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Added support for Ethernet PHY KSZ8081

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Merges https://github.com/espressif/esp-idf/pull/6578
This commit is contained in:
Patrick Wieder 2021-02-19 16:12:06 +01:00 committed by bot
parent 9d7ba4c49a
commit 98a4c70af9
5 changed files with 381 additions and 0 deletions
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1
components/esp_eth/CMakeLists.txt
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@ -23,6 +23,7 @@ if(CONFIG_ETH_ENABLED)
"src/esp_eth_phy_dp83848.c"
"src/esp_eth_phy_ip101.c"
"src/esp_eth_phy_ksz8041.c"
"src/esp_eth_phy_ksz8081.c"
"src/esp_eth_phy_lan8720.c"
"src/esp_eth_phy_rtl8201.c")
endif()

11
components/esp_eth/include/esp_eth_phy.h
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@ -264,6 +264,17 @@ esp_eth_phy_t *esp_eth_phy_new_dp83848(const eth_phy_config_t *config);
*/
esp_eth_phy_t *esp_eth_phy_new_ksz8041(const eth_phy_config_t *config);
/**
* @brief Create a PHY instance of KSZ8081
*
* @param[in] config: configuration of PHY
*
* @return
* - instance: create PHY instance successfully
* - NULL: create PHY instance failed because some error occurred
*/
esp_eth_phy_t *esp_eth_phy_new_ksz8081(const eth_phy_config_t *config);
#if CONFIG_ETH_SPI_ETHERNET_DM9051
/**
* @brief Create a PHY instance of DM9051

361
components/esp_eth/src/esp_eth_phy_ksz8081.c Normal file
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@ -0,0 +1,361 @@
// Copyright 2021 Espressif Systems (Shanghai) PTE LTD
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#include <string.h>
#include <stdlib.h>
#include <sys/cdefs.h>
#include "esp_log.h"
#include "esp_eth.h"
#include "eth_phy_regs_struct.h"
#include "freertos/FreeRTOS.h"
#include "freertos/task.h"
#include "driver/gpio.h"
#include "esp_rom_gpio.h"
#include "esp_rom_sys.h"
static const char *TAG = "ksz8081";
#define PHY_CHECK(a, str, goto_tag, ...) \
do { \
if (!(a)) \
{ \
ESP_LOGE(TAG, "%s(%d): " str, __FUNCTION__, __LINE__, ##__VA_ARGS__); \
goto goto_tag; \
} \
} while (0)
/***************Vendor Specific Register***************/
/**
* @brief PC1R(PHY Control 1 Register)
*
*/
typedef union {
struct {
uint32_t op_mode : 3; /* Operation Mode Indication */
uint32_t phy_iso : 1; /* PHY in Isolate Mode */
uint32_t energy_det: 1; /* Signal presence on RX pair */
uint32_t mdix_state : 1; /* MDI/MDI-X state */
uint32_t reserved_6 : 1; /* Reserved */
uint32_t polarity_status : 1; /* Polarity status */
uint32_t link_status : 1; /* Link status */
uint32_t en_flow_ctrl : 1; /* Flow control */
uint32_t reserved_15_10 : 6; /* Reserved */
};
uint32_t val;
} pc1r_reg_t;
#define ETH_PHY_PC1R_REG_ADDR (0x1E)
typedef struct {
esp_eth_phy_t parent;
esp_eth_mediator_t *eth;
int addr;
uint32_t reset_timeout_ms;
uint32_t autonego_timeout_ms;
eth_link_t link_status;
int reset_gpio_num;
} phy_ksz8081_t;
static esp_err_t ksz8081_update_link_duplex_speed(phy_ksz8081_t *ksz8081)
{
esp_eth_mediator_t *eth = ksz8081->eth;
eth_speed_t speed = ETH_SPEED_10M;
eth_duplex_t duplex = ETH_DUPLEX_HALF;
uint32_t peer_pause_ability = false;
anlpar_reg_t anlpar;
bmsr_reg_t bmsr;
pc1r_reg_t pc1r;
PHY_CHECK(eth->phy_reg_read(eth, ksz8081->addr, ETH_PHY_ANLPAR_REG_ADDR, &(anlpar.val)) == ESP_OK,
"read ANLPAR failed", err);
