level II or III module through the 2-wire interface. Power Level II or III modules shall assert the power level declaration bit of SFF-8472." Print a warning for modules that exceed the host power level, and leave them operating in power level 1. - Fix i2c write The first byte of any write after the bus address is always the device address. In order to write a value to device D, address I, value V, we need to generate on the bus: S DDDDDDDD A IIIIIIII A VVVVVVVV A P where S = start, R = restart, A = ack, P = stop. Splitting this as two: S DDDDDDDD A IIIIIIII A R DDDDDDDD A VVVVVVVV A P results in the device's address register being written first by I and then by V - the addressed register within the device is not written. - Avoid power mode switching if 0xa2 is not implemented Some modules indicate that they support power level II or power level III, but do not implement address 0xa2, meaning that the bit to set them to high power mode is not accessible. These modules appear to have the sff8472_compliance field set to zero, and also do not implement diagnostics. Detect this, but also ensure that the module does not require the address switching mode, which we do not implement. - Use mW for power level rather than power level number. - Fix high power mode transition We must not switch to SFP_MOD_PRESENT state until we have finished initialising, because the remaining state machines check for that state. Add SFP_MOD_HPOWER as an intermediate state. - Use definition for I2C register address rather than constant. Signed-off-by: Jon Nettleton <jon@solid-run.com> Signed-off-by: Russell King <rmk+kernel@armlinux.org.uk> Signed-off-by: David S. Miller <davem@davemloft.net>
2018-02-27 15:53:12 +00:00
u8 bus_addr = a2 ? 0x51 : 0x50;
int ret;
msgs[0].addr = bus_addr;
msgs[0].flags = 0;
msgs[0].len = 1;
msgs[0].buf = &dev_addr;
msgs[1].addr = bus_addr;
msgs[1].flags = I2C_M_RD;
msgs[1].len = len;
msgs[1].buf = buf;
sfp: add high power module support This patch is the result of work by both Jon Nettleton and Russell King. Jon wrote the original patch, adding support for SFP modules which require a power level greater than '1'. Russell's changes: - Fix the power levels for big-endian, and make the code flow better. - Convert to use device_property_read_u8() - Warn for power levels exceeding host level SFF-8431 says: "To avoid exceeding system power supply limits and cooling capacity, all modules at power up by default shall operate with up to 1.0 W. Hosts supporting Power Level II or III operation may enable a Power Level II or III module through the 2-wire interface. Power Level II or III modules shall assert the power level declaration bit of SFF-8472." Print a warning for modules that exceed the host power level, and leave them operating in power level 1. - Fix i2c write The first byte of any write after the bus address is always the device address. In order to write a value to device D, address I, value V, we need to generate on the bus: S DDDDDDDD A IIIIIIII A VVVVVVVV A P where S = start, R = restart, A = ack, P = stop. Splitting this as two: S DDDDDDDD A IIIIIIII A R DDDDDDDD A VVVVVVVV A P results in the device's address register being written first by I and then by V - the addressed register within the device is not written. - Avoid power mode switching if 0xa2 is not implemented Some modules indicate that they support power level II or power level III, but do not implement address 0xa2, meaning that the bit to set them to high power mode is not accessible. These modules appear to have the sff8472_compliance field set to zero, and also do not implement diagnostics. Detect this, but also ensure that the module does not require the address switching mode, which we do not implement. - Use mW for power level rather than power level number. - Fix high power mode transition We must not switch to SFP_MOD_PRESENT state until we have finished initialising, because the remaining state machines check for that state. Add SFP_MOD_HPOWER as an intermediate state. - Use definition for I2C register address rather than constant. Signed-off-by: Jon Nettleton <jon@solid-run.com> Signed-off-by: Russell King <rmk+kernel@armlinux.org.uk> Signed-off-by: David S. Miller <davem@davemloft.net>
2018-02-27 15:53:12 +00:00
ret = i2c_transfer(sfp->i2c, msgs, ARRAY_SIZE(msgs));
if (ret < 0)
return ret;
return ret == ARRAY_SIZE(msgs) ? len : 0;
}
sfp: add high power module support This patch is the result of work by both Jon Nettleton and Russell King. Jon wrote the original patch, adding support for SFP modules which require a power level greater than '1'. Russell's changes: - Fix the power levels for big-endian, and make the code flow better. - Convert to use device_property_read_u8() - Warn for power levels exceeding host level SFF-8431 says: "To avoid exceeding system power supply limits and cooling capacity, all modules at power up by default shall operate with up to 1.0 W. Hosts supporting Power Level II or III operation may enable a Power Level II or III module through the 2-wire interface. Power Level II or III modules shall assert the power level declaration bit of SFF-8472." Print a warning for modules that exceed the host power level, and leave them operating in power level 1. - Fix i2c write The first byte of any write after the bus address is always the device address. In order to write a value to device D, address I, value V, we need to generate on the bus: S DDDDDDDD A IIIIIIII A VVVVVVVV A P where S = start, R = restart, A = ack, P = stop. Splitting this as two: S DDDDDDDD A IIIIIIII A R DDDDDDDD A VVVVVVVV A P results in the device's address register being written first by I and then by V - the addressed register within the device is not written. - Avoid power mode switching if 0xa2 is not implemented Some modules indicate that they support power level II or power level III, but do not implement address 0xa2, meaning that the bit to set them to high power mode is not accessible. These modules appear to have the sff8472_compliance field set to zero, and also do not implement diagnostics. Detect this, but also ensure that the module does not require the address switching mode, which we do not implement. - Use mW for power level rather than power level number. - Fix high power mode transition We must not switch to SFP_MOD_PRESENT state until we have finished initialising, because the remaining state machines check for that state. Add SFP_MOD_HPOWER as an intermediate state. - Use definition for I2C register address rather than constant. Signed-off-by: Jon Nettleton <jon@solid-run.com> Signed-off-by: Russell King <rmk+kernel@armlinux.org.uk> Signed-off-by: David S. Miller <davem@davemloft.net>
2018-02-27 15:53:12 +00:00
static int sfp_i2c_write(struct sfp *sfp, bool a2, u8 dev_addr, void *buf,
size_t len)
{
sfp: add high power module support This patch is the result of work by both Jon Nettleton and Russell King. Jon wrote the original patch, adding support for SFP modules which require a power level greater than '1'. Russell's changes: - Fix the power levels for big-endian, and make the code flow better. - Convert to use device_property_read_u8() - Warn for power levels exceeding host level SFF-8431 says: "To avoid exceeding system power supply limits and cooling capacity, all modules at power up by default shall operate with up to 1.0 W. Hosts supporting Power Level II or III operation may enable a Power Level II or III module through the 2-wire interface. Power Level II or III modules shall assert the power level declaration bit of SFF-8472." Print a warning for modules that exceed the host power level, and leave them operating in power level 1. - Fix i2c write The first byte of any write after the bus address is always the device address. In order to write a value to device D, address I, value V, we need to generate on the bus: S DDDDDDDD A IIIIIIII A VVVVVVVV A P where S = start, R = restart, A = ack, P = stop. Splitting this as two: S DDDDDDDD A IIIIIIII A R DDDDDDDD A VVVVVVVV A P results in the device's address register being written first by I and then by V - the addressed register within the device is not written. - Avoid power mode switching if 0xa2 is not implemented Some modules indicate that they support power level II or power level III, but do not implement address 0xa2, meaning that the bit to set them to high power mode is not accessible. These modules appear to have the sff8472_compliance field set to zero, and also do not implement diagnostics. Detect this, but also ensure that the module does not require the address switching mode, which we do not implement. - Use mW for power level rather than power level number. - Fix high power mode transition We must not switch to SFP_MOD_PRESENT state until we have finished initialising, because the remaining state machines check for that state. Add SFP_MOD_HPOWER as an intermediate state. - Use definition for I2C register address rather than constant. Signed-off-by: Jon Nettleton <jon@solid-run.com> Signed-off-by: Russell King <rmk+kernel@armlinux.org.uk> Signed-off-by: David S. Miller <davem@davemloft.net>
