a377302623
This provides a standard interface to setting the global networking config for all interfaces and interface types. For ports that already use either a static hostname (mimxrt, rp2) they will now use the configured value. The default is configured by the port (or optionally the board). For interfaces that previously supported .config(hostname), this is still supported but now implemented using the global network.hostname. Similarly, pyb.country and rp2.country are now deprecated, but the methods still exist (and forward to network.hostname). Because ESP32/ESP8266 do not use extmod/modnetwork.c they are not affected by this commit. Signed-off-by: Jim Mussared <jim.mussared@gmail.com>
643 lines
23 KiB
C
643 lines
23 KiB
C
/*
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* This file is part of the MicroPython project, http://micropython.org/
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*
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* The MIT License (MIT)
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*
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* Copyright (c) 2019 Damien P. George
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* Copyright (c) 2021 Robert Hammelrath
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*
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* Permission is hereby granted, free of charge, to any person obtaining a copy
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* of this software and associated documentation files (the "Software"), to deal
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* in the Software without restriction, including without limitation the rights
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* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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* copies of the Software, and to permit persons to whom the Software is
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* furnished to do so, subject to the following conditions:
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*
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* The above copyright notice and this permission notice shall be included in
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* all copies or substantial portions of the Software.
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*
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* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
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* THE SOFTWARE.
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*/
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#include <string.h>
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#include "py/runtime.h"
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#include "py/mphal.h"
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#include "py/mperrno.h"
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#include "ticks.h"
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#if defined(MICROPY_HW_ETH_MDC)
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#include "pin.h"
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#include "shared/netutils/netutils.h"
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#include "extmod/modnetwork.h"
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#include "fsl_iomuxc.h"
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#include "fsl_enet.h"
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#include "fsl_phy.h"
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#include "hal/phy/mdio/enet/fsl_enet_mdio.h"
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#include "hal/phy/device/phyksz8081/fsl_phyksz8081.h"
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#include "hal/phy/device/phydp83825/fsl_phydp83825.h"
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#include "hal/phy/device/phydp83848/fsl_phydp83848.h"
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#include "hal/phy/device/phylan8720/fsl_phylan8720.h"
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#include "hal/phy/device/phyrtl8211f/fsl_phyrtl8211f.h"
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#include "eth.h"
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#include "lwip/etharp.h"
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#include "lwip/dns.h"
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#include "lwip/dhcp.h"
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#include "netif/ethernet.h"
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#include "ticks.h"
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#define ENET_RXBD_NUM (5)
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#define ENET_TXBD_NUM (5)
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typedef struct _eth_t {
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uint32_t trace_flags;
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struct netif netif;
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struct dhcp dhcp_struct;
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} eth_t;
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typedef struct _iomux_table_t {
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uint32_t muxRegister;
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uint32_t muxMode;
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uint32_t inputRegister;
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uint32_t inputDaisy;
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uint32_t configRegister;
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uint32_t inputOnfield;
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uint32_t configValue;
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} iomux_table_t;
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// ETH0 buffers and handles
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static AT_NONCACHEABLE_SECTION_ALIGN(enet_rx_bd_struct_t g_rxBuffDescrip[ENET_RXBD_NUM], ENET_BUFF_ALIGNMENT);
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static AT_NONCACHEABLE_SECTION_ALIGN(enet_tx_bd_struct_t g_txBuffDescrip[ENET_TXBD_NUM], ENET_BUFF_ALIGNMENT);
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static SDK_ALIGN(uint8_t g_rxDataBuff[ENET_RXBD_NUM][SDK_SIZEALIGN(ENET_FRAME_MAX_FRAMELEN, ENET_BUFF_ALIGNMENT)],
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ENET_BUFF_ALIGNMENT);
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static SDK_ALIGN(uint8_t g_txDataBuff[ENET_TXBD_NUM][SDK_SIZEALIGN(ENET_FRAME_MAX_FRAMELEN, ENET_BUFF_ALIGNMENT)],
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ENET_BUFF_ALIGNMENT);
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// ENET Handles & Buffers
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static enet_handle_t g_handle;
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static mdio_handle_t mdioHandle = {.ops = &enet_ops};
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static phy_handle_t phyHandle;
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eth_t eth_instance0;
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static enet_buffer_config_t buffConfig[] = {{
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ENET_RXBD_NUM,
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ENET_TXBD_NUM,
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SDK_SIZEALIGN(ENET_FRAME_MAX_FRAMELEN, ENET_BUFF_ALIGNMENT),
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SDK_SIZEALIGN(ENET_FRAME_MAX_FRAMELEN, ENET_BUFF_ALIGNMENT),
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&g_rxBuffDescrip[0],
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&g_txBuffDescrip[0],
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&g_rxDataBuff[0][0],
