From 676b7bed2b3f4f2fd95b695bf535b68823ba90c8 Mon Sep 17 00:00:00 2001 From: Gregory Nutt Date: Sun, 29 Mar 2015 07:10:13 -0600 Subject: PIC32MZ: Rename Ethernet files to proper convention. From Kristopher Tate. --- .../arch/mips/src/pic32mz/chip/pic32mz-ethernet.h | 1001 ++++++ .../arch/mips/src/pic32mz/chip/pic32mz_ethernet.h | 1001 ------ nuttx/arch/mips/src/pic32mz/pic32mz-ethernet.c | 3278 ++++++++++++++++++++ nuttx/arch/mips/src/pic32mz/pic32mz_ethernet.c | 3278 -------------------- 4 files changed, 4279 insertions(+), 4279 deletions(-) create mode 100644 nuttx/arch/mips/src/pic32mz/chip/pic32mz-ethernet.h delete mode 100644 nuttx/arch/mips/src/pic32mz/chip/pic32mz_ethernet.h create mode 100644 nuttx/arch/mips/src/pic32mz/pic32mz-ethernet.c delete mode 100644 nuttx/arch/mips/src/pic32mz/pic32mz_ethernet.c (limited to 'nuttx/arch') diff --git a/nuttx/arch/mips/src/pic32mz/chip/pic32mz-ethernet.h b/nuttx/arch/mips/src/pic32mz/chip/pic32mz-ethernet.h new file mode 100644 index 000000000..753c3d9fd --- /dev/null +++ b/nuttx/arch/mips/src/pic32mz/chip/pic32mz-ethernet.h @@ -0,0 +1,1001 @@ +/**************************************************************************************************** + * arch/mips/src/pic32mz/chip/pic32mz-ethernet.h + * + * Copyright (C) 2015 Gregory Nutt. All rights reserved. + * Author: Gregory Nutt + * + * Redistribution and use in source and binary forms, with or without + * modification, are permitted provided that the following conditions + * are met: + * + * 1. Redistributions of source code must retain the above copyright + * notice, this list of conditions and the following disclaimer. + * 2. Redistributions in binary form must reproduce the above copyright + * notice, this list of conditions and the following disclaimer in + * the documentation and/or other materials provided with the + * distribution. + * 3. Neither the name NuttX nor the names of its contributors may be + * used to endorse or promote products derived from this software + * without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS + * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT + * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS + * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE + * COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, + * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, + * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS + * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED + * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT + * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN + * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE + * POSSIBILITY OF SUCH DAMAGE. + * + ****************************************************************************************************/ + +#ifndef __ARCH_MIPS_SRC_PIC32MZ_CHIP_PIC32MZ_ETHERNET_H +#define __ARCH_MIPS_SRC_PIC32MZ_CHIP_PIC32MZ_ETHERNET_H + +/**************************************************************************************************** + * Included Files + ****************************************************************************************************/ + +#include +#include + +#include "chip/pic32mz-memorymap.h" + +#if CHIP_NETHERNET > 0 + +/**************************************************************************************************** + * Pre-processor Definitions + ****************************************************************************************************/ +/* Register Offsets *********************************************************************************/ + +/* Controller and DMA Engine Configuration/Status Registers */ + +#define PIC32MZ_ETH_CON1_OFFSET 0x0000 /* Ethernet Controller Control 1 Register */ +#define PIC32MZ_ETH_CON1CLR_OFFSET 0x0004 +#define PIC32MZ_ETH_CON1SET_OFFSET 0x0008 +#define PIC32MZ_ETH_CON1INV_OFFSET 0x000c + +#define PIC32MZ_ETH_CON2_OFFSET 0x0010 /* Ethernet Controller Control 2 Register */ +#define PIC32MZ_ETH_CON2CLR_OFFSET 0x0014 +#define PIC32MZ_ETH_CON2SET_OFFSET 0x0018 +#define PIC32MZ_ETH_CON2INV_OFFSET 0x001c + +#define PIC32MZ_ETH_TXST_OFFSET 0x0020 /* Ethernet Controller TX Packet Descriptor Start Address Register */ +#define PIC32MZ_ETH_TXSTCLR_OFFSET 0x0024 +#define PIC32MZ_ETH_TXSTSET_OFFSET 0x0028 +#define PIC32MZ_ETH_TXSTINV_OFFSET 0x002c + +#define PIC32MZ_ETH_RXST_OFFSET 0x0030 /* Ethernet Controller RX Packet Descriptor Start Address Register */ +#define PIC32MZ_ETH_RXSTCLR_OFFSET 0x0034 +#define PIC32MZ_ETH_RXSTSET_OFFSET 0x0038 +#define PIC32MZ_ETH_RXSTINV_OFFSET 0x003c + +#define PIC32MZ_ETH_IEN_OFFSET 0x00c0 /* Ethernet Controller Interrupt Enable Register */ +#define PIC32MZ_ETH_IENCLR_OFFSET 0x00c4 +#define PIC32MZ_ETH_IENSET_OFFSET 0x00c8 +#define PIC32MZ_ETH_IENINV_OFFSET 0x00cc + +#define PIC32MZ_ETH_IRQ_OFFSET 0x00d0 /* Ethernet Controller Interrupt Request Register */ +#define PIC32MZ_ETH_IRQCLR_OFFSET 0x00d4 +#define PIC32MZ_ETH_IRQSET_OFFSET 0x00d8 +#define PIC32MZ_ETH_IRQINV_OFFSET 0x00dc + +#define PIC32MZ_ETH_STAT_OFFSET 0x00e0 /* Ethernet Controller Status Register */ + +/* RX Filtering Configuration Registers */ + +#define PIC32MZ_ETH_RXFC_OFFSET 0x00a0 /* Ethernet Controller Receive Filter Configuration Register */ +#define PIC32MZ_ETH_RXFCCLR_OFFSET 0x00a4 +#define PIC32MZ_ETH_RXFCSET_OFFSET 0x00a8 +#define PIC32MZ_ETH_RXFCINV_OFFSET 0x00ac + +#define PIC32MZ_ETH_HT0_OFFSET 0x0040 /* Ethernet Controller Hash Table 0 Register */ +#define PIC32MZ_ETH_HT0CLR_OFFSET 0x0044 +#define PIC32MZ_ETH_HT0SET_OFFSET 0x0048 +#define PIC32MZ_ETH_HT0INV_OFFSET 0x004c + +#define PIC32MZ_ETH_HT1_OFFSET 0x0050 /* Ethernet Controller Hash Table 1 Register */ +#define PIC32MZ_ETH_HT1CLR_OFFSET 0x0054 +#define PIC32MZ_ETH_HT1SET_OFFSET 0x0058 +#define PIC32MZ_ETH_HT1INV_OFFSET 0x005c + +#define PIC32MZ_ETH_PMM0_OFFSET 0x0060 /* Ethernet Controller Pattern Match Mask 0 Register */ +#define PIC32MZ_ETH_PMM0CLR_OFFSET 0x0064 +#define PIC32MZ_ETH_PMM0SET_OFFSET 0x0068 +#define PIC32MZ_ETH_PMM0INV_OFFSET 0x006c + +#define PIC32MZ_ETH_PMM1_OFFSET 0x0070 /* Ethernet Controller Pattern Match Mask 1 Register */ +#define PIC32MZ_ETH_PMM1CLR_OFFSET 0x0074 +#define PIC32MZ_ETH_PMM1SET_OFFSET 0x0078 +#define PIC32MZ_ETH_PMM1INV_OFFSET 0x007c + +#define PIC32MZ_ETH_PMCS_OFFSET 0x0080 /* Ethernet Controller Pattern Match Checksum Register */ +#define PIC32MZ_ETH_PMCSCLR_OFFSET 0x0084 +#define PIC32MZ_ETH_PMCSSET_OFFSET 0x0088 +#define PIC32MZ_ETH_PMCSINV_OFFSET 0x008c + +#define PIC32MZ_ETH_PMO_OFFSET 0x0090 /* Ethernet Controller Pattern Match Offset Register */ +#define PIC32MZ_ETH_PMOCLR_OFFSET 0x0094 +#define PIC32MZ_ETH_PMOSET_OFFSET 0x0098 +#define PIC32MZ_ETH_PMOINV_OFFSET 0x009c + +/* Flow Control Configuring Register */ + +#define PIC32MZ_ETH_RXWM_OFFSET 0x00b0 /* Ethernet Controller Receive Watermarks Register */ +#define PIC32MZ_ETH_RXWMCLR_OFFSET 0x00b4 +#define PIC32MZ_ETH_RXWMSET_OFFSET 0x00b8 +#define PIC32MZ_ETH_RXWMINV_OFFSET 0x00bc + +/* Ethernet Statistics Registers */ + +#define PIC32MZ_ETH_RXOVFLOW_OFFSET 0x0100 /* Ethernet Controller Receive Overflow Statistics Register */ +#define PIC32MZ_ETH_RXOVFLOWCLR_OFFSET 0x0104 +#define PIC32MZ_ETH_RXOVFLOWSET_OFFSET 0x0108 +#define PIC32MZ_ETH_RXOVFLOWINV_OFFSET 0x010c + +#define PIC32MZ_ETH_FRMTXOK_OFFSET 0x0110 /* Ethernet Controller Frames Transmitted OK Statistics Register */ +#define PIC32MZ_ETH_FRMTXOKCLR_OFFSET 0x0114 +#define PIC32MZ_ETH_FRMTXOKSET_OFFSET 0x0118 +#define PIC32MZ_ETH_FRMTXOKINV_OFFSET 0x011c + +#define PIC32MZ_ETH_SCOLFRM_OFFSET 0x0120 /* Ethernet Controller Single Collision Frames Statistics Register */ +#define PIC32MZ_ETH_SCOLFRMCLR_OFFSET 0x0124 +#define PIC32MZ_ETH_SCOLFRMSET_OFFSET 0x0128 +#define PIC32MZ_ETH_SCOLFRMINV_OFFSET 0x012c + +#define PIC32MZ_ETH_MCOLFRM_OFFSET 0x0130 /* Ethernet Controller Multiple Collision Frames Statistics Register */ +#define PIC32MZ_ETH_MCOLFRMCLR_OFFSET 0x0134 +#define PIC32MZ_ETH_MCOLFRMSET_OFFSET 0x0138 +#define PIC32MZ_ETH_MCOLFRMINV_OFFSET 0x013c + +#define PIC32MZ_ETH_FRMRXOK_OFFSET 0x0140 /* Ethernet Controller Frames Received OK Statistics Register */ +#define PIC32MZ_ETH_FRMRXOKCLR_OFFSET 0x0144 +#define PIC32MZ_ETH_FRMRXOKSET_OFFSET 0x0148 +#define PIC32MZ_ETH_FRMRXOKINV_OFFSET 0x014c + +#define PIC32MZ_ETH_FCSERR_OFFSET 0x0150 /* Ethernet Controller Frame Check Sequence Error Statistics Register */ +#define PIC32MZ_ETH_FCSERRCLR_OFFSET 0x0154 +#define PIC32MZ_ETH_FCSERRSET_OFFSET 0x0158 +#define PIC32MZ_ETH_FCSERRINV_OFFSET 0x015c + +#define PIC32MZ_ETH_ALGNERR_OFFSET 0x0160 /* Ethernet Controller Alignment Errors Statistics Register */ +#define PIC32MZ_ETH_ALGNERRCLR_OFFSET 0x0164 +#define PIC32MZ_ETH_ALGNERRSET_OFFSET 0x0168 +#define PIC32MZ_ETH_ALGNERRINV_OFFSET 0x016c + +/* MAC Configuration Registers */ + +#define PIC32MZ_EMAC1_CFG1_OFFSET 0x0200 /* Ethernet Controller MAC Configuration 1 Register */ +#define PIC32MZ_EMAC1_CFG1CLR_OFFSET 0x0204 +#define PIC32MZ_EMAC1_CFG1SET_OFFSET 0x0208 +#define PIC32MZ_EMAC1_CFG1INV_OFFSET 0x020c + +#define PIC32MZ_EMAC1_CFG2_OFFSET 0x0210 /* Ethernet Controller MAC Configuration 2 Register */ +#define PIC32MZ_EMAC1_CFG2CLR_OFFSET 0x0214 +#define PIC32MZ_EMAC1_CFG2SET_OFFSET 0x0218 +#define PIC32MZ_EMAC1_CFG2INV_OFFSET 0x021c + +#define PIC32MZ_EMAC1_IPGT_OFFSET 0x0220 /* Ethernet Controller MAC Back-to-Back Interpacket Gap Register */ +#define PIC32MZ_EMAC1_IPGTCLR_OFFSET 0x0224 +#define PIC32MZ_EMAC1_IPGTSET_OFFSET 0x0228 +#define PIC32MZ_EMAC1_IPGTINV_OFFSET 0x022c + +#define PIC32MZ_EMAC1_IPGR_OFFSET 0x0230 /* Ethernet Controller MAC Non-Back-to-Back Interpacket Gap Register */ +#define PIC32MZ_EMAC1_IPGRCLR_OFFSET 0x0234 +#define PIC32MZ_EMAC1_IPGRSET_OFFSET 0x0238 +#define PIC32MZ_EMAC1_IPGRINV_OFFSET 0x023c + +#define PIC32MZ_EMAC1_CLRT_OFFSET 0x0240 /* Ethernet Controller MAC Collision Window/Retry Limit Register */ +#define PIC32MZ_EMAC1_CLRTCLR_OFFSET 0x0244 +#define PIC32MZ_EMAC1_CLRTSET_OFFSET 0x0248 +#define PIC32MZ_EMAC1_CLRTINV_OFFSET 0x024c + +#define PIC32MZ_EMAC1_MAXF_OFFSET 0x0250 /* Ethernet Controller MAC Maximum Frame Length Register */ +#define PIC32MZ_EMAC1_MAXFCLR_OFFSET 0x0254 +#define PIC32MZ_EMAC1_MAXFSET_OFFSET 0x0258 +#define PIC32MZ_EMAC1_MAXFINV_OFFSET 0x025c + +#define PIC32MZ_EMAC1_SUPP_OFFSET 0x0260 /* Ethernet Controller MAC PHY Support Register */ +#define PIC32MZ_EMAC1_SUPPCLR_OFFSET 0x0264 +#define PIC32MZ_EMAC1_SUPPSET_OFFSET 0x0268 +#define PIC32MZ_EMAC1_SUPPINV_OFFSET 0x026c + +#define PIC32MZ_EMAC1_TEST_OFFSET 0x0270 /* Ethernet Controller MAC Test Register */ +#define PIC32MZ_EMAC1_TESTCLR_OFFSET 0x0274 +#define PIC32MZ_EMAC1_TESTSET_OFFSET 0x0278 +#define PIC32MZ_EMAC1_TESTINV_OFFSET 0x027c + +#define PIC32MZ_EMAC1_SA0_OFFSET 0x0300 /* Ethernet Controller MAC Station Address 0 Register */ +#define PIC32MZ_EMAC1_SA0CLR_OFFSET 0x0304 +#define PIC32MZ_EMAC1_SA0SET_OFFSET 0x0308 +#define PIC32MZ_EMAC1_SA0INV_OFFSET 0x030c + +#define PIC32MZ_EMAC1_SA1_OFFSET 0x0310 /* Ethernet Controller MAC Station Address 1 Register */ +#define PIC32MZ_EMAC1_SA1CLR_OFFSET 0x0314 +#define PIC32MZ_EMAC1_SA1SET_OFFSET 0x0318 +#define PIC32MZ_EMAC1_SA1INV_OFFSET 0x031c + +#define PIC32MZ_EMAC1_SA2_OFFSET 0x0320 /* Ethernet Controller MAC Station Address 2 Register */ +#define PIC32MZ_EMAC1_SA2CLR_OFFSET 0x0324 +#define PIC32MZ_EMAC1_SA2SET_OFFSET 0x0328 +#define PIC32MZ_EMAC1_SA2INV_OFFSET 0x032c + +/* MII Management Registers */ + +#define PIC32MZ_EMAC1_MCFG_OFFSET 0x0280 /* Ethernet Controller MAC MII Management Configuration Register */ +#define PIC32MZ_EMAC1_MCFGCLR_OFFSET 0x0284 +#define PIC32MZ_EMAC1_MCFGSET_OFFSET 0x0288 +#define PIC32MZ_EMAC1_MCFGINV_OFFSET 0x028c + +#define PIC32MZ_EMAC1_MCMD_OFFSET 0x0290 /* Ethernet Controller MAC MII Management Command Register */ +#define PIC32MZ_EMAC1_MCMDCLR_OFFSET 0x0294 +#define PIC32MZ_EMAC1_MCMDSET_OFFSET 0x0298 +#define PIC32MZ_EMAC1_MCMDINV_OFFSET 0x029c + +#define PIC32MZ_EMAC1_MADR_OFFSET 0x02a0 /* Ethernet Controller MAC MII Management Address Register */ +#define PIC32MZ_EMAC1_MADRCLR_OFFSET 0x02a4 +#define PIC32MZ_EMAC1_MADRSET_OFFSET 0x02a8 +#define PIC32MZ_EMAC1_MADRINV_OFFSET 0x02ac + +#define PIC32MZ_EMAC1_MWTD_OFFSET 0x02b0 /* Ethernet Controller MAC MII Management Write Data Register */ +#define PIC32MZ_EMAC1_MWTDCLR_OFFSET 0x02b4 +#define PIC32MZ_EMAC1_MWTDSET_OFFSET 0x02b8 +#define PIC32MZ_EMAC1_MWTDINV_OFFSET 0x02bc + +#define PIC32MZ_EMAC1_MRDD_OFFSET 0x02c0 /* Ethernet Controller MAC MII Management Read Data Register */ +#define PIC32MZ_EMAC1_MRDDCLR_OFFSET 0x02c4 +#define PIC32MZ_EMAC1_MRDDSET_OFFSET 0x02c8 +#define PIC32MZ_EMAC1_MRDDINV_OFFSET 0x02cc + +#define PIC32MZ_EMAC1_MIND_OFFSET 0x02d0 /* Ethernet Controller MAC MII Management Indicators Register */ +#define PIC32MZ_EMAC1_MINDCLR_OFFSET 0x02d4 +#define PIC32MZ_EMAC1_MINDSET_OFFSET 0x02d8 +#define PIC32MZ_EMAC1_MINDINV_OFFSET 0x02dc + +/* Register Addresses *******************************************************************************/ + +/* Controller and DMA Engine Configuration/Status Registers */ + +#define PIC32MZ_ETH_CON1 (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_CON1_OFFSET) +#define PIC32MZ_ETH_CON1CLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_CON1CLR_OFFSET) +#define PIC32MZ_ETH_CON1SET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_CON1SET_OFFSET) +#define PIC32MZ_ETH_CON1INV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_CON1INV_OFFSET) + +#define PIC32MZ_ETH_CON2 (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_CON2_OFFSET) +#define PIC32MZ_ETH_CON2CLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_CON2CLR_OFFSET) +#define PIC32MZ_ETH_CON2SET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_CON2SET_OFFSET) +#define PIC32MZ_ETH_CON2INV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_CON2INV_OFFSET) + +#define PIC32MZ_ETH_TXST (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_TXST_OFFSET) +#define PIC32MZ_ETH_TXSTCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_TXSTCLR_OFFSET) +#define PIC32MZ_ETH_TXSTSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_TXSTSET_OFFSET) +#define PIC32MZ_ETH_TXSTINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_TXSTINV_OFFSET) + +#define PIC32MZ_ETH_RXST (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_RXST_OFFSET) +#define PIC32MZ_ETH_RXSTCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_RXSTCLR_OFFSET) +#define PIC32MZ_ETH_RXSTSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_RXSTSET_OFFSET) +#define PIC32MZ_ETH_RXSTINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_RXSTINV_OFFSET) + +#define PIC32MZ_ETH_IEN (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_IEN_OFFSET) +#define PIC32MZ_ETH_IENCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_IENCLR_OFFSET) +#define PIC32MZ_ETH_IENSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_IENSET_OFFSET) +#define PIC32MZ_ETH_IENINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_IENINV_OFFSET) + +#define PIC32MZ_ETH_IRQ (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_IRQ_OFFSET) +#define PIC32MZ_ETH_IRQCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_IRQCLR_OFFSET) +#define PIC32MZ_ETH_IRQSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_IRQSET_OFFSET) +#define PIC32MZ_ETH_IRQINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_IRQINV_OFFSET) + +#define PIC32MZ_ETH_STAT (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_STAT_OFFSET) + +/* RX Filtering Configuration Registers */ + +#define PIC32MZ_ETH_RXFC (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_RXFC_OFFSET) +#define PIC32MZ_ETH_RXFCCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_RXFCCLR_OFFSET) +#define PIC32MZ_ETH_RXFCSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_RXFCSET_OFFSET) +#define PIC32MZ_ETH_RXFCINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_RXFCINV_OFFSET) + +#define PIC32MZ_ETH_HT0 (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_HT0_OFFSET) +#define PIC32MZ_ETH_HT0CLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_HT0CLR_OFFSET) +#define PIC32MZ_ETH_HT0SET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_HT0SET_OFFSET) +#define PIC32MZ_ETH_HT0INV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_HT0INV_OFFSET) + +#define PIC32MZ_ETH_HT1 (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_HT1_OFFSET) +#define PIC32MZ_ETH_HT1CLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_HT1CLR_OFFSET) +#define PIC32MZ_ETH_HT1SET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_HT1SET_OFFSET) +#define PIC32MZ_ETH_HT1INV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_HT1INV_OFFSET) + +#define PIC32MZ_ETH_PMM0 (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_PMM0_OFFSET) +#define PIC32MZ_ETH_PMM0CLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_PMM0CLR_OFFSET) +#define PIC32MZ_ETH_PMM0SET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_PMM0SET_OFFSET) +#define PIC32MZ_ETH_PMM0INV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_PMM0INV_OFFSET) + +#define PIC32MZ_ETH_PMM1 (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_PMM1_OFFSET) +#define PIC32MZ_ETH_PMM1CLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_PMM1CLR_OFFSET) +#define PIC32MZ_ETH_PMM1SET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_PMM1SET_OFFSET) +#define PIC32MZ_ETH_PMM1INV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_PMM1INV_OFFSET) + +#define PIC32MZ_ETH_PMCS (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_PMCS_OFFSET) +#define PIC32MZ_ETH_PMCSCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_PMCSCLR_OFFSET) +#define PIC32MZ_ETH_PMCSSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_PMCSSET_OFFSET) +#define PIC32MZ_ETH_PMCSINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_PMCSINV_OFFSET) + +#define PIC32MZ_ETH_PMO (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_PMO_OFFSET) +#define PIC32MZ_ETH_PMOCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_PMOCLR_OFFSET) +#define PIC32MZ_ETH_PMOSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_PMOSET_OFFSET) +#define PIC32MZ_ETH_PMOINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_PMOINV_OFFSET) + +/* Flow Control Configuring Register */ + +#define PIC32MZ_ETH_RXWM (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_RXWM_OFFSET) +#define PIC32MZ_ETH_RXWMCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_RXWMCLR_OFFSET) +#define PIC32MZ_ETH_RXWMSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_RXWMSET_OFFSET) +#define PIC32MZ_ETH_RXWMINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_RXWMINV_OFFSET) + +/* Ethernet Statistics Registers */ + +#define PIC32MZ_ETH_RXOVFLOW (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_RXOVFLOW_OFFSET) +#define PIC32MZ_ETH_RXOVFLOWCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_RXOVFLOWCLR_OFFSET) +#define PIC32MZ_ETH_RXOVFLOWSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_RXOVFLOWSET_OFFSET) +#define PIC32MZ_ETH_RXOVFLOWINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_RXOVFLOWINV_OFFSET) + +#define PIC32MZ_ETH_FRMTXOK (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_FRMTXOK_OFFSET) +#define PIC32MZ_ETH_FRMTXOKCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_FRMTXOKCLR_OFFSET) +#define PIC32MZ_ETH_FRMTXOKSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_FRMTXOKSET_OFFSET) +#define PIC32MZ_ETH_FRMTXOKINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_FRMTXOKINV_OFFSET) + +#define PIC32MZ_ETH_SCOLFRM (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_SCOLFRM_OFFSET) +#define PIC32MZ_ETH_SCOLFRMCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_SCOLFRMCLR_OFFSET) +#define PIC32MZ_ETH_SCOLFRMSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_SCOLFRMSET_OFFSET) +#define PIC32MZ_ETH_SCOLFRMINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_SCOLFRMINV_OFFSET) + +#define PIC32MZ_ETH_MCOLFRM (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_MCOLFRM_OFFSET) +#define PIC32MZ_ETH_MCOLFRMCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_MCOLFRMCLR_OFFSET) +#define PIC32MZ_ETH_MCOLFRMSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_MCOLFRMSET_OFFSET) +#define PIC32MZ_ETH_MCOLFRMINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_MCOLFRMINV_OFFSET) + +#define PIC32MZ_ETH_FRMRXOK (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_FRMRXOK_OFFSET) +#define PIC32MZ_ETH_FRMRXOKCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_FRMRXOKCLR_OFFSET) +#define PIC32MZ_ETH_FRMRXOKSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_FRMRXOKSET_OFFSET) +#define PIC32MZ_ETH_FRMRXOKINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_FRMRXOKINV_OFFSET) + +#define PIC32MZ_ETH_FCSERR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_FCSERR_OFFSET) +#define PIC32MZ_ETH_FCSERRCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_FCSERRCLR_OFFSET) +#define PIC32MZ_ETH_FCSERRSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_FCSERRSET_OFFSET) +#define PIC32MZ_ETH_FCSERRINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_FCSERRINV_OFFSET) + +#define PIC32MZ_ETH_ALGNERR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_ALGNERR_OFFSET) +#define PIC32MZ_ETH_ALGNERRCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_ALGNERRCLR_OFFSET) +#define PIC32MZ_ETH_ALGNERRSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_ALGNERRSET_OFFSET) +#define PIC32MZ_ETH_ALGNERRINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_ALGNERRINV_OFFSET) + +/* MAC