PHY_CHECK(eth->phy_reg_read(eth, ksz8081->addr, ETH_PHY_BMSR_REG_ADDR, &(bmsr.val)) == ESP_OK,
"read BMSR failed", err);
eth_link_t link = bmsr.link_status ? ETH_LINK_UP : ETH_LINK_DOWN;
/* check if link status changed */
if (ksz8081->link_status != link) {
/* when link up, read negotiation result */
if (link == ETH_LINK_UP) {
PHY_CHECK(eth->phy_reg_read(eth, ksz8081->addr, ETH_PHY_PC1R_REG_ADDR, &(pc1r.val)) == ESP_OK,
"read PC1R failed", err);
switch (pc1r.op_mode) {
case 1: //10Base-T half-duplex
speed = ETH_SPEED_10M;
duplex = ETH_DUPLEX_HALF;
break;
case 2: //100Base-TX half-duplex
speed = ETH_SPEED_100M;
duplex = ETH_DUPLEX_HALF;
break;
case 5: //10Base-T full-duplex
speed = ETH_SPEED_10M;
duplex = ETH_DUPLEX_FULL;
break;
case 6: //100Base-TX full-duplex
speed = ETH_SPEED_100M;
duplex = ETH_DUPLEX_FULL;
break;
default:
break;
}
PHY_CHECK(eth->on_state_changed(eth, ETH_STATE_SPEED, (void *)speed) == ESP_OK,
"change speed failed", err);
PHY_CHECK(eth->on_state_changed(eth, ETH_STATE_DUPLEX, (void *)duplex) == ESP_OK,
"change duplex failed", err);
/* if we're in duplex mode, and peer has the flow control ability */
if (duplex == ETH_DUPLEX_FULL && anlpar.symmetric_pause) {
peer_pause_ability = 1;
} else {
peer_pause_ability = 0;
}
PHY_CHECK(eth->on_state_changed(eth, ETH_STATE_PAUSE, (void *)peer_pause_ability) == ESP_OK,
"change pause ability failed", err);
}
PHY_CHECK(eth->on_state_changed(eth, ETH_STATE_LINK, (void *)link) == ESP_OK,
"change link failed", err);
ksz8081->link_status = link;
}
return ESP_OK;
err:
return ESP_FAIL;
}
static esp_err_t ksz8081_set_mediator(esp_eth_phy_t *phy, esp_eth_mediator_t *eth)
{
PHY_CHECK(eth, "can't set mediator to null", err);
phy_ksz8081_t *ksz8081 = __containerof(phy, phy_ksz8081_t, parent);
ksz8081->eth = eth;
return ESP_OK;
err:
return ESP_ERR_INVALID_ARG;
}
static esp_err_t ksz8081_get_link(esp_eth_phy_t *phy)
{
phy_ksz8081_t *ksz8081 = __containerof(phy, phy_ksz8081_t, parent);
/* Update information about link, speed, duplex */
PHY_CHECK(ksz8081_update_link_duplex_speed(ksz8081) == ESP_OK, "update link duplex speed failed", err);
return ESP_OK;
err:
return ESP_FAIL;
}
static esp_err_t ksz8081_reset(esp_eth_phy_t *phy)
{
phy_ksz8081_t *ksz8081 = __containerof(phy, phy_ksz8081_t, parent);
ksz8081->link_status = ETH_LINK_DOWN;
esp_eth_mediator_t *eth = ksz8081->eth;
bmcr_reg_t bmcr = {.reset = 1};
PHY_CHECK(eth->phy_reg_write(eth, ksz8081->addr, ETH_PHY_BMCR_REG_ADDR, bmcr.val) == ESP_OK,
"write BMCR failed", err);
/* wait for reset complete */
uint32_t to = 0;
for (to = 0; to < ksz8081->reset_timeout_ms / 10; to++) {
vTaskDelay(pdMS_TO_TICKS(10));
PHY_CHECK(eth->phy_reg_read(eth, ksz8081->addr, ETH_PHY_BMCR_REG_ADDR, &(bmcr.val)) == ESP_OK,
"read BMCR failed", err);
if (!bmcr.reset) {
break;
}
}
PHY_CHECK(to < ksz8081->reset_timeout_ms / 10, "reset timeout", err);
return ESP_OK;
err:
return ESP_FAIL;
}
static esp_err_t ksz8081_reset_hw(esp_eth_phy_t *phy)
{
phy_ksz8081_t *ksz8081 = __containerof(phy, phy_ksz8081_t, parent);
if (ksz8081->reset_gpio_num >= 0) {
esp_rom_gpio_pad_select_gpio(ksz8081->reset_gpio_num);
gpio_set_direction(ksz8081->reset_gpio_num, GPIO_MODE_OUTPUT);
gpio_set_level(ksz8081->reset_gpio_num, 0);
esp_rom_delay_us(100); // insert min input assert time
gpio_set_level(ksz8081->reset_gpio_num, 1);
}
return ESP_OK;
}
static esp_err_t ksz8081_negotiate(esp_eth_phy_t *phy)