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&g_txDataBuff[0][0],
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#if FSL_ENET_DRIVER_VERSION >= 0x020300
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true,
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true,
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NULL,
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#endif
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}};
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static const iomux_table_t iomux_table_enet[] = {
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IOMUX_TABLE_ENET
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};
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static uint8_t hw_addr[6]; // The MAC address field
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#if defined(ENET_DUAL_PORT)
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// ETH1 buffers and handles
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static AT_NONCACHEABLE_SECTION_ALIGN(enet_rx_bd_struct_t g_rxBuffDescrip_1[ENET_RXBD_NUM], ENET_BUFF_ALIGNMENT);
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static AT_NONCACHEABLE_SECTION_ALIGN(enet_tx_bd_struct_t g_txBuffDescrip_1[ENET_TXBD_NUM], ENET_BUFF_ALIGNMENT);
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static SDK_ALIGN(uint8_t g_rxDataBuff_1[ENET_RXBD_NUM][SDK_SIZEALIGN(ENET_FRAME_MAX_FRAMELEN, ENET_BUFF_ALIGNMENT)],
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ENET_BUFF_ALIGNMENT);
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static SDK_ALIGN(uint8_t g_txDataBuff_1[ENET_TXBD_NUM][SDK_SIZEALIGN(ENET_FRAME_MAX_FRAMELEN, ENET_BUFF_ALIGNMENT)],
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ENET_BUFF_ALIGNMENT);
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static enet_handle_t g_handle_1;
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static mdio_handle_t mdioHandle_1 = {.ops = &enet_ops};
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static phy_handle_t phyHandle_1;
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eth_t eth_instance1;
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static enet_buffer_config_t buffConfig_1[] = {{
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ENET_RXBD_NUM,
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ENET_TXBD_NUM,
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SDK_SIZEALIGN(ENET_FRAME_MAX_FRAMELEN, ENET_BUFF_ALIGNMENT),
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SDK_SIZEALIGN(ENET_FRAME_MAX_FRAMELEN, ENET_BUFF_ALIGNMENT),
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&g_rxBuffDescrip_1[0],
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&g_txBuffDescrip_1[0],
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&g_rxDataBuff_1[0][0],
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&g_txDataBuff_1[0][0],
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#if FSL_ENET_DRIVER_VERSION >= 0x020300
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true,
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true,
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NULL,
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#endif
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}};
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static const iomux_table_t iomux_table_enet_1[] = {
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IOMUX_TABLE_ENET_1
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};
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static uint8_t hw_addr_1[6]; // The MAC address field
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#endif
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#if defined(ENET_DUAL_PORT)
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#if defined MIMXRT117x_SERIES
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#define ENET_1 ENET_1G
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#else
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#define ENET_1 ENET2
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#endif
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#else
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#define ENET_1 ENET
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#endif
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#define PHY_AUTONEGO_TIMEOUT_US (5000000)
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#define PHY_SETTLE_TIME_US (1000)
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// Settle time must be 500000 for the 1G interface
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#define PHY_SETTLE_TIME_US_1 (500000)
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#define ENET_RESET_LOW_TIME_US (10000)
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#define ENET_RESET_WAIT_TIME_US (30000)
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#define IOTE (iomux_table[i])
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#ifndef ENET_TX_CLK_OUTPUT
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#define ENET_TX_CLK_OUTPUT true
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#endif
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#define TRACE_ASYNC_EV (0x0001)
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#define TRACE_ETH_TX (0x0002)
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#define TRACE_ETH_RX (0x0004)
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#define TRACE_ETH_FULL (0x0008)
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STATIC void eth_trace(eth_t *self, size_t len, const void *data, unsigned int flags) {
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if (((flags & NETUTILS_TRACE_IS_TX) && (self->trace_flags & TRACE_ETH_TX))
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|| (!(flags & NETUTILS_TRACE_IS_TX) && (self->trace_flags & TRACE_ETH_RX))) {
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const uint8_t *buf;
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if (len == (size_t)-1) {
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// data is a pbuf
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const struct pbuf *pbuf = data;
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buf = pbuf->payload;
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len = pbuf->len; // restricted to print only the first chunk of the pbuf
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} else {
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// data is actual data buffer
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buf = data;
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}
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if (self->trace_flags & TRACE_ETH_FULL) {
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flags |= NETUTILS_TRACE_PAYLOAD;
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}
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netutils_ethernet_trace(MP_PYTHON_PRINTER, len, buf, flags);
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}
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}
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STATIC void eth_process_frame(eth_t *self, uint8_t *buf, size_t length) {
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struct netif *netif = &self->netif;
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if (netif->flags & NETIF_FLAG_LINK_UP) {
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struct pbuf *p = pbuf_alloc(PBUF_RAW, length, PBUF_POOL);
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if (p != NULL) {
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// Need to create a local copy first, since ENET_ReadFrame does not
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// provide a pointer to the buffer.