2018-02-27 15:53:12 +00:00
struct i2c_msg msgs[1];
u8 bus_addr = a2 ? 0x51 : 0x50;
int ret;
msgs[0].addr = bus_addr;
msgs[0].flags = 0;
msgs[0].len = 1 + len;
msgs[0].buf = kmalloc(1 + len, GFP_KERNEL);
if (!msgs[0].buf)
return -ENOMEM;
msgs[0].buf[0] = dev_addr;
memcpy(&msgs[0].buf[1], buf, len);
ret = i2c_transfer(sfp->i2c, msgs, ARRAY_SIZE(msgs));
kfree(msgs[0].buf);
if (ret < 0)
return ret;
return ret == ARRAY_SIZE(msgs) ? len : 0;
}
static int sfp_i2c_configure(struct sfp *sfp, struct i2c_adapter *i2c)
{
struct mii_bus *i2c_mii;
int ret;
if (!i2c_check_functionality(i2c, I2C_FUNC_I2C))
return -EINVAL;
sfp->i2c = i2c;
sfp->read = sfp_i2c_read;
sfp: add high power module support This patch is the result of work by both Jon Nettleton and Russell King. Jon wrote the original patch, adding support for SFP modules which require a power level greater than '1'. Russell's changes: - Fix the power levels for big-endian, and make the code flow better. - Convert to use device_property_read_u8() - Warn for power levels exceeding host level SFF-8431 says: "To avoid exceeding system power supply limits and cooling capacity, all modules at power up by default shall operate with up to 1.0 W. Hosts supporting Power Level II or III operation may enable a Power Level II or III module through the 2-wire interface. Power Level II or III modules shall assert the power level declaration bit of SFF-8472." Print a warning for modules that exceed the host power level, and leave them operating in power level 1. - Fix i2c write The first byte of any write after the bus address is always the device address. In order to write a value to device D, address I, value V, we need to generate on the bus: S DDDDDDDD A IIIIIIII A VVVVVVVV A P where S = start, R = restart, A = ack, P = stop. Splitting this as two: S DDDDDDDD A IIIIIIII A R DDDDDDDD A VVVVVVVV A P results in the device's address register being written first by I and then by V - the addressed register within the device is not written. - Avoid power mode switching if 0xa2 is not implemented Some modules indicate that they support power level II or power level III, but do not implement address 0xa2, meaning that the bit to set them to high power mode is not accessible. These modules appear to have the sff8472_compliance field set to zero, and also do not implement diagnostics. Detect this, but also ensure that the module does not require the address switching mode, which we do not implement. - Use mW for power level rather than power level number. - Fix high power mode transition We must not switch to SFP_MOD_PRESENT state until we have finished initialising, because the remaining state machines check for that state. Add SFP_MOD_HPOWER as an intermediate state. - Use definition for I2C register address rather than constant. Signed-off-by: Jon Nettleton <jon@solid-run.com> Signed-off-by: Russell King <rmk+kernel@armlinux.org.uk> Signed-off-by: David S. Miller <davem@davemloft.net>
2018-02-27 15:53:12 +00:00
sfp->write = sfp_i2c_write;
i2c_mii = mdio_i2c_alloc(sfp->dev, i2c);
if (IS_ERR(i2c_mii))
return PTR_ERR(i2c_mii);
i2c_mii->name = "SFP I2C Bus";
i2c_mii->phy_mask = ~0;
ret = mdiobus_register(i2c_mii);
if (ret < 0) {
mdiobus_free(i2c_mii);
return ret;
}
sfp->i2c_mii = i2c_mii;
return 0;
}
/* Interface */
static unsigned int sfp_get_state(struct sfp *sfp)
{
return sfp->get_state(sfp);
}
static void sfp_set_state(struct sfp *sfp, unsigned int state)
{
sfp->set_state(sfp, state);
}
static int sfp_read(struct sfp *sfp, bool a2, u8 addr, void *buf, size_t len)
{
return sfp->read(sfp, a2, addr, buf, len);
}
sfp: add high power module support This patch is the result of work by both Jon Nettleton and Russell King. Jon wrote the original patch, adding support for SFP modules which require a power level greater than '1'. Russell's changes: - Fix the power levels for big-endian, and make the code flow better. - Convert to use device_property_read_u8() - Warn for power levels exceeding host level SFF-8431 says: "To avoid exceeding system power supply limits and cooling capacity, all modules at power up by default shall operate with up to 1.0 W. Hosts supporting Power Level II or III operation may enable a Power Level II or III module through the 2-wire interface. Power Level II or III modules shall assert the power level declaration bit of SFF-8472." Print a warning for modules that exceed the host power level, and leave them operating in power level 1. - Fix i2c write The first byte of any write after the bus address is always the device address. In order to write a value to device D, address I, value V, we need to generate on the bus: S DDDDDDDD A IIIIIIII A VVVVVVVV A P where S = start, R = restart, A = ack, P = stop. Splitting this as two: S DDDDDDDD A IIIIIIII A R DDDDDDDD A VVVVVVVV A P results in the device's address register being written first by I and then by V - the addressed register within the device is not written. - Avoid power mode switching if 0xa2 is not implemented Some modules indicate that they support power level II or power level III, but do not implement address 0xa2, meaning that the bit to set them to high power mode is not accessible. These modules appear to have the sff8472_compliance field set to zero, and also do not implement diagnostics. Detect this, but also ensure that the module does not require the address switching mode, which we do not implement. - Use mW for power level rather than power level number. - Fix high power mode transition We must not switch to SFP_MOD_PRESENT state until we have finished initialising, because the remaining state machines check for that state. Add SFP_MOD_HPOWER as an intermediate state. - Use definition for I2C register address rather than constant. Signed-off-by: Jon Nettleton <jon@solid-run.com> Signed-off-by: Russell King <rmk+kernel@armlinux.org.uk> Signed-off-by: David S. Miller <davem@davemloft.net>
2018-02-27 15:53:12 +00:00
static int sfp_write(struct sfp *sfp, bool a2, u8 addr, void *buf, size_t len)
{
return sfp->write(sfp, a2, addr, buf, len);
}
static unsigned int sfp_check(void *buf, size_t len)
{
u8 *p, check;
for (p = buf, check = 0; len; p++, len--)
check += *p;
return check;
}
/* Helpers */
static void sfp_module_tx_disable(struct sfp *sfp)
{
dev_dbg(sfp->dev, "tx disable %u -> %u\n",
sfp->state & SFP_F_TX_DISABLE ? 1 : 0, 1);
sfp->state |= SFP_F_TX_DISABLE;
sfp_set_state(sfp, sfp->state);
}
static void sfp_module_tx_enable(struct sfp *sfp)
{
dev_dbg(sfp->dev, "tx disable %u -> %u\n",
sfp->state & SFP_F_TX_DISABLE ? 1 : 0, 0);
sfp->state &= ~SFP_F_TX_DISABLE;
sfp_set_state(sfp, sfp->state);
}
static void sfp_module_tx_fault_reset(struct sfp *sfp)
{
unsigned int state = sfp->state;
if (state & SFP_F_TX_DISABLE)
return;
sfp_set_state(sfp, state | SFP_F_TX_DISABLE);
udelay(T_RESET_US);
sfp_set_state(sfp, state);
}
/* SFP state machine */
static void sfp_sm_set_timer(struct sfp *sfp, unsigned int timeout)
{
if (timeout)
mod_delayed_work(system_power_efficient_wq, &sfp->timeout,
timeout);
else
cancel_delayed_work(&sfp->timeout);
}
static void sfp_sm_next(struct sfp *sfp, unsigned int state,
unsigned int timeout)
{
sfp->sm_state = state;
sfp_sm_set_timer(sfp, timeout);
}
static void sfp_sm_ins_next(struct sfp *sfp, unsigned int state,
unsigned int timeout)
{
sfp->sm_mod_state = state;
sfp_sm_set_timer(sfp, timeout);
}
static void sfp_sm_phy_detach(struct sfp *sfp)
{
phy_stop(sfp->mod_phy);
sfp_remove_phy(sfp->sfp_bus);
phy_device_remove(sfp->mod_phy);
phy_device_free(sfp->mod_phy);
sfp->mod_phy = NULL;
}
static void sfp_sm_probe_phy(struct sfp *sfp)
{
struct phy_device *phy;
int err;
msleep(T_PHY_RESET_MS);
phy = mdiobus_scan(sfp->i2c_mii, SFP_PHY_ADDR);
if (phy == ERR_PTR(-ENODEV)) {
dev_info(sfp->dev, "no PHY detected\n");
return;
}
if (IS_ERR(phy)) {
dev_err(sfp->dev, "mdiobus scan returned %ld\n", PTR_ERR(phy));
return;
}
err = sfp_add_phy(sfp->sfp_bus, phy);
if (err) {
phy_device_remove(phy);
phy_device_free(phy);
dev_err(sfp->dev, "sfp_add_phy failed: %d\n", err);
return;
}
sfp->mod_phy = phy;
phy_start(phy);
}
static void sfp_sm_link_up(struct sfp *sfp)
{
sfp_link_up(sfp->sfp_bus);
sfp_sm_next(sfp, SFP_S_LINK_UP, 0);
}
static void sfp_sm_link_down(struct sfp *sfp)
{
sfp_link_down(sfp->sfp_bus);
}
static void sfp_sm_link_check_los(struct sfp *sfp)
{
unsigned int los = sfp->state & SFP_F_LOS;
/* If neither SFP_OPTIONS_LOS_INVERTED nor SFP_OPTIONS_LOS_NORMAL
* are set, we assume that no LOS signal is available.