{
phy_ksz8081_t *ksz8081 = __containerof(phy, phy_ksz8081_t, parent);
esp_eth_mediator_t *eth = ksz8081->eth;
/* Restart auto negotiation */
bmcr_reg_t bmcr = {
.speed_select = 1, /* 100Mbps */
.duplex_mode = 1, /* Full Duplex */
.en_auto_nego = 1, /* Auto Negotiation */
.restart_auto_nego = 1 /* Restart Auto Negotiation */
};
PHY_CHECK(eth->phy_reg_write(eth, ksz8081->addr, ETH_PHY_BMCR_REG_ADDR, bmcr.val) == ESP_OK, "write BMCR failed", err);
/* Wait for auto negotiation complete */
bmsr_reg_t bmsr;
uint32_t to = 0;
for (to = 0; to < ksz8081->autonego_timeout_ms / 10; to++) {
vTaskDelay(pdMS_TO_TICKS(10));
PHY_CHECK(eth->phy_reg_read(eth, ksz8081->addr, ETH_PHY_BMSR_REG_ADDR, &(bmsr.val)) == ESP_OK,
"read BMSR failed", err);
if (bmsr.auto_nego_complete) {
break;
}
}
/* Auto negotiation failed, maybe no network cable plugged in, so output a warning */
if (to >= ksz8081->autonego_timeout_ms / 10) {
ESP_LOGW(TAG, "auto negotiation timeout");
}
/* Updata information about link, speed, duplex */
PHY_CHECK(ksz8081_update_link_duplex_speed(ksz8081) == ESP_OK, "update link duplex speed failed", err);
return ESP_OK;
err:
return ESP_FAIL;
}
static esp_err_t ksz8081_pwrctl(esp_eth_phy_t *phy, bool enable)
{
phy_ksz8081_t *ksz8081 = __containerof(phy, phy_ksz8081_t, parent);
esp_eth_mediator_t *eth = ksz8081->eth;
bmcr_reg_t bmcr;
PHY_CHECK(eth->phy_reg_read(eth, ksz8081->addr, ETH_PHY_BMCR_REG_ADDR, &(bmcr.val)) == ESP_OK,
"read BMCR failed", err);
if (!enable) {
/* General Power Down Mode */
bmcr.power_down = 1;
} else {
/* Normal operation Mode */
bmcr.power_down = 0;
}
PHY_CHECK(eth->phy_reg_write(eth, ksz8081->addr, ETH_PHY_BMCR_REG_ADDR, bmcr.val) == ESP_OK,
"write BMCR failed", err);
if (!enable) {
PHY_CHECK(eth->phy_reg_read(eth, ksz8081->addr, ETH_PHY_BMCR_REG_ADDR, &(bmcr.val)) == ESP_OK,
"read BMCR failed", err);
PHY_CHECK(bmcr.power_down == 1, "power down failed", err);
} else {
/* wait for power up complete */
uint32_t to = 0;
for (to = 0; to < ksz8081->reset_timeout_ms / 10; to++) {
vTaskDelay(pdMS_TO_TICKS(10));
PHY_CHECK(eth->phy_reg_read(eth, ksz8081->addr, ETH_PHY_BMCR_REG_ADDR, &(bmcr.val)) == ESP_OK,
"read BMCR failed", err);
if (bmcr.power_down == 0) {
break;
}
}
PHY_CHECK(to < ksz8081->reset_timeout_ms / 10, "power up timeout", err);
}
return ESP_OK;
err:
return ESP_FAIL;
}
static esp_err_t ksz8081_set_addr(esp_eth_phy_t *phy, uint32_t addr)
{
phy_ksz8081_t *ksz8081 = __containerof(phy, phy_ksz8081_t, parent);
ksz8081->addr = addr;
return ESP_OK;
}
static esp_err_t ksz8081_get_addr(esp_eth_phy_t *phy, uint32_t *addr)
{
PHY_CHECK(addr, "addr can't be null", err);
phy_ksz8081_t *ksz8081 = __containerof(phy, phy_ksz8081_t, parent);
*addr = ksz8081->addr;
return ESP_OK;
err:
return ESP_ERR_INVALID_ARG;
}
static esp_err_t ksz8081_del(esp_eth_phy_t *phy)
{
phy_ksz8081_t *ksz8081 = __containerof(phy, phy_ksz8081_t, parent);
free(ksz8081);
return ESP_OK;
}
static esp_err_t ksz8081_advertise_pause_ability(esp_eth_phy_t *phy, uint32_t ability)
{
phy_ksz8081_t *ksz8081 = __containerof(phy, phy_ksz8081_t, parent);
esp_eth_mediator_t *eth = ksz8081->eth;
/* Set PAUSE function ability */
anar_reg_t anar;
PHY_CHECK(eth->phy_reg_read(eth, ksz8081->addr, ETH_PHY_ANAR_REG_ADDR, &(anar.val)) == ESP_OK,
"read ANAR failed", err);
if (ability) {
anar.asymmetric_pause = 1;
anar.symmetric_pause = 1;