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pbuf_take(p, buf, length);
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if (netif->input(p, netif) != ERR_OK) {
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pbuf_free(p);
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}
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}
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}
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}
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void eth_irq_handler(ENET_Type *base, enet_handle_t *handle,
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#if FSL_FEATURE_ENET_QUEUE > 1
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uint32_t ringId,
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#endif /* FSL_FEATURE_ENET_QUEUE > 1 */
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enet_event_t event, enet_frame_info_t *frameInfo, void *userData) {
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eth_t *self = (eth_t *)userData;
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uint8_t g_rx_frame[ENET_FRAME_MAX_FRAMELEN + 14];
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uint32_t length = 0;
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status_t status;
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if (event == kENET_RxEvent) {
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do {
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status = ENET_GetRxFrameSize(handle, &length, 0);
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if (status == kStatus_Success) {
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// Get the data
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ENET_ReadFrame(base, handle, g_rx_frame, length, 0, NULL);
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eth_process_frame(self, g_rx_frame, length);
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} else if (status == kStatus_ENET_RxFrameError) {
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ENET_ReadFrame(base, handle, NULL, 0, 0, NULL);
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}
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} while (status != kStatus_ENET_RxFrameEmpty);
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} else {
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ENET_ClearInterruptStatus(base, ENET_TX_INTERRUPT | ENET_ERR_INTERRUPT);
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}
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}
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// Configure the ethernet clock
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STATIC uint32_t eth_clock_init(int eth_id, bool phy_clock) {
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CLOCK_EnableClock(kCLOCK_Iomuxc);
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#if defined MIMXRT117x_SERIES
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clock_root_config_t rootCfg = {0};
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if (eth_id == MP_HAL_MAC_ETH0) {
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// Generate 50M root clock.
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rootCfg.mux = kCLOCK_ENET1_ClockRoot_MuxSysPll1Div2; // 500 MHz
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rootCfg.div = 10;
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CLOCK_SetRootClock(kCLOCK_Root_Enet1, &rootCfg);
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// 50M ENET_REF_CLOCK output to PHY and ENET module.
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// if required, handle phy_clock direction here
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IOMUXC_GPR->GPR4 |= 0x3;
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} else {
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// Generate 125M root clock.