*/
if (sfp->id.ext.options & cpu_to_be16(SFP_OPTIONS_LOS_INVERTED))
los ^= SFP_F_LOS;
else if (!(sfp->id.ext.options & cpu_to_be16(SFP_OPTIONS_LOS_NORMAL)))
los = 0;
if (los)
sfp_sm_next(sfp, SFP_S_WAIT_LOS, 0);
else
sfp_sm_link_up(sfp);
}
static bool sfp_los_event_active(struct sfp *sfp, unsigned int event)
{
return (sfp->id.ext.options & cpu_to_be16(SFP_OPTIONS_LOS_INVERTED) &&
event == SFP_E_LOS_LOW) ||
(sfp->id.ext.options & cpu_to_be16(SFP_OPTIONS_LOS_NORMAL) &&
event == SFP_E_LOS_HIGH);
}
static bool sfp_los_event_inactive(struct sfp *sfp, unsigned int event)
{
return (sfp->id.ext.options & cpu_to_be16(SFP_OPTIONS_LOS_INVERTED) &&
event == SFP_E_LOS_HIGH) ||
(sfp->id.ext.options & cpu_to_be16(SFP_OPTIONS_LOS_NORMAL) &&
event == SFP_E_LOS_LOW);
}
static void sfp_sm_fault(struct sfp *sfp, bool warn)
{
if (sfp->sm_retries && !--sfp->sm_retries) {
dev_err(sfp->dev,
"module persistently indicates fault, disabling\n");
sfp_sm_next(sfp, SFP_S_TX_DISABLE, 0);
} else {
if (warn)
dev_err(sfp->dev, "module transmit fault indicated\n");
sfp_sm_next(sfp, SFP_S_TX_FAULT, T_FAULT_RECOVER);
}
}
static void sfp_sm_mod_init(struct sfp *sfp)
{
sfp_module_tx_enable(sfp);
/* Wait t_init before indicating that the link is up, provided the
* current state indicates no TX_FAULT. If TX_FAULT clears before
* this time, that's fine too.
*/
sfp_sm_next(sfp, SFP_S_INIT, T_INIT_JIFFIES);
sfp->sm_retries = 5;
/* Setting the serdes link mode is guesswork: there's no
* field in the EEPROM which indicates what mode should
* be used.
*
* If it's a gigabit-only fiber module, it probably does
* not have a PHY, so switch to 802.3z negotiation mode.
* Otherwise, switch to SGMII mode (which is required to
* support non-gigabit speeds) and probe for a PHY.
*/
if (sfp->id.base.e1000_base_t ||
sfp->id.base.e100_base_lx ||
sfp->id.base.e100_base_fx)
sfp_sm_probe_phy(sfp);
}
sfp: add high power module support This patch is the result of work by both Jon Nettleton and Russell King. Jon wrote the original patch, adding support for SFP modules which require a power level greater than '1'. Russell's changes: - Fix the power levels for big-endian, and make the code flow better. - Convert to use device_property_read_u8() - Warn for power levels exceeding host level SFF-8431 says: "To avoid exceeding system power supply limits and cooling capacity, all modules at power up by default shall operate with up to 1.0 W. Hosts supporting Power Level II or III operation may enable a Power Level II or III module through the 2-wire interface. Power Level II or III modules shall assert the power level declaration bit of SFF-8472." Print a warning for modules that exceed the host power level, and leave them operating in power level 1. - Fix i2c write The first byte of any write after the bus address is always the device address. In order to write a value to device D, address I, value V, we need to generate on the bus: S DDDDDDDD A IIIIIIII A VVVVVVVV A P where S = start, R = restart, A = ack, P = stop. Splitting this as two: S DDDDDDDD A IIIIIIII A R DDDDDDDD A VVVVVVVV A P results in the device's address register being written first by I and then by V - the addressed register within the device is not written. - Avoid power mode switching if 0xa2 is not implemented Some modules indicate that they support power level II or power level III, but do not implement address 0xa2, meaning that the bit to set them to high power mode is not accessible. These modules appear to have the sff8472_compliance field set to zero, and also do not implement diagnostics. Detect this, but also ensure that the module does not require the address switching mode, which we do not implement. - Use mW for power level rather than power level number. - Fix high power mode transition We must not switch to SFP_MOD_PRESENT state until we have finished initialising, because the remaining state machines check for that state. Add SFP_MOD_HPOWER as an intermediate state. - Use definition for I2C register address rather than constant. Signed-off-by: Jon Nettleton <jon@solid-run.com> Signed-off-by: Russell King <rmk+kernel@armlinux.org.uk> Signed-off-by: David S. Miller <davem@davemloft.net>
2018-02-27 15:53:12 +00:00
static int sfp_sm_mod_hpower(struct sfp *sfp)
{
u32 power;
u8 val;
int err;
power = 1000;
if (sfp->id.ext.options & cpu_to_be16(SFP_OPTIONS_POWER_DECL))
power = 1500;
if (sfp->id.ext.options & cpu_to_be16(SFP_OPTIONS_HIGH_POWER_LEVEL))
power = 2000;
if (sfp->id.ext.sff8472_compliance == SFP_SFF8472_COMPLIANCE_NONE &&
(sfp->id.ext.diagmon & (SFP_DIAGMON_DDM | SFP_DIAGMON_ADDRMODE)) !=
SFP_DIAGMON_DDM) {
/* The module appears not to implement bus address 0xa2,
* or requires an address change sequence, so assume that
* the module powers up in the indicated power mode.