Configuration Registers */ + +#define PIC32MZ_EMAC1_CFG1 (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_CFG1_OFFSET) +#define PIC32MZ_EMAC1_CFG1CLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_CFG1CLR_OFFSET) +#define PIC32MZ_EMAC1_CFG1SET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_CFG1SET_OFFSET) +#define PIC32MZ_EMAC1_CFG1INV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_CFG1INV_OFFSET) + +#define PIC32MZ_EMAC1_CFG2 (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_CFG2_OFFSET) +#define PIC32MZ_EMAC1_CFG2CLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_CFG2CLR_OFFSET) +#define PIC32MZ_EMAC1_CFG2SET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_CFG2SET_OFFSET) +#define PIC32MZ_EMAC1_CFG2INV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_CFG2INV_OFFSET) + +#define PIC32MZ_EMAC1_IPGT (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_IPGT_OFFSET) +#define PIC32MZ_EMAC1_IPGTCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_IPGTCLR_OFFSET) +#define PIC32MZ_EMAC1_IPGTSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_IPGTSET_OFFSET) +#define PIC32MZ_EMAC1_IPGTINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_IPGTINV_OFFSET) + +#define PIC32MZ_EMAC1_IPGR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_IPGR_OFFSET) +#define PIC32MZ_EMAC1_IPGRCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_IPGRCLR_OFFSET) +#define PIC32MZ_EMAC1_IPGRSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_IPGRSET_OFFSET) +#define PIC32MZ_EMAC1_IPGRINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_IPGRINV_OFFSET) + +#define PIC32MZ_EMAC1_CLRT (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_CLRT_OFFSET) +#define PIC32MZ_EMAC1_CLRTCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_CLRTCLR_OFFSET) +#define PIC32MZ_EMAC1_CLRTSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_CLRTSET_OFFSET) +#define PIC32MZ_EMAC1_CLRTINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_CLRTINV_OFFSET) + +#define PIC32MZ_EMAC1_MAXF (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MAXF_OFFSET) +#define PIC32MZ_EMAC1_MAXFCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MAXFCLR_OFFSET) +#define PIC32MZ_EMAC1_MAXFSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MAXFSET_OFFSET) +#define PIC32MZ_EMAC1_MAXFINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MAXFINV_OFFSET) + +#define PIC32MZ_EMAC1_SUPP (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_SUPP_OFFSET) +#define PIC32MZ_EMAC1_SUPPCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_SUPPCLR_OFFSET) +#define PIC32MZ_EMAC1_SUPPSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_SUPPSET_OFFSET) +#define PIC32MZ_EMAC1_SUPPINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_SUPPINV_OFFSET) + +#define PIC32MZ_EMAC1_TEST (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_TEST_OFFSET) +#define PIC32MZ_EMAC1_TESTCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_TESTCLR_OFFSET) +#define PIC32MZ_EMAC1_TESTSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_TESTSET_OFFSET) +#define PIC32MZ_EMAC1_TESTINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_TESTINV_OFFSET) + +#define PIC32MZ_EMAC1_SA0 (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_SA0_OFFSET) +#define PIC32MZ_EMAC1_SA0CLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_SA0CLR_OFFSET) +#define PIC32MZ_EMAC1_SA0SET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_SA0SET_OFFSET) +#define PIC32MZ_EMAC1_SA0INV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_SA0INV_OFFSET) + +#define PIC32MZ_EMAC1_SA1 (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_SA1_OFFSET) +#define PIC32MZ_EMAC1_SA1CLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_SA1CLR_OFFSET) +#define PIC32MZ_EMAC1_SA1SET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_SA1SET_OFFSET) +#define PIC32MZ_EMAC1_SA1INV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_SA1INV_OFFSET) + +#define PIC32MZ_EMAC1_SA2 (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_SA2_OFFSET) +#define PIC32MZ_EMAC1_SA2CLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_SA2CLR_OFFSET) +#define PIC32MZ_EMAC1_SA2SET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_SA2SET_OFFSET) +#define PIC32MZ_EMAC1_SA2INV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_SA2INV_OFFSET) + +/* MII Management Registers */ + +#define PIC32MZ_EMAC1_MCFG (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MCFG_OFFSET) +#define PIC32MZ_EMAC1_MCFGCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MCFGCLR_OFFSET) +#define PIC32MZ_EMAC1_MCFGSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MCFGSET_OFFSET) +#define PIC32MZ_EMAC1_MCFGINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MCFGINV_OFFSET) + +#define PIC32MZ_EMAC1_MCMD (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MCMD_OFFSET) +#define PIC32MZ_EMAC1_MCMDCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MCMDCLR_OFFSET) +#define PIC32MZ_EMAC1_MCMDSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MCMDSET_OFFSET) +#define PIC32MZ_EMAC1_MCMDINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MCMDINV_OFFSET) + +#define PIC32MZ_EMAC1_MADR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MADR_OFFSET) +#define PIC32MZ_EMAC1_MADRCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MADRCLR_OFFSET) +#define PIC32MZ_EMAC1_MADRSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MADRSET_OFFSET) +#define PIC32MZ_EMAC1_MADRINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MADRINV_OFFSET) + +#define PIC32MZ_EMAC1_MWTD (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MWTD_OFFSET) +#define PIC32MZ_EMAC1_MWTDCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MWTDCLR_OFFSET) +#define PIC32MZ_EMAC1_MWTDSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MWTDSET_OFFSET) +#define PIC32MZ_EMAC1_MWTDINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MWTDINV_OFFSET) + +#define PIC32MZ_EMAC1_MRDD (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MRDD_OFFSET) +#define PIC32MZ_EMAC1_MRDDCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MRDDCLR_OFFSET) +#define PIC32MZ_EMAC1_MRDDSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MRDDSET_OFFSET) +#define PIC32MZ_EMAC1_MRDDINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MRDDINV_OFFSET) + +#define PIC32MZ_EMAC1_MIND (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MIND_OFFSET) +#define PIC32MZ_EMAC1_MINDCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MINDCLR_OFFSET) +#define PIC32MZ_EMAC1_MINDSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MINDSET_OFFSET) +#define PIC32MZ_EMAC1_MINDINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MINDINV_OFFSET) + +/* Register Bit-Field Definitions *******************************************************************/ + +/* Controller and DMA Engine Configuration/Status Registers */ +/* Ethernet Controller Control 1 Register */ + +#define ETH_CON1_BUFCDEC (1 << 0) /* Bit 0: : Descriptor Buffer Count Decrement bit */ + /* Bit 1-3: Reserved */ +#define ETH_CON1_MANFC (1 << 4) /* Bit 4: Manual Flow Control bit */ + /* Bit 5-6: Reserved */ +#define ETH_CON1_AUTOFC (1 << 7) /* Bit 7: Automatic Flow Control bit */ +#define ETH_CON1_RXEN (1 << 8) /* Bit 8: Receive Enable bit */ +#define ETH_CON1_TXRTS (1 << 9) /* Bit 9: Transmit Request to Send bit */ + /* Bit 10-12: Reserved */ +#define ETH_CON1_SIDL (1 << 13) /* Bit 13: Ethernet Stop in Idle Mode bit */ + /* Bit 14: Reserved */ +#define ETH_CON1_ON (1 << 15) /* Bit 15: Ethernet ON bit */ +#define ETH_CON1_PTV_SHIFT (16) /* Bits 16-31: PAUSE Timer Value bits */ +#define ETH_CON1_PTV_MASK (0xffff << ETH_CON1_PTV_SHIFT) + +/* Ethernet Controller Control 2 Register */ + /* Bits 0-3: Reserved */ +#define ETH_CON2_RXBUFSZ_SHIFT (4) /* Bits 4-10: RX Data Buffer Size for All RX Descriptors */ +#define ETH_CON2_RXBUFSZ_MASK (0x7f << ETH_CON2_RXBUFSZ_SHIFT) +# define ETH_CON2_RXBUFSZ(n) (((n) >> 4) << ETH_CON2_RXBUFSZ_SHIFT) /* n=16, 32, 48, ... 2032 */ + /* Bits 11-31: Reserved */ + +/* Ethernet Controller TX Packet Descriptor Start Address Register (32-bit address) */ +/* Ethernet Controller RX Packet Descriptor Start Address Register (32-bit address) */ + +/* Ethernet Controller Interrupt Enable Register */ +/* Ethernet Controller Interrupt Request Register */ + +#define ETH_INT_RXOVFLW (1 << 0) /* Bit 0: Receive FIFO overflow interrupt */ +#define ETH_INT_RXBUFNA (1 << 1) /* Bit 1: Receive buffer not available interrupt */ +#define ETH_INT_TXABORT (1 << 2) /* Bit 2: Transmitter abort interrupt */ +#define ETH_INT_TXDONE (1 << 3) /* Bit 3: Transmitter done interrupt */ + /* Bit 4: Reserved */ +#define ETH_INT_RXACT (1 << 5) /* Bit 5: RX activity interrupt */ +#define ETH_INT_PKTPEND (1 << 6) /* Bit 6: Packet pending interrupt */ +#define ETH_INT_RXDONE (1 << 7) /* Bit 7: Receiver done interrupt */ +#define ETH_INT_FWMARK (1 << 8) /* Bit 8: Full watermark interrupt */ +#define ETH_INT_EWMARK (1 << 9) /* Bit 9: Empty watermark interrupt */ + /* Bits 10-12: Reserved */ +#define ETH_INT_RXBUSE (1 << 13) /* Bit 13: Receive BVCI bus error interrupt */ +#define ETH_INT_TXBUSE (1 << 14) /* Bit 14: Transmit BVCI bus error interrupt */ + /* Bits 15-31: Reserved */ +#define ETH_INT_ALLINTS (0x000063ef) + +/* Ethernet Controller Status Register */ + + /* Bits 0-4: Reserved */ +#define ETH_STAT_RXBUSY (1 << 5) /* Bit 5: Receive busy */ +#define ETH_STAT_TXBUSY (1 << 6) /* Bit 6: Transmit busy */ +#define ETH_STAT_ETHBUSY (1 << 7) /* Bit 7: Ethernet module busy */ + /* Bits 8-15: Reserved */ +#define ETH_STAT_BUFCNT_SHIFT (18) /* Bits 16-23: Packet buffer count */ +#define ETH_STAT_BUFCNT_MASK (0xff << ETH_STAT_BUFCNT_SHIFT) + /* Bits 24-31: Reserved */ + +/* RX Filtering Configuration Registers */ +/* Ethernet Controller Receive Filter Configuration Register */ + +#define ETH_RXFC_BCEN (1 << 0) /* Bit 0: Broadcast filter enable */ +#define ETH_RXFC_MCEN (1 << 1) /* Bit 1: Multicast filter enable */ +#define ETH_RXFC_NOTMEEN (1 << 2) /* Bit 2: Not Me unicast filter enable */ +#define ETH_RXFC_UCEN (1 << 3) /* Bit 3: Unicast filter enable */ +#define ETH_RXFC_RUNTEN (1 << 4) /* Bit 4: Runt enable */ +#define ETH_RXFC_RUNTERREN (1 << 5) /* Bit 5: Runt error collection enable */ +#define ETH_RXFC_CRCOKEN (1 << 6) /* Bit 6: CRC OK enable enable */ +#define ETH_RXFC_CRCERREN (1 << 7) /* Bit 7: CRC error collection enable */ +#define ETH_RXFC_PMMODE_SHIFT (8) /* Bits 8-11: Pattern match mode */ +#define ETH_RXFC_PMMODE_MASK (15 << ETH_RXFC_PMMODE_SHIFT) +# define ETH_RXFC_PMMODE_DISABLED (0 << ETH_RXFC_PMMODE_SHIFT) /* Pattern match is always unsuccessful */ +# define ETH_RXFC_PMMODE_PMCKSUM (1 << ETH_RXFC_PMMODE_SHIFT) /* PM checksum matches */ +# define ETH_RXFC_PMMODE_DASTA (2 << ETH_RXFC_PMMODE_SHIFT) /* PM checksum matches & DA==STA */ +/* #define ETH_RXFC_PMMODE_DASTA (3 << ETH_RXFC_PMMODE_SHIFT) PM checksum matches & DA==STA */ +# define ETH_RXFC_PMMODE_DAUCAST (4 << ETH_RXFC_PMMODE_SHIFT) /* PM checksum matches & DA==Unicast address */ +/* #define ETH_RXFC_PMMODE_DAUCAST (5 << ETH_RXFC_PMMODE_SHIFT) PM checksum matches & DA==Unicast address */ +# define ETH_RXFC_PMMODE_DABCAST (6 << ETH_RXFC_PMMODE_SHIFT) /* PM checksum matches & DA==Broadcast address */ +/* #define ETH_RXFC_PMMODE_DABCAST (7 << ETH_RXFC_PMMODE_SHIFT) PM checksum matches & DA==Broadcast address */ +# define ETH_RXFC_PMMODE_HASH (8 << ETH_RXFC_PMMODE_SHIFT) /* PM checksum matches & Hash Table Filter match */ +# define ETH_RXFC_PMMODE_MAGIC (9 << ETH_RXFC_PMMODE_SHIFT) /* PM checksum matches & Packet = Magic Packet */ +#define ETH_RXFC_NOTPM (1 << 12) /* Bit 12: Pattern match inversion */ + /* Bit 13: Reserved */ +#define ETH_RXFC_MPEN (1 << 14) /* Bit 14: Magic packet enable */ +#define ETH_RXFC_HTEN (1 << 15) /* Bit 15: Hash table filtering enable */ + /* Bits 16-31: Reserved */ +/* Ethernet Controller Hash Table 0 Register */ + +#define ETH_HT0_BYTE0_SHIFT (0) /* Bits 0-7: Hash table byte 0, HT[0-7] */ +#define ETH_HT0_BYTE0_MASK (0xff << ETH_HT0_BYTE0_SHIFT) +#define ETH_HT0_BYTE1_SHIFT (8) /* Bits 8-15: Hash table byte 1, HT[8-15] */ +#define ETH_HT0_BYTE1_MASK (0xff << ETH_HT0_BYTE1_SHIFT) +#define ETH_HT0_BYTE2_SHIFT (16) /* Bits 16-23: Hash table byte 2, HT[16-23] */ +#define ETH_HT0_BYTE2_MASK (0xff << ETH_HT0_BYTE2_SHIFT) +#define ETH_HT0_BYTE3_SHIFT (24) /* Bits 24-31: Hash table byte 3, HT[24-31] */ +#define ETH_HT0_BYTE3_MASK (0xff << ETH_HT0_BYTE3_SHIFT) + +/* Ethernet Controller Hash Table 1 Register */ + +#define ETH_HT1_BYTE4_SHIFT (0) /* Bits 0-7: Hash table byte 4, HT[32-39] */ +#define ETH_HT1_BYTE4_MASK (0xff << ETH_HT1_BYTE4_SHIFT) +#define ETH_HT1_BYTE5_SHIFT (8) /* Bits 8-15: Hash table byte 5, HT[40-47] */ +#define ETH_HT1_BYTE5_MASK (0xff << ETH_HT1_BYTE5_SHIFT) +#define ETH_HT1_BYTE6_SHIFT (16) /* Bits 16-23: Hash table byte 6, HT[48-55] */ +#define ETH_HT1_BYTE6_MASK (0xff << ETH_HT1_BYTE6_SHIFT) +#define ETH_HT1_BYTE7_SHIFT (24) /* Bits 24-31: Hash table byte 7, HT[56-63] */ +#define ETH_HT1_BYTE7_MASK (0xff << ETH_HT1_BYTE7_SHIFT) + +/* Ethernet Controller Pattern Match Mask 0 Register */ + +#define ETH_PMM0_MASK0_SHIFT (0) /* Bits 0-7: Patch mask 0, PMM[0-7] */ +#define ETH_PMM0_MASK0_MASK (0xff << ETH_PMM0_MASK0_SHIFT) +#define ETH_PMM0_MASK1_SHIFT (8) /* Bits 8-15: Patch mask 1, PMM[8-15] */ +#define ETH_PMM0_MASK1_MASK (0xff << ETH_PMM0_MASK1_SHIFT) +#define ETH_PMM0_MASK2_SHIFT (16) /* Bits 16-23: Patch mask 2, PMM[16-23] */ +#define ETH_PMM0_MASK2_MASK (0xff << ETH_PMM0_MASK2_SHIFT) +#define ETH_PMM0_MASK3_SHIFT (24) /* Bits 24-31: Patch mask 3, PMM[24-31] */ +#define ETH_PMM0_MASK3_MASK (0xff << ETH_PMM0_MASK3_SHIFT) + +/* Ethernet Controller Pattern Match Mask 1 Register */ + +#define ETH_PMM1_MASK4_SHIFT (0) /* Bits 0-7: Patch mask 4, PMM[32-39] */ +#define ETH_PMM1_MASK4_MASK (0xff << ETH_PMM1_MASK4_SHIFT) +#define ETH_PMM1_MASK5_SHIFT (8) /* Bits 8-15: Patch mask 5, PMM[40-47] */ +#define ETH_PMM1_MASK5_MASK (0xff << ETH_PMM1_MASK5_SHIFT) +#define ETH_PMM1_MASK6_SHIFT (16) /* Bits 16-23: Patch mask 6, PMM[48-55] */ +#define ETH_PMM1_MASK6_MASK (0xff << ETH_PMM1_MASK6_SHIFT) +#define ETH_PMM1_MASK7_SHIFT (24) /* Bits 24-31: Patch mask 7, PMM[56-63] */ +#define ETH_PMM1_MASK7_MASK (0xff << ETH_PMM1_MASK7_SHIFT) + +/* Ethernet Controller Pattern Match Checksum Register */ + +#define ETH_PMCS_CKSM0_SHIFT (0) /* Bits 0-7: Pattern match checksum 0 bits, PMCS[0-7] */ +#define ETH_PMCS_CKSM0_MASK (0xff << ETH_PMCS_CKSM0_SHIFT) +#define ETH_PMCS_CKSM1_SHIFT (8) /* Bits 8-15: Pattern match checksum 1 bits, PMCS[8-15] */ +#define ETH_PMCS_CKSM1_MASK (0xff << ETH_PMCS_CKSM1_SHIFT) + +/* Ethernet Controller Pattern Match Offset Register */ + +#define ETH_PMO_MASK (0xffff) + +/* Flow Control Configuring Register */ +/* Ethernet Controller Receive Watermarks Register */ + +#define ETH_RXWM_RXEWM_SHIFT (0) /* Bits 0-7: Receive empty watermark bits */ +#define ETH_RXWM_RXEWM_MASK (0xff << ETH_RXWM_RXEWM_SHIFT) +#define ETH_RXWM_RXFWM_SHIFT (8) /* Bits 8-15: Receive full watermark bits */ +#define ETH_RXWM_RXFWM_MASK (0xff << ETH_RXWM_RXFWM_SHIFT) + +/* Ethernet Statistics Registers */ +/* Ethernet Controller Receive Overflow Statistics Register */ + +#define ETH_RXOVFLOW_MASK (0xffff) + +/* Ethernet Controller Frames Transmitted OK Statistics Register */ + +#define ETH_FRMTXOK_MASK (0xffff) + +/* Ethernet Controller Single Collision Frames Statistics Register */ + +#define ETH_SCOLFRM_MASK (0xffff) + +/* Ethernet Controller Multiple Collision Frames Statistics Register */ + +#define ETH_MCOLFRM_MASK (0xffff) + +/* Ethernet Controller Frames Received OK Statistics Register */ + +#define ETH_FRMRXOK_MASK (0xffff) + +/* Ethernet Controller Frame Check Sequence Error Statistics Register */ + +#define ETH_FCSERR_MASK (0xffff) + +/* Ethernet Controller Alignment Errors Statistics Register */ + +#define ETH_ALGNERR_MASK (0xffff) + +/* MAC Configuration Registers */ +/* Ethernet Controller MAC Configuration 1 Register */ + +#define EMAC1_CFG1_RXEN (1 << 0) /* Bit 0: MAC Receive enable */ +#define EMAC1_CFG1_PASSALL (1 << 1) /* Bit 1: MAC Pass all all receive frames */ +#define EMAC1_CFG1_RXPAUSE (1 << 2) /* Bit 2: MAC RX flow control bit */ +#define EMAC1_CFG1_TXPAUSE (1 << 3) /* Bit 3: MAC TX flow control */ +#define EMAC1_CFG1_LOOPBACK (1 << 4) /* Bit 4: MAC loopback mode */ + /* Bits 5-7: Reserved */ +#define EMAC1_CFG1_TXRST (1 << 8) /* Bit 8: Reset TX function */ +#define EMAC1_CFG1_MCSTXRST (1 << 9) /* Bit 9: Reset MCS/TX */ +#define EMAC1_CFG1_RXRST (1 << 10) /* Bit 10: Reset RX */ +#define EMAC1_CFG1_MCSRXRST (1 << 11) /* Bit 11: Reset MCS/RX */ + /* Bits 12-13: Reserved */ +#define EMAC1_CFG1_SIMRST (1 << 14) /* Bit 14: Simulation reset */ +#define EMAC1_CFG1_SOFTRST (1 << 15) /* Bit 15: Soft reset */ + /* Bits 16-31: Reserved */ +/* Ethernet Controller MAC Configuration 2 Register */ + +#define EMAC1_CFG2_FULLDPLX (1 << 0) /* Bit 0: Full duplex operation */ +#define EMAC1_CFG2_LENGTHCK (1 << 1) /* Bit 1: Frame length checking */ +#define EMAC1_CFG2_HUGEFRM (1 << 2) /* Bit 2: Huge frame enable */ +#define EMAC1_CFG2_DELAYCRC (1 << 3) /* Bit 3: Delayed CRC */ +#define EMAC1_CFG2_CRCEN (1 << 4) /* Bit 4: CRC enable */ +#define EMAC1_CFG2_PADCRCEN (1 << 5) /* Bit 5: Pad/CRC enable */ +#define EMAC1_CFG2_VLANPADEN (1 << 6) /* Bit 6: VLAN pad enable */ +#define EMAC1_CFG2_AUTOPADEN (1 << 7) /* Bit 7: Auto detect pad enable */ +#define EMAC1_CFG2_PUREPRE (1 << 8) /* Bit 8: Pure preamble enforcement */ +#define EMAC1_CFG2_LONGPRE (1 << 9) /* Bit 9: Long preamble enforcement */ + /* Bits 10-11: Reserved */ +#define EMAC1_CFG2_NOBKOFF (1 << 12) /* Bit 12: No backoff */ +#define EMAC1_CFG2_BPNOBKOFF (1 << 13) /* Bit 13: Back pressure/no backoff */ +#define EMAC1_CFG2_EXCESSDFR (1 << 14) /* Bit 14: Excess defer */ + /* Bits 15-31: Reserved */ +/* Ethernet Controller MAC Back-to-Back Interpacket Gap Register */ + +#define EMAC1_IPGT_SHIFT (0) /* Bits 0-6 */ +#define EMAC1_IPGT_MASK (0x7f << EMAC1_IPGT_SHIFT) + /* Bits 7-31: Reserved */ +/* Ethernet Controller MAC Non-Back-to-Back Interpacket Gap Register */ + +#define EMAC1_IPGR_GAP2_SHIFT (0) /* Bits 0-6: Gap part 2 */ +#define EMAC1_IPGR_GAP2_MASK (0x7f << EMAC1_IPGR_GAP2_SHIFT) + /* Bit 7: Reserved */ +#define EMAC1_IPGR_GAP1_SHIFT (8) /* Bits 8-18: Gap part 1 */ +#define EMAC1_IPGR_GAP1_MASK (0x7f << EMAC1_IPGR_GAP2_SHIFT) + /* Bits 15-31: Reserved */ +/* Ethernet Controller MAC Collision Window/Retry Limit Register */ + +#define EMAC1_CLRT_RETX_SHIFT (0) /* Bits 0-3: Retransmission maximum */ +#define EMAC1_CLRT_RETX_MASK (15 << EMAC1_CLRT_RETX_SHIFT) + /* Bits 4-7: Reserved */ +#define EMAC1_CLRT_CWINDOW_SHIFT (8) /* Bits 8-13: Collision window */ +#define EMAC1_CLRT_CWINDOW_MASK (0x3f << EMAC1_CLRT_CWINDOW_SHIFT) + /* Bits 14-31: Reserved */ +/* Ethernet Controller MAC Maximum Frame Length Register */ + +#define EMAC1_MAXF_SHIFT (0) /* Bits 0-15 */ +#define EMAC1_MAXF_MASK (0xffff << EMAC1_MAXF_SHIFT) + /* Bits 16-31: Reserved */ +/* Ethernet Controller MAC PHY Support Register */ + /* Bits 0-7: Reserved */ +#define EMAC1_SUPP_SPEEDRMII (1 << 8) /* Bit 8: RMII Speed0=10Bps 1=100Bps */ + /* Bits 9-10: Reserved */ +#define EMAC1_SUPP_RESETRMII (1 << 11) /* Bit 11: Reset RMII Logic */ + /* Bits 12-31: Reserved */ +/* Ethernet Controller MAC Test Register */ + +#define EMAC1_TEST_SHRTQNTA (1 << 0) /* Bit 0: Shortcut pause quanta */ +#define EMAC1_TEST_TESTPAUSE (1 << 1) /* Bit 1: Test pause */ +#define EMAC1_TEST_TESTBP (1 << 2) /* Bit 2: Test packpressure */ + /* Bits 3-31: Reserved */ +/* Ethernet Controller MAC Station Address 0 Register */ + +#define EMAC1_SA0_STNADDR6_SHIFT (0) /* Bits 0-7: Station address 5th octet */ +#define EMAC1_SA0_STNADDR6_MASK (0xff << EMAC1_SA0_STNADDR6_SHIFT) +#define EMAC1_SA0_STNADDR5_SHIFT (8) /* Bits 8-15: Station address 6th octet */ +#define EMAC1_SA0_STNADDR5_MASK (0xff << EMAC1_SA0_STNADDR5_SHIFT) + /* Bits 16-31: Reserved */ +/* Ethernet Controller MAC Station Address 1 Register */ + +#define EMAC1_SA1_STNADDR4_SHIFT (0) /* Bits 0-7: Station address 4th octet */ +#define EMAC1_SA1_STNADDR4_MASK (0xff << EMAC1_SA0_STNADDR4_SHIFT) +#define EMAC1_SA1_STNADDR3_SHIFT (8) /* Bits 8-15: Station address 3rd octet */ +#define EMAC1_SA1_STNADDR3_MASK (0xff << EMAC1_SA0_STNADDR3_SHIFT) + /* Bits 16-31: Reserved */ +/* Ethernet Controller MAC Station Address 2 Register */ + +#define EMAC1_SA2_STNADDR2_SHIFT (0) /* Bits 0-7: Station address 2nd octet */ +#define EMAC1_SA2_STNADDR2_MASK (0xff << EMAC1_SA2_STNADDR2_SHIFT) +#define EMAC1_SA2_STNADDR1_SHIFT (8) /* Bits 8-15: Station address 1st octet */ +#define EMAC1_SA2_STNADDR1_MASK (0xff << EMAC1_SA2_STNADDR1_SHIFT) + /* Bits 16-31: Reserved */ +/* MII Management Registers */ + +/* Ethernet Controller MAC MII Management Configuration Register */ + +#define EMAC1_MCFG_SCANINC (1 << 0) /* Bit 0: Scan increment */ +#define EMAC1_MCFG_NOPRE (1 << 1) /* Bit 1: Suppress preamble */ +#define EMAC1_MCFG_CLKSEL_SHIFT (2) /* Bits 2-5: Clock select */ +#define EMAC1_MCFG_CLKSEL_MASK (15 << EMAC1_MCFG_CLKSEL_SHIFT) +# define EMAC1_MCFG_CLKSEL_DIV4 (0 << EMAC1_MCFG_CLKSEL_SHIFT) /* PBCLK5 divided by 4 */ +# define EMAC1_MCFG_CLKSEL_DIV6 (2 << EMAC1_MCFG_CLKSEL_SHIFT) /* PBCLK5 divided by 6 */ +# define EMAC1_MCFG_CLKSEL_DIV8 (3 << EMAC1_MCFG_CLKSEL_SHIFT) /* PBCLK5 divided by 8 */ +# define EMAC1_MCFG_CLKSEL_DIV10 (4 << EMAC1_MCFG_CLKSEL_SHIFT) /* PBCLK5 divided by 10 */ +# define EMAC1_MCFG_CLKSEL_DIV14 (5 << EMAC1_MCFG_CLKSEL_SHIFT) /* PBCLK5 divided by 14 */ +# define EMAC1_MCFG_CLKSEL_DIV20 (6 << EMAC1_MCFG_CLKSEL_SHIFT) /* PBCLK5 divided by 20 */ +# define EMAC1_MCFG_CLKSEL_DIV28 (7 << EMAC1_MCFG_CLKSEL_SHIFT) /* PBCLK5 divided by 28 */ +# define EMAC1_MCFG_CLKSEL_DIV40 (8 << EMAC1_MCFG_CLKSEL_SHIFT) /* PBCLK5 divided by 40 */ +# define EMAC1_MCFG_CLKSEL_DIV48 (9 << EMAC1_MCFG_CLKSEL_SHIFT) /* PBCLK5 divided by 48 */ +# define EMAC1_MCFG_CLKSEL_DIV50 (10 << EMAC1_MCFG_CLKSEL_SHIFT) /* PBCLK5 divided by 50 */ + /* Bits 6-14: Reserved */ +#define EMAC1_MCFG_MGMTRST (1 << 15) /* Bit 15: Reset MII mgmt */ + /* Bits 16-31: Reserved */ + +/* Ethernet Controller MAC MII Management Command Register */ + +#define EMAC1_MCMD_READ (1 << 0) /* Bit 0: Single read cycle */ +#define EMAC1_MCMD_SCAN (1 << 1) /* Bit 1: Continuous read cycles */ + /* Bits 2-31: Reserved */ +#define EMAC1_MCMD_WRITE (0) + +/* Ethernet Controller MAC MII Management Address Register */ + +#define EMAC1_MADR_REGADDR_SHIFT (0) /* Bits 0-4: Register address */ +#define EMAC1_MADR_REGADDR_MASK (31 << EMAC1_MADR_REGADDR_SHIFT) + /* Bits 7-5: Reserved */ +#define EMAC1_MADR_PHYADDR_SHIFT (8) /* Bits 8-12: PHY address */ +#define EMAC1_MADR_PHYADDR_MASK (31 << EMAC1_MADR_PHYADDR_SHIFT) + /* Bits 13-31: Reserved */ +/* Ethernet Controller MAC MII Management Write Data Register */ + +#define EMAC1_MWTD_SHIFT (0) /* Bits 0-15 */ +#define EMAC1_MWTD_MASK (0xffff << EMAC1_MWTD_SHIFT) + /* Bits 16-31: Reserved */ +/* Ethernet Controller MAC MII Management Read Data Register */ + +#define EMAC1_MRDD_SHIFT (0) /* Bits 0-15 */ +#define EMAC1_MRDD_MASK (0xffff << EMAC1_MRDD_SHIFT) + /* Bits 16-31: Reserved */ +/* Ethernet Controller MAC MII Management Indicators Register */ + +#define EMAC1_MIND_MIIMBUSY (1 << 0) /* Bit 0: Busy */ +#define EMAC1_MIND_SCAN (1 << 1) /* Bit 1: Scanning */ +#define EMAC1_MIND_NOTVALID (1 << 2) /* Bit 2: Not valid */ +#define EMAC1_MIND_LINKFAIL (1 << 3) /* Bit 3: MII link fail */ + /* Bits 4-31: Reserved */ + +/* Descriptors Offsets ******************************************************************************/ + +/* Tx descriptor offsets. The NEXTED field is only present if NPV=1 */ + +#define PIC32MZ_TXDESC_STATUS 0x00 /* Various status bits (32-bits) */ +#define PIC32MZ_TXDESC_ADDRESS 0x04 /* Data buffer address (32-bits) */ +#define PIC32MZ_TXDESC_TSV1 0x08 /* Transmit filter status vector 1 (32-bits) */ +#define PIC32MZ_TXDESC_TSV2 0x0c /* Transmit filter status vector 2 (32-bits) */ +#define PIC32MZ_TXLINEAR_SIZE 0x10 /* Size in bytes of one linear Tx descriptor */ + +#define PIC32MZ_TXDESC_NEXTED 0x10 /* Next Ethernet Descriptor (ED) */ +#define PIC32MZ_TXLINKED_SIZE 0x14 /* Size in bytes of one linked Tx descriptor */ + +/* Tx descriptor uint32_t* indices */ + +#define TXDESC_STATUS 0 /* Various status bits (32-bits) */ +#define TXDESC_ADDRESS 1 /* Data buffer address (32-bits) */ +#define TXDESC_TSV1 2 /* Transmit filter status vector 1 (32-bits) */ +#define TXDESC_TSV2 3 /* Transmit filter status vector 2 (32-bits) */ +#define TXLINEAR_SIZE 4 /* Size in 32-bit words of one linear Tx descriptor */ + +#define TXDESC_NEXTED 4 /* Next Ethernet Descriptor (ED) */ +#define TXLINKED_SIZE 5 /* Size in 32-bit words of one linked Tx descriptor */ + +/* Rx descriptor offsets. The NEXTED field is only present if NPV=1 */ + +#define PIC32MZ_RXDESC_STATUS 0x00 /* Various status bits (32-bits) */ +#define PIC32MZ_RXDESC_ADDRESS 0x04 /* Data buffer address (32-bits) */ +#define PIC32MZ_RXDESC_RSV1 0x08 /* Receive filter status vector 1 and checksum (32-bits) */ +#define PIC32MZ_RXDESC_RSV2 0x0c /* Receive filter status vector 2 (32-bits) */ +#define PIC32MZ_RXLINEAR_SIZE 0x10 /* Size in bytes of one linear Rx descriptor */ + +#define PIC32MZ_RXDESC_NEXTED 0x10 /* Next Ethernet Descriptor (ED) */ +#define PIC32MZ_RXLINKED_SIZE 0x14 /* Size in bytes of one linked Rx descriptor */ + +/* Rx descriptor offsets uint32_t* indices */ + +#define RXDESC_STATUS 0 /* Various status bits (32-bits) */ +#define RXDESC_ADDRESS 1 /* Data buffer address (32-bits) */ +#define RXDESC_RSV1 2 /* Receive filter status vector 1 and checksum (32-bits) */ +#define RXDESC_RSV2 3 /* Receive filter status vector 2 (32-bits) */ +#define RXLINEAR_SIZE 4 /* Size in 32-bit words of one linear Rx descriptor */ + +#define RXDESC_NEXTED 4 /* Next Ethernet Descriptor (ED) */ +#define RXLINKED_SIZE 5 /* Size in 32-bit words of one linked Rx descriptor */ + +/* Descriptor Bit Definitions ***********************************************************************/ +/* Tx descriptor status bit definitions */ + /* Bits 0-6: Reserved */ +#define TXDESC_STATUS_EOWN (1 << 7) /* Bit 7: 1=Ethernet controller owns */ +#define TXDESC_STATUS_SOWN (0) /* 0=Software owns */ +#define TXDESC_STATUS_NPV (1 << 8) /* Bit 8: Next ED pointer valid enable */ +#define TXDESC_STATUS_USER1_SHIFT (9) /* Bits 9-15: User-defined */ +#define TXDESC_STATUS_USER1_MASK (0x7f << TXDESC_STATUS_USER2_SHIFT) +#define TXDESC_STATUS_BYTECOUNT_SHIFT (16) /* Bits 16-26: Byte Count */ +#define TXDESC_STATUS_BYTECOUNT_MASK (0x7ff << TXDESC_STATUS_BYTECOUNT_SHIFT) +#define TXDESC_STATUS_USER2_SHIFT (27) /* Bits 27-29: User-defined */ +#define TXDESC_STATUS_USER2_MASK (7 << TXDESC_STATUS_USER1_SHIFT) +#define TXDESC_STATUS_EOP (1 << 30) /* Bit 30: End of packet enable */ +#define TXDESC_STATUS_SOP (1 << 31) /* Bit 31: Start of packet enable */ + +/* Tx descriptor Transmit filter status vector bit definitions */ + +#define TXDESC_TSV1_BYTECOUNT_SHIFT (0) /* Bits 0-15: TSV[32-47] Total bytes transmitted */ +#define TXDESC_TSV1_BYTECOUNT_MASK (0xffff << TXDESC_TSV1_BYTECOUNT_SHIFT) +#define TXDESC_TSV1_CONTROL (1 << 16) /* Bit 16: TSV48 Transmit Control Frame */ +#define TXDESC_TSV1_PAUSE (1 << 17) /* Bit 17: TSV49 Transmit PAUSE Control Frame */ +#define TXDESC_TSV1_BPAPPLIED (1 << 18) /* Bit 18: TSV50 Transmit Backpressure Applied */ +#define TXDESC_TSV1_VLAN (1 << 19) /* Bit 19: TSV51 Transmit VLAN Tagged Frame */ + /* Bits 20-23: Reserved */ +#define TXDESC_TSV1_USER_SHIFT (24) /* Bits 24-31: User-defined */ +#define TXDESC_TSV1_USER_MASK (0xff << TXDESC_STATUS_USER1_SHIFT) + +#define TXDESC_TSV2_BYTECOUNT_SHIFT (0) /* Bits 0-15: TSV15:0 Transmit Byte Count */ +#define TXDESC_TSV2_BYTECOUNT_MASK (0xffff << TXDESC_TSV2_BYTECOUNT_SHIFT) +#define TXDESC_TSV2_COLCOUNT_SHIFT (0) /* Bits 16-19: TSV16-19 Transmit Collision Count */ +#define TXDESC_TSV2_COLCOUNT_MASK (15 << TXDESC_TSV2_COLCOUNT_SHIFT) +#define TXDESC_TSV2_TXCRCE (1 << 20) /* Bit 20: TSV20 Transmit CRC Error */ +#define TXDESC_TSV2_TXLCE (1 << 21) /* Bit 21: TSV21 Transmit Length Check Error */ +#define TXDESC_TSV2_TXOOR (1 << 22) /* Bit 22: TSV22 Transmit Length Out Of Range */ +#define TXDESC_TSV2_TXDONE (1 << 23) /* Bit 23: TSV23 Transmit Done */ +#define TXDESC_TSV2_MCAST (1 << 24) /* Bit 24: TSV24 Transmit Multicast */ +#define TXDESC_TSV2_BCAST (1 << 25) /* Bit 25: TSV25 Transmit Broadcast */ +#define TXDESC_TSV2_PKTDFR (1 << 26) /* Bit 26: TSV26 Transmit Packet Defer */ +#define TXDESC_TSV2_EXCESSDFR (1 << 27) /* Bit 27: TSV27 Transmit Excessive Defer */ +#define TXDESC_TSV2_MAXOL (1 << 28) /* Bit 28: TSV28 Transmit Maximum Collision */ +#define TXDESC_TSV2_TXLC (1 << 29) /* Bit 29: TSV29 Transmit Late Collision */ +#define TXDESC_TSV2_TXGIANT (1 << 30) /* Bit 30: TSV30 Transmit Giant */ +#define TXDESC_TSV2_TXUR (1 << 31) /* Bit 31: TSV31 Transmit Under-run */ + +/* Rx descriptor status bit definitions */ + /* Bits 0-6: Reserved */ +#define RXDESC_STATUS_EOWN (1 << 7) /* Bit 7: 1=Ethernet controller owns */ +#define RXDESC_STATUS_SOWN (0) /* 0=Software owns */ +#define RXDESC_STATUS_NPV (1 << 8) /* Bit 8: Next ED pointer valid enable */ + /* Bits 9-15: Reserved */ +#define RXDESC_STATUS_BYTECOUNT_SHIFT (16) /* Bits 16-26: Byte Count */ +#define RXDESC_STATUS_BYTECOUNT_MASK (0x7ff << RXDESC_STATUS_BYTECOUNT_SHIFT) + /* Bits 27-29: Reserved */ +#define RXDESC_STATUS_EOP (1 << 30) /* Bit 30: End of packet enable */ +#define RXDESC_STATUS_SOP (1 << 31) /* Bit 31: Start of packet enable */ + +/* Rx descriptor receive filter status vector bit definitions */ + +#define RXDESC_RSV1_CHECKSUM_SHIFT (0) /* Bits 0-15: RX Packet Payload Checksum */ +#define RXDESC_RSV1_CHECKSUM_MASK (0xffff << RXDESC_RSV1_CHECKSUM_SHIFT) +#define RXDESC_RSV1_USER_SHIFT (16) /* Bits 16-23: User defined */ +#define RXDESC_RSV1_USER_MASK (0xff << RXDESC_RSV1_USER_SHIFT) +#define RXDESC_RSV1_RUNT (1 << 24) /* Bit 24: RXF_RSV0 Runt packet */ +#define RXDESC_RSV1_NOTANDNOT (1 << 25) /* Bit 25: RXF_RSV1 NOT (Unicast match) AND NOT (Multicast Match) */ +#define RXDESC_RSV1_HTMATCH (1 << 26) /* Bit 26: RXF_RSV2 Hash Table match */ +#define RXDESC_RSV1_MAGIC (1 << 27) /* Bit 27: RXF_RSV3 Magic Packet match */ +#define RXDESC_RSV1_PATMATCH (1 << 28) /* Bit 28: RXF_RSV4 Pattern Match match */ +#define RXDESC_RSV1_UCASTMATCH (1 << 29) /* Bit 29: RXF_RSV5 Unicast match */ +#define RXDESC_RSV1_BCASTMATCH (1 << 30) /* Bit 30: RXF_RSV6 Broadcast match */ +#define RXDESC_RSV1_MCASTMATCH (1 << 31) /* Bit 31: RXF_RSV7 Multicast match */ + +#define RXDESC_RSV2_BYTECOUNT_SHIFT (0) /* Bits 0-15: RSV0-15 Received Byte Count */ +#define RXDESC_RSV2_BYTECOUNT_MASK (0xffff << RXDESC_RSV2_BYTECOUNT_SHIFT) +#define RXDESC_RSV2_LONGDROP (1 << 16) /* Bit 16: RSV16 Long Event/Drop Event */ +#define RXDESC_RSV2_RXDVSEEN (1 << 17) /* Bit 17: RSV17 RXDV Event Previously Seen */ +#define RXDESC_RSV2_CARSEEN (1 << 18) /* Bit 18: RSV18 Carrier Event Previously Seen */ +#define RXDESC_RSV2_CODE (1 << 19) /* Bit 19: RSV19 Receive Code Violation */ +#define RXDESC_RSV2_CRCERR (1 << 20) /* Bit 20: RSV20 CRC Error */ +#define RXDESC_RSV2_LENCHK (1 << 21) /* Bit 21: RSV21 Length Check Error */ +#define RXDESC_RSV2_OOR (1 << 22) /* Bit 22: RSV22 Length Out of Range */ +#define RXDESC_RSV2_OK (1 << 23) /* Bit 23: RSV23 Received Ok */ +#define RXDESC_RSV2_MCAST (1 << 24) /* Bit 24: RSV24 Receive Multicast Packet */ +#define RXDESC_RSV2_BCAST (1 << 25) /* Bit 25: RSV25 Receive Broadcast Packet */ +#define RXDESC_RSV2_DRIBBLE (1 << 26) /* Bit 26: RSV26 Dribble Nibble */ +#define RXDESC_RSV2_CONTROL (1 << 27) /* Bit 27: RSV27 Receive Control Frame */ +#define RXDESC_RSV2_PAUSE (1 << 28) /* Bit 28: RSV28 Receive Pause Control Frame */ +#define RXDESC_RSV2_UNKNOWNOP (1 << 29) /* Bit 29: RSV29 Receive Unknown Op code */ +#define RXDESC_RSV2_VLAN (1 << 30) /* Bit 30: RSV30 Receive VLAN Type Detected */ + /* Bit 31: RSV31 Reserved */ + +/**************************************************************************************************** + * Public Types + ****************************************************************************************************/ + +#ifndef __ASSEMBLY__ + +/* Descriptors as structures */ + +/* Tx descriptor with NPV=0 */ + +struct pic32mz_txlinear_s +{ + uint32_t status; /* Various status bits (32-bits) */ + uint32_t address; /* Data buffer address (32-bits) */ + uint32_t tsv1; /* Transmit filter status vector 1 (32-bits) */ + uint32_t tsv2; /* Transmit filter status vector 2 (32-bits) */ +}; + +/* Tx descriptor with NPV=1 */ + +struct pic32mz_txdesc_s +{ + uint32_t status; /* Various status bits (32-bits) */ + uint32_t address; /* Data buffer address (32-bits) */ + uint32_t tsv1; /* Transmit filter status vector 1 (32-bits) */ + uint32_t tsv2; /* Transmit filter status vector 2 (32-bits) */ + uint32_t nexted; /* Next Ethernet Descriptor (ED) */ +}; + +/* Rx descriptor with NPV=0 */ + +struct pic32mz_rxlinear_s +{ + uint32_t status; /* Various status bits (32-bits) */ + uint32_t address; /* Data buffer address (32-bits) */ + uint32_t rsv1; /* Receive filter status vector 1 and checksum (32-bits) */ + uint32_t rsv2; /* Receive filter status vector 2 (32-bits) */ +}; + +/* Rx descriptor with NPV=1 */ + +struct pic32mz_rxdesc_s +{ + uint32_t status; /* Various status bits (32-bits) */ + uint32_t address; /* Data buffer address (32-bits) */ + uint32_t rsv1; /* Receive filter status vector 1 and checksum (32-bits) */ + uint32_t rsv2; /* Receive filter status vector 2 (32-bits) */ + uint32_t nexted; /* Next Ethernet Descriptor (ED) */ +}; + +/**************************************************************************************************** + * Inline Functions + ****************************************************************************************************/ + +/**************************************************************************************************** + * Public Function Prototypes + ****************************************************************************************************/ + +#ifdef __cplusplus +#define EXTERN extern "C" +extern "C" +{ +#else +#define EXTERN extern +#endif + +#undef EXTERN +#ifdef __cplusplus +} +#endif + +#endif /* __ASSEMBLY__ */ +#endif /* CHIP_NETHERNET > 0 */ +#endif /* __ARCH_MIPS_SRC_PIC32MZ_CHIP_PIC32MZ_ETHERNET_H */ diff --git a/nuttx/arch/mips/src/pic32mz/chip/pic32mz_ethernet.h b/nuttx/arch/mips/src/pic32mz/chip/pic32mz_ethernet.h deleted file mode 100644 index 753c3d9fd..000000000 --- a/nuttx/arch/mips/src/pic32mz/chip/pic32mz_ethernet.h +++ /dev/null @@ -1,1001 +0,0 @@ -/**************************************************************************************************** - * arch/mips/src/pic32mz/chip/pic32mz-ethernet.h - * - * Copyright (C) 2015 Gregory Nutt. All rights reserved. - * Author: Gregory Nutt - * - * Redistribution and use in source and binary forms, with or without - * modification, are permitted provided that the following conditions - * are met: - * - * 1. Redistributions of source code must retain the above copyright - * notice, this list of conditions and the following disclaimer. - * 2. Redistributions in binary form must reproduce the above copyright - * notice, this list of conditions and the following disclaimer in - * the documentation and/or other materials provided with the - * distribution. - * 3. Neither the name NuttX nor the names of its contributors may be - * used to endorse or promote products derived from this software - * without specific prior written permission. - * - * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS - * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT - * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS - * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE - * COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, - * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, - * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS - * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED - * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT - * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN - * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE - * POSSIBILITY OF SUCH DAMAGE. - * - ****************************************************************************************************/ - -#ifndef __ARCH_MIPS_SRC_PIC32MZ_CHIP_PIC32MZ_ETHERNET_H -#define __ARCH_MIPS_SRC_PIC32MZ_CHIP_PIC32MZ_ETHERNET_H - -/**************************************************************************************************** - * Included Files - ****************************************************************************************************/ - -#include -#include - -#include "chip/pic32mz-memorymap.h" - -#if CHIP_NETHERNET > 0 - -/**************************************************************************************************** - * Pre-processor Definitions - ****************************************************************************************************/ -/* Register Offsets *********************************************************************************/ - -/* Controller and DMA Engine Configuration/Status Registers */ - -#define PIC32MZ_ETH_CON1_OFFSET 0x0000 /* Ethernet Controller Control 1 Register */ -#define PIC32MZ_ETH_CON1CLR_OFFSET 0x0004 -#define PIC32MZ_ETH_CON1SET_OFFSET 0x0008 -#define PIC32MZ_ETH_CON1INV_OFFSET 0x000c - -#define PIC32MZ_ETH_CON2_OFFSET 0x0010 /* Ethernet Controller Control 2 Register */ -#define PIC32MZ_ETH_CON2CLR_OFFSET 0x0014 -#define PIC32MZ_ETH_CON2SET_OFFSET 0x0018 -#define PIC32MZ_ETH_CON2INV_OFFSET 0x001c - -#define PIC32MZ_ETH_TXST_OFFSET 0x0020 /* Ethernet Controller TX Packet Descriptor Start Address Register */ -#define PIC32MZ_ETH_TXSTCLR_OFFSET 0x0024 -#define PIC32MZ_ETH_TXSTSET_OFFSET 0x0028 -#define PIC32MZ_ETH_TXSTINV_OFFSET 0x002c - -#define PIC32MZ_ETH_RXST_OFFSET 0x0030 /* Ethernet Controller RX Packet Descriptor Start Address Register */ -#define PIC32MZ_ETH_RXSTCLR_OFFSET 0x0034 -#define PIC32MZ_ETH_RXSTSET_OFFSET 0x0038 -#define PIC32MZ_ETH_RXSTINV_OFFSET 0x003c - -#define PIC32MZ_ETH_IEN_OFFSET 0x00c0 /* Ethernet Controller Interrupt Enable Register */ -#define PIC32MZ_ETH_IENCLR_OFFSET 0x00c4 -#define PIC32MZ_ETH_IENSET_OFFSET 0x00c8 -#define PIC32MZ_ETH_IENINV_OFFSET 0x00cc - -#define PIC32MZ_ETH_IRQ_OFFSET 0x00d0 /* Ethernet Controller Interrupt Request Register */ -#define PIC32MZ_ETH_IRQCLR_OFFSET 0x00d4 -#define PIC32MZ_ETH_IRQSET_OFFSET 0x00d8 -#define PIC32MZ_ETH_IRQINV_OFFSET 0x00dc - -#define PIC32MZ_ETH_STAT_OFFSET 0x00e0 /* Ethernet Controller Status Register */ - -/* RX Filtering Configuration Registers */ - -#define PIC32MZ_ETH_RXFC_OFFSET 0x00a0 /* Ethernet Controller Receive Filter Configuration Register */ -#define PIC32MZ_ETH_RXFCCLR_OFFSET 0x00a4 -#define PIC32MZ_ETH_RXFCSET_OFFSET 0x00a8 -#define PIC32MZ_ETH_RXFCINV_OFFSET 0x00ac - -#define PIC32MZ_ETH_HT0_OFFSET 0x0040 /* Ethernet Controller Hash Table 0 Register */ -#define PIC32MZ_ETH_HT0CLR_OFFSET 0x0044 -#define PIC32MZ_ETH_HT0SET_OFFSET 0x0048 -#define PIC32MZ_ETH_HT0INV_OFFSET 0x004c - -#define PIC32MZ_ETH_HT1_OFFSET 0x0050 /* Ethernet Controller Hash Table 1 Register */ -#define PIC32MZ_ETH_HT1CLR_OFFSET 0x0054 -#define PIC32MZ_ETH_HT1SET_OFFSET 0x0058 -#define PIC32MZ_ETH_HT1INV_OFFSET 0x005c - -#define PIC32MZ_ETH_PMM0_OFFSET 0x0060 /* Ethernet Controller Pattern Match Mask 0 Register */ -#define PIC32MZ_ETH_PMM0CLR_OFFSET 0x0064 -#define PIC32MZ_ETH_PMM0SET_OFFSET 0x0068 -#define PIC32MZ_ETH_PMM0INV_OFFSET 0x006c - -#define PIC32MZ_ETH_PMM1_OFFSET 0x0070 /* Ethernet Controller Pattern Match Mask 1 Register */ -#define PIC32MZ_ETH_PMM1CLR_OFFSET 0x0074 -#define PIC32MZ_ETH_PMM1SET_OFFSET 0x0078 -#define PIC32MZ_ETH_PMM1INV_OFFSET 0x007c - -#define PIC32MZ_ETH_PMCS_OFFSET 0x0080 /* Ethernet Controller Pattern Match Checksum Register */ -#define PIC32MZ_ETH_PMCSCLR_OFFSET 0x0084 -#define PIC32MZ_ETH_PMCSSET_OFFSET 0x0088 -#define PIC32MZ_ETH_PMCSINV_OFFSET 0x008c - -#define PIC32MZ_ETH_PMO_OFFSET 0x0090 /* Ethernet Controller Pattern Match Offset Register */ -#define PIC32MZ_ETH_PMOCLR_OFFSET 0x0094 -#define PIC32MZ_ETH_PMOSET_OFFSET 0x0098 -#define PIC32MZ_ETH_PMOINV_OFFSET 0x009c - -/* Flow Control Configuring Register */ - -#define PIC32MZ_ETH_RXWM_OFFSET 0x00b0 /* Ethernet Controller Receive Watermarks Register */ -#define PIC32MZ_ETH_RXWMCLR_OFFSET 0x00b4 -#define PIC32MZ_ETH_RXWMSET_OFFSET 0x00b8 -#define PIC32MZ_ETH_RXWMINV_OFFSET 0x00bc - -/* Ethernet Statistics Registers */ - -#define PIC32MZ_ETH_RXOVFLOW_OFFSET 0x0100 /* Ethernet Controller Receive Overflow Statistics Register */ -#define PIC32MZ_ETH_RXOVFLOWCLR_OFFSET 0x0104 -#define PIC32MZ_ETH_RXOVFLOWSET_OFFSET 0x0108 -#define PIC32MZ_ETH_RXOVFLOWINV_OFFSET 0x010c - -#define PIC32MZ_ETH_FRMTXOK_OFFSET 0x0110 /* Ethernet Controller Frames Transmitted OK Statistics Register */ -#define PIC32MZ_ETH_FRMTXOKCLR_OFFSET 0x0114 -#define PIC32MZ_ETH_FRMTXOKSET_OFFSET 0x0118 -#define PIC32MZ_ETH_FRMTXOKINV_OFFSET 0x011c - -#define PIC32MZ_ETH_SCOLFRM_OFFSET 0x0120 /* Ethernet Controller Single Collision Frames Statistics Register */ -#define PIC32MZ_ETH_SCOLFRMCLR_OFFSET 0x0124 -#define PIC32MZ_ETH_SCOLFRMSET_OFFSET 0x0128 -#define PIC32MZ_ETH_SCOLFRMINV_OFFSET 0x012c - -#define PIC32MZ_ETH_MCOLFRM_OFFSET 0x0130 /* Ethernet Controller Multiple Collision Frames Statistics Register */ -#define PIC32MZ_ETH_MCOLFRMCLR_OFFSET 0x0134 -#define PIC32MZ_ETH_MCOLFRMSET_OFFSET 0x0138 -#define PIC32MZ_ETH_MCOLFRMINV_OFFSET 0x013c - -#define PIC32MZ_ETH_FRMRXOK_OFFSET 0x0140 /* Ethernet Controller Frames Received OK Statistics Register */ -#define PIC32MZ_ETH_FRMRXOKCLR_OFFSET 0x0144 -#define PIC32MZ_ETH_FRMRXOKSET_OFFSET 0x0148 -#define PIC32MZ_ETH_FRMRXOKINV_OFFSET 0x014c - -#define PIC32MZ_ETH_FCSERR_OFFSET 0x0150 /* Ethernet Controller Frame Check Sequence Error Statistics Register */ -#define PIC32MZ_ETH_FCSERRCLR_OFFSET 0x0154 -#define PIC32MZ_ETH_FCSERRSET_OFFSET 0x0158 -#define PIC32MZ_ETH_FCSERRINV_OFFSET 0x015c - -#define PIC32MZ_ETH_ALGNERR_OFFSET 0x0160 /* Ethernet Controller Alignment Errors Statistics Register */ -#define PIC32MZ_ETH_ALGNERRCLR_OFFSET 0x0164 -#define PIC32MZ_ETH_ALGNERRSET_OFFSET 0x0168 -#define PIC32MZ_ETH_ALGNERRINV_OFFSET 0x016c - -/* MAC Configuration Registers */ - -#define PIC32MZ_EMAC1_CFG1_OFFSET 0x0200 /* Ethernet Controller MAC Configuration 1 Register */ -#define PIC32MZ_EMAC1_CFG1CLR_OFFSET 0x0204 -#define PIC32MZ_EMAC1_CFG1SET_OFFSET 0x0208 -#define PIC32MZ_EMAC1_CFG1INV_OFFSET 0x020c - -#define PIC32MZ_EMAC1_CFG2_OFFSET 0x0210 /* Ethernet Controller MAC Configuration 2 Register */ -#define PIC32MZ_EMAC1_CFG2CLR_OFFSET 0x0214 -#define PIC32MZ_EMAC1_CFG2SET_OFFSET 0x0218 -#define PIC32MZ_EMAC1_CFG2INV_OFFSET 0x021c - -#define PIC32MZ_EMAC1_IPGT_OFFSET 