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rootCfg.mux = kCLOCK_ENET1_ClockRoot_MuxSysPll1Div2; // 500 MHz
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rootCfg.div = 4;
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CLOCK_SetRootClock(kCLOCK_Root_Enet2, &rootCfg);
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IOMUXC_GPR->GPR5 |= IOMUXC_GPR_GPR5_ENET1G_RGMII_EN_MASK; /* bit1:iomuxc_gpr_enet_clk_dir
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bit0:GPR_ENET_TX_CLK_SEL(internal or OSC) */
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}
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return CLOCK_GetRootClockFreq(kCLOCK_Root_Bus);
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#else
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const clock_enet_pll_config_t config = {
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.enableClkOutput = phy_clock, .enableClkOutput25M = false, .loopDivider = 1
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};
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CLOCK_InitEnetPll(&config);
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IOMUXC_EnableMode(IOMUXC_GPR, kIOMUXC_GPR_ENET1RefClkMode, false); // Drive ENET_REF_CLK from PAD
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IOMUXC_EnableMode(IOMUXC_GPR, kIOMUXC_GPR_ENET1TxClkOutputDir, phy_clock); // Enable output driver
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return CLOCK_GetFreq(kCLOCK_IpgClk);
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#endif
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}
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// eth_gpio_init: Configure the GPIO pins
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STATIC void eth_gpio_init(const iomux_table_t iomux_table[], size_t iomux_table_size,
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const machine_pin_obj_t *reset_pin, const machine_pin_obj_t *int_pin) {
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gpio_pin_config_t gpio_config = {kGPIO_DigitalOutput, 1, kGPIO_NoIntmode};
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(void)gpio_config;
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const machine_pin_af_obj_t *af_obj;
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if (reset_pin != NULL) {
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// Configure the Reset Pin
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af_obj = pin_find_af(reset_pin, PIN_AF_MODE_ALT5);
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IOMUXC_SetPinMux(reset_pin->muxRegister, af_obj->af_mode, 0, 0, reset_pin->configRegister, 0U);
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IOMUXC_SetPinConfig(reset_pin->muxRegister, af_obj->af_mode, 0, 0, reset_pin->configRegister,
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pin_generate_config(PIN_PULL_DISABLED, PIN_MODE_OUT, PIN_DRIVE_5, reset_pin->configRegister));
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GPIO_PinInit(reset_pin->gpio, reset_pin->pin, &gpio_config);
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}
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if (int_pin != NULL) {
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// Configure the Int Pin
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af_obj = pin_find_af(int_pin, PIN_AF_MODE_ALT5);
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IOMUXC_SetPinMux(int_pin->muxRegister, af_obj->af_mode, 0, 0, int_pin->configRegister, 0U);
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IOMUXC_SetPinConfig(int_pin->muxRegister, af_obj->af_mode, 0, 0, int_pin->configRegister,
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pin_generate_config(PIN_PULL_UP_47K, PIN_MODE_IN, PIN_DRIVE_5, int_pin->configRegister));
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GPIO_PinInit(int_pin->gpio, int_pin->pin, &gpio_config);
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}
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// Configure the Transceiver Pins, Settings except for CLK:
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// Slew Rate Field: Fast Slew Rate, Drive Strength, R0/5, Speed max(200MHz)
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// Open Drain Disabled, Pull Enabled, Pull 100K Ohm Pull Up
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// Hysteresis Disabled
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for (int i = 0; i < iomux_table_size; i++) {
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IOMUXC_SetPinMux(IOTE.muxRegister, IOTE.muxMode, IOTE.inputRegister, IOTE.inputDaisy, IOTE.configRegister, IOTE.inputOnfield);
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IOMUXC_SetPinConfig(IOTE.muxRegister, IOTE.muxMode, IOTE.inputRegister, IOTE.inputDaisy, IOTE.configRegister, IOTE.configValue);
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}
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// Reset the transceiver
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if (reset_pin != NULL) {
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GPIO_PinWrite(reset_pin->gpio, reset_pin->pin, 0);
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mp_hal_delay_us(ENET_RESET_LOW_TIME_US);
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GPIO_PinWrite(reset_pin->gpio, reset_pin->pin, 1);
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mp_hal_delay_us(ENET_RESET_WAIT_TIME_US);
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}
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}
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// eth_phy_init: Initilaize the PHY interface
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STATIC void eth_phy_init(phy_handle_t *phyHandle, phy_config_t *phy_config,
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phy_speed_t *speed, phy_duplex_t *duplex, uint32_t phy_settle_time) {
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bool link = false;
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bool autonego = false;
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phy_config->autoNeg = true;
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status_t status = PHY_Init(phyHandle, phy_config);
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if (status == kStatus_Success) {
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uint64_t t = ticks_us64() + PHY_AUTONEGO_TIMEOUT_US;
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// Wait for auto-negotiation success and link up
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do {
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PHY_GetAutoNegotiationStatus(phyHandle, &autonego);
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PHY_GetLinkStatus(phyHandle, &link);
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if (autonego && link) {
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break;
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}
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} while (ticks_us64() < t);
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if (!autonego) {