*/
if (power > sfp->max_power_mW) {
dev_err(sfp->dev,
"Host does not support %u.%uW modules\n",
power / 1000, (power / 100) % 10);
return -EINVAL;
}
return 0;
}
if (power > sfp->max_power_mW) {
dev_warn(sfp->dev,
"Host does not support %u.%uW modules, module left in power mode 1\n",
power / 1000, (power / 100) % 10);
return 0;
}
if (power <= 1000)
return 0;
err = sfp_read(sfp, true, SFP_EXT_STATUS, &val, sizeof(val));
if (err != sizeof(val)) {
dev_err(sfp->dev, "Failed to read EEPROM: %d\n", err);
err = -EAGAIN;
goto err;
}
val |= BIT(0);
err = sfp_write(sfp, true, SFP_EXT_STATUS, &val, sizeof(val));
if (err != sizeof(val)) {
dev_err(sfp->dev, "Failed to write EEPROM: %d\n", err);
err = -EAGAIN;
goto err;
}
dev_info(sfp->dev, "Module switched to %u.%uW power level\n",
power / 1000, (power / 100) % 10);
return T_HPOWER_LEVEL;
err:
return err;
}
static int sfp_sm_mod_probe(struct sfp *sfp)
{
/* SFP module inserted - read I2C data */
struct sfp_eeprom_id id;
bool cotsworks;
u8 check;
sfp: add high power module support This patch is the result of work by both Jon Nettleton and Russell King. Jon wrote the original patch, adding support for SFP modules which require a power level greater than '1'. Russell's changes: - Fix the power levels for big-endian, and make the code flow better. - Convert to use device_property_read_u8() - Warn for power levels exceeding host level SFF-8431 says: "To avoid exceeding system power supply limits and cooling capacity, all modules at power up by default shall operate with up to 1.0 W. Hosts supporting Power Level II or III operation may enable a Power Level II or III module through the 2-wire interface. Power Level II or III modules shall assert the power level declaration bit of SFF-8472." Print a warning for modules that exceed the host power level, and leave them operating in power level 1. - Fix i2c write The first byte of any write after the bus address is always the device address. In order to write a value to device D, address I, value V, we need to generate on the bus: S DDDDDDDD A IIIIIIII A VVVVVVVV A P where S = start, R = restart, A = ack, P = stop. Splitting this as two: S DDDDDDDD A IIIIIIII A R DDDDDDDD A VVVVVVVV A P results in the device's address register being written first by I and then by V - the addressed register within the device is not written. - Avoid power mode switching if 0xa2 is not implemented Some modules indicate that they support power level II or power level III, but do not implement address 0xa2, meaning that the bit to set them to high power mode is not accessible. These modules appear to have the sff8472_compliance field set to zero, and also do not implement diagnostics. Detect this, but also ensure that the module does not require the address switching mode, which we do not implement. - Use mW for power level rather than power level number. - Fix high power mode transition We must not switch to SFP_MOD_PRESENT state until we have finished initialising, because the remaining state machines check for that state. Add SFP_MOD_HPOWER as an intermediate state. - Use definition for I2C register address rather than constant. Signed-off-by: Jon Nettleton <jon@solid-run.com> Signed-off-by: Russell King <rmk+kernel@armlinux.org.uk> Signed-off-by: David S. Miller <davem@davemloft.net>
2018-02-27 15:53:12 +00:00
int ret;
sfp: add high power module support This patch is the result of work by both Jon Nettleton and Russell King. Jon wrote the original patch, adding support for SFP modules which require a power level greater than '1'. Russell's changes: - Fix the power levels for big-endian, and make the code flow better. - Convert to use device_property_read_u8() - Warn for power levels exceeding host level SFF-8431 says: "To avoid exceeding system power supply limits and cooling capacity, all modules at power up by default shall operate with up to 1.0 W. Hosts supporting Power Level II or III operation may enable a Power Level II or III module through the 2-wire interface. Power Level II or III modules shall assert the power level declaration bit of SFF-8472." Print a warning for modules that exceed the host power level, and leave them operating in power level 1. - Fix i2c write The first byte of any write after the bus address is always the device address. In order to write a value to device D, address I, value V, we need to generate on the bus: S DDDDDDDD A IIIIIIII A VVVVVVVV A P where S = start, R = restart, A = ack, P = stop. Splitting this as two: S DDDDDDDD A IIIIIIII A R DDDDDDDD A VVVVVVVV A P results in the device's address register being written first by I and then by V - the addressed register within the device is not written. - Avoid power mode switching if 0xa2 is not implemented Some modules indicate that they support power level II or power level III, but do not implement address 0xa2, meaning that the bit to set them to high power mode is not accessible. These modules appear to have the sff8472_compliance field set to zero, and also do not implement diagnostics. Detect this, but also ensure that the module does not require the address switching mode, which we do not implement. - Use mW for power level rather than power level number. - Fix high power mode transition We must not switch to SFP_MOD_PRESENT state until we have finished initialising, because the remaining state machines check for that state. Add SFP_MOD_HPOWER as an intermediate state. - Use definition for I2C register address rather than constant. Signed-off-by: Jon Nettleton <jon@solid-run.com> Signed-off-by: Russell King <rmk+kernel@armlinux.org.uk> Signed-off-by: David S. Miller <davem@davemloft.net>
2018-02-27 15:53:12 +00:00
ret = sfp_read(sfp, false, 0, &id, sizeof(id));
if (ret < 0) {
dev_err(sfp->dev, "failed to read EEPROM: %d\n", ret);
return -EAGAIN;
}
sfp: add high power module support This patch is the result of work by both Jon Nettleton and Russell King. Jon wrote the original patch, adding support for SFP modules which require a power level greater than '1'. Russell's changes: - Fix the power levels for big-endian, and make the code flow better. - Convert to use device_property_read_u8() - Warn for power levels exceeding host level SFF-8431 says: "To avoid exceeding system power supply limits and cooling capacity, all modules at power up by default shall operate with up to 1.0 W. Hosts supporting Power Level II or III operation may enable a Power Level II or III module through the 2-wire interface. Power Level II or III modules shall assert the power level declaration bit of SFF-8472." Print a warning for modules that exceed the host power level, and leave them operating in power level 1. - Fix i2c write The first byte of any write after the bus address is always the device address. In order to write a value to device D, address I, value V, we need to generate on the bus: S DDDDDDDD A IIIIIIII A VVVVVVVV A P where S = start, R = restart, A = ack, P = stop. Splitting this as two: S DDDDDDDD A IIIIIIII A R DDDDDDDD A VVVVVVVV A P results in the device's address register being written first by I and then by V - the addressed register within the device is not written. - Avoid power mode switching if 0xa2 is not implemented Some modules indicate that they support power level II or power level III, but do not implement address 0xa2, meaning that the bit to set them to high power mode is not accessible. These modules appear to have the sff8472_compliance field set to zero, and also do not implement diagnostics. Detect this, but also ensure that the module does not require the address switching mode, which we do not implement. - Use mW for power level rather than power level number. - Fix high power mode transition We must not switch to SFP_MOD_PRESENT state until we have finished initialising, because the remaining state machines check for that state. Add SFP_MOD_HPOWER as an intermediate state. - Use definition for I2C register address rather than constant. Signed-off-by: Jon Nettleton <jon@solid-run.com> Signed-off-by: Russell King <rmk+kernel@armlinux.org.uk> Signed-off-by: David S. Miller <davem@davemloft.net>
2018-02-27 15:53:12 +00:00
if (ret != sizeof(id)) {
dev_err(sfp->dev, "EEPROM short read: %d\n", ret);
return -EAGAIN;
}
/* Cotsworks do not seem to update the checksums when they
* do the final programming with the final module part number,
* serial number and date code.