} else {
anar.asymmetric_pause = 0;
anar.symmetric_pause = 0;
}
PHY_CHECK(eth->phy_reg_write(eth, ksz8081->addr, ETH_PHY_ANAR_REG_ADDR, anar.val) == ESP_OK,
"write ANAR failed", err);
return ESP_OK;
err:
return ESP_FAIL;
}
static esp_err_t ksz8081_init(esp_eth_phy_t *phy)
{
phy_ksz8081_t *ksz8081 = __containerof(phy, phy_ksz8081_t, parent);
esp_eth_mediator_t *eth = ksz8081->eth;
/* Power on Ethernet PHY */
PHY_CHECK(ksz8081_pwrctl(phy, true) == ESP_OK, "power control failed", err);
/* Reset Ethernet PHY */
PHY_CHECK(ksz8081_reset(phy) == ESP_OK, "reset failed", err);
/* Check PHY ID */
phyidr1_reg_t id1;
phyidr2_reg_t id2;
PHY_CHECK(eth->phy_reg_read(eth, ksz8081->addr, ETH_PHY_IDR1_REG_ADDR, &(id1.val)) == ESP_OK,
"read ID1 failed", err);
PHY_CHECK(eth->phy_reg_read(eth, ksz8081->addr, ETH_PHY_IDR2_REG_ADDR, &(id2.val)) == ESP_OK,
"read ID2 failed", err);
PHY_CHECK(id1.oui_msb == 0x22 && id2.oui_lsb == 0x5 && id2.vendor_model == 0x16, "wrong chip ID", err);
return ESP_OK;
err:
return ESP_FAIL;
}
static esp_err_t ksz8081_deinit(esp_eth_phy_t *phy)
{
/* Power off Ethernet PHY */
PHY_CHECK(ksz8081_pwrctl(phy, false) == ESP_OK, "power control failed", err);
return ESP_OK;
err:
return ESP_FAIL;
}
esp_eth_phy_t *esp_eth_phy_new_ksz8081(const eth_phy_config_t *config)
{
PHY_CHECK(config, "can't set phy config to null", err);
phy_ksz8081_t *ksz8081 = calloc(1, sizeof(phy_ksz8081_t));
PHY_CHECK(ksz8081, "calloc ksz8081 failed", err);
ksz8081->addr = config->phy_addr;
ksz8081->reset_gpio_num = config->reset_gpio_num;
ksz8081->reset_timeout_ms = config->reset_timeout_ms;
ksz8081->link_status = ETH_LINK_DOWN;
ksz8081->autonego_timeout_ms = config->autonego_timeout_ms;
ksz8081->parent.reset = ksz8081_reset;
ksz8081->parent.reset_hw = ksz8081_reset_hw;
ksz8081->parent.init = ksz8081_init;
ksz8081->parent.deinit = ksz8081_deinit;
ksz8081->parent.set_mediator = ksz8081_set_mediator;
ksz8081->parent.negotiate = ksz8081_negotiate;
ksz8081->parent.get_link = ksz8081_get_link;
ksz8081->parent.pwrctl = ksz8081_pwrctl;
ksz8081->parent.get_addr = ksz8081_get_addr;
ksz8081->parent.set_addr = ksz8081_set_addr;
ksz8081->parent.advertise_pause_ability = ksz8081_advertise_pause_ability;
ksz8081->parent.del = ksz8081_del;
return &(ksz8081->parent);
err:
return NULL;
}

6
examples/ethernet/basic/main/Kconfig.projbuild
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@ -70,6 +70,12 @@ menu "Example Configuration"
help
The KSZ8041 is a single supply 10Base-T/100Base-TX Physical Layer Transceiver.
Goto https://www.microchip.com/wwwproducts/en/KSZ8041 for more information about it.
config EXAMPLE_ETH_PHY_KSZ8081
bool "KSZ8081"
help
The KSZ8081 is a single supply 10Base-T/100Base-TX Physical Layer Transceiver.
Goto https://www.microchip.com/wwwproducts/en/KSZ8081 for more information about it.
endchoice # EXAMPLE_ETH_PHY_MODEL
config EXAMPLE_ETH_MDC_GPIO

2
examples/ethernet/basic/main/ethernet_example_main.c
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@ -98,6 +98,8 @@ void app_main(void)
esp_eth_phy_t *phy = esp_eth_phy_new_dp83848(&phy_config);
#elif CONFIG_EXAMPLE_ETH_PHY_KSZ8041
esp_eth_phy_t *phy = esp_eth_phy_new_ksz8041(&phy_config);
#elif CONFIG_EXAMPLE_ETH_PHY_KSZ8081
esp_eth_phy_t *phy = esp_eth_phy_new_ksz8081(&phy_config);
#endif
#elif CONFIG_ETH_USE_SPI_ETHERNET
gpio_install_isr_service(0);