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mp_raise_msg(&mp_type_OSError, MP_ERROR_TEXT("PHY Auto-negotiation failed."));
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}
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PHY_GetLinkSpeedDuplex(phyHandle, speed, duplex);
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} else {
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mp_raise_msg(&mp_type_OSError, MP_ERROR_TEXT("PHY Init failed."));
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}
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mp_hal_delay_us(phy_settle_time);
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}
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// eth_init: Set up GPIO and the transceiver
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void eth_init_0(eth_t *self, int eth_id, const phy_operations_t *phy_ops, int phy_addr, bool phy_clock) {
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// Configuration values
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enet_config_t enet_config;
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phy_config_t phy_config = {0};
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uint32_t source_clock = eth_clock_init(eth_id, phy_clock);
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eth_gpio_init(iomux_table_enet, ARRAY_SIZE(iomux_table_enet), ENET_RESET_PIN, ENET_INT_PIN);
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mp_hal_get_mac(0, hw_addr);
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// Init the PHY interface & negotiate the speed
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phyHandle.ops = phy_ops;
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phy_config.phyAddr = phy_addr;
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phyHandle.mdioHandle = &mdioHandle;
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mdioHandle.resource.base = ENET;
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mdioHandle.resource.csrClock_Hz = source_clock;
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phy_speed_t speed = kENET_MiiSpeed100M;
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phy_duplex_t duplex = kENET_MiiFullDuplex;
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eth_phy_init(&phyHandle, &phy_config, &speed, &duplex, PHY_SETTLE_TIME_US);
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ENET_Reset(ENET);
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ENET_GetDefaultConfig(&enet_config);
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enet_config.miiSpeed = (enet_mii_speed_t)speed;
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enet_config.miiDuplex = (enet_mii_duplex_t)duplex;
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enet_config.miiMode = kENET_RmiiMode;
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// Enable checksum generation by the ENET controller
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enet_config.txAccelerConfig = kENET_TxAccelIpCheckEnabled | kENET_TxAccelProtoCheckEnabled;
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// Set interrupt
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enet_config.interrupt |= ENET_TX_INTERRUPT | ENET_RX_INTERRUPT;
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ENET_Init(ENET, &g_handle, &enet_config, &buffConfig[0], hw_addr, source_clock);
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ENET_SetCallback(&g_handle, eth_irq_handler, (void *)self);
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NVIC_SetPriority(ENET_IRQn, IRQ_PRI_PENDSV);
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ENET_EnableInterrupts(ENET, ENET_RX_INTERRUPT);
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ENET_ClearInterruptStatus(ENET, ENET_TX_INTERRUPT | ENET_RX_INTERRUPT | ENET_ERR_INTERRUPT);
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NVIC_SetPriority(ENET_IRQn, IRQ_PRI_PENDSV);
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ENET_EnableInterrupts(ENET, ENET_RX_INTERRUPT);
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ENET_ActiveRead(ENET);
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}
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#if defined(ENET_DUAL_PORT)
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// eth_init: Set up GPIO and the transceiver
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void eth_init_1(eth_t *self, int eth_id, const phy_operations_t *phy_ops, int phy_addr, bool phy_clock) {
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// Configuration values
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enet_config_t enet_config;
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phy_config_t phy_config = {0};
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uint32_t source_clock = eth_clock_init(eth_id, phy_clock);
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eth_gpio_init(iomux_table_enet_1, ARRAY_SIZE(iomux_table_enet_1), ENET_1_RESET_PIN, ENET_1_INT_PIN);
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#if defined MIMXRT117x_SERIES
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NVIC_SetPriority(ENET_1G_MAC0_Tx_Rx_1_IRQn, IRQ_PRI_PENDSV);
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NVIC_SetPriority(ENET_1G_MAC0_Tx_Rx_2_IRQn, IRQ_PRI_PENDSV);
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NVIC_SetPriority(ENET_1G_IRQn, IRQ_PRI_PENDSV);
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EnableIRQ(ENET_1G_MAC0_Tx_Rx_1_IRQn);
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EnableIRQ(ENET_1G_MAC0_Tx_Rx_2_IRQn);
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phy_speed_t speed = kENET_MiiSpeed1000M;
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#else
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NVIC_SetPriority(ENET2_IRQn, IRQ_PRI_PENDSV);
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phy_speed_t speed = kENET_MiiSpeed100M;
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#endif
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mp_hal_get_mac(1, hw_addr_1);
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// Init the PHY interface & negotiate the speed
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phyHandle_1.ops = phy_ops;
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phy_config.phyAddr = phy_addr;
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phyHandle_1.mdioHandle = &mdioHandle_1;
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mdioHandle_1.resource.base = ENET_1;
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mdioHandle_1.resource.csrClock_Hz = source_clock;
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phy_duplex_t duplex = kENET_MiiFullDuplex;
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eth_phy_init(&phyHandle_1, &phy_config, &speed, &duplex, PHY_SETTLE_TIME_US_1);
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ENET_Reset(ENET_1);
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ENET_GetDefaultConfig(&enet_config);
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enet_config.miiSpeed = (enet_mii_speed_t)speed;