*/
cotsworks = !memcmp(id.base.vendor_name, "COTSWORKS ", 16);
/* Validate the checksum over the base structure */
check = sfp_check(&id.base, sizeof(id.base) - 1);
if (check != id.base.cc_base) {
if (cotsworks) {
dev_warn(sfp->dev,
"EEPROM base structure checksum failure (0x%02x != 0x%02x)\n",
check, id.base.cc_base);
} else {
dev_err(sfp->dev,
"EEPROM base structure checksum failure: 0x%02x != 0x%02x\n",
check, id.base.cc_base);
print_hex_dump(KERN_ERR, "sfp EE: ", DUMP_PREFIX_OFFSET,
16, 1, &id, sizeof(id), true);
return -EINVAL;
}
}
check = sfp_check(&id.ext, sizeof(id.ext) - 1);
if (check != id.ext.cc_ext) {
if (cotsworks) {
dev_warn(sfp->dev,
"EEPROM extended structure checksum failure (0x%02x != 0x%02x)\n",
check, id.ext.cc_ext);
} else {
dev_err(sfp->dev,
"EEPROM extended structure checksum failure: 0x%02x != 0x%02x\n",
check, id.ext.cc_ext);
print_hex_dump(KERN_ERR, "sfp EE: ", DUMP_PREFIX_OFFSET,
16, 1, &id, sizeof(id), true);
memset(&id.ext, 0, sizeof(id.ext));
}
}
sfp->id = id;
dev_info(sfp->dev, "module %.*s %.*s rev %.*s sn %.*s dc %.*s\n",
(int)sizeof(id.base.vendor_name), id.base.vendor_name,
(int)sizeof(id.base.vendor_pn), id.base.vendor_pn,
(int)sizeof(id.base.vendor_rev), id.base.vendor_rev,
(int)sizeof(id.ext.vendor_sn), id.ext.vendor_sn,
(int)sizeof(id.ext.datecode), id.ext.datecode);
/* Check whether we support this module */
if (!sfp->type->module_supported(&sfp->id)) {
dev_err(sfp->dev,
"module is not supported - phys id 0x%02x 0x%02x\n",
sfp->id.base.phys_id, sfp->id.base.phys_ext_id);
return -EINVAL;
}
/* If the module requires address swap mode, warn about it */
if (sfp->id.ext.diagmon & SFP_DIAGMON_ADDRMODE)
dev_warn(sfp->dev,
"module address swap to access page 0xA2 is not supported.\n");
sfp: add high power module support This patch is the result of work by both Jon Nettleton and Russell King. Jon wrote the original patch, adding support for SFP modules which require a power level greater than '1'. Russell's changes: - Fix the power levels for big-endian, and make the code flow better. - Convert to use device_property_read_u8() - Warn for power levels exceeding host level SFF-8431 says: "To avoid exceeding system power supply limits and cooling capacity, all modules at power up by default shall operate with up to 1.0 W. Hosts supporting Power Level II or III operation may enable a Power Level II or III module through the 2-wire interface. Power Level II or III modules shall assert the power level declaration bit of SFF-8472." Print a warning for modules that exceed the host power level, and leave them operating in power level 1. - Fix i2c write The first byte of any write after the bus address is always the device address. In order to write a value to device D, address I, value V, we need to generate on the bus: S DDDDDDDD A IIIIIIII A VVVVVVVV A P where S = start, R = restart, A = ack, P = stop. Splitting this as two: S DDDDDDDD A IIIIIIII A R DDDDDDDD A VVVVVVVV A P results in the device's address register being written first by I and then by V - the addressed register within the device is not written. - Avoid power mode switching if 0xa2 is not implemented Some modules indicate that they support power level II or power level III, but do not implement address 0xa2, meaning that the bit to set them to high power mode is not accessible. These modules appear to have the sff8472_compliance field set to zero, and also do not implement diagnostics. Detect this, but also ensure that the module does not require the address switching mode, which we do not implement. - Use mW for power level rather than power level number. - Fix high power mode transition We must not switch to SFP_MOD_PRESENT state until we have finished initialising, because the remaining state machines check for that state. Add SFP_MOD_HPOWER as an intermediate state. - Use definition for I2C register address rather than constant. Signed-off-by: Jon Nettleton <jon@solid-run.com> Signed-off-by: Russell King <rmk+kernel@armlinux.org.uk> Signed-off-by: David S. Miller <davem@davemloft.net>
2018-02-27 15:53:12 +00:00
ret = sfp_module_insert(sfp->sfp_bus, &sfp->id);
if (ret < 0)
return ret;
return sfp_sm_mod_hpower(sfp);
}
static void sfp_sm_mod_remove(struct sfp *sfp)
{
sfp_module_remove(sfp->sfp_bus);
if (sfp->mod_phy)
sfp_sm_phy_detach(sfp);
sfp_module_tx_disable(sfp);
memset(&sfp->id, 0, sizeof(sfp->id));
dev_info(sfp->dev, "module removed\n");
}
static void sfp_sm_event(struct sfp *sfp, unsigned int event)
{
mutex_lock(&sfp->sm_mutex);
dev_dbg(sfp->dev, "SM: enter %u:%u:%u event %u\n",
sfp->sm_mod_state, sfp->sm_dev_state, sfp->sm_state, event);
/* This state machine tracks the insert/remove state of
* the module, and handles probing the on-board EEPROM.
*/
switch (sfp->sm_mod_state) {
default:
if (event == SFP_E_INSERT) {
sfp_module_tx_disable(sfp);
sfp_sm_ins_next(sfp, SFP_MOD_PROBE, T_PROBE_INIT);
}
break;
case SFP_MOD_PROBE:
if (event == SFP_E_REMOVE) {
sfp_sm_ins_next(sfp, SFP_MOD_EMPTY, 0);
} else if (event == SFP_E_TIMEOUT) {
sfp: add high power module support This patch is the result of work by both Jon Nettleton and Russell King. Jon wrote the original patch, adding support for SFP modules which require a power level greater than '1'. Russell's changes: - Fix the power levels for big-endian, and make the code flow better. - Convert to use device_property_read_u8() - Warn for power levels exceeding host level SFF-8431 says: "To avoid exceeding system power supply limits and cooling capacity, all modules at power up by default shall operate with up to 1.0 W. Hosts supporting Power Level II or III operation may enable a Power Level II or III module through the 2-wire interface. Power Level II or III modules shall assert the power level declaration bit of SFF-8472." Print a warning for modules that exceed the host power level, and leave them operating in power level 1. - Fix i2c write The first byte of any write after the bus address is always the device address. In order to write a value to device D, address I, value V, we need to generate on the bus: S DDDDDDDD A IIIIIIII A VVVVVVVV A P where S = start, R = restart, A = ack, P = stop. Splitting this as two: S DDDDDDDD A IIIIIIII A R DDDDDDDD A VVVVVVVV A P results in the device's address register being written first by I and then by V - the addressed register within the device is not written. - Avoid power mode switching if 0xa2 is not implemented Some modules indicate that they support power level II or power level III, but do not implement address 0xa2, meaning that the bit to set them to high power mode is not accessible. These modules appear to have the sff8472_compliance field set to zero, and also do not implement diagnostics. Detect this, but also ensure that the module does not require the address switching mode, which we do not implement. - Use mW for power level rather than power level number. - Fix high power mode transition We must not switch to SFP_MOD_PRESENT state until we have finished initialising, because the remaining state machines check for that state. Add SFP_MOD_HPOWER as an intermediate state. - Use definition for I2C register address rather than constant. Signed-off-by: Jon Nettleton <jon@solid-run.com> Signed-off-by: Russell King <rmk+kernel@armlinux.org.uk> Signed-off-by: David S. Miller <davem@davemloft.net>
2018-02-27 15:53:12 +00:00
int val = sfp_sm_mod_probe(sfp);
sfp: add high power module support This patch is the result of work by both Jon Nettleton and Russell King. Jon wrote the original patch, adding support for SFP modules which require a power level greater than '1'. Russell's changes: - Fix the power levels for big-endian, and make the code flow better. - Convert to use device_property_read_u8() - Warn for power levels exceeding host level SFF-8431 says: "To avoid exceeding system power supply limits and cooling capacity, all modules at power up by default shall operate with up to 1.0 W. Hosts supporting Power Level II or III operation may enable a Power Level II or III module through the 2-wire interface. Power Level II or III modules shall assert the power level declaration bit of SFF-8472." Print a warning for modules that exceed the host power level, and leave them operating in power level 1. - Fix i2c write The first byte of any write after the bus address is always the device address. In order to write a value to device D, address I, value V, we need to generate on the bus: S DDDDDDDD A IIIIIIII A VVVVVVVV A P where S = start, R = restart, A = ack, P = stop. Splitting this as two: S DDDDDDDD A IIIIIIII A R DDDDDDDD A VVVVVVVV A P results in the device's address register being written first by I and then by V - the addressed register within the device is not written. - Avoid power mode switching if 0xa2 is not implemented Some modules indicate that they support power level II or power level III, but do not implement address 0xa2, meaning that the bit to set them to high power mode is not accessible. These modules appear to have the sff8472_compliance field set to zero, and also do not implement diagnostics. Detect this, but also ensure that the module does not require the address switching mode, which we do not implement. - Use mW for power level rather than power level number. - Fix high power mode transition We must not switch to SFP_MOD_PRESENT state until we have finished initialising, because the remaining state machines check for that state. Add SFP_MOD_HPOWER as an intermediate state. - Use definition for I2C register address rather than constant. Signed-off-by: Jon Nettleton <jon@solid-run.com> Signed-off-by: Russell King <rmk+kernel@armlinux.org.uk> Signed-off-by: David S. Miller <davem@davemloft.net>