0x0220 /* Ethernet Controller MAC Back-to-Back Interpacket Gap Register */ -#define PIC32MZ_EMAC1_IPGTCLR_OFFSET 0x0224 -#define PIC32MZ_EMAC1_IPGTSET_OFFSET 0x0228 -#define PIC32MZ_EMAC1_IPGTINV_OFFSET 0x022c - -#define PIC32MZ_EMAC1_IPGR_OFFSET 0x0230 /* Ethernet Controller MAC Non-Back-to-Back Interpacket Gap Register */ -#define PIC32MZ_EMAC1_IPGRCLR_OFFSET 0x0234 -#define PIC32MZ_EMAC1_IPGRSET_OFFSET 0x0238 -#define PIC32MZ_EMAC1_IPGRINV_OFFSET 0x023c - -#define PIC32MZ_EMAC1_CLRT_OFFSET 0x0240 /* Ethernet Controller MAC Collision Window/Retry Limit Register */ -#define PIC32MZ_EMAC1_CLRTCLR_OFFSET 0x0244 -#define PIC32MZ_EMAC1_CLRTSET_OFFSET 0x0248 -#define PIC32MZ_EMAC1_CLRTINV_OFFSET 0x024c - -#define PIC32MZ_EMAC1_MAXF_OFFSET 0x0250 /* Ethernet Controller MAC Maximum Frame Length Register */ -#define PIC32MZ_EMAC1_MAXFCLR_OFFSET 0x0254 -#define PIC32MZ_EMAC1_MAXFSET_OFFSET 0x0258 -#define PIC32MZ_EMAC1_MAXFINV_OFFSET 0x025c - -#define PIC32MZ_EMAC1_SUPP_OFFSET 0x0260 /* Ethernet Controller MAC PHY Support Register */ -#define PIC32MZ_EMAC1_SUPPCLR_OFFSET 0x0264 -#define PIC32MZ_EMAC1_SUPPSET_OFFSET 0x0268 -#define PIC32MZ_EMAC1_SUPPINV_OFFSET 0x026c - -#define PIC32MZ_EMAC1_TEST_OFFSET 0x0270 /* Ethernet Controller MAC Test Register */ -#define PIC32MZ_EMAC1_TESTCLR_OFFSET 0x0274 -#define PIC32MZ_EMAC1_TESTSET_OFFSET 0x0278 -#define PIC32MZ_EMAC1_TESTINV_OFFSET 0x027c - -#define PIC32MZ_EMAC1_SA0_OFFSET 0x0300 /* Ethernet Controller MAC Station Address 0 Register */ -#define PIC32MZ_EMAC1_SA0CLR_OFFSET 0x0304 -#define PIC32MZ_EMAC1_SA0SET_OFFSET 0x0308 -#define PIC32MZ_EMAC1_SA0INV_OFFSET 0x030c - -#define PIC32MZ_EMAC1_SA1_OFFSET 0x0310 /* Ethernet Controller MAC Station Address 1 Register */ -#define PIC32MZ_EMAC1_SA1CLR_OFFSET 0x0314 -#define PIC32MZ_EMAC1_SA1SET_OFFSET 0x0318 -#define PIC32MZ_EMAC1_SA1INV_OFFSET 0x031c - -#define PIC32MZ_EMAC1_SA2_OFFSET 0x0320 /* Ethernet Controller MAC Station Address 2 Register */ -#define PIC32MZ_EMAC1_SA2CLR_OFFSET 0x0324 -#define PIC32MZ_EMAC1_SA2SET_OFFSET 0x0328 -#define PIC32MZ_EMAC1_SA2INV_OFFSET 0x032c - -/* MII Management Registers */ - -#define PIC32MZ_EMAC1_MCFG_OFFSET 0x0280 /* Ethernet Controller MAC MII Management Configuration Register */ -#define PIC32MZ_EMAC1_MCFGCLR_OFFSET 0x0284 -#define PIC32MZ_EMAC1_MCFGSET_OFFSET 0x0288 -#define PIC32MZ_EMAC1_MCFGINV_OFFSET 0x028c - -#define PIC32MZ_EMAC1_MCMD_OFFSET 0x0290 /* Ethernet Controller MAC MII Management Command Register */ -#define PIC32MZ_EMAC1_MCMDCLR_OFFSET 0x0294 -#define PIC32MZ_EMAC1_MCMDSET_OFFSET 0x0298 -#define PIC32MZ_EMAC1_MCMDINV_OFFSET 0x029c - -#define PIC32MZ_EMAC1_MADR_OFFSET 0x02a0 /* Ethernet Controller MAC MII Management Address Register */ -#define PIC32MZ_EMAC1_MADRCLR_OFFSET 0x02a4 -#define PIC32MZ_EMAC1_MADRSET_OFFSET 0x02a8 -#define PIC32MZ_EMAC1_MADRINV_OFFSET 0x02ac - -#define PIC32MZ_EMAC1_MWTD_OFFSET 0x02b0 /* Ethernet Controller MAC MII Management Write Data Register */ -#define PIC32MZ_EMAC1_MWTDCLR_OFFSET 0x02b4 -#define PIC32MZ_EMAC1_MWTDSET_OFFSET 0x02b8 -#define PIC32MZ_EMAC1_MWTDINV_OFFSET 0x02bc - -#define PIC32MZ_EMAC1_MRDD_OFFSET 0x02c0 /* Ethernet Controller MAC MII Management Read Data Register */ -#define PIC32MZ_EMAC1_MRDDCLR_OFFSET 0x02c4 -#define PIC32MZ_EMAC1_MRDDSET_OFFSET 0x02c8 -#define PIC32MZ_EMAC1_MRDDINV_OFFSET 0x02cc - -#define PIC32MZ_EMAC1_MIND_OFFSET 0x02d0 /* Ethernet Controller MAC MII Management Indicators Register */ -#define PIC32MZ_EMAC1_MINDCLR_OFFSET 0x02d4 -#define PIC32MZ_EMAC1_MINDSET_OFFSET 0x02d8 -#define PIC32MZ_EMAC1_MINDINV_OFFSET 0x02dc - -/* Register Addresses *******************************************************************************/ - -/* Controller and DMA Engine Configuration/Status Registers */ - -#define PIC32MZ_ETH_CON1 (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_CON1_OFFSET) -#define PIC32MZ_ETH_CON1CLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_CON1CLR_OFFSET) -#define PIC32MZ_ETH_CON1SET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_CON1SET_OFFSET) -#define PIC32MZ_ETH_CON1INV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_CON1INV_OFFSET) - -#define PIC32MZ_ETH_CON2 (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_CON2_OFFSET) -#define PIC32MZ_ETH_CON2CLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_CON2CLR_OFFSET) -#define PIC32MZ_ETH_CON2SET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_CON2SET_OFFSET) -#define PIC32MZ_ETH_CON2INV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_CON2INV_OFFSET) - -#define PIC32MZ_ETH_TXST (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_TXST_OFFSET) -#define PIC32MZ_ETH_TXSTCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_TXSTCLR_OFFSET) -#define PIC32MZ_ETH_TXSTSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_TXSTSET_OFFSET) -#define PIC32MZ_ETH_TXSTINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_TXSTINV_OFFSET) - -#define PIC32MZ_ETH_RXST (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_RXST_OFFSET) -#define PIC32MZ_ETH_RXSTCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_RXSTCLR_OFFSET) -#define PIC32MZ_ETH_RXSTSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_RXSTSET_OFFSET) -#define PIC32MZ_ETH_RXSTINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_RXSTINV_OFFSET) - -#define PIC32MZ_ETH_IEN (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_IEN_OFFSET) -#define PIC32MZ_ETH_IENCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_IENCLR_OFFSET) -#define PIC32MZ_ETH_IENSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_IENSET_OFFSET) -#define PIC32MZ_ETH_IENINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_IENINV_OFFSET) - -#define PIC32MZ_ETH_IRQ (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_IRQ_OFFSET) -#define PIC32MZ_ETH_IRQCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_IRQCLR_OFFSET) -#define PIC32MZ_ETH_IRQSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_IRQSET_OFFSET) -#define PIC32MZ_ETH_IRQINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_IRQINV_OFFSET) - -#define PIC32MZ_ETH_STAT (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_STAT_OFFSET) - -/* RX Filtering Configuration Registers */ - -#define PIC32MZ_ETH_RXFC (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_RXFC_OFFSET) -#define PIC32MZ_ETH_RXFCCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_RXFCCLR_OFFSET) -#define PIC32MZ_ETH_RXFCSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_RXFCSET_OFFSET) -#define PIC32MZ_ETH_RXFCINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_RXFCINV_OFFSET) - -#define PIC32MZ_ETH_HT0 (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_HT0_OFFSET) -#define PIC32MZ_ETH_HT0CLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_HT0CLR_OFFSET) -#define PIC32MZ_ETH_HT0SET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_HT0SET_OFFSET) -#define PIC32MZ_ETH_HT0INV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_HT0INV_OFFSET) - -#define PIC32MZ_ETH_HT1 (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_HT1_OFFSET) -#define PIC32MZ_ETH_HT1CLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_HT1CLR_OFFSET) -#define PIC32MZ_ETH_HT1SET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_HT1SET_OFFSET) -#define PIC32MZ_ETH_HT1INV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_HT1INV_OFFSET) - -#define PIC32MZ_ETH_PMM0 (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_PMM0_OFFSET) -#define PIC32MZ_ETH_PMM0CLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_PMM0CLR_OFFSET) -#define PIC32MZ_ETH_PMM0SET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_PMM0SET_OFFSET) -#define PIC32MZ_ETH_PMM0INV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_PMM0INV_OFFSET) - -#define PIC32MZ_ETH_PMM1 (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_PMM1_OFFSET) -#define PIC32MZ_ETH_PMM1CLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_PMM1CLR_OFFSET) -#define PIC32MZ_ETH_PMM1SET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_PMM1SET_OFFSET) -#define PIC32MZ_ETH_PMM1INV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_PMM1INV_OFFSET) - -#define PIC32MZ_ETH_PMCS (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_PMCS_OFFSET) -#define PIC32MZ_ETH_PMCSCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_PMCSCLR_OFFSET) -#define PIC32MZ_ETH_PMCSSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_PMCSSET_OFFSET) -#define PIC32MZ_ETH_PMCSINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_PMCSINV_OFFSET) - -#define PIC32MZ_ETH_PMO (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_PMO_OFFSET) -#define PIC32MZ_ETH_PMOCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_PMOCLR_OFFSET) -#define PIC32MZ_ETH_PMOSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_PMOSET_OFFSET) -#define PIC32MZ_ETH_PMOINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_PMOINV_OFFSET) - -/* Flow Control Configuring Register */ - -#define PIC32MZ_ETH_RXWM (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_RXWM_OFFSET) -#define PIC32MZ_ETH_RXWMCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_RXWMCLR_OFFSET) -#define PIC32MZ_ETH_RXWMSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_RXWMSET_OFFSET) -#define PIC32MZ_ETH_RXWMINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_RXWMINV_OFFSET) - -/* Ethernet Statistics Registers */ - -#define PIC32MZ_ETH_RXOVFLOW (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_RXOVFLOW_OFFSET) -#define PIC32MZ_ETH_RXOVFLOWCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_RXOVFLOWCLR_OFFSET) -#define PIC32MZ_ETH_RXOVFLOWSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_RXOVFLOWSET_OFFSET) -#define PIC32MZ_ETH_RXOVFLOWINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_RXOVFLOWINV_OFFSET) - -#define PIC32MZ_ETH_FRMTXOK (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_FRMTXOK_OFFSET) -#define PIC32MZ_ETH_FRMTXOKCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_FRMTXOKCLR_OFFSET) -#define PIC32MZ_ETH_FRMTXOKSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_FRMTXOKSET_OFFSET) -#define PIC32MZ_ETH_FRMTXOKINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_FRMTXOKINV_OFFSET) - -#define PIC32MZ_ETH_SCOLFRM (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_SCOLFRM_OFFSET) -#define PIC32MZ_ETH_SCOLFRMCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_SCOLFRMCLR_OFFSET) -#define PIC32MZ_ETH_SCOLFRMSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_SCOLFRMSET_OFFSET) -#define PIC32MZ_ETH_SCOLFRMINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_SCOLFRMINV_OFFSET) - -#define PIC32MZ_ETH_MCOLFRM (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_MCOLFRM_OFFSET) -#define PIC32MZ_ETH_MCOLFRMCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_MCOLFRMCLR_OFFSET) -#define PIC32MZ_ETH_MCOLFRMSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_MCOLFRMSET_OFFSET) -#define PIC32MZ_ETH_MCOLFRMINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_MCOLFRMINV_OFFSET) - -#define PIC32MZ_ETH_FRMRXOK (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_FRMRXOK_OFFSET) -#define PIC32MZ_ETH_FRMRXOKCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_FRMRXOKCLR_OFFSET) -#define PIC32MZ_ETH_FRMRXOKSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_FRMRXOKSET_OFFSET) -#define PIC32MZ_ETH_FRMRXOKINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_FRMRXOKINV_OFFSET) - -#define PIC32MZ_ETH_FCSERR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_FCSERR_OFFSET) -#define PIC32MZ_ETH_FCSERRCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_FCSERRCLR_OFFSET) -#define PIC32MZ_ETH_FCSERRSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_FCSERRSET_OFFSET) -#define PIC32MZ_ETH_FCSERRINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_FCSERRINV_OFFSET) - -#define PIC32MZ_ETH_ALGNERR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_ALGNERR_OFFSET) -#define PIC32MZ_ETH_ALGNERRCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_ALGNERRCLR_OFFSET) -#define PIC32MZ_ETH_ALGNERRSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_ALGNERRSET_OFFSET) -#define PIC32MZ_ETH_ALGNERRINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_ETH_ALGNERRINV_OFFSET) - -/* MAC Configuration Registers */ - -#define PIC32MZ_EMAC1_CFG1 (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_CFG1_OFFSET) -#define PIC32MZ_EMAC1_CFG1CLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_CFG1CLR_OFFSET) -#define PIC32MZ_EMAC1_CFG1SET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_CFG1SET_OFFSET) -#define PIC32MZ_EMAC1_CFG1INV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_CFG1INV_OFFSET) - -#define PIC32MZ_EMAC1_CFG2 (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_CFG2_OFFSET) -#define PIC32MZ_EMAC1_CFG2CLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_CFG2CLR_OFFSET) -#define PIC32MZ_EMAC1_CFG2SET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_CFG2SET_OFFSET) -#define PIC32MZ_EMAC1_CFG2INV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_CFG2INV_OFFSET) - -#define PIC32MZ_EMAC1_IPGT (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_IPGT_OFFSET) -#define PIC32MZ_EMAC1_IPGTCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_IPGTCLR_OFFSET) -#define PIC32MZ_EMAC1_IPGTSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_IPGTSET_OFFSET) -#define PIC32MZ_EMAC1_IPGTINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_IPGTINV_OFFSET) - -#define PIC32MZ_EMAC1_IPGR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_IPGR_OFFSET) -#define PIC32MZ_EMAC1_IPGRCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_IPGRCLR_OFFSET) -#define PIC32MZ_EMAC1_IPGRSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_IPGRSET_OFFSET) -#define PIC32MZ_EMAC1_IPGRINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_IPGRINV_OFFSET) - -#define PIC32MZ_EMAC1_CLRT (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_CLRT_OFFSET) -#define PIC32MZ_EMAC1_CLRTCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_CLRTCLR_OFFSET) -#define PIC32MZ_EMAC1_CLRTSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_CLRTSET_OFFSET) -#define PIC32MZ_EMAC1_CLRTINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_CLRTINV_OFFSET) - -#define PIC32MZ_EMAC1_MAXF (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MAXF_OFFSET) -#define PIC32MZ_EMAC1_MAXFCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MAXFCLR_OFFSET) -#define PIC32MZ_EMAC1_MAXFSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MAXFSET_OFFSET) -#define PIC32MZ_EMAC1_MAXFINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MAXFINV_OFFSET) - -#define PIC32MZ_EMAC1_SUPP (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_SUPP_OFFSET) -#define PIC32MZ_EMAC1_SUPPCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_SUPPCLR_OFFSET) -#define PIC32MZ_EMAC1_SUPPSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_SUPPSET_OFFSET) -#define PIC32MZ_EMAC1_SUPPINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_SUPPINV_OFFSET) - -#define PIC32MZ_EMAC1_TEST (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_TEST_OFFSET) -#define PIC32MZ_EMAC1_TESTCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_TESTCLR_OFFSET) -#define PIC32MZ_EMAC1_TESTSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_TESTSET_OFFSET) -#define PIC32MZ_EMAC1_TESTINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_TESTINV_OFFSET) - -#define PIC32MZ_EMAC1_SA0 (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_SA0_OFFSET) -#define PIC32MZ_EMAC1_SA0CLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_SA0CLR_OFFSET) -#define PIC32MZ_EMAC1_SA0SET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_SA0SET_OFFSET) -#define PIC32MZ_EMAC1_SA0INV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_SA0INV_OFFSET) - -#define PIC32MZ_EMAC1_SA1 (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_SA1_OFFSET) -#define PIC32MZ_EMAC1_SA1CLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_SA1CLR_OFFSET) -#define PIC32MZ_EMAC1_SA1SET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_SA1SET_OFFSET) -#define PIC32MZ_EMAC1_SA1INV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_SA1INV_OFFSET) - -#define PIC32MZ_EMAC1_SA2 (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_SA2_OFFSET) -#define PIC32MZ_EMAC1_SA2CLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_SA2CLR_OFFSET) -#define PIC32MZ_EMAC1_SA2SET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_SA2SET_OFFSET) -#define PIC32MZ_EMAC1_SA2INV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_SA2INV_OFFSET) - -/* MII Management Registers */ - -#define PIC32MZ_EMAC1_MCFG (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MCFG_OFFSET) -#define PIC32MZ_EMAC1_MCFGCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MCFGCLR_OFFSET) -#define PIC32MZ_EMAC1_MCFGSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MCFGSET_OFFSET) -#define PIC32MZ_EMAC1_MCFGINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MCFGINV_OFFSET) - -#define PIC32MZ_EMAC1_MCMD (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MCMD_OFFSET) -#define PIC32MZ_EMAC1_MCMDCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MCMDCLR_OFFSET) -#define PIC32MZ_EMAC1_MCMDSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MCMDSET_OFFSET) -#define PIC32MZ_EMAC1_MCMDINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MCMDINV_OFFSET) - -#define PIC32MZ_EMAC1_MADR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MADR_OFFSET) -#define PIC32MZ_EMAC1_MADRCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MADRCLR_OFFSET) -#define PIC32MZ_EMAC1_MADRSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MADRSET_OFFSET) -#define PIC32MZ_EMAC1_MADRINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MADRINV_OFFSET) - -#define PIC32MZ_EMAC1_MWTD (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MWTD_OFFSET) -#define PIC32MZ_EMAC1_MWTDCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MWTDCLR_OFFSET) -#define PIC32MZ_EMAC1_MWTDSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MWTDSET_OFFSET) -#define PIC32MZ_EMAC1_MWTDINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MWTDINV_OFFSET) - -#define PIC32MZ_EMAC1_MRDD (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MRDD_OFFSET) -#define PIC32MZ_EMAC1_MRDDCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MRDDCLR_OFFSET) -#define PIC32MZ_EMAC1_MRDDSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MRDDSET_OFFSET) -#define PIC32MZ_EMAC1_MRDDINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MRDDINV_OFFSET) - -#define PIC32MZ_EMAC1_MIND (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MIND_OFFSET) -#define PIC32MZ_EMAC1_MINDCLR (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MINDCLR_OFFSET) -#define PIC32MZ_EMAC1_MINDSET (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MINDSET_OFFSET) -#define PIC32MZ_EMAC1_MINDINV (PIC32MZ_ETHERNET_K1BASE+PIC32MZ_EMAC1_MINDINV_OFFSET) - -/* Register Bit-Field Definitions *******************************************************************/ - -/* Controller and DMA Engine Configuration/Status Registers */ -/* Ethernet Controller Control 1 Register */ - -#define ETH_CON1_BUFCDEC (1 << 0) /* Bit 0: : Descriptor Buffer Count Decrement bit */ - /* Bit 1-3: Reserved */ -#define ETH_CON1_MANFC (1 << 4) /* Bit 4: Manual Flow Control bit */ - /* Bit 5-6: Reserved */ -#define ETH_CON1_AUTOFC (1 << 7) /* Bit 7: Automatic Flow Control bit */ -#define ETH_CON1_RXEN (1 << 8) /* Bit 8: Receive Enable bit */ -#define ETH_CON1_TXRTS (1 << 9) /* Bit 9: Transmit Request to Send bit */ - /* Bit 10-12: Reserved */ -#define ETH_CON1_SIDL (1 << 13) /* Bit 13: Ethernet Stop in Idle Mode bit */ - /* Bit 14: Reserved */ -#define ETH_CON1_ON (1 << 15) /* Bit 15: Ethernet ON bit */ -#define ETH_CON1_PTV_SHIFT (16) /* Bits 16-31: PAUSE Timer Value bits */ -#define ETH_CON1_PTV_MASK (0xffff << ETH_CON1_PTV_SHIFT) - -/* Ethernet Controller Control 2 Register */ - /* Bits 0-3: Reserved */ -#define ETH_CON2_RXBUFSZ_SHIFT (4) /* Bits 4-10: RX Data Buffer Size for All RX Descriptors */ -#define ETH_CON2_RXBUFSZ_MASK (0x7f << ETH_CON2_RXBUFSZ_SHIFT) -# define ETH_CON2_RXBUFSZ(n) (((n) >> 4) << ETH_CON2_RXBUFSZ_SHIFT) /* n=16, 32, 48, ... 