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enet_config.miiDuplex = (enet_mii_duplex_t)duplex;
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// Enable checksum generation by the ENET controller
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enet_config.txAccelerConfig = kENET_TxAccelIpCheckEnabled | kENET_TxAccelProtoCheckEnabled;
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// Set interrupt
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enet_config.interrupt = ENET_TX_INTERRUPT | ENET_RX_INTERRUPT;
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ENET_Init(ENET_1, &g_handle_1, &enet_config, &buffConfig_1[0], hw_addr_1, source_clock);
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ENET_SetCallback(&g_handle_1, eth_irq_handler, (void *)self);
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ENET_ClearInterruptStatus(ENET_1, ENET_TX_INTERRUPT | ENET_RX_INTERRUPT | ENET_ERR_INTERRUPT);
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ENET_EnableInterrupts(ENET_1, ENET_RX_INTERRUPT);
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ENET_ActiveRead(ENET_1);
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}
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#endif
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// Initialize the phy interface
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STATIC int eth_mac_init(eth_t *self) {
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return 0;
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}
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// Deinit the interface
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STATIC void eth_mac_deinit(eth_t *self) {
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// Just as a reminder: Calling ENET_Deinit() twice causes the board to stall
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// with a bus error. Reason unclear. So don't do that for now (or ever).
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}
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void eth_set_trace(eth_t *self, uint32_t value) {
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self->trace_flags = value;
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}
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/*******************************************************************************/
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// ETH-LwIP bindings
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STATIC err_t eth_send_frame_blocking(ENET_Type *base, enet_handle_t *handle, uint8_t *buffer, int len) {
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status_t status;
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int i;
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#define XMIT_LOOP 10
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// Try a few times to send the frame
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for (i = XMIT_LOOP; i > 0; i--) {
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status = ENET_SendFrame(base, handle, buffer, len, 0, false, NULL);
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if (status != kStatus_ENET_TxFrameBusy) {
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break;
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}
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ticks_delay_us64(base == ENET ? 100 : 20);
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}
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return status;
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}
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STATIC err_t eth_netif_output(struct netif *netif, struct pbuf *p) {
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// This function should always be called from a context where PendSV-level IRQs are disabled
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status_t status;
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ENET_Type *enet = ENET;
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enet_handle_t *handle = &g_handle;
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#if defined ENET_DUAL_PORT
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if (netif->state == ð_instance1) {
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enet = ENET_1;
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handle = &g_handle_1;
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}
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#endif
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eth_trace(netif->state, (size_t)-1, p, NETUTILS_TRACE_IS_TX | NETUTILS_TRACE_NEWLINE);
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if (p->next == NULL) {
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status = eth_send_frame_blocking(enet, handle, p->payload, p->len);
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} else {
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// frame consists of several parts. Copy them together and send them
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size_t length = 0;
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uint8_t tx_frame[ENET_FRAME_MAX_FRAMELEN + 14];
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while (p) {
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memcpy(&tx_frame[length], p->payload, p->len);
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length += p->len;
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p = p->next;
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}
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status = eth_send_frame_blocking(enet, handle, tx_frame, length);
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}
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return status == kStatus_Success ? ERR_OK : ERR_BUF;
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}
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STATIC err_t eth_netif_init(struct netif *netif) {
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netif->linkoutput = eth_netif_output;
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netif->output = etharp_output;
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netif->mtu = 1500;
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netif->flags = NETIF_FLAG_BROADCAST | NETIF_FLAG_ETHARP | NETIF_FLAG_ETHERNET | NETIF_FLAG_IGMP;
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// Checksums only need to be checked on incoming frames, not computed on outgoing frames
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NETIF_SET_CHECKSUM_CTRL(netif,
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NETIF_CHECKSUM_CHECK_IP
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| NETIF_CHECKSUM_CHECK_UDP
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| NETIF_CHECKSUM_CHECK_TCP
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| NETIF_CHECKSUM_CHECK_ICMP
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| NETIF_CHECKSUM_CHECK_ICMP6
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);