2018-02-27 15:53:12 +00:00
if (val == 0)
sfp_sm_ins_next(sfp, SFP_MOD_PRESENT, 0);
sfp: add high power module support This patch is the result of work by both Jon Nettleton and Russell King. Jon wrote the original patch, adding support for SFP modules which require a power level greater than '1'. Russell's changes: - Fix the power levels for big-endian, and make the code flow better. - Convert to use device_property_read_u8() - Warn for power levels exceeding host level SFF-8431 says: "To avoid exceeding system power supply limits and cooling capacity, all modules at power up by default shall operate with up to 1.0 W. Hosts supporting Power Level II or III operation may enable a Power Level II or III module through the 2-wire interface. Power Level II or III modules shall assert the power level declaration bit of SFF-8472." Print a warning for modules that exceed the host power level, and leave them operating in power level 1. - Fix i2c write The first byte of any write after the bus address is always the device address. In order to write a value to device D, address I, value V, we need to generate on the bus: S DDDDDDDD A IIIIIIII A VVVVVVVV A P where S = start, R = restart, A = ack, P = stop. Splitting this as two: S DDDDDDDD A IIIIIIII A R DDDDDDDD A VVVVVVVV A P results in the device's address register being written first by I and then by V - the addressed register within the device is not written. - Avoid power mode switching if 0xa2 is not implemented Some modules indicate that they support power level II or power level III, but do not implement address 0xa2, meaning that the bit to set them to high power mode is not accessible. These modules appear to have the sff8472_compliance field set to zero, and also do not implement diagnostics. Detect this, but also ensure that the module does not require the address switching mode, which we do not implement. - Use mW for power level rather than power level number. - Fix high power mode transition We must not switch to SFP_MOD_PRESENT state until we have finished initialising, because the remaining state machines check for that state. Add SFP_MOD_HPOWER as an intermediate state. - Use definition for I2C register address rather than constant. Signed-off-by: Jon Nettleton <jon@solid-run.com> Signed-off-by: Russell King <rmk+kernel@armlinux.org.uk> Signed-off-by: David S. Miller <davem@davemloft.net>
2018-02-27 15:53:12 +00:00
else if (val > 0)
sfp_sm_ins_next(sfp, SFP_MOD_HPOWER, val);
else if (val != -EAGAIN)
sfp_sm_ins_next(sfp, SFP_MOD_ERROR, 0);
sfp: add high power module support This patch is the result of work by both Jon Nettleton and Russell King. Jon wrote the original patch, adding support for SFP modules which require a power level greater than '1'. Russell's changes: - Fix the power levels for big-endian, and make the code flow better. - Convert to use device_property_read_u8() - Warn for power levels exceeding host level SFF-8431 says: "To avoid exceeding system power supply limits and cooling capacity, all modules at power up by default shall operate with up to 1.0 W. Hosts supporting Power Level II or III operation may enable a Power Level II or III module through the 2-wire interface. Power Level II or III modules shall assert the power level declaration bit of SFF-8472." Print a warning for modules that exceed the host power level, and leave them operating in power level 1. - Fix i2c write The first byte of any write after the bus address is always the device address. In order to write a value to device D, address I, value V, we need to generate on the bus: S DDDDDDDD A IIIIIIII A VVVVVVVV A P where S = start, R = restart, A = ack, P = stop. Splitting this as two: S DDDDDDDD A IIIIIIII A R DDDDDDDD A VVVVVVVV A P results in the device's address register being written first by I and then by V - the addressed register within the device is not written. - Avoid power mode switching if 0xa2 is not implemented Some modules indicate that they support power level II or power level III, but do not implement address 0xa2, meaning that the bit to set them to high power mode is not accessible. These modules appear to have the sff8472_compliance field set to zero, and also do not implement diagnostics. Detect this, but also ensure that the module does not require the address switching mode, which we do not implement. - Use mW for power level rather than power level number. - Fix high power mode transition We must not switch to SFP_MOD_PRESENT state until we have finished initialising, because the remaining state machines check for that state. Add SFP_MOD_HPOWER as an intermediate state. - Use definition for I2C register address rather than constant. Signed-off-by: Jon Nettleton <jon@solid-run.com> Signed-off-by: Russell King <rmk+kernel@armlinux.org.uk> Signed-off-by: David S. Miller <davem@davemloft.net>
2018-02-27 15:53:12 +00:00
else
sfp_sm_set_timer(sfp, T_PROBE_RETRY);
}
break;
sfp: add high power module support This patch is the result of work by both Jon Nettleton and Russell King. Jon wrote the original patch, adding support for SFP modules which require a power level greater than '1'. Russell's changes: - Fix the power levels for big-endian, and make the code flow better. - Convert to use device_property_read_u8() - Warn for power levels exceeding host level SFF-8431 says: "To avoid exceeding system power supply limits and cooling capacity, all modules at power up by default shall operate with up to 1.0 W. Hosts supporting Power Level II or III operation may enable a Power Level II or III module through the 2-wire interface. Power Level II or III modules shall assert the power level declaration bit of SFF-8472." Print a warning for modules that exceed the host power level, and leave them operating in power level 1. - Fix i2c write The first byte of any write after the bus address is always the device address. In order to write a value to device D, address I, value V, we need to generate on the bus: S DDDDDDDD A IIIIIIII A VVVVVVVV A P where S = start, R = restart, A = ack, P = stop. Splitting this as two: S DDDDDDDD A IIIIIIII A R DDDDDDDD A VVVVVVVV A P results in the device's address register being written first by I and then by V - the addressed register within the device is not written. - Avoid power mode switching if 0xa2 is not implemented Some modules indicate that they support power level II or power level III, but do not implement address 0xa2, meaning that the bit to set them to high power mode is not accessible. These modules appear to have the sff8472_compliance field set to zero, and also do not implement diagnostics. Detect this, but also ensure that the module does not require the address switching mode, which we do not implement. - Use mW for power level rather than power level number. - Fix high power mode transition We must not switch to SFP_MOD_PRESENT state until we have finished initialising, because the remaining state machines check for that state. Add SFP_MOD_HPOWER as an intermediate state. - Use definition for I2C register address rather than constant. Signed-off-by: Jon Nettleton <jon@solid-run.com> Signed-off-by: Russell King <rmk+kernel@armlinux.org.uk> Signed-off-by: David S. Miller <davem@davemloft.net>
2018-02-27 15:53:12 +00:00
case SFP_MOD_HPOWER:
if (event == SFP_E_TIMEOUT) {
sfp_sm_ins_next(sfp, SFP_MOD_PRESENT, 0);
break;
}
/* fallthrough */
case SFP_MOD_PRESENT:
case SFP_MOD_ERROR:
if (event == SFP_E_REMOVE) {
sfp_sm_mod_remove(sfp);
sfp_sm_ins_next(sfp, SFP_MOD_EMPTY, 0);
}
break;
}
/* This state machine tracks the netdev up/down state */
switch (sfp->sm_dev_state) {
default:
if (event == SFP_E_DEV_UP)
sfp->sm_dev_state = SFP_DEV_UP;
break;
case SFP_DEV_UP:
if (event == SFP_E_DEV_DOWN) {
/* If the module has a PHY, avoid raising TX disable
* as this resets the PHY. Otherwise, raise it to
* turn the laser off.