2032 */ - /* Bits 11-31: Reserved */ - -/* Ethernet Controller TX Packet Descriptor Start Address Register (32-bit address) */ -/* Ethernet Controller RX Packet Descriptor Start Address Register (32-bit address) */ - -/* Ethernet Controller Interrupt Enable Register */ -/* Ethernet Controller Interrupt Request Register */ - -#define ETH_INT_RXOVFLW (1 << 0) /* Bit 0: Receive FIFO overflow interrupt */ -#define ETH_INT_RXBUFNA (1 << 1) /* Bit 1: Receive buffer not available interrupt */ -#define ETH_INT_TXABORT (1 << 2) /* Bit 2: Transmitter abort interrupt */ -#define ETH_INT_TXDONE (1 << 3) /* Bit 3: Transmitter done interrupt */ - /* Bit 4: Reserved */ -#define ETH_INT_RXACT (1 << 5) /* Bit 5: RX activity interrupt */ -#define ETH_INT_PKTPEND (1 << 6) /* Bit 6: Packet pending interrupt */ -#define ETH_INT_RXDONE (1 << 7) /* Bit 7: Receiver done interrupt */ -#define ETH_INT_FWMARK (1 << 8) /* Bit 8: Full watermark interrupt */ -#define ETH_INT_EWMARK (1 << 9) /* Bit 9: Empty watermark interrupt */ - /* Bits 10-12: Reserved */ -#define ETH_INT_RXBUSE (1 << 13) /* Bit 13: Receive BVCI bus error interrupt */ -#define ETH_INT_TXBUSE (1 << 14) /* Bit 14: Transmit BVCI bus error interrupt */ - /* Bits 15-31: Reserved */ -#define ETH_INT_ALLINTS (0x000063ef) - -/* Ethernet Controller Status Register */ - - /* Bits 0-4: Reserved */ -#define ETH_STAT_RXBUSY (1 << 5) /* Bit 5: Receive busy */ -#define ETH_STAT_TXBUSY (1 << 6) /* Bit 6: Transmit busy */ -#define ETH_STAT_ETHBUSY (1 << 7) /* Bit 7: Ethernet module busy */ - /* Bits 8-15: Reserved */ -#define ETH_STAT_BUFCNT_SHIFT (18) /* Bits 16-23: Packet buffer count */ -#define ETH_STAT_BUFCNT_MASK (0xff << ETH_STAT_BUFCNT_SHIFT) - /* Bits 24-31: Reserved */ - -/* RX Filtering Configuration Registers */ -/* Ethernet Controller Receive Filter Configuration Register */ - -#define ETH_RXFC_BCEN (1 << 0) /* Bit 0: Broadcast filter enable */ -#define ETH_RXFC_MCEN (1 << 1) /* Bit 1: Multicast filter enable */ -#define ETH_RXFC_NOTMEEN (1 << 2) /* Bit 2: Not Me unicast filter enable */ -#define ETH_RXFC_UCEN (1 << 3) /* Bit 3: Unicast filter enable */ -#define ETH_RXFC_RUNTEN (1 << 4) /* Bit 4: Runt enable */ -#define ETH_RXFC_RUNTERREN (1 << 5) /* Bit 5: Runt error collection enable */ -#define ETH_RXFC_CRCOKEN (1 << 6) /* Bit 6: CRC OK enable enable */ -#define ETH_RXFC_CRCERREN (1 << 7) /* Bit 7: CRC error collection enable */ -#define ETH_RXFC_PMMODE_SHIFT (8) /* Bits 8-11: Pattern match mode */ -#define ETH_RXFC_PMMODE_MASK (15 << ETH_RXFC_PMMODE_SHIFT) -# define ETH_RXFC_PMMODE_DISABLED (0 << ETH_RXFC_PMMODE_SHIFT) /* Pattern match is always unsuccessful */ -# define ETH_RXFC_PMMODE_PMCKSUM (1 << ETH_RXFC_PMMODE_SHIFT) /* PM checksum matches */ -# define ETH_RXFC_PMMODE_DASTA (2 << ETH_RXFC_PMMODE_SHIFT) /* PM checksum matches & DA==STA */ -/* #define ETH_RXFC_PMMODE_DASTA (3 << ETH_RXFC_PMMODE_SHIFT) PM checksum matches & DA==STA */ -# define ETH_RXFC_PMMODE_DAUCAST (4 << ETH_RXFC_PMMODE_SHIFT) /* PM checksum matches & DA==Unicast address */ -/* #define ETH_RXFC_PMMODE_DAUCAST (5 << ETH_RXFC_PMMODE_SHIFT) PM checksum matches & DA==Unicast address */ -# define ETH_RXFC_PMMODE_DABCAST (6 << ETH_RXFC_PMMODE_SHIFT) /* PM checksum matches & DA==Broadcast address */ -/* #define ETH_RXFC_PMMODE_DABCAST (7 << ETH_RXFC_PMMODE_SHIFT) PM checksum matches & DA==Broadcast address */ -# define ETH_RXFC_PMMODE_HASH (8 << ETH_RXFC_PMMODE_SHIFT) /* PM checksum matches & Hash Table Filter match */ -# define ETH_RXFC_PMMODE_MAGIC (9 << ETH_RXFC_PMMODE_SHIFT) /* PM checksum matches & Packet = Magic Packet */ -#define ETH_RXFC_NOTPM (1 << 12) /* Bit 12: Pattern match inversion */ - /* Bit 13: Reserved */ -#define ETH_RXFC_MPEN (1 << 14) /* Bit 14: Magic packet enable */ -#define ETH_RXFC_HTEN (1 << 15) /* Bit 15: Hash table filtering enable */ - /* Bits 16-31: Reserved */ -/* Ethernet Controller Hash Table 0 Register */ - -#define ETH_HT0_BYTE0_SHIFT (0) /* Bits 0-7: Hash table byte 0, HT[0-7] */ -#define ETH_HT0_BYTE0_MASK (0xff << ETH_HT0_BYTE0_SHIFT) -#define ETH_HT0_BYTE1_SHIFT (8) /* Bits 8-15: Hash table byte 1, HT[8-15] */ -#define ETH_HT0_BYTE1_MASK (0xff << ETH_HT0_BYTE1_SHIFT) -#define ETH_HT0_BYTE2_SHIFT (16) /* Bits 16-23: Hash table byte 2, HT[16-23] */ -#define ETH_HT0_BYTE2_MASK (0xff << ETH_HT0_BYTE2_SHIFT) -#define ETH_HT0_BYTE3_SHIFT (24) /* Bits 24-31: Hash table byte 3, HT[24-31] */ -#define ETH_HT0_BYTE3_MASK (0xff << ETH_HT0_BYTE3_SHIFT) - -/* Ethernet Controller Hash Table 1 Register */ - -#define ETH_HT1_BYTE4_SHIFT (0) /* Bits 0-7: Hash table byte 4, HT[32-39] */ -#define ETH_HT1_BYTE4_MASK (0xff << ETH_HT1_BYTE4_SHIFT) -#define ETH_HT1_BYTE5_SHIFT (8) /* Bits 8-15: Hash table byte 5, HT[40-47] */ -#define ETH_HT1_BYTE5_MASK (0xff << ETH_HT1_BYTE5_SHIFT) -#define ETH_HT1_BYTE6_SHIFT (16) /* Bits 16-23: Hash table byte 6, HT[48-55] */ -#define ETH_HT1_BYTE6_MASK (0xff << ETH_HT1_BYTE6_SHIFT) -#define ETH_HT1_BYTE7_SHIFT (24) /* Bits 24-31: Hash table byte 7, HT[56-63] */ -#define ETH_HT1_BYTE7_MASK (0xff << ETH_HT1_BYTE7_SHIFT) - -/* Ethernet Controller Pattern Match Mask 0 Register */ - -#define ETH_PMM0_MASK0_SHIFT (0) /* Bits 0-7: Patch mask 0, PMM[0-7] */ -#define ETH_PMM0_MASK0_MASK (0xff << ETH_PMM0_MASK0_SHIFT) -#define ETH_PMM0_MASK1_SHIFT (8) /* Bits 8-15: Patch mask 1, PMM[8-15] */ -#define ETH_PMM0_MASK1_MASK (0xff << ETH_PMM0_MASK1_SHIFT) -#define ETH_PMM0_MASK2_SHIFT (16) /* Bits 16-23: Patch mask 2, PMM[16-23] */ -#define ETH_PMM0_MASK2_MASK (0xff << ETH_PMM0_MASK2_SHIFT) -#define ETH_PMM0_MASK3_SHIFT (24) /* Bits 24-31: Patch mask 3, PMM[24-31] */ -#define ETH_PMM0_MASK3_MASK (0xff << ETH_PMM0_MASK3_SHIFT) - -/* Ethernet Controller Pattern Match Mask 1 Register */ - -#define ETH_PMM1_MASK4_SHIFT (0) /* Bits 0-7: Patch mask 4, PMM[32-39] */ -#define ETH_PMM1_MASK4_MASK (0xff << ETH_PMM1_MASK4_SHIFT) -#define ETH_PMM1_MASK5_SHIFT (8) /* Bits 8-15: Patch mask 5, PMM[40-47] */ -#define ETH_PMM1_MASK5_MASK (0xff << ETH_PMM1_MASK5_SHIFT) -#define ETH_PMM1_MASK6_SHIFT (16) /* Bits 16-23: Patch mask 6, PMM[48-55] */ -#define ETH_PMM1_MASK6_MASK (0xff << ETH_PMM1_MASK6_SHIFT) -#define ETH_PMM1_MASK7_SHIFT (24) /* Bits 24-31: Patch mask 7, PMM[56-63] */ -#define ETH_PMM1_MASK7_MASK (0xff << ETH_PMM1_MASK7_SHIFT) - -/* Ethernet Controller Pattern Match Checksum Register */ - -#define ETH_PMCS_CKSM0_SHIFT (0) /* Bits 0-7: Pattern match checksum 0 bits, PMCS[0-7] */ -#define ETH_PMCS_CKSM0_MASK (0xff << ETH_PMCS_CKSM0_SHIFT) -#define ETH_PMCS_CKSM1_SHIFT (8) /* Bits 8-15: Pattern match checksum 1 bits, PMCS[8-15] */ -#define ETH_PMCS_CKSM1_MASK (0xff << ETH_PMCS_CKSM1_SHIFT) - -/* Ethernet Controller Pattern Match Offset Register */ - -#define ETH_PMO_MASK (0xffff) - -/* Flow Control Configuring Register */ -/* Ethernet Controller Receive Watermarks Register */ - -#define ETH_RXWM_RXEWM_SHIFT (0) /* Bits 0-7: Receive empty watermark bits */ -#define ETH_RXWM_RXEWM_MASK (0xff << ETH_RXWM_RXEWM_SHIFT) -#define ETH_RXWM_RXFWM_SHIFT (8) /* Bits 8-15: Receive full watermark bits */ -#define ETH_RXWM_RXFWM_MASK (0xff << ETH_RXWM_RXFWM_SHIFT) - -/* Ethernet Statistics Registers */ -/* Ethernet Controller Receive Overflow Statistics Register */ - -#define ETH_RXOVFLOW_MASK (0xffff) - -/* Ethernet Controller Frames Transmitted OK Statistics Register */ - -#define ETH_FRMTXOK_MASK (0xffff) - -/* Ethernet Controller Single Collision Frames Statistics Register */ - -#define ETH_SCOLFRM_MASK (0xffff) - -/* Ethernet Controller Multiple Collision Frames Statistics Register */ - -#define ETH_MCOLFRM_MASK (0xffff) - -/* Ethernet Controller Frames Received OK Statistics Register */ - -#define ETH_FRMRXOK_MASK (0xffff) - -/* Ethernet Controller Frame Check Sequence Error Statistics Register */ - -#define ETH_FCSERR_MASK (0xffff) - -/* Ethernet Controller Alignment Errors Statistics Register */ - -#define ETH_ALGNERR_MASK (0xffff) - -/* MAC Configuration Registers */ -/* Ethernet Controller MAC Configuration 1 Register */ - -#define EMAC1_CFG1_RXEN (1 << 0) /* Bit 0: MAC Receive enable */ -#define EMAC1_CFG1_PASSALL (1 << 1) /* Bit 1: MAC Pass all all receive frames */ -#define EMAC1_CFG1_RXPAUSE (1 << 2) /* Bit 2: MAC RX flow control bit */ -#define EMAC1_CFG1_TXPAUSE (1 << 3) /* Bit 3: MAC TX flow control */ -#define EMAC1_CFG1_LOOPBACK (1 << 4) /* Bit 4: MAC loopback mode */ - /* Bits 5-7: Reserved */ -#define EMAC1_CFG1_TXRST (1 << 8) /* Bit 8: Reset TX function */ -#define EMAC1_CFG1_MCSTXRST (1 << 9) /* Bit 9: Reset MCS/TX */ -#define EMAC1_CFG1_RXRST (1 << 10) /* Bit 10: Reset RX */ -#define EMAC1_CFG1_MCSRXRST (1 << 11) /* Bit 11: Reset MCS/RX */ - /* Bits 12-13: Reserved */ -#define EMAC1_CFG1_SIMRST (1 << 14) /* Bit 14: Simulation reset */ -#define EMAC1_CFG1_SOFTRST (1 << 15) /* Bit 15: Soft reset */ - /* Bits 16-31: Reserved */ -/* Ethernet Controller MAC Configuration 2 Register */ - -#define EMAC1_CFG2_FULLDPLX (1 << 0) /* Bit 0: Full duplex operation */ -#define EMAC1_CFG2_LENGTHCK (1 << 1) /* Bit 1: Frame length checking */ -#define EMAC1_CFG2_HUGEFRM (1 << 2) /* Bit 2: Huge frame enable */ -#define EMAC1_CFG2_DELAYCRC (1 << 3) /* Bit 3: Delayed CRC */ -#define EMAC1_CFG2_CRCEN (1 << 4) /* Bit 4: CRC enable */ -#define EMAC1_CFG2_PADCRCEN (1 << 5) /* Bit 5: Pad/CRC enable */ -#define EMAC1_CFG2_VLANPADEN (1 << 6) /* Bit 6: VLAN pad enable */ -#define EMAC1_CFG2_AUTOPADEN (1 << 7) /* Bit 7: Auto detect pad enable */ -#define EMAC1_CFG2_PUREPRE (1 << 8) /* Bit 8: Pure preamble enforcement */ -#define EMAC1_CFG2_LONGPRE (1 << 9) /* Bit 9: Long preamble enforcement */ - /* Bits 10-11: Reserved */ -#define EMAC1_CFG2_NOBKOFF (1 << 12) /* Bit 12: No backoff */ -#define EMAC1_CFG2_BPNOBKOFF (1 << 13) /* Bit 13: Back pressure/no backoff */ -#define EMAC1_CFG2_EXCESSDFR (1 << 14) /* Bit 14: Excess defer */ - /* Bits 15-31: Reserved */ -/* Ethernet Controller MAC Back-to-Back Interpacket Gap Register */ - -#define EMAC1_IPGT_SHIFT (0) /* Bits 0-6 */ -#define EMAC1_IPGT_MASK (0x7f << EMAC1_IPGT_SHIFT) - /* Bits 7-31: Reserved */ -/* Ethernet Controller MAC Non-Back-to-Back Interpacket Gap Register */ - -#define EMAC1_IPGR_GAP2_SHIFT (0) /* Bits 0-6: Gap part 2 */ -#define EMAC1_IPGR_GAP2_MASK (0x7f << EMAC1_IPGR_GAP2_SHIFT) - /* Bit 7: Reserved */ -#define EMAC1_IPGR_GAP1_SHIFT (8) /* Bits 8-18: Gap part 1 */ -#define EMAC1_IPGR_GAP1_MASK (0x7f << EMAC1_IPGR_GAP2_SHIFT) - /* Bits 15-31: Reserved */ -/* Ethernet Controller MAC Collision Window/Retry Limit Register */ - -#define EMAC1_CLRT_RETX_SHIFT (0) /* Bits 0-3: Retransmission maximum */ -#define EMAC1_CLRT_RETX_MASK (15 << EMAC1_CLRT_RETX_SHIFT) - /* Bits 4-7: Reserved */ -#define EMAC1_CLRT_CWINDOW_SHIFT (8) /* Bits 8-13: Collision window */ -#define EMAC1_CLRT_CWINDOW_MASK (0x3f << EMAC1_CLRT_CWINDOW_SHIFT) - /* Bits 14-31: Reserved */ -/* Ethernet Controller MAC Maximum Frame Length Register */ - -#define EMAC1_MAXF_SHIFT (0) /* Bits 0-15 */ -#define EMAC1_MAXF_MASK (0xffff << EMAC1_MAXF_SHIFT) - /* Bits 16-31: Reserved */ -/* Ethernet Controller MAC PHY Support Register */ - /* Bits 0-7: Reserved */ -#define EMAC1_SUPP_SPEEDRMII (1 << 8) /* Bit 8: RMII Speed0=10Bps 1=100Bps */ - /* Bits 9-10: Reserved */ -#define EMAC1_SUPP_RESETRMII (1 << 11) /* Bit 11: Reset RMII Logic */ - /* Bits 12-31: Reserved */ -/* Ethernet Controller MAC Test Register */ - -#define EMAC1_TEST_SHRTQNTA (1 << 0) /* Bit 0: Shortcut pause quanta */ -#define EMAC1_TEST_TESTPAUSE (1 << 1) /* Bit 1: Test pause */ -#define EMAC1_TEST_TESTBP (1 << 2) /* Bit 2: Test packpressure */ - /* Bits 3-31: Reserved */ -/* Ethernet Controller MAC Station Address 0 Register */ - -#define EMAC1_SA0_STNADDR6_SHIFT (0) /* Bits 0-7: Station address 5th octet */ -#define EMAC1_SA0_STNADDR6_MASK (0xff << EMAC1_SA0_STNADDR6_SHIFT) -#define EMAC1_SA0_STNADDR5_SHIFT (8) /* Bits 8-15: Station address 6th octet */ -#define EMAC1_SA0_STNADDR5_MASK (0xff << EMAC1_SA0_STNADDR5_SHIFT) - /* Bits 16-31: Reserved */ -/* Ethernet Controller MAC Station Address 1 Register */ - -#define EMAC1_SA1_STNADDR4_SHIFT (0) /* Bits 0-7: Station address 4th octet */ -#define EMAC1_SA1_STNADDR4_MASK (0xff << EMAC1_SA0_STNADDR4_SHIFT) -#define EMAC1_SA1_STNADDR3_SHIFT (8) /* Bits 8-15: Station address 3rd octet */ -#define EMAC1_SA1_STNADDR3_MASK (0xff << EMAC1_SA0_STNADDR3_SHIFT) - /* Bits 16-31: Reserved */ -/* Ethernet Controller MAC Station Address 2 Register */ - -#define EMAC1_SA2_STNADDR2_SHIFT (0) /* Bits 0-7: Station address 2nd octet */ -#define EMAC1_SA2_STNADDR2_MASK (0xff << EMAC1_SA2_STNADDR2_SHIFT) -#define EMAC1_SA2_STNADDR1_SHIFT (8) /* Bits 8-15: Station address 1st octet */ -#define EMAC1_SA2_STNADDR1_MASK (0xff << EMAC1_SA2_STNADDR1_SHIFT) - /* Bits 16-31: Reserved */ -/* MII Management Registers */ - -/* Ethernet Controller MAC MII Management Configuration Register */ - -#define EMAC1_MCFG_SCANINC (1 << 0) /* Bit 0: Scan increment */ -#define EMAC1_MCFG_NOPRE (1 << 1) /* Bit 1: Suppress preamble */ -#define EMAC1_MCFG_CLKSEL_SHIFT (2) /* Bits 2-5: Clock select */ -#define EMAC1_MCFG_CLKSEL_MASK (15 << EMAC1_MCFG_CLKSEL_SHIFT) -# define EMAC1_MCFG_CLKSEL_DIV4 (0 << EMAC1_MCFG_CLKSEL_SHIFT) /* PBCLK5 divided by 4 */ -# define EMAC1_MCFG_CLKSEL_DIV6 (2 << EMAC1_MCFG_CLKSEL_SHIFT) /* PBCLK5 divided by 6 */ -# define EMAC1_MCFG_CLKSEL_DIV8 (3 << EMAC1_MCFG_CLKSEL_SHIFT) /* PBCLK5 divided by 8 */ -# define EMAC1_MCFG_CLKSEL_DIV10 (4 << EMAC1_MCFG_CLKSEL_SHIFT) /* PBCLK5 divided by 10 */ -# define EMAC1_MCFG_CLKSEL_DIV14 (5 << EMAC1_MCFG_CLKSEL_SHIFT) /* PBCLK5 divided by 14 */ -# define EMAC1_MCFG_CLKSEL_DIV20 (6 << EMAC1_MCFG_CLKSEL_SHIFT) /* PBCLK5 divided by 20 */ -# define EMAC1_MCFG_CLKSEL_DIV28 (7 << EMAC1_MCFG_CLKSEL_SHIFT) /* PBCLK5 divided by 28 */ -# define EMAC1_MCFG_CLKSEL_DIV40 (8 << EMAC1_MCFG_CLKSEL_SHIFT) /* PBCLK5 divided by 40 */ -# define EMAC1_MCFG_CLKSEL_DIV48 (9 << EMAC1_MCFG_CLKSEL_SHIFT) /* PBCLK5 divided by 48 */ -# define EMAC1_MCFG_CLKSEL_DIV50 (10 << EMAC1_MCFG_CLKSEL_SHIFT) /* PBCLK5 divided by 50 */ - /* Bits 6-14: Reserved */ -#define EMAC1_MCFG_MGMTRST (1 << 15) /* Bit 15: Reset MII mgmt */ - /* Bits 16-31: Reserved */ - -/* Ethernet Controller MAC MII Management Command Register */ - -#define EMAC1_MCMD_READ (1 << 0) /* Bit 0: Single read cycle */ -#define EMAC1_MCMD_SCAN (1 << 1) /* Bit 1: Continuous read cycles */ - /* Bits 2-31: Reserved */ -#define EMAC1_MCMD_WRITE (0) - -/* Ethernet Controller MAC MII Management Address Register */ - -#define EMAC1_MADR_REGADDR_SHIFT (0) /* Bits 0-4: Register address */ -#define EMAC1_MADR_REGADDR_MASK (31 << EMAC1_MADR_REGADDR_SHIFT) - /* Bits 7-5: Reserved */ -#define EMAC1_MADR_PHYADDR_SHIFT (8) /* Bits 8-12: PHY address */ -#define EMAC1_MADR_PHYADDR_MASK (31 << EMAC1_MADR_PHYADDR_SHIFT) - /* Bits 13-31: Reserved */ -/* Ethernet Controller MAC MII Management Write Data Register */ - -#define EMAC1_MWTD_SHIFT (0) /* Bits 0-15 */ -#define EMAC1_MWTD_MASK (0xffff << EMAC1_MWTD_SHIFT) - /* Bits 16-31: Reserved */ -/* Ethernet Controller MAC MII Management Read Data Register */ - -#define EMAC1_MRDD_SHIFT (0) /* Bits 0-15 */ -#define EMAC1_MRDD_MASK (0xffff << EMAC1_MRDD_SHIFT) - /* Bits 16-31: Reserved */ -/* Ethernet Controller MAC MII Management Indicators Register */ - -#define EMAC1_MIND_MIIMBUSY (1 << 0) /* Bit 0: Busy */ -#define EMAC1_MIND_SCAN (1 << 1) /* Bit 1: Scanning */ -#define EMAC1_MIND_NOTVALID (1 << 2) /* Bit 2: Not valid */ -#define EMAC1_MIND_LINKFAIL (1 << 3) /* Bit 3: MII link fail */ - /* Bits 4-31: Reserved */ - -/* Descriptors Offsets ******************************************************************************/ - -/* Tx descriptor offsets. The NEXTED field is only present if NPV=1 */ - -#define PIC32MZ_TXDESC_STATUS 0x00 /* Various status bits (32-bits) */ -#define PIC32MZ_TXDESC_ADDRESS 0x04 /* Data buffer address (32-bits) */ -#define PIC32MZ_TXDESC_TSV1 0x08 /* Transmit filter status vector 1 (32-bits) */ -#define PIC32MZ_TXDESC_TSV2 0x0c /* Transmit filter status vector 2 (32-bits) */ -#define PIC32MZ_TXLINEAR_SIZE 0x10 /* Size in bytes of one linear Tx descriptor */ - -#define PIC32MZ_TXDESC_NEXTED 0x10 /* Next Ethernet Descriptor (ED) */ -#define PIC32MZ_TXLINKED_SIZE 0x14 /* Size in bytes of one linked Tx descriptor */ - -/* Tx descriptor uint32_t* indices */ - -#define TXDESC_STATUS 0 /* Various status bits (32-bits) */ -#define TXDESC_ADDRESS 1 /* Data buffer address (32-bits) */ -#define TXDESC_TSV1 2 /* Transmit filter status vector 1 (32-bits) */ -#define TXDESC_TSV2 3 /* Transmit filter status vector 2 (32-bits) */ -#define TXLINEAR_SIZE 4 /* Size in 32-bit words of one linear Tx descriptor */ - -#define TXDESC_NEXTED 4 /* Next Ethernet Descriptor (ED) */ -#define TXLINKED_SIZE 5 /* Size in 32-bit words of one linked Tx descriptor */ - -/* Rx descriptor offsets. The NEXTED field is only present if NPV=1 */ - -#define PIC32MZ_RXDESC_STATUS 0x00 /* Various status bits (32-bits) */ -#define PIC32MZ_RXDESC_ADDRESS 0x04 /* Data buffer address (32-bits) */ -#define PIC32MZ_RXDESC_RSV1 0x08 /* Receive filter status vector 1 and checksum (32-bits) */ -#define PIC32MZ_RXDESC_RSV2 0x0c /* Receive filter status vector 2 (32-bits) */ -#define PIC32MZ_RXLINEAR_SIZE 0x10 /* Size in bytes of one linear Rx descriptor */ - -#define PIC32MZ_RXDESC_NEXTED 0x10 /* Next Ethernet Descriptor (ED) */ -#define PIC32MZ_RXLINKED_SIZE 0x14 /* Size in bytes of one linked Rx descriptor */ - -/* Rx descriptor offsets uint32_t* indices */ - -#define RXDESC_STATUS 0 /* Various status bits (32-bits) */ -#define RXDESC_ADDRESS 1 /* Data buffer address (32-bits) */ -#define RXDESC_RSV1 2 /* Receive filter status vector 1 and checksum (32-bits) */ -#define RXDESC_RSV2 3 /* Receive filter status vector 2 (32-bits) */ -#define RXLINEAR_SIZE 4 /* Size in 32-bit words of one linear Rx descriptor */ - -#define RXDESC_NEXTED 4 /* Next Ethernet Descriptor (ED) */ -#define RXLINKED_SIZE 5 /* Size in 32-bit words of one linked Rx descriptor */ - -/* Descriptor Bit Definitions ***********************************************************************/ -/* Tx descriptor status bit definitions */ - /* Bits 0-6: Reserved */ -#define TXDESC_STATUS_EOWN (1 << 7) /* Bit 7: 1=Ethernet controller owns */ -#define TXDESC_STATUS_SOWN (0) /* 0=Software owns */ -#define TXDESC_STATUS_NPV (1 << 8) /* Bit 8: Next ED pointer valid enable */ -#define TXDESC_STATUS_USER1_SHIFT (9) /* Bits 9-15: User-defined */ -#define TXDESC_STATUS_USER1_MASK (0x7f << TXDESC_STATUS_USER2_SHIFT) -#define TXDESC_STATUS_BYTECOUNT_SHIFT (16) /* Bits 16-26: Byte Count */ -#define TXDESC_STATUS_BYTECOUNT_MASK (0x7ff << TXDESC_STATUS_BYTECOUNT_SHIFT) -#define TXDESC_STATUS_USER2_SHIFT (27) /* Bits 27-29: User-defined */ -#define TXDESC_STATUS_USER2_MASK (7 << TXDESC_STATUS_USER1_SHIFT) -#define TXDESC_STATUS_EOP (1 << 30) /* Bit 30: End of packet enable */ -#define TXDESC_STATUS_SOP (1 << 31) /* Bit 31: Start of packet enable */ - -/* Tx descriptor Transmit filter status vector bit definitions */ - -#define TXDESC_TSV1_BYTECOUNT_SHIFT (0) /* Bits 0-15: TSV[32-47] Total bytes transmitted */ -#define TXDESC_TSV1_BYTECOUNT_MASK (0xffff << TXDESC_TSV1_BYTECOUNT_SHIFT) -#define TXDESC_TSV1_CONTROL (1 << 16) /* Bit 16: TSV48 Transmit Control Frame */ -#define TXDESC_TSV1_PAUSE (1 << 17) /* Bit 17: TSV49 Transmit PAUSE Control Frame */ -#define TXDESC_TSV1_BPAPPLIED (1 << 18) /* Bit 18: TSV50 Transmit Backpressure Applied */ -#define TXDESC_TSV1_VLAN (1 << 19) /* Bit 19: TSV51 Transmit VLAN Tagged Frame */ - /* Bits 20-23: Reserved */ -#define TXDESC_TSV1_USER_SHIFT (24) /* Bits 24-31: User-defined */ -#define TXDESC_TSV1_USER_MASK (0xff << TXDESC_STATUS_USER1_SHIFT) - -#define TXDESC_TSV2_BYTECOUNT_SHIFT (0) /* Bits 0-15: TSV15:0 Transmit Byte Count */ -#define TXDESC_TSV2_BYTECOUNT_MASK (0xffff << TXDESC_TSV2_BYTECOUNT_SHIFT) -#define TXDESC_TSV2_COLCOUNT_SHIFT (0) /* Bits 16-19: TSV16-19 Transmit Collision Count */ -#define TXDESC_TSV2_COLCOUNT_MASK (15 << TXDESC_TSV2_COLCOUNT_SHIFT) -#define TXDESC_TSV2_TXCRCE (1 << 20) /* Bit 20: TSV20 Transmit CRC Error */ -#define TXDESC_TSV2_TXLCE (1 << 21) /* Bit 21: TSV21 Transmit Length Check Error */ -#define TXDESC_TSV2_TXOOR (1 << 22) /* Bit 22: TSV22 Transmit Length Out Of Range */ -#define TXDESC_TSV2_TXDONE (1 << 23) /* Bit 23: TSV23 Transmit Done */ -#define TXDESC_TSV2_MCAST (1 << 24) /* Bit 24: TSV24 Transmit Multicast */ -#define TXDESC_TSV2_BCAST (1 << 25) /* Bit 25: TSV25 Transmit Broadcast */ -#define TXDESC_TSV2_PKTDFR (1 << 26) /* Bit 26: TSV26 Transmit Packet Defer */ -#define TXDESC_TSV2_EXCESSDFR (1 << 27) /* Bit 27: TSV27 Transmit Excessive Defer */ -#define TXDESC_TSV2_MAXOL (1 << 28) /* Bit 28: TSV28 Transmit Maximum Collision */ -#define TXDESC_TSV2_TXLC (1 << 29) /* Bit 29: TSV29 Transmit Late Collision */ -#define TXDESC_TSV2_TXGIANT (1 << 30) /* Bit 30: TSV30 Transmit Giant */ -#define TXDESC_TSV2_TXUR (1 << 31) /* Bit 31: TSV31 Transmit Under-run */ - -/* Rx descriptor status bit definitions */ - /* Bits 0-6: Reserved */ -#define RXDESC_STATUS_EOWN (1 << 7) /* Bit 7: 1=Ethernet controller owns */ -#define RXDESC_STATUS_SOWN (0) /* 0=Software owns */ -#define RXDESC_STATUS_NPV (1 << 8) /* Bit 8: Next ED pointer valid enable */ - /* Bits 9-15: Reserved */ -#define RXDESC_STATUS_BYTECOUNT_SHIFT (16) /* Bits 16-26: Byte Count */ -#define RXDESC_STATUS_BYTECOUNT_MASK (0x7ff << RXDESC_STATUS_BYTECOUNT_SHIFT) - /* Bits 27-29: Reserved */ -#define RXDESC_STATUS_EOP (1 << 30) /* Bit 30: End of packet enable */ -#define RXDESC_STATUS_SOP (1 << 31) /* Bit 31: Start of packet enable */ - -/* Rx descriptor receive filter status vector bit definitions */ - -#define RXDESC_RSV1_CHECKSUM_SHIFT (0) /* Bits 0-15: RX Packet Payload Checksum */ -#define RXDESC_RSV1_CHECKSUM_MASK (0xffff << RXDESC_RSV1_CHECKSUM_SHIFT) -#define RXDESC_RSV1_USER_SHIFT (16) /* Bits 16-23: User defined */ -#define RXDESC_RSV1_USER_MASK (0xff << RXDESC_RSV1_USER_SHIFT) -#define RXDESC_RSV1_RUNT (1 << 24) /* Bit 24: RXF_RSV0 Runt packet */ -#define RXDESC_RSV1_NOTANDNOT (1 << 25) /* Bit 25: RXF_RSV1 NOT (Unicast match) AND NOT (Multicast Match) */ -#define RXDESC_RSV1_HTMATCH (1 << 26) /* Bit 26: RXF_RSV2 Hash Table match */ -#define RXDESC_RSV1_MAGIC (1 << 27) /* Bit 27: RXF_RSV3 Magic Packet match */ -#define RXDESC_RSV1_PATMATCH (1 << 28) /* Bit 28: RXF_RSV4 Pattern Match match */ -#define RXDESC_RSV1_UCASTMATCH (1 << 29) /* Bit 29: RXF_RSV5 Unicast match */ -#define RXDESC_RSV1_BCASTMATCH (1 << 30) /* Bit 30: RXF_RSV6 Broadcast match */ -#define RXDESC_RSV1_MCASTMATCH (1 << 31) /* Bit 31: RXF_RSV7 Multicast match */ - -#define RXDESC_RSV2_BYTECOUNT_SHIFT (0) /* Bits 0-15: RSV0-15 Received Byte Count */ -#define