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return ERR_OK;
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}
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STATIC void eth_lwip_init(eth_t *self) {
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struct netif *n = &self->netif;
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ip_addr_t ipconfig[4];
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self->netif.hwaddr_len = 6;
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if (self == ð_instance0) {
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memcpy(self->netif.hwaddr, hw_addr, 6);
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IP4_ADDR(&ipconfig[0], 192, 168, 0, 2);
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#if defined ENET_DUAL_PORT
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} else {
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memcpy(self->netif.hwaddr, hw_addr_1, 6);
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IP4_ADDR(&ipconfig[0], 192, 168, 0, 3);
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#endif
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}
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IP4_ADDR(&ipconfig[1], 255, 255, 255, 0);
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IP4_ADDR(&ipconfig[2], 192, 168, 0, 1);
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IP4_ADDR(&ipconfig[3], 8, 8, 8, 8);
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MICROPY_PY_LWIP_ENTER
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n->name[0] = 'e';
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n->name[1] = (self == ð_instance0 ? '0' : '1');
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netif_add(n, &ipconfig[0], &ipconfig[1], &ipconfig[2], self, eth_netif_init, ethernet_input);
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netif_set_hostname(n, mod_network_hostname);
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netif_set_default(n);
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netif_set_up(n);
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dns_setserver(0, &ipconfig[3]);
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dhcp_set_struct(n, &self->dhcp_struct);
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dhcp_start(n);
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netif_set_link_up(n);
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MICROPY_PY_LWIP_EXIT
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}
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STATIC void eth_lwip_deinit(eth_t *self) {
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MICROPY_PY_LWIP_ENTER
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for (struct netif *netif = netif_list; netif != NULL; netif = netif->next) {
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if (netif == &self->netif) {
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netif_remove(netif);
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netif->ip_addr.addr = 0;
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netif->flags = 0;
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}
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}
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MICROPY_PY_LWIP_EXIT
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}
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struct netif *eth_netif(eth_t *self) {
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return &self->netif;
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}
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int eth_link_status(eth_t *self) {
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struct netif *netif = &self->netif;
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if ((netif->flags & (NETIF_FLAG_UP | NETIF_FLAG_LINK_UP))
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== (NETIF_FLAG_UP | NETIF_FLAG_LINK_UP)) {
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if (netif->ip_addr.addr != 0) {
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return 3; // link up
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} else {
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return 2; // link no-ip;
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}
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} else {
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bool link;
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#if defined ENET_DUAL_PORT
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PHY_GetLinkStatus(self == ð_instance0 ? &phyHandle : &phyHandle_1, &link);
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#else
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PHY_GetLinkStatus(&phyHandle, &link);
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#endif
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if (link) {
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return 1; // link up
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} else {
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return 0; // link down
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}
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}
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}
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int eth_start(eth_t *self) {
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eth_lwip_deinit(self);
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// Make sure Eth is Not in low power mode.
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eth_low_power_mode(self, false);
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int ret = eth_mac_init(self);
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if (ret < 0) {
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return ret;
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}
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eth_lwip_init(self);
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return 0;
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}
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int eth_stop(eth_t *self) {
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eth_lwip_deinit(self);
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eth_mac_deinit(self);
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return 0;
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}
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void eth_low_power_mode(eth_t *self, bool enable) {
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#if defined ENET_DUAL_PORT
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ENET_EnableSleepMode(self == ð_instance0 ? ENET : ENET_1, enable);
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#else
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ENET_EnableSleepMode(ENET, enable);
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#endif
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}
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#endif // defined(MICROPY_HW_ETH_MDC)
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