*/
if (!sfp->mod_phy)
sfp_module_tx_disable(sfp);
sfp->sm_dev_state = SFP_DEV_DOWN;
}
break;
}
/* Some events are global */
if (sfp->sm_state != SFP_S_DOWN &&
(sfp->sm_mod_state != SFP_MOD_PRESENT ||
sfp->sm_dev_state != SFP_DEV_UP)) {
if (sfp->sm_state == SFP_S_LINK_UP &&
sfp->sm_dev_state == SFP_DEV_UP)
sfp_sm_link_down(sfp);
if (sfp->mod_phy)
sfp_sm_phy_detach(sfp);
sfp_sm_next(sfp, SFP_S_DOWN, 0);
mutex_unlock(&sfp->sm_mutex);
return;
}
/* The main state machine */
switch (sfp->sm_state) {
case SFP_S_DOWN:
if (sfp->sm_mod_state == SFP_MOD_PRESENT &&
sfp->sm_dev_state == SFP_DEV_UP)
sfp_sm_mod_init(sfp);
break;
case SFP_S_INIT:
if (event == SFP_E_TIMEOUT && sfp->state & SFP_F_TX_FAULT)
sfp_sm_fault(sfp, true);
else if (event == SFP_E_TIMEOUT || event == SFP_E_TX_CLEAR)
sfp_sm_link_check_los(sfp);
break;
case SFP_S_WAIT_LOS:
if (event == SFP_E_TX_FAULT)
sfp_sm_fault(sfp, true);
else if (sfp_los_event_inactive(sfp, event))
sfp_sm_link_up(sfp);
break;
case SFP_S_LINK_UP:
if (event == SFP_E_TX_FAULT) {
sfp_sm_link_down(sfp);
sfp_sm_fault(sfp, true);
} else if (sfp_los_event_active(sfp, event)) {
sfp_sm_link_down(sfp);
sfp_sm_next(sfp, SFP_S_WAIT_LOS, 0);
}
break;
case SFP_S_TX_FAULT:
if (event == SFP_E_TIMEOUT) {
sfp_module_tx_fault_reset(sfp);
sfp_sm_next(sfp, SFP_S_REINIT, T_INIT_JIFFIES);
}
break;
case SFP_S_REINIT:
if (event == SFP_E_TIMEOUT && sfp->state & SFP_F_TX_FAULT) {
sfp_sm_fault(sfp, false);
} else if (event == SFP_E_TIMEOUT || event == SFP_E_TX_CLEAR) {
dev_info(sfp->dev, "module transmit fault recovered\n");
sfp_sm_link_check_los(sfp);
}
break;
case SFP_S_TX_DISABLE:
break;
}
dev_dbg(sfp->dev, "SM: exit %u:%u:%u\n",
sfp->sm_mod_state, sfp->sm_dev_state, sfp->sm_state);
mutex_unlock(&sfp->sm_mutex);
}
static void sfp_start(struct sfp *sfp)
{
sfp_sm_event(sfp, SFP_E_DEV_UP);
}
static void sfp_stop(struct sfp *sfp)
{
sfp_sm_event(sfp, SFP_E_DEV_DOWN);
}
static int sfp_module_info(struct sfp *sfp, struct ethtool_modinfo *modinfo)
{
/* locking... and check module is present */
if (sfp->id.ext.sff8472_compliance &&
!(sfp->id.ext.diagmon & SFP_DIAGMON_ADDRMODE)) {
modinfo->type = ETH_MODULE_SFF_8472;
modinfo->eeprom_len = ETH_MODULE_SFF_8472_LEN;
} else {
modinfo->type = ETH_MODULE_SFF_8079;
modinfo->eeprom_len = ETH_MODULE_SFF_8079_LEN;
}
return 0;
}
static int sfp_module_eeprom(struct sfp *sfp, struct ethtool_eeprom *ee,
u8 *data)
{
unsigned int first, last, len;
int ret;
if (ee->len == 0)
return -EINVAL;
first = ee->offset;
last = ee->offset + ee->len;
if (first < ETH_MODULE_SFF_8079_LEN) {
len = min_t(unsigned int, last, ETH_MODULE_SFF_8079_LEN);
len -= first;
ret = sfp_read(sfp, false, first, data, len);
if (ret < 0)
return ret;
first += len;
data += len;
}
if (first < ETH_MODULE_SFF_8472_LEN && last > ETH_MODULE_SFF_8079_LEN) {
len = min_t(unsigned int, last, ETH_MODULE_SFF_8472_LEN);
len -= first;
first -= ETH_MODULE_SFF_8079_LEN;
ret = sfp_read(sfp, true, first, data, len);
if (ret < 0)
return ret;
}
return 0;
}
static const struct sfp_socket_ops sfp_module_ops = {
.start = sfp_start,
.stop = sfp_stop,
.module_info = sfp_module_info,
.module_eeprom = sfp_module_eeprom,
};
static void sfp_timeout(struct work_struct *work)
{
struct sfp *sfp = container_of(work, struct sfp, timeout.work);
rtnl_lock();
sfp_sm_event(sfp, SFP_E_TIMEOUT);
rtnl_unlock();
}
static void sfp_check_state(struct sfp *sfp)
{
unsigned int state, i, changed;
state = sfp_get_state(sfp);
changed = state ^ sfp->state;
changed &= SFP_F_PRESENT | SFP_F_LOS | SFP_F_TX_FAULT;
for (i = 0; i < GPIO_MAX; i++)
if (changed & BIT(i))
dev_dbg(sfp->dev, "%s %u -> %u\n", gpio_of_names[i],
!!(sfp->state & BIT(i)), !!(state & BIT(i)));
state |= sfp->state & (SFP_F_TX_DISABLE | SFP_F_RATE_SELECT);
sfp->state = state;
rtnl_lock();
if (changed & SFP_F_PRESENT)
sfp_sm_event(sfp, state & SFP_F_PRESENT ?
SFP_E_INSERT : SFP_E_REMOVE);
if (changed & SFP_F_TX_FAULT)
sfp_sm_event(sfp, state & SFP_F_TX_FAULT ?
SFP_E_TX_FAULT : SFP_E_TX_CLEAR);
if (changed & SFP_F_LOS)
sfp_sm_event(sfp, state & SFP_F_LOS ?