RXDESC_RSV2_BYTECOUNT_MASK (0xffff << RXDESC_RSV2_BYTECOUNT_SHIFT) -#define RXDESC_RSV2_LONGDROP (1 << 16) /* Bit 16: RSV16 Long Event/Drop Event */ -#define RXDESC_RSV2_RXDVSEEN (1 << 17) /* Bit 17: RSV17 RXDV Event Previously Seen */ -#define RXDESC_RSV2_CARSEEN (1 << 18) /* Bit 18: RSV18 Carrier Event Previously Seen */ -#define RXDESC_RSV2_CODE (1 << 19) /* Bit 19: RSV19 Receive Code Violation */ -#define RXDESC_RSV2_CRCERR (1 << 20) /* Bit 20: RSV20 CRC Error */ -#define RXDESC_RSV2_LENCHK (1 << 21) /* Bit 21: RSV21 Length Check Error */ -#define RXDESC_RSV2_OOR (1 << 22) /* Bit 22: RSV22 Length Out of Range */ -#define RXDESC_RSV2_OK (1 << 23) /* Bit 23: RSV23 Received Ok */ -#define RXDESC_RSV2_MCAST (1 << 24) /* Bit 24: RSV24 Receive Multicast Packet */ -#define RXDESC_RSV2_BCAST (1 << 25) /* Bit 25: RSV25 Receive Broadcast Packet */ -#define RXDESC_RSV2_DRIBBLE (1 << 26) /* Bit 26: RSV26 Dribble Nibble */ -#define RXDESC_RSV2_CONTROL (1 << 27) /* Bit 27: RSV27 Receive Control Frame */ -#define RXDESC_RSV2_PAUSE (1 << 28) /* Bit 28: RSV28 Receive Pause Control Frame */ -#define RXDESC_RSV2_UNKNOWNOP (1 << 29) /* Bit 29: RSV29 Receive Unknown Op code */ -#define RXDESC_RSV2_VLAN (1 << 30) /* Bit 30: RSV30 Receive VLAN Type Detected */ - /* Bit 31: RSV31 Reserved */ - -/**************************************************************************************************** - * Public Types - ****************************************************************************************************/ - -#ifndef __ASSEMBLY__ - -/* Descriptors as structures */ - -/* Tx descriptor with NPV=0 */ - -struct pic32mz_txlinear_s -{ - uint32_t status; /* Various status bits (32-bits) */ - uint32_t address; /* Data buffer address (32-bits) */ - uint32_t tsv1; /* Transmit filter status vector 1 (32-bits) */ - uint32_t tsv2; /* Transmit filter status vector 2 (32-bits) */ -}; - -/* Tx descriptor with NPV=1 */ - -struct pic32mz_txdesc_s -{ - uint32_t status; /* Various status bits (32-bits) */ - uint32_t address; /* Data buffer address (32-bits) */ - uint32_t tsv1; /* Transmit filter status vector 1 (32-bits) */ - uint32_t tsv2; /* Transmit filter status vector 2 (32-bits) */ - uint32_t nexted; /* Next Ethernet Descriptor (ED) */ -}; - -/* Rx descriptor with NPV=0 */ - -struct pic32mz_rxlinear_s -{ - uint32_t status; /* Various status bits (32-bits) */ - uint32_t address; /* Data buffer address (32-bits) */ - uint32_t rsv1; /* Receive filter status vector 1 and checksum (32-bits) */ - uint32_t rsv2; /* Receive filter status vector 2 (32-bits) */ -}; - -/* Rx descriptor with NPV=1 */ - -struct pic32mz_rxdesc_s -{ - uint32_t status; /* Various status bits (32-bits) */ - uint32_t address; /* Data buffer address (32-bits) */ - uint32_t rsv1; /* Receive filter status vector 1 and checksum (32-bits) */ - uint32_t rsv2; /* Receive filter status vector 2 (32-bits) */ - uint32_t nexted; /* Next Ethernet Descriptor (ED) */ -}; - -/**************************************************************************************************** - * Inline Functions - ****************************************************************************************************/ - -/**************************************************************************************************** - * Public Function Prototypes - ****************************************************************************************************/ - -#ifdef __cplusplus -#define EXTERN extern "C" -extern "C" -{ -#else -#define EXTERN extern -#endif - -#undef EXTERN -#ifdef __cplusplus -} -#endif - -#endif /* __ASSEMBLY__ */ -#endif /* CHIP_NETHERNET > 0 */ -#endif /* __ARCH_MIPS_SRC_PIC32MZ_CHIP_PIC32MZ_ETHERNET_H */ diff --git a/nuttx/arch/mips/src/pic32mz/pic32mz-ethernet.c b/nuttx/arch/mips/src/pic32mz/pic32mz-ethernet.c new file mode 100644 index 000000000..e3b2c84c7 --- /dev/null +++ b/nuttx/arch/mips/src/pic32mz/pic32mz-ethernet.c @@ -0,0 +1,3278 @@ +/**************************************************************************** + * arch/arm/src/pic32mz/pic32mz_ethernet.c + * + * Copyright (C) 2015 Gregory Nutt. All rights reserved. + * Author: Gregory Nutt + * + * This driver derives from the PIC32MZ Ethernet Driver + * + * Redistribution and use in source and binary forms, with or without + * modification, are permitted provided that the following conditions + * are met: + * + * 1. Redistributions of source code must retain the above copyright + * notice, this list of conditions and the following disclaimer. + * 2. Redistributions in binary form must reproduce the above copyright + * notice, this list of conditions and the following disclaimer in + * the documentation and/or other materials provided with the + * distribution. + * 3. Neither the name NuttX nor the names of its contributors may be + * used to endorse or promote products derived from this software + * without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS + * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT + * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS + * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE + * COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, + * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, + * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS + * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED + * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT + * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN + * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE + * POSSIBILITY OF SUCH DAMAGE. + * + ****************************************************************************/ + +/**************************************************************************** + * Included Files + ****************************************************************************/ + +#include +#if defined(CONFIG_NET) && defined(CONFIG_PIC32MZ_ETHERNET) + +#include +#include +#include +#include +#include +#include +#include + +#include + +#include +#include +#include +#include +#include +#include +#include + +#ifdef CONFIG_NET_PKT +# include +#endif + +#include +#include + +#include "up_arch.h" +#include "pic32mz-config.h" +#include "chip/pic32mz-ethernet.h" + +/* Does this chip have and Ethernet controller? */ + +#if CHIP_NETHERNET > 0 + +/**************************************************************************** + * Pre-processor Definitions + ****************************************************************************/ +/* Configuration ************************************************************/ +/* CONFIG_PIC32MZ_NINTERFACES determines the number of physical interfaces + * that will be supported -- unless it is more than actually supported by the + * hardware! + */ + +#if !defined(CONFIG_PIC32MZ_NINTERFACES) || CONFIG_PIC32MZ_NINTERFACES > CHIP_NETHERNET +# undef CONFIG_PIC32MZ_NINTERFACES +# define CONFIG_PIC32MZ_NINTERFACES CHIP_NETHERNET +#endif + +/* The logic here has a few hooks for support for multiple interfaces, but + * that capability is not yet in place (and I won't worry about it until I get + * the first multi-interface PIC32MZ). + */ + +#if CONFIG_PIC32MZ_NINTERFACES > 1 +# warning "Only a single ethernet controller is supported" +# undef CONFIG_PIC32MZ_NINTERFACES +# define CONFIG_PIC32MZ_NINTERFACES 1 +#endif + +/* CONFIG_NET_MULTIBUFFER is required */ + +#ifndef CONFIG_NET_MULTIBUFFER +# error "CONFIG_NET_MULTIBUFFER=y is required" +#endif + +/* If IGMP is enabled, then accept multi-cast frames. */ + +#if defined(CONFIG_NET_IGMP) && !defined(CONFIG_NET_MULTICAST) +# define CONFIG_NET_MULTICAST 1 +#endif + +/* Use defaults if the number of discriptors is not provided */ + +#ifndef CONFIG_NET_NTXDESC +# define CONFIG_NET_NTXDESC 2 +#endif + +#if CONFIG_NET_NTXDESC > 255 +# error "The number of TX descriptors exceeds the range of a uint8_t index" +#endif + +#ifndef CONFIG_NET_NRXDESC +# define CONFIG_NET_NRXDESC 4 +#endif + +/* Make sure that the size of each buffer is a multiple of 4 bytes. This + * will force alignment of all buffers to 4-byte boundaries (this is needed + * by the queuing logic which will cast each buffer address to a pointer + * type). + */ + +#define PIC32MZ_ALIGNED_BUFSIZE ((CONFIG_NET_ETH_MTU + 3) & ~3) + +/* The number of buffers will, then, be one for each descriptor plus one extra */ + +#define PIC32MZ_NBUFFERS (CONFIG_NET_NRXDESC + CONFIG_NET_NTXDESC + 1) + +/* Debug Configuration *****************************************************/ +/* Register/Descriptor debug -- can only happen of CONFIG_DEBUG is selected. + * This will probably generate much more output than you care to see. + */ + +#ifndef CONFIG_DEBUG +# undef CONFIG_NET_REGDEBUG +# undef CONFIG_NET_DESCDEBUG +#endif + +/* CONFIG_NET_DUMPPACKET will dump the contents of each packet to the + * console. + */ + +#ifndef CONFIG_DEBUG +# undef CONFIG_NET_DUMPPACKET +#endif + +#ifdef CONFIG_NET_DUMPPACKET +# define pic32mz_dumppacket(m,a,n) lib_dumpbuffer(m,a,n) +#else +# define pic32mz_dumppacket(m,a,n) +#endif + +/* Timing *******************************************************************/ + +/* TX poll deley = 1 seconds. CLK_TCK is the number of clock ticks per second */ + +#define PIC32MZ_WDDELAY (1*CLK_TCK) +#define PIC32MZ_POLLHSEC (1*2) + +/* TX timeout = 1 minute */ + +#define PIC32MZ_TXTIMEOUT (60*CLK_TCK) + +/* PHY timout = 1 minute */ + +#define PIC32MZ_MIITIMEOUT (666666) + +/* Ethernet MII clocking. + * + * The clock divider used to create the MII Management Clock (MDC). The MIIM + * module uses the SYSCLK as an input clock. According to the IEEE 802.3 + * Specification this should be no faster than 2.5 MHz. However, some PHYs + * support clock rates up to 12.5 MHz. + * + * The board.h file provides the "ideal" divisor as BOARD_EMAC_MIIM_DIV. We + * pick the closest, actual divisor greater than or equal to this. + */ + +#if BOARD_EMAC_MIIM_DIV <= 4 +# define EMAC1_MCFG_CLKSEL_DIV EMAC1_MCFG_CLKSEL_DIV4 +#elif BOARD_EMAC_MIIM_DIV <= 6 +# define EMAC1_MCFG_CLKSEL_DIV EMAC1_MCFG_CLKSEL_DIV6 +#elif BOARD_EMAC_MIIM_DIV <= 8 +# define EMAC1_MCFG_CLKSEL_DIV EMAC1_MCFG_CLKSEL_DIV8 +#elif BOARD_EMAC_MIIM_DIV <= 10 +# define EMAC1_MCFG_CLKSEL_DIV EMAC1_MCFG_CLKSEL_DIV10 +#elif BOARD_EMAC_MIIM_DIV <= 14 +# define EMAC1_MCFG_CLKSEL_DIV EMAC1_MCFG_CLKSEL_DIV14 +#elif BOARD_EMAC_MIIM_DIV <= 20 +# define EMAC1_MCFG_CLKSEL_DIV EMAC1_MCFG_CLKSEL_DIV20 +#elif BOARD_EMAC_MIIM_DIV <= 28 +# define EMAC1_MCFG_CLKSEL_DIV EMAC1_MCFG_CLKSEL_DIV28 +#elif BOARD_EMAC_MIIM_DIV <= 40 +# define EMAC1_MCFG_CLKSEL_DIV EMAC1_MCFG_CLKSEL_DIV40 +#elif BOARD_EMAC_MIIM_DIV <= 48 +# define EMAC1_MCFG_CLKSEL_DIV EMAC1_MCFG_CLKSEL_DIV48 +#elif BOARD_EMAC_MIIM_DIV <= 50 +# define EMAC1_MCFG_CLKSEL_DIV EMAC1_MCFG_CLKSEL_DIV50 +#else +# error "MIIM divider cannot be realized" +#endif + +/* Interrupts ***************************************************************/ + +#define ETH_RXINTS (ETH_INT_RXOVFLW | ETH_INT_RXBUFNA | ETH_INT_RXDONE | ETH_INT_RXBUSE) +#define ETH_TXINTS (ETH_INT_TXABORT | ETH_INT_TXDONE | ETH_INT_TXBUSE) + +/* Misc. Helpers ***********************************************************/ + +/* This is a helper pointer for accessing the contents of the Ethernet header */ + +#define BUF ((struct eth_hdr_s *)priv->pd_dev.d_buf) + +/* PHYs *********************************************************************/ +/* Select PHY-specific values. Add more PHYs as needed. */ + +#if defined(CONFIG_ETH0_PHY_KS8721) +# define PIC32MZ_PHYNAME "KS8721" +# define PIC32MZ_PHYID1 MII_PHYID1_KS8721 +# define PIC32MZ_PHYID2 MII_PHYID2_KS8721 +# define PIC32MZ_HAVE_PHY 1 +#elif defined(CONFIG_ETH0_PHY_DP83848C) +# define PIC32MZ_PHYNAME "DP83848C" +# define PIC32MZ_PHYID1 MII_PHYID1_DP83848C +# define PIC32MZ_PHYID2 MII_PHYID2_DP83848C +# define PIC32MZ_HAVE_PHY 1 +#elif defined(CONFIG_ETH0_PHY_LAN8720) +# define PIC32MZ_PHYNAME "LAN8720" +# define PIC32MZ_PHYID1 MII_PHYID1_LAN8720 +# define PIC32MZ_PHYID2 MII_PHYID2_LAN8720 +# define PIC32MZ_HAVE_PHY 1 +#elif defined(CONFIG_ETH0_PHY_LAN8740) +# define PIC32MZ_PHYNAME "LAN8740" +# define PIC32MZ_PHYID1 MII_PHYID1_LAN8740 +# define PIC32MZ_PHYID2 MII_PHYID2_LAN8740 +# define PIC32MZ_HAVE_PHY 1 +#else +# warning "No PHY specified!" +# undef PIC32MZ_HAVE_PHY +#endif + +/* These definitions are used to remember the speed/duplex settings */ + +#define PIC32MZ_SPEED_MASK 0x01 +#define PIC32MZ_SPEED_100 0x01 +#define PIC32MZ_SPEED_10 0x00 + +#define PIC32MZ_DUPLEX_MASK 0x02 +#define PIC32MZ_DUPLEX_FULL 0x02 +#define PIC32MZ_DUPLEX_HALF 0x00 + +#define PIC32MZ_10BASET_HD (PIC32MZ_SPEED_10 | PIC32MZ_DUPLEX_HALF) +#define PIC32MZ_10BASET_FD (PIC32MZ_SPEED_10 | PIC32MZ_DUPLEX_FULL) +#define PIC32MZ_100BASET_HD (PIC32MZ_SPEED_100 | PIC32MZ_DUPLEX_HALF) +#define PIC32MZ_100BASET_FD (PIC32MZ_SPEED_100 | PIC32MZ_DUPLEX_FULL) + +#ifdef CONFIG_PHY_SPEED100 +# ifdef CONFIG_PHY_FDUPLEX +# define PIC32MZ_MODE_DEFLT PIC32MZ_100BASET_FD +# else +# define PIC32MZ_MODE_DEFLT PIC32MZ_100BASET_HD +# endif +#else +# ifdef CONFIG_PHY_FDUPLEX +# define PIC32MZ_MODE_DEFLT PIC32MZ_10BASET_FD +# else +# define PIC32MZ_MODE_DEFLT PIC32MZ_10BASET_HD +# endif +#endif + +/* Misc Helper Macros *******************************************************/ + +#define PHYS_ADDR(va) ((uint32_t)(va) & 0x1fffffff) +#define VIRT_ADDR(pa) (KSEG1_BASE | (uint32_t)(pa)) + +/* Ever-present MIN and MAX macros */ + +#ifndef MIN +# define MIN(a,b) (a < b ? a : b) +#endif + +#ifndef MAX +# define MAX(a,b) (a > b ? a : b) +#endif + +/**************************************************************************** + * Private Types + ****************************************************************************/ + +/* EMAC statistics (debug only) */ + +#if defined(CONFIG_DEBUG) && defined(CONFIG_DEBUG_NET) +struct pic32mz_statistics_s +{ + uint32_t rx_done; /* Rx done interrupts */ + uint32_t rx_errors; /* Number of Rx error interrupts */ + uint32_t rx_ovflw; /* Number of Rx overflow error interrupts */ + uint32_t rx_bufna; /* Number of Rx buffer not available errors */ + uint32_t rx_buse; /* Number of Rx BVCI bus errors */ + uint32_t rx_packets; /* Number of packets received (sum of the following): */ +#ifdef CONFIG_NET_IPv4 + uint32_t rx_ip; /* Number of Rx IPv4 packets received */ +#endif +#ifdef CONFIG_NET_IPv6 + uint32_t rx_ipv6; /* Number of Rx IPv6 packets received */ +#endif + uint32_t rx_arp; /* Number of Rx ARP packets received */ + uint32_t rx_dropped; /* Number of dropped, unsupported Rx packets */ + uint32_t rx_pkterr; /* Number of dropped, error in Rx descriptor */ + uint32_t rx_pktsize; /* Number of dropped, too small or too big */ + uint32_t rx_fragment; /* Number of dropped, packet fragments */ + uint32_t tx_done; /* Tx done interrupts */ + uint32_t tx_errors; /* Number of Tx error interrupts (OR of other errors) */ + uint32_t tx_abort; /* Number of Tx abort interrupts */ + uint32_t tx_buse; /* Number of Tx bus errors */ + uint32_t tx_packets; /* Number of Tx packets queued */ + uint32_t tx_pending; /* Number of Tx packets that had to wait for a TxDesc */ + uint32_t tx_unpend; /* Number of pending Tx packets that were sent */ + uint32_t tx_timeouts; /* Number of Tx timeout errors */ +}; +# define EMAC_STAT(priv,name) priv->pd_stat.name++ +#else +# define EMAC_STAT(priv,name) +#endif + +/* The pic32mz_driver_s encapsulates all state information for a single hardware + * interface + */ + +struct pic32mz_driver_s +{ + /* The following fields would only be necessary on chips that support + * multiple Ethernet controllers. + */ + +#if CONFIG_PIC32MZ_NINTERFACES > 1 + uint32_t pd_base; /* Ethernet controller base address */ + int pd_irq; /* Ethernet controller IRQ vector number */ + int pd_irqsrc; /* Ethernet controller IRQ source number */ +#endif + + bool pd_ifup; /* true:ifup false:ifdown */ + bool pd_txpending; /* There is a pending Tx in pd_dev */ + bool pd_polling; /* Avoid concurrent attempts to poll */ + uint8_t pd_mode; /* Speed/duplex */ +#ifdef PIC32MZ_HAVE_PHY + uint8_t pd_phyaddr; /* PHY device address */ +#endif + uint8_t pd_txnext; /* Index to the next Tx descriptor */ + uint32_t pd_inten; /* Shadow copy of INTEN register */ + WDOG_ID pd_txpoll; /* TX poll timer */ + WDOG_ID pd_txtimeout; /* TX timeout timer */ + + sq_queue_t pd_freebuffers; /* The free buffer list */ + +#if defined(CONFIG_DEBUG) && defined(CONFIG_DEBUG_NET) + struct pic32mz_statistics_s pd_stat; +#endif + + /* This holds the information visible to uIP/NuttX */ + + struct net_driver_s pd_dev; /* Interface understood by uIP */ + + /* Descriptors and packet buffers */ + + struct pic32mz_rxdesc_s pd_rxdesc[CONFIG_NET_NRXDESC]; + struct pic32mz_txdesc_s pd_txdesc[CONFIG_NET_NTXDESC]; + uint8_t pd_buffers[PIC32MZ_NBUFFERS * PIC32MZ_ALIGNED_BUFSIZE]; +}; + +/**************************************************************************** + * Private Data + ****************************************************************************/ + +/* Array of ethernet driver status structures */ + +static struct pic32mz_driver_s g_ethdrvr[CONFIG_PIC32MZ_NINTERFACES]; + +/**************************************************************************** + * Private Function Prototypes + ****************************************************************************/ + +/* Register operations */ + +#ifdef CONFIG_NET_REGDEBUG +static void pic32mz_printreg(uint32_t addr, uint32_t val, bool iswrite); +static void pic32mz_checkreg(uint32_t addr, uint32_t val, bool iswrite); +static uint32_t pic32mz_getreg(uint32_t addr); +static void pic32mz_putreg(uint32_t val, uint32_t addr); +#else +# define pic32mz_getreg(addr) getreg32(addr) +# define pic32mz_putreg(val,addr) putreg32(val,addr) +#endif + +/* Buffer and descriptor management */ + +#ifdef CONFIG_NET_DESCDEBUG +static void pic32mz_dumptxdesc(struct pic32mz_txdesc_s *txdesc, const char *msg); +static void pic32mz_dumprxdesc(struct pic32mz_rxdesc_s *rxdesc, const char *msg); +#else +# define pic32mz_dumptxdesc(txdesc,msg) +# define pic32mz_dumprxdesc(rxdesc,msg) +#endif + +static inline void pic32mz_bufferinit(struct pic32mz_driver_s *priv); +static uint8_t *pic32mz_allocbuffer(struct pic32mz_driver_s *priv); +static void pic32mz_freebuffer(struct pic32mz_driver_s *priv, uint8_t *buffer); + +static inline void pic32mz_txdescinit(struct pic32mz_driver_s *priv); +static inline void pic32mz_rxdescinit(struct pic32mz_driver_s *priv); +static inline struct pic32mz_txdesc_s *pic32mz_txdesc(struct pic32mz_driver_s *priv); +static inline void pic32mz_txnext(struct pic32mz_driver_s *priv); +static inline void pic32mz_rxreturn(struct pic32mz_rxdesc_s *rxdesc); +static struct pic32mz_rxdesc_s *pic32mz_rxdesc(struct pic32mz_driver_s *priv); + +/* Common TX logic */ + +static int pic32mz_transmit(struct pic32mz_driver_s *priv); +static int pic32mz_txpoll(struct net_driver_s *dev); +static void pic32mz_poll(struct pic32mz_driver_s *priv); +static void pic32mz_timerpoll(struct pic32mz_driver_s *priv); + +/* Interrupt handling */ + +static void pic32mz_response(struct pic32mz_driver_s *priv); +static void pic32mz_rxdone(struct pic32mz_driver_s *priv); +static void pic32mz_txdone(struct pic32mz_driver_s *priv); +static int pic32mz_interrupt(int irq, void *context); + +/* Watchdog timer expirations */ + +static void pic32mz_polltimer(int argc, uint32_t arg, ...); +static void pic32mz_txtimeout(int argc, uint32_t arg, ...); + +/* NuttX callback functions */ + +static int pic32mz_ifup(struct net_driver_s *dev); +static int pic32mz_ifdown(struct net_driver_s *dev); +static int pic32mz_txavail(struct net_driver_s *dev); +#ifdef CONFIG_NET_IGMP +static int pic32mz_addmac(struct net_driver_s *dev, const uint8_t *mac); +static int pic32mz_rmmac(struct net_driver_s *dev, const uint8_t *mac); +#endif + +/* PHY initialization functions */ + +#ifdef PIC32MZ_HAVE_PHY +# ifdef CONFIG_NET_REGDEBUG +static void pic32mz_showmii(uint8_t phyaddr, const char *msg); +# else +# define pic32mz_showmii(phyaddr,msg) +# endif + +static void pic32mz_phybusywait(void); +static void pic32mz_phywrite(uint8_t phyaddr, uint8_t regaddr, + uint16_t phydata); +static uint16_t pic32mz_phyread(uint8_t phyaddr, uint8_t regaddr); +static inline int pic32mz_phyreset(uint8_t phyaddr); +# ifdef CONFIG_PHY_AUTONEG +static inline int pic32mz_phyautoneg(uint8_t phyaddr); +# endif +static int pic32mz_phymode(uint8_t phyaddr, uint8_t mode); +static inline int pic32mz_phyinit(struct pic32mz_driver_s *priv); +#else +# define pic32mz_phyinit(priv) +#endif + +/* EMAC Initialization functions */ + +static void pic32mz_macmode(uint8_t mode); +static void pic32mz_ethreset(struct pic32mz_driver_s *priv); + +/**************************************************************************** + * Private Functions + ****************************************************************************/ + +/******************************************************************************* + * Name: pic32mz_printreg + * + * Description: + * Print the contents of an PIC32MZ register operation + * + *******************************************************************************/ + +#ifdef CONFIG_NET_REGDEBUG +static void pic32mz_printreg(uint32_t addr, uint32_t val, bool iswrite) +{ + lldbg("%08x%s%08x\n", addr, iswrite ? "<-" : "->", val); +} +#endif + +/******************************************************************************* + * Name: pic32mz_checkreg + * + * Description: + * Get the contents of an PIC32MZ register + * + *******************************************************************************/ + +#ifdef CONFIG_NET_REGDEBUG +static void pic32mz_checkreg(uint32_t addr, uint32_t val, bool iswrite) +{ + static uint32_t prevaddr = 0; + static uint32_t preval = 0; + static uint32_t count = 0; + static bool prevwrite = false; + + /* Is this the same value that we read from/wrote to the same register last time? + * Are we polling the register? If so, suppress the output. + */ + + if (addr == prevaddr && val == preval && prevwrite == iswrite) + { + /* Yes.. Just increment the count */ + + count++; + } + else + { + /* No this is a new address or value or operation. Were there any + * duplicate accesses before this one? + */ + + if (count > 0) + { + /* Yes.. Just one? */ + + if (count == 1) + { + /* Yes.. Just one */ + + pic32mz_printreg(prevaddr, preval, prevwrite); + } + else + { + /* No.. More than one. */ + + lldbg("[repeats %d more times]\n", count); + } + } + + /* Save the new address, value, count, and operation for next time */ + + prevaddr = addr; + preval = val; + count = 0; + prevwrite = iswrite; + + /* Show the new register access */ + + pic32mz_printreg(addr, val, iswrite); + } +} +#endif + +/******************************************************************************* + * Name: pic32mz_getreg + * + * Description: + * Get the contents of an PIC32MZ register + * + *******************************************************************************/ + +#ifdef CONFIG_NET_REGDEBUG +static uint32_t pic32mz_getreg(uint32_t addr) +{ + /* Read the value from the register */ + + uint32_t val = getreg32(addr); + + /* Check if we need to print this value */ + + pic32mz_checkreg(addr, val, false); + return val; +} +#endif + +/******************************************************************************* + * Name: pic32mz_putreg + * + * Description: + * Set the contents of an PIC32MZ register to a value + * + *******************************************************************************/ + +#ifdef CONFIG_NET_REGDEBUG +static void pic32mz_putreg(uint32_t val, uint32_t addr) +{ + /* Check if we need to print this value */ + + pic32mz_checkreg(addr, val, true); + + /* Write the value */ + + putreg32(val, addr); +} +#endif + +/**************************************************************************** + * Function: pic32mz_dumptxdesc + * + * Description: + * Dump the contents of the specified TX descriptor + * + * Parameters: + * txdesc - Pointer to the TX descriptor to dump + * msg - Annotation for the TX descriptor + * + * Returned Value: + * None + * + ****************************************************************************/ + +#ifdef CONFIG_NET_DESCDEBUG +static void pic32mz_dumptxdesc(struct pic32mz_txdesc_s *txdesc, const char *msg) +{ + lldbg("TX Descriptor [%p]: %s\n", txdesc, msg); + lldbg(" status: %08x\n", txdesc->status); + lldbg(" address: %08x [%08x]\n", txdesc->address, VIRT_ADDR(txdesc->address)); + lldbg(" tsv1: %08x\n", txdesc->tsv1); + lldbg(" tsv2: %08x\n", txdesc->tsv2); + lldbg(" nexted: %08x [%08x]\n", txdesc->nexted, VIRT_ADDR(txdesc->nexted)); +} +#endif + +/**************************************************************************** + * Function: pic32mz_dumprxdesc + * + * Description: + * Dump the contents of the specified RX descriptor + * + * Parameters: + * txdesc - Pointer to the RX descriptor to dump + * msg - Annotation for the RX descriptor + * + * Returned Value: + * None + * + ****************************************************************************/ + +#ifdef CONFIG_NET_DESCDEBUG +static void pic32mz_dumprxdesc(struct pic32mz_rxdesc_s *rxdesc, const char *msg) +{ + lldbg("RX Descriptor [%p]: %s\n", rxdesc, msg); + lldbg(" status: %08x\n", rxdesc->status); + lldbg(" address: %08x [%08x]\n", rxdesc->address, VIRT_ADDR(rxdesc->address)); + lldbg(" rsv1: %08x\n", rxdesc->rsv1); + lldbg(" rsv2: %08x\n", rxdesc->rsv2); + lldbg(" nexted: %08x [%08x]\n", rxdesc->nexted, VIRT_ADDR(rxdesc->nexted)); +} +#endif + +/**************************************************************************** + * Function: pic32mz_bufferinit + * + * Description: + * Initialize the buffers by placing them all in a free list + * + * Parameters: + * priv - Pointer to EMAC device driver structure + * + * Returned Value: + * None + * + ****************************************************************************/ + +static inline void pic32mz_bufferinit(struct pic32mz_driver_s *priv) +{ + uint8_t *buffer; + int i; + + for (i = 0, buffer = priv->pd_buffers; i < PIC32MZ_NBUFFERS; i++) + { + /* Add the buffer to the end of the list of free buffers */ + + sq_addlast((sq_entry_t*)buffer, &priv->pd_freebuffers); + + /* Get the address of the next buffer */ + + buffer += PIC32MZ_ALIGNED_BUFSIZE; + } +} + +/**************************************************************************** + * Function: pic32mz_allocbuffer + * + * Description: + * Allocate one buffer by removing it from the free list + * + * Parameters: + * priv - Pointer to EMAC device driver structure + * + * Returned Value: + * Pointer to the allocated buffer (or NULL on failure) + * + ****************************************************************************/ + +static uint8_t *pic32mz_allocbuffer(struct pic32mz_driver_s *priv) +{ + /* Return the next free buffer from the head of the free buffer list */ + + return (uint8_t*)sq_remfirst(&priv->pd_freebuffers); +} + +/**************************************************************************** + * Function: pic32mz_freebuffer + * + * Description: + * Free one buffer by returning it to the free list + * + * Parameters: + * priv - Pointer to EMAC device driver structure + * + * Returned Value: + * Pointer to the allocated buffer (or NULL on failure) + * + ****************************************************************************/ + +static void pic32mz_freebuffer(struct pic32mz_driver_s *priv, uint8_t *buffer) +{ + /* Add the buffer to the end of the free buffer list */ + + sq_addlast((sq_entry_t*)buffer, &priv->pd_freebuffers); +} + +/**************************************************************************** + * Function: pic32mz_txdescinit + * + * Description: + * Initialize the EMAC Tx descriptor table + * + * Parameters: + * priv - Pointer to EMAC device driver structure + * + * Returned Value: + * None + * + * Assumptions: + * + ****************************************************************************/ + +static inline void pic32mz_txdescinit(struct pic32mz_driver_s *priv) +{ + struct pic32mz_txdesc_s *txdesc; + int i; + + /* Assign a buffer to each TX descriptor. For now, just mark each TX + * descriptor as owned by softare andnot linked. + */ + + for (i = 0; i < CONFIG_NET_NTXDESC; i++) + { + /* Point to the next entry */ + + txdesc = &priv->pd_txdesc[i]; + + /* Initialize the buffer. It is idle, owned by software and has + * no buffer assigned to it. + */ + + txdesc->status = TXDESC_STATUS_SOWN | TXDESC_STATUS_NPV; + txdesc->address = 0; + txdesc->tsv1 = 0; + txdesc->tsv2 = 0; + + /* Set the NEXTED pointer. If this is the last descriptor in the + * list, then set the NEXTED pointer back to the first entry, + * creating a ring. + */ + + if (i == (CONFIG_NET_NRXDESC-1)) + { + txdesc->nexted = PHYS_ADDR(priv->pd_txdesc); + } + else + { + txdesc->nexted = PHYS_ADDR(&priv->pd_txdesc[i+1]); + } + + pic32mz_dumptxdesc(txdesc, "Initial"); + } + + /* Position the Tx index to the first descriptor in the ring */ + + priv->pd_txnext = 0; + + /* Update the ETHTXST register with the physical address of the head of + * the TX descriptors list. + */ + + pic32mz_putreg(PHYS_ADDR(priv->pd_txdesc), PIC32MZ_ETH_TXST); +} + +/**************************************************************************** + * Function: pic32mz_rxdescinit + * + * Description: + * Initialize the EMAC Rx descriptor table + * + * Parameters: + * priv - Pointer to EMAC device driver structure + * + * Returned Value: + * None + * + * Assumptions: + * + ****************************************************************************/ + +static inline void pic32mz_rxdescinit(struct pic32mz_driver_s *priv) +{ + struct pic32mz_rxdesc_s *rxdesc; + int i; + + /* Prepare a list of RX descriptors populated with valid buffers for + * messages to be received. Properly update the NPV, EOWN = 1 and + * DATA_BUFFER_ADDRESS fields in the RX descriptors. The + * DATA_BUFFER_ADDRESS should contain the physical address of the + * corresponding RX buffer. + */ + + for (i = 0; i < CONFIG_NET_NRXDESC; i++) + { + /* Point to the next entry */ + + rxdesc = &priv->pd_rxdesc[i]; + + /* Initialize the descriptor. Assign it a buffer and make it ready + * for reception. + */ + + rxdesc->rsv1 = 0; + rxdesc->rsv2 = 0; + rxdesc->address = PHYS_ADDR(pic32mz_allocbuffer(priv)); + rxdesc->status = RXDESC_STATUS_EOWN | TXDESC_STATUS_NPV; + + /* Set the NEXTED pointer. If this is the last descriptor in the + * list, then set the NEXTED pointer back to the first entry, + * creating a ring. + */ + + if (i == (CONFIG_NET_NRXDESC-1)) + { + rxdesc->nexted = PHYS_ADDR(priv->pd_rxdesc); + } + else + { + rxdesc->nexted = PHYS_ADDR(&priv->pd_rxdesc[i+1]); + } + + pic32mz_dumprxdesc(rxdesc, "Initial"); + } + + /* Update the ETHRXST register with the physical address of the head of the + * RX descriptors list. + */ + + pic32mz_putreg(PHYS_ADDR(priv->pd_rxdesc), PIC32MZ_ETH_RXST); +} + +/**************************************************************************** + * Function: pic32mz_txdesc + * + * Description: + * Check if the next Tx descriptor is available. + * + * Parameters: + * priv - Reference to the driver state structure + * + * Returned Value: + * A pointer to the next available Tx descriptor on success; NULL if the + * next Tx dscriptor is not available. + * + ****************************************************************************/ + +static inline struct pic32mz_txdesc_s *pic32mz_txdesc(struct pic32mz_driver_s *priv) +{ + struct pic32mz_txdesc_s *txdesc; + + /* Get a reference to the next Tx descriptor in the ring */ + + txdesc = &priv->pd_txdesc[priv->pd_txnext]; + + /* Check if the EOWN bit is cleared. If it is, this descriptor is now under + * software control and the message has been transmitted. + * + * Also check that the buffer address is NULL. There is a race condition + * in that the hardware may have completed the transfer, but there may + * still be a valid buffer attached to the Tx descriptor because we have + * not yet processed the Tx done condition. We will know that the Tx + * done condition has been processed when the buffer has been freed and + * reset to zero. + */ + + if ((txdesc->status & TXDESC_STATUS_EOWN) == 0 && txdesc->address == 0) + { + /* Yes.. return a pointer to the descriptor */ + + return txdesc; + } + + /* The next Tx descriptor is still owned by the Ethernet controller.. the + * Tx ring if full and cannot be used now. Return NULL. + */ + + return NULL; +} + +/**************************************************************************** + * Function: pic32mz_txnext + * + * Description: + * After the next Tx descriptor has been given to the hardware, update the + * index to the next Tx descriptor in the ring. + * + * Parameters: + * priv - Reference to the driver state structure + * + * Returned Value: + * None. + * + ****************************************************************************/ + +static inline void pic32mz_txnext(struct pic32mz_driver_s *priv) +{ + /* Increment the index to the next Tx descriptor in the ring */ + + int txnext = priv->pd_txnext + 1; + + /* If the new index would go beyond the end of the allocated descriptors + * for the Tx ring, then reset to first descriptor. + */ + + if (txnext >= CONFIG_NET_NTXDESC) + { + txnext = 0; + } + + /* Save the index to the next Tx descriptor */ + + priv->pd_txnext = txnext; +} + +/**************************************************************************** + * Function: pic32mz_rxreturn + * + * Description: + * Return an RX descriptor to the hardware. + * + * Parameters: + * rxdesc - Reference to the RX descriptor to be returned + * + * Returned Value: + * None + * + * Assumptions: + * + ****************************************************************************/ + +static inline void pic32mz_rxreturn(struct pic32mz_rxdesc_s *rxdesc) +{ + rxdesc->rsv1 = 0; + rxdesc->rsv2 = 0; + rxdesc->status = RXDESC_STATUS_EOWN | TXDESC_STATUS_NPV; + pic32mz_dumprxdesc(rxdesc, "Returned to hardware"); +} + +/**************************************************************************** + * Function: pic32mz_rxdesc + * + * Description: + * Check if a RX descriptor is owned by the software. + * + * Parameters: + * priv - Reference to the driver state structure + * + * Returned Value: + * A pointer to the RX descriptor on success; NULL on failure + * + * Assumptions: + * May or may not be called from an interrupt handler. In either case, + * global interrupts are disabled, either explicitly or indirectly through + * interrupt handling logic. + * + ****************************************************************************/ + +static struct pic32mz_rxdesc_s *pic32mz_rxdesc(struct pic32mz_driver_s *priv) +{ + struct pic32mz_rxdesc_s *rxdesc; + int i; + + /* Inspect the list of RX descriptors to see if the EOWN bit is cleared. + * If it is, this descriptor is now under software control and a message was + * received. Use SOP and EOP to extract the message, use BYTE_COUNT, RXF_RSV, + * RSV and PKT_CHECKSUM to get the message characteristics. + */ + + for (i = 0; i < CONFIG_NET_NRXDESC; i++) + { + /* Check if software owns this descriptor */ + + rxdesc = &priv->pd_rxdesc[i]; + if ((rxdesc->status & RXDESC_STATUS_EOWN) == 0) + { + /* Yes.. return a pointer to the desciptor */ + + return rxdesc; + } + } + + /* All descriptors are owned by the Ethernet controller.. return NULL */ + + return NULL; +} + +/**************************************************************************** + * Function: pic32mz_transmit + * + * Description: + * Start hardware transmission. Called either from the txdone interrupt + * handling or from watchdog based polling. + * + * Parameters: + * priv - Reference to the driver state structure + * + * Returned Value: + * OK on success; a negated errno on failure + * + * Assumptions: + * May or may not be called from an interrupt handler. In either case, + * global interrupts are disabled, either explicitly or indirectly through + * interrupt handling logic. + * + ****************************************************************************/ + +static int pic32mz_transmit(struct pic32mz_driver_s *priv) +{ + struct pic32mz_txdesc_s *txdesc; + uint32_t status; + + /* Verify that the hardware is ready to send another packet. If we get + * here, then we are committed to sending a packet; Higher level logic + * must have assured that there is no transmission in progress. + */ + + DEBUGASSERT(priv->pd_dev.d_buf != NULL && + priv->pd_dev.d_len < CONFIG_NET_ETH_MTU); + + /* Increment statistics and dump the packet (if so configured) */ + + EMAC_STAT(priv, tx_packets); + pic32mz_dumppacket("Transmit packet", priv->pd_dev.d_buf, priv->pd_dev.d_len); + + /* In order to transmit a message: + * + * The SOP, EOP, DATA_BUFFER_ADDRESS and BYTE_COUNT will be updated when a + * particular message has to be transmitted. The DATA_BUFFER_ADDRESS will + * contain the physical address of the message, the BYTE_COUNT message size. + * SOP and EOP are set depending on how many packets are needed to transmit + * the message. + */ + + /* Find the next available TX descriptor. We are guaranteed that is will + * not fail by upstream logic that assures that a TX packet is available + * before polling uIP. + */ + + txdesc = pic32mz_txdesc(priv); + DEBUGASSERT(txdesc != NULL); + pic32mz_dumptxdesc(txdesc, "Before transmit setup"); + + /* Remove the transmit buffer from the device structure and assign it to + * the TX descriptor. + */ + + txdesc->address = PHYS_ADDR(priv->pd_dev.d_buf); + priv->pd_dev.d_buf = NULL; + + /* Set the BYTE_COUNT for in the TX descriptor with the number of bytes + * contained in the buffer. + */ + + status = ((uint32_t)priv->pd_dev.d_len << TXDESC_STATUS_BYTECOUNT_SHIFT); + priv->pd_dev.d_len = 0; + + /* Set EOWN = 1 to indicate that the packet belongs to Ethernet and set both + * SOP and EOP to indicate that the packet both begins and ends with this + * frame. + */ + + status |= (TXDESC_STATUS_EOWN | TXDESC_STATUS_NPV | + TXDESC_STATUS_EOP | TXDESC_STATUS_SOP); + txdesc->status = status; + pic32mz_dumptxdesc(txdesc, "After transmit setup"); + + /* Update the index to the next descriptor to use in the Tx ring */ + + pic32mz_txnext(priv); + + /* Enable the transmission of the message by setting the TXRTS bit (ETHCON1:9). */ + + pic32mz_putreg(ETH_CON1_TXRTS | ETH_CON1_ON, PIC32MZ_ETH_CON1SET); + + /* Enable Tx interrupts */ + + priv->pd_inten |= ETH_TXINTS; + pic32mz_putreg(priv->pd_inten, PIC32MZ_ETH_IEN); + + /* Setup the TX timeout watchdog (perhaps restarting the timer) */ + + (void)wd_start(priv->pd_txtimeout, PIC32MZ_TXTIMEOUT, pic32mz_txtimeout, + 1, (uint32_t)priv); + + return OK; +} + +/**************************************************************************** + * Function: pic32mz_txpoll + * + * Description: + * The transmitter is available, check if uIP has any outgoing packets ready + * to send. This is a callback from devif_poll(). devif_poll() may be called: + * + * 1. When the preceding TX packet send is complete, + * 2. When the preceding TX packet send timesout and the interface is reset + * 3. During normal TX polling + * + * Parameters: + * dev - Reference to the NuttX driver state structure + * + * Returned Value: + * OK on success; a negated errno on failure + * + * Assumptions: + * May or may not be called from an interrupt handler. In either case, + * global interrupts are disabled, either explicitly or indirectly through + * interrupt handling logic. + * + ****************************************************************************/ + +static int pic32mz_txpoll(struct net_driver_s *dev) +{ + struct pic32mz_driver_s *priv = (struct pic32mz_driver_s *)dev->d_private; + int ret = OK; + + /* If the polling resulted in data that should be sent out on the network, + * the field d_len is set to a value > 0. + */ + + if (priv->pd_dev.d_len > 0) + { + /* Look up the destination MAC address and add it to the Ethernet + * header. + */ + +#ifdef CONFIG_NET_IPv4 +#ifdef CONFIG_NET_IPv6 + if (IFF_IS_IPv4(priv->pd_dev.d_flags)) +#endif + { + arp_out(&priv->pd_dev); + } +#endif /* CONFIG_NET_IPv4 */ + +#ifdef CONFIG_NET_IPv6 +#ifdef CONFIG_NET_IPv4 + else +#endif + { + neighbor_out(&priv->pd_dev); + } +#endif /* CONFIG_NET_IPv6 */ + + /* Send this packet. In this context, we know that there is space for + * at least one more packet in the descriptor list. + */ + + pic32mz_transmit(priv); + + /* Check if the next TX descriptor is available. If not, return a + * non-zero value to terminate the poll. + */ + + if (pic32mz_txdesc(priv) == NULL) + { + /* There are no more TX descriptors/buffers available.. stop the poll */ + + return -EAGAIN; + } + + /* Get the next Tx buffer needed in order to continue the poll */ + + priv->pd_dev.d_buf = pic32mz_allocbuffer(priv); + if (priv->pd_dev.d_buf == NULL) + { + /* We have no more buffers available for the nex Tx.. stop the poll */ + + return -ENOMEM; + } + } + + /* If zero is returned, the polling will continue until all connections have + * been examined. + */ + + return ret; +} + +/**************************************************************************** + * Function: pic32mz_poll + * + * Description: + * Perform the uIP poll. + * + * Parameters: + * priv - Reference to the driver state structure + * + * Returned Value: + * None + * + ****************************************************************************/ + +static void pic32mz_poll(struct pic32mz_driver_s *priv) +{ + /* Is there already a poll in progress. This happens, for example, when + * debugging output is enabled. Interrupts may be re-enabled while debug + * output is performed and a timer expiration could attempt a concurrent + * poll. + */ + + if (!priv->pd_polling) + { + /* Assign a buffer for the poll */ + + DEBUGASSERT(priv->pd_dev.d_buf == NULL); + priv->pd_dev.d_buf = pic32mz_allocbuffer(priv); + if (priv->pd_dev.d_buf != NULL) + { + /* And perform the poll */ + + priv->pd_polling = true; + (void)devif_poll(&priv->pd_dev, pic32mz_txpoll); + + /* Free any buffer left attached after the poll */ + + if (priv->pd_dev.d_buf != NULL) + { + pic32mz_freebuffer(priv, priv->pd_dev.d_buf); + priv->pd_dev.d_buf = NULL; + } + priv->pd_polling = false; + } + } + +} + +/**************************************************************************** + * Function: pic32mz_timerpoll + * + * Description: + * Perform the uIP timer poll. + * + * Parameters: + * priv - Reference to the driver state structure + * + * Returned Value: + * None + * + ****************************************************************************/ + +static void pic32mz_timerpoll(struct pic32mz_driver_s *priv) +{ + /* Is there already a poll in progress. This happens, for example, when + * debugging output is enabled. Interrupts may be re-enabled while debug + * output is performed and a timer expiration could attempt a concurrent + * poll. + */ + + if (!priv->pd_polling) + { + DEBUGASSERT(priv->pd_dev.d_buf == NULL); + priv->pd_dev.d_buf = pic32mz_allocbuffer(priv); + if (priv->pd_dev.d_buf != NULL) + { + /* And perform the