SFP_E_LOS_HIGH : SFP_E_LOS_LOW);
rtnl_unlock();
}
static irqreturn_t sfp_irq(int irq, void *data)
{
struct sfp *sfp = data;
sfp_check_state(sfp);
return IRQ_HANDLED;
}
static void sfp_poll(struct work_struct *work)
{
struct sfp *sfp = container_of(work, struct sfp, poll.work);
sfp_check_state(sfp);
mod_delayed_work(system_wq, &sfp->poll, poll_jiffies);
}
static struct sfp *sfp_alloc(struct device *dev)
{
struct sfp *sfp;
sfp = kzalloc(sizeof(*sfp), GFP_KERNEL);
if (!sfp)
return ERR_PTR(-ENOMEM);
sfp->dev = dev;
mutex_init(&sfp->sm_mutex);
INIT_DELAYED_WORK(&sfp->poll, sfp_poll);
INIT_DELAYED_WORK(&sfp->timeout, sfp_timeout);
return sfp;
}
static void sfp_cleanup(void *data)
{
struct sfp *sfp = data;
cancel_delayed_work_sync(&sfp->poll);
cancel_delayed_work_sync(&sfp->timeout);
if (sfp->i2c_mii) {
mdiobus_unregister(sfp->i2c_mii);
mdiobus_free(sfp->i2c_mii);
}
if (sfp->i2c)
i2c_put_adapter(sfp->i2c);
kfree(sfp);
}
static int sfp_probe(struct platform_device *pdev)
{
const struct sff_data *sff;
struct sfp *sfp;
bool poll = false;
int irq, err, i;
sfp = sfp_alloc(&pdev->dev);
if (IS_ERR(sfp))
return PTR_ERR(sfp);
platform_set_drvdata(pdev, sfp);
err = devm_add_action(sfp->dev, sfp_cleanup, sfp);
if (err < 0)
return err;
sff = sfp->type = &sfp_data;
if (pdev->dev.of_node) {
struct device_node *node = pdev->dev.of_node;
const struct of_device_id *id;
struct i2c_adapter *i2c;
struct device_node *np;
id = of_match_node(sfp_of_match, node);
if (WARN_ON(!id))
return -EINVAL;
sff = sfp->type = id->data;
np = of_parse_phandle(node, "i2c-bus", 0);
if (!np) {
dev_err(sfp->dev, "missing 'i2c-bus' property\n");
return -ENODEV;
}
i2c = of_find_i2c_adapter_by_node(np);
of_node_put(np);
if (!i2c)
return -EPROBE_DEFER;
err = sfp_i2c_configure(sfp, i2c);
if (err < 0) {
i2c_put_adapter(i2c);
return err;
}
}
for (i = 0; i < GPIO_MAX; i++)
if (sff->gpios & BIT(i)) {
sfp->gpio[i] = devm_gpiod_get_optional(sfp->dev,
gpio_of_names[i], gpio_flags[i]);
if (IS_ERR(sfp->gpio[i]))
return PTR_ERR(sfp->gpio[i]);
}
sfp->get_state = sfp_gpio_get_state;
sfp->set_state = sfp_gpio_set_state;
/* Modules that have no detect signal are always present */
if (!(sfp->gpio[GPIO_MODDEF0]))
sfp->get_state = sff_gpio_get_state;
sfp: add high power module support This patch is the result of work by both Jon Nettleton and Russell King. Jon wrote the original patch, adding support for SFP modules which require a power level greater than '1'. Russell's changes: - Fix the power levels for big-endian, and make the code flow better. - Convert to use device_property_read_u8() - Warn for power levels exceeding host level SFF-8431 says: "To avoid exceeding system power supply limits and cooling capacity, all modules at power up by default shall operate with up to 1.0 W. Hosts supporting Power Level II or III operation may enable a Power Level II or III module through the 2-wire interface. Power Level II or III modules shall assert the power level declaration bit of SFF-8472." Print a warning for modules that exceed the host power level, and leave them operating in power level 1. - Fix i2c write The first byte of any write after the bus address is always the device address. In order to write a value to device D, address I, value V, we need to generate on the bus: S DDDDDDDD A IIIIIIII A VVVVVVVV A P where S = start, R = restart, A = ack, P = stop. Splitting this as two: S DDDDDDDD A IIIIIIII A R DDDDDDDD A VVVVVVVV A P results in the device's address register being written first by I and then by V - the addressed register within the device is not written. - Avoid power mode switching if 0xa2 is not implemented Some modules indicate that they support power level II or power level III, but do not implement address 0xa2, meaning that the bit to set them to high power mode is not accessible. These modules appear to have the sff8472_compliance field set to zero, and also do not implement diagnostics. Detect this, but also ensure that the module does not require the address switching mode, which we do not implement. - Use mW for power level rather than power level number. - Fix high power mode transition We must not switch to SFP_MOD_PRESENT state until we have finished initialising, because the remaining state machines check for that state. Add SFP_MOD_HPOWER as an intermediate state. - Use definition for I2C register address rather than constant. Signed-off-by: Jon Nettleton <jon@solid-run.com> Signed-off-by: Russell King <rmk+kernel@armlinux.org.uk> Signed-off-by: David S. Miller <davem@davemloft.net>
2018-02-27 15:53:12 +00:00
device_property_read_u32(&pdev->dev, "maximum-power-milliwatt",
&sfp->max_power_mW);
if (!sfp->max_power_mW)
sfp->max_power_mW = 1000;
dev_info(sfp->dev, "Host maximum power %u.%uW\n",
sfp->max_power_mW / 1000, (sfp->max_power_mW / 100) % 10);
sfp->sfp_bus = sfp_register_socket(sfp->dev, sfp, &sfp_module_ops);
if (!sfp->sfp_bus)
return -ENOMEM;
/* Get the initial state, and always signal TX disable,
* since the network interface will not be up.
*/
sfp->state = sfp_get_state(sfp) | SFP_F_TX_DISABLE;
if (sfp->gpio[GPIO_RATE_SELECT] &&
gpiod_get_value_cansleep(sfp->gpio[GPIO_RATE_SELECT]))
sfp->state |= SFP_F_RATE_SELECT;
sfp_set_state(sfp, sfp->state);
sfp_module_tx_disable(sfp);
rtnl_lock();
if (sfp->state & SFP_F_PRESENT)
sfp_sm_event(sfp, SFP_E_INSERT);
rtnl_unlock();
for (i = 0; i < GPIO_MAX; i++) {
if (gpio_flags[i] != GPIOD_IN || !sfp->gpio[i])
continue;
irq = gpiod_to_irq(sfp->gpio[i]);
if (!irq) {
poll = true;
continue;
}
err = devm_request_threaded_irq(sfp->dev, irq, NULL, sfp_irq,
IRQF_ONESHOT |
IRQF_TRIGGER_RISING |
IRQF_TRIGGER_FALLING,
dev_name(sfp->dev), sfp);
if (err)
poll = true;
}
if (poll)
mod_delayed_work(system_wq, &sfp->poll, poll_jiffies);
/* We could have an issue in cases no Tx disable pin is available or
* wired as modules using a laser as their light source will continue to
* be active when the fiber is removed. This could be a safety issue and
* we should at least warn the user about that.
*/
if (!sfp->gpio[GPIO_TX_DISABLE])
dev_warn(sfp->dev,
"No tx_disable pin: SFP modules will always be emitting.\n");
return 0;
}
static int sfp_remove(struct platform_device *pdev)
{
struct sfp *sfp = platform_get_drvdata(pdev);
sfp_unregister_socket(sfp->sfp_bus);
return 0;
}
static struct platform_driver sfp_driver = {
.probe = sfp_probe,
.remove = sfp_remove,
.driver = {
.name = "sfp",
.of_match_table = sfp_of_match,
},
};
static int sfp_init(void)
{
poll_jiffies = msecs_to_jiffies(100);
return platform_driver_register(&sfp_driver);
}
module_init(sfp_init);
static void sfp_exit(void)
{
platform_driver_unregister(&sfp_driver);
}
module_exit(sfp_exit);
MODULE_ALIAS("platform:sfp");
MODULE_AUTHOR("Russell King");
MODULE_LICENSE("GPL v2");