poll */ + + priv->pd_polling = true; + (void)devif_timer(&priv->pd_dev, pic32mz_txpoll, PIC32MZ_POLLHSEC); + + /* Free any buffer left attached after the poll */ + + if (priv->pd_dev.d_buf != NULL) + { + pic32mz_freebuffer(priv, priv->pd_dev.d_buf); + priv->pd_dev.d_buf = NULL; + } + priv->pd_polling = false; + } + } +} + +/**************************************************************************** + * Function: pic32mz_response + * + * Description: + * While processing an RxDone event, higher logic decides to send a packet, + * possibly a response to the incoming packet (but probably not, in reality). + * However, since the Rx and Tx operations are decoupled, there is no + * guarantee that there will be a Tx descriptor available at that time. + * This function will perform that check and, if no Tx descriptor is + * available, this function will (1) stop incoming Rx processing (bad), and + * (2) hold the outgoing packet in a pending state until the next Tx + * interrupt occurs. + * + * Parameters: + * priv - Reference to the driver state structure + * + * Returned Value: + * None + * + * Assumptions: + * Global interrupts are disabled by interrupt handling logic. + * + ****************************************************************************/ + +static void pic32mz_response(struct pic32mz_driver_s *priv) +{ + struct pic32mz_txdesc_s *txdesc; + + /* Check if the next TX descriptor is available. */ + + txdesc = pic32mz_txdesc(priv); + if (txdesc != NULL) + { + /* Yes.. queue the packet now. */ + + pic32mz_transmit(priv); + } + else + { + /* No.. mark the Tx as pending and halt further Rx interrupts */ + + DEBUGASSERT((priv->pd_inten & ETH_INT_TXDONE) != 0); + + priv->pd_txpending = true; + priv->pd_inten &= ~ETH_RXINTS; + pic32mz_putreg(priv->pd_inten, PIC32MZ_ETH_IEN); + EMAC_STAT(priv, tx_pending); + } +} + +/**************************************************************************** + * Function: pic32mz_rxdone + * + * Description: + * An interrupt was received indicating the availability of a new RX packet + * + * Parameters: + * priv - Reference to the driver state structure + * + * Returned Value: + * None + * + * Assumptions: + * Global interrupts are disabled by interrupt handling logic. + * + ****************************************************************************/ + +static void pic32mz_rxdone(struct pic32mz_driver_s *priv) +{ + struct pic32mz_rxdesc_s *rxdesc; + + /* Loop while there are incoming packets to be processed, that is, while + * the producer index is not equal to the consumer index. + */ + + for (;;) + { + /* Check if any RX descriptor has the EOWN bit cleared meaning that the + * this descriptor is now under software control and a message was + * received. + */ + + rxdesc = pic32mz_rxdesc(priv); + if (rxdesc == NULL) + { + /* All RX descriptors are owned by the Ethernet controller... we + * are finished here. + */ + + return; + } + pic32mz_dumprxdesc(rxdesc, "RX Complete"); + + /* Update statistics */ + + EMAC_STAT(priv, rx_packets); + + /* Get the packet length */ + + priv->pd_dev.d_len = (rxdesc->rsv2 & RXDESC_RSV2_BYTECOUNT_MASK) >> RXDESC_RSV2_BYTECOUNT_SHIFT; + + /* Check for errors */ + + if ((rxdesc->rsv2 & RXDESC_RSV2_OK) == 0) + { + nlldbg("ERROR. rsv1: %08x rsv2: %08x\n", rxdesc->rsv1, rxdesc->rsv2); + EMAC_STAT(priv, rx_pkterr); + pic32mz_rxreturn(rxdesc); + } + + /* If the packet length is greater then the buffer, then we cannot accept + * the packet. Also, since the DMA packet buffers are set up to + * be the same size as our max packet size, any fragments also + * imply that the packet is too big. + */ + + else if (priv->pd_dev.d_len > CONFIG_NET_ETH_MTU) + { + nlldbg("Too big. packet length: %d rxdesc: %08x\n", priv->pd_dev.d_len, rxdesc->status); + EMAC_STAT(priv, rx_pktsize); + pic32mz_rxreturn(rxdesc); + } + + /* We don't have any logic here for reassembling packets from fragments. */ + + else if ((rxdesc->status & (RXDESC_STATUS_EOP|RXDESC_STATUS_SOP)) != (RXDESC_STATUS_EOP|RXDESC_STATUS_SOP)) + { + nlldbg("Fragment. packet length: %d rxdesc: %08x\n", priv->pd_dev.d_len, rxdesc->status); + EMAC_STAT(priv, rx_fragment); + pic32mz_rxreturn(rxdesc); + } + else + { + uint8_t *rxbuffer; + + /* Get the Rx buffer address from the Rx descriptor */ + + priv->pd_dev.d_buf = (uint8_t*)VIRT_ADDR(rxdesc->address); + DEBUGASSERT(priv->pd_dev.d_buf != NULL); + + /* Replace the buffer in the RX descriptor with a new one */ + + rxbuffer = pic32mz_allocbuffer(priv); + DEBUGASSERT(rxbuffer != NULL); + rxdesc->address = PHYS_ADDR(rxbuffer); + + /* And give the RX descriptor back to the hardware */ + + pic32mz_rxreturn(rxdesc); + pic32mz_dumppacket("Received packet", + priv->pd_dev.d_buf, priv->pd_dev.d_len); + +#ifdef CONFIG_NET_PKT + /* When packet sockets are enabled, feed the frame into the packet + * tap. + */ + + pkt_input(&priv->pd_dev); +#endif + + /* We only accept IP packets of the configured type and ARP packets */ + +#ifdef CONFIG_NET_IPv4 + if (BUF->type == HTONS(ETHTYPE_IP)) + { + nllvdbg("IPv4 frame\n"); + + /* Handle ARP on input then give the IPv4 packet to the network + * layer + */ + + EMAC_STAT(priv, rx_ip); + arp_ipin(&priv->pd_dev); + ipv4_input(&priv->pd_dev); + + /* If the above function invocation resulted in data that + * should be sent out on the network, the field d_len will + * set to a value > 0. + */ + + if (priv->pd_dev.d_len > 0) + { + /* Update the Ethernet header with the correct MAC address */ + +#ifdef CONFIG_NET_IPv6 + if (IFF_IS_IPv4(priv->pd_dev.d_flags)) +#endif + { + arp_out(&priv->pd_dev); + } +#ifdef CONFIG_NET_IPv6 + else + { + neighbor_out(&priv->pd_dev); + } +#endif + + /* And send the packet */ + + pic32mz_response(priv); + } + } + else +#endif +#ifdef CONFIG_NET_IPv6 + if (BUF->type == HTONS(ETHTYPE_IP6)) + { + nllvdbg("Iv6 frame\n"); + + /* Give the IPv6 packet to the network layer */ + + EMAC_STAT(priv, rx_ipv6); + ipv6_input(&priv->pd_dev); + + /* If the above function invocation resulted in data that + * should be sent out on the network, the field d_len will + * set to a value > 0. + */ + + if (priv->pd_dev.d_len > 0) + { + /* Update the Ethernet header with the correct MAC address */ + +#ifdef CONFIG_NET_IPv4 + if (IFF_IS_IPv4(priv->pd_dev.d_flags)) + { + arp_out(&priv->pd_dev); + } + else +#endif +#ifdef CONFIG_NET_IPv6 + { + neighbor_out(&priv->pd_dev); + } +#endif + + /* And send the packet */ + + pic32mz_response(priv); + } + } + else +#endif +#ifdef CONFIG_NET_ARP + if (BUF->type == htons(ETHTYPE_ARP)) + { + /* Handle the incoming ARP packet */ + + EMAC_STAT(priv, rx_arp); + arp_arpin(&priv->pd_dev); + + /* If the above function invocation resulted in data that + * should be sent out on the network, the field d_len will + * set to a value > 0. + */ + + if (priv->pd_dev.d_len > 0) + { + pic32mz_response(priv); + } + } + else +#endif + { + /* Unrecognized... drop it. */ + + nlldbg("Unrecognized packet type dropped: %04x\n", ntohs(BUF->type)); + EMAC_STAT(priv, rx_dropped); + } + + /* Discard any buffers still attached to the device structure */ + + priv->pd_dev.d_len = 0; + if (priv->pd_dev.d_buf) + { + pic32mz_freebuffer(priv, priv->pd_dev.d_buf); + priv->pd_dev.d_buf = NULL; + } + } + } +} + +/**************************************************************************** + * Function: pic32mz_txdone + * + * Description: + * An interrupt was received indicating that the last TX packet(s) is done + * + * Parameters: + * priv - Reference to the driver state structure + * + * Returned Value: + * None + * + * Assumptions: + * Global interrupts are disabled by interrupt handling logic. + * + ****************************************************************************/ + +static void pic32mz_txdone(struct pic32mz_driver_s *priv) +{ + struct pic32mz_txdesc_s *txdesc; + int i; + + /* Cancel the pending Tx timeout */ + + wd_cancel(priv->pd_txtimeout); + + /* Disable further Tx interrupts. Tx interrupts may be re-enabled again + * depending upon the result of the poll. + */ + + priv->pd_inten &= ~ETH_TXINTS; + pic32mz_putreg(priv->pd_inten, PIC32MZ_ETH_IEN); + + /* Verify that the hardware is ready to send another packet. Since a Tx + * just completed, this must be the case. + */ + + DEBUGASSERT(pic32mz_txdesc(priv) != NULL); + + /* Inspect the list of TX descriptors to see if the EOWN bit is cleared. If it + * is, this descriptor is now under software control and the message was + * transmitted. Use TSV to check for the transmission result. + */ + + for (i = 0; i < CONFIG_NET_NTXDESC; i++) + { + txdesc = &priv->pd_txdesc[i]; + + /* Check if software owns this descriptor */ + + if ((txdesc->status & TXDESC_STATUS_EOWN) == 0) + { + /* Yes.. Check if there is a buffer attached? */ + + if (txdesc->address != 0) + { + pic32mz_dumptxdesc(txdesc, "Freeing TX buffer"); + + /* Free the TX buffer */ + + pic32mz_freebuffer(priv, (uint8_t *)VIRT_ADDR(txdesc->address)); + txdesc->address = 0; + + /* Reset status */ + + txdesc->tsv1 = 0; + txdesc->tsv2 = 0; + txdesc->status = TXDESC_STATUS_SOWN | TXDESC_STATUS_NPV; + pic32mz_dumptxdesc(txdesc, "TX buffer freed"); + } + } + } + + /* Check if there is a pending Tx transfer that was deferred by Rx handling + * because there were no available Tx descriptors. If so, process that + * pending Tx now. + */ + + if (priv->pd_txpending) + { + /* Clear the pending condition, send the packet, and restore Rx interrupts */ + + priv->pd_txpending = false; + EMAC_STAT(priv, tx_unpend); + + pic32mz_transmit(priv); + + priv->pd_inten |= ETH_RXINTS; + pic32mz_putreg(priv->pd_inten, PIC32MZ_ETH_IEN); + } + + /* Otherwise poll uIP for new XMIT data */ + + else + { + /* Perform the uIP poll */ + + pic32mz_poll(priv); + } +} + +/**************************************************************************** + * Function: pic32mz_interrupt + * + * Description: + * Hardware interrupt handler + * + * Parameters: + * irq - Number of the IRQ that generated the interrupt + * context - Interrupt register state save info (architecture-specific) + * + * Returned Value: + * OK on success + * + * Assumptions: + * + ****************************************************************************/ + +static int pic32mz_interrupt(int irq, void *context) +{ + register struct pic32mz_driver_s *priv; + uint32_t status; + +#if CONFIG_PIC32MZ_NINTERFACES > 1 +# error "A mechanism to associate and interface with an IRQ is needed" +#else + priv = &g_ethdrvr[0]; +#endif + + /* Get the interrupt status (zero means no interrupts pending). */ + + status = pic32mz_getreg(PIC32MZ_ETH_IRQ); + if (status != 0) + { + /* Clear all pending interrupts */ + + pic32mz_putreg(status, PIC32MZ_ETH_IRQCLR); + + /* Handle each pending interrupt **************************************/ + /* Receive Errors *****************************************************/ + /* RXOVFLW: Receive FIFO Over Flow Error. RXOVFLW is set by the RXBM + * Logic for an RX FIFO Overflow condition. It is cleared by either a + * Reset or CPU write of a ‘1’ to the CLR register. + */ + + if ((status & ETH_INT_RXOVFLW) != 0) + { + nlldbg("RX Overrun. status: %08x\n", status); + EMAC_STAT(priv, rx_errors); + EMAC_STAT(priv, rx_ovflw); + } + + /* RXBUFNA: Receive Buffer Not Available Interrupt. This bit is set by + * a RX Buffer Descriptor Overrun condition. It is cleared by either a + * Reset or a CPU write of a ‘1’ to the CLR register. + */ + + if ((status & ETH_INT_RXBUFNA) != 0) + { + nlldbg("RX buffer descriptor overrun. status: %08x\n", status); + EMAC_STAT(priv, rx_errors); + EMAC_STAT(priv, rx_bufna); + } + + /* RXBUSE: Receive BVCI Bus Error Interrupt. This bit is set when the + * RX DMA encounters a BVCI Bus error during a memory access. It is + * cleared by either a Reset or CPU write of a ‘1’ to the CLR register. + */ + + if ((status & ETH_INT_RXBUSE) != 0) + { + nlldbg("RX BVCI bus error. status: %08x\n", status); + EMAC_STAT(priv, rx_errors); + EMAC_STAT(priv, rx_buse); + } + + /* Receive Normal Events **********************************************/ + /* RXACT: Receive Activity Interrupt. This bit is set whenever RX packet + * data is stored in the RXBM FIFO. It is cleared by either a Reset or CPU + * write of a ‘1’ to the CLR register. + */ + + /* PKTPEND: Packet Pending Interrupt. This bit is set when the BUFCNT + * counter has a value other than ‘0’. It is cleared by either a Reset + * or by writing the BUFCDEC bit to decrement the BUFCNT counter. + * Writing a ‘0’ or a ‘1’ has no effect. + */ + + /* RXDONE: Receive Done Interrupt. This bit is set whenever an RX packet + * is successfully received. It is cleared by either a Reset or CPU + * write of a ‘1’ to the CLR register. + */ + + if ((status & ETH_INT_RXDONE) != 0) + { + EMAC_STAT(priv, rx_done); + + /* We have received at least one new incoming packet. */ + + pic32mz_rxdone(priv); + } + + /* Transmit Errors ****************************************************/ + /* TXABORT: Transmit Abort Condition Interrupt. This bit is set when + * the MAC aborts the transmission of a TX packet for one of the + * following reasons: + * - Jumbo TX packet abort + * - Underrun abort + * - Excessive defer abort + * - Late collision abort + * - Excessive collisions abort + * This bit is cleared by either a Reset or CPU write of a ‘1’ to the + * CLR register. + */ + + if ((status & ETH_INT_TXABORT) != 0) + { + nlldbg("TX abort. status: %08x\n", status); + EMAC_STAT(priv, tx_errors); + EMAC_STAT(priv, tx_abort); + } + + /* TXBUSE: Transmit BVCI Bus Error Interrupt. This bit is set when the + * TX DMA encounters a BVCI Bus error during a memory access. It is + * cleared by either a Reset or CPU write of a ‘1’ to the CLR register. + */ + + if ((status & ETH_INT_TXBUSE) != 0) + { + nlldbg("TX BVCI bus error. status: %08x\n", status); + EMAC_STAT(priv, tx_errors); + EMAC_STAT(priv, tx_buse); + } + + /* TXDONE: Transmit Done Interrupt. This bit is set when the currently + * transmitted TX packet completes transmission, and the Transmit + * Status Vector is loaded into the first descriptor used for the + * packet. It is cleared by either a Reset or CPU write of a ‘1’ to + * the CLR register. + */ + + if ((status & ETH_INT_TXDONE) != 0) + { + EMAC_STAT(priv, tx_done); + + /* A packet transmission just completed */ + + pic32mz_txdone(priv); + } + + /* Watermark Events ***************************************************/ + /* EWMARK: Empty Watermark Interrupt. This bit is set when the RX + * Descriptor Buffer Count is less than or equal to the value in the + * RXEWM bit (ETHRXWM:0-7) value. It is cleared by BUFCNT bit + * (ETHSTAT:16-23) being incremented by hardware. Writing a ‘0’ or a ‘1’ + * has no effect. + */ + + /* FWMARK: Full Watermark Interrupt. This bit is set when the RX + * escriptor Buffer Count is greater than or equal to the value in the + * RXFWM bit (ETHRXWM:16-23) field. It is cleared by writing the BUFCDEC + * (ETHCON1:0) bit to decrement the BUFCNT counter. Writing a ‘0’ or a + * ‘1’ has no effect. + */ + + } + + /* Clear the pending interrupt */ + +# if CONFIG_PIC32MZ_NINTERFACES > 1 + up_clrpend_irq(priv->pd_irqsrc); +# else + up_clrpend_irq(PIC32MZ_IRQSRC_ETH); +# endif + + return OK; +} + +/**************************************************************************** + * Function: pic32mz_txtimeout + * + * Description: + * Our TX watchdog timed out. Called from the timer interrupt handler. + * The last TX never completed. Reset the hardware and start again. + * + * Parameters: + * argc - The number of available arguments + * arg - The first argument + * + * Returned Value: + * None + * + * Assumptions: + * Global interrupts are disabled by the watchdog logic. + * + ****************************************************************************/ + +static void pic32mz_txtimeout(int argc, uint32_t arg, ...) +{ + struct pic32mz_driver_s *priv = (struct pic32mz_driver_s *)arg; + + /* Increment statistics and dump debug info */ + + EMAC_STAT(priv, tx_timeouts); + if (priv->pd_ifup) + { + /* Then reset the hardware. ifup() will reset the interface, then bring + * it back up. + */ + + (void)pic32mz_ifup(&priv->pd_dev); + + /* Then poll uIP for new XMIT data (We are guaranteed to have a free + * buffer here). + */ + + pic32mz_poll(priv); + } +} + +/**************************************************************************** + * Function: pic32mz_polltimer + * + * Description: + * Periodic timer handler. Called from the timer interrupt handler. + * + * Parameters: + * argc - The number of available arguments + * arg - The first argument + * + * Returned Value: + * None + * + * Assumptions: + * Global interrupts are disabled by the watchdog logic. + * + ****************************************************************************/ + +static void pic32mz_polltimer(int argc, uint32_t arg, ...) +{ + struct pic32mz_driver_s *priv = (struct pic32mz_driver_s *)arg; + + /* Check if the next Tx descriptor is available. We cannot perform the Tx + * poll if we are unable to accept another packet for transmission. + */ + + if (pic32mz_txdesc(priv) != NULL) + { + /* If so, update TCP timing states and poll uIP for new XMIT data. Hmmm.. + * might be bug here. Does this mean if there is a transmit in progress, + * we will missing TCP time state updates? + */ + + pic32mz_timerpoll(priv); + } + + /* Setup the watchdog poll timer again */ + + (void)wd_start(priv->pd_txpoll, PIC32MZ_WDDELAY, pic32mz_polltimer, 1, arg); +} + +/**************************************************************************** + * Function: pic32mz_ifup + * + * Description: + * NuttX Callback: Bring up the Ethernet interface when an IP address is + * provided + * + * Parameters: + * dev - Reference to the NuttX driver state structure + * + * Returned Value: + * None + * + * Assumptions: + * + ****************************************************************************/ + +static int pic32mz_ifup(struct net_driver_s *dev) +{ + struct pic32mz_driver_s *priv = (struct pic32mz_driver_s *)dev->d_private; + uint32_t regval; + int ret; + + ndbg("Bringing up: %d.%d.%d.%d\n", + dev->d_ipaddr & 0xff, (dev->d_ipaddr >> 8) & 0xff, + (dev->d_ipaddr >> 16) & 0xff, dev->d_ipaddr >> 24); + + /* Reset the Ethernet controller (again) */ + + pic32mz_ethreset(priv); + + /* MAC Initialization *****************************************************/ + /* Configuration: + * - Use the configuration fuse setting FETHIO bit (DEVCFG3:25) to detect + * the alternate/default I/O configuration + * - Use the configuration fuse setting FMIIEN (DEVCFG3:24) to detect the + * MII/RMII operation mode. + */ + + /* Pin Configuration: + * + * No GPIO pin configuration is required. Enabling the Ethernet Controller + * will configure the I/O pin direction as defined by the Ethernet Controller + * control bits. The port TRIS and LATCH registers will be overridden. + * + * I/O Pin MII RMII Pin Description + * Name Required Required Type + * EMDC Yes Yes O Ethernet MII Management Clock + * EMDIO Yes Yes I/O Ethernet MII Management IO + * ETXCLK Yes No I Ethernet MII TX Clock + * ETXEN Yes Yes O Ethernet Transmit Enable + * ETXD0 Yes Yes O Ethernet Data Transmit 0 + * ETXD1 Yes Yes O Ethernet Data Transmit 1 + * ETXD2 Yes No O Ethernet Data Transmit 2 + * ETXD3 Yes No O Ethernet Data Transmit 3 + * ETXERR Yes No O Ethernet Transmit Error + * ERXCLK Yes No I Ethernet MII RX Clock + * EREF_CLK No Yes I Ethernet RMII Ref Clock + * ERXDV Yes No I Ethernet MII Receive Data Valid + * ECRS_DV No Yes I Ethernet RMII Carrier Sense/Receive Data Valid + * ERXD0 Yes Yes I Ethernet Data Receive 0 + * ERXD1 Yes Yes I Ethernet Data Receive 1 + * ERXD2 Yes No I Ethernet Data Receive 2 + * ERXD3 Yes No I Ethernet Data Receive 3 + * ERXERR Yes Yes I Ethernet Receive Error + * ECRS Yes No I Ethernet Carrier Sense + * ECOL Yes No I Ethernet Collision Detected + * + * All that is required is to assure that the pins are initialized as + * digital (normally only those pins that have shared analog functionality + * need to be configured). + */ + + /* Initialize the MIIM interface + * + * If the RMII operation is selected, reset the RMII module by using the + * RESETRMII (EMAC1SUPP:11) bit and set the proper speed in the SPEEDRMII + * bit (EMAC1SUPP:8) bit. + */ + +#if CONFIG_PIC32MZ_FMIIEN == 0 + pic32mz_putreg(EMAC1_SUPP_RESETRMII, PIC32MZ_EMAC1_SUPPSET); + pic32mz_putreg((EMAC1_SUPP_RESETRMII | EMAC1_SUPP_SPEEDRMII), PIC32MZ_EMAC1_SUPPCLR); +#endif + + /* Issue an MIIM block reset, by setting the RESETMGMT (EMAC1MCFG:15) bit, + * and then clear the reset bit. + */ + + regval = pic32mz_getreg(PIC32MZ_EMAC1_MCFG); + pic32mz_putreg(EMAC1_MCFG_MGMTRST, PIC32MZ_EMAC1_MCFGSET); + + regval &= ~EMAC1_MCFG_MGMTRST; + pic32mz_putreg(regval, PIC32MZ_EMAC1_MCFG); + + /* Select a proper divider in the CLKSEL bit (EMAC1CFG:2-5) for the MIIM + * PHY communication based on the system running clock frequency and the + * external PHY supported clock. + * + * MII configuration: host clocked divider per board.h, no suppress + * preamble, no scan increment. + */ + + regval &= ~(EMAC1_MCFG_CLKSEL_MASK | EMAC1_MCFG_NOPRE | EMAC1_MCFG_SCANINC); + regval |= EMAC1_MCFG_CLKSEL_DIV; + pic32mz_putreg(regval, PIC32MZ_EMAC1_MCFG); + + /* PHY Initialization *****************************************************/ + /* Initialize the PHY and wait for the link to be established */ + + ret = pic32mz_phyinit(priv); + if (ret != 0) + { + ndbg("pic32mz_phyinit failed: %d\n", ret); + return ret; + } + + /* MAC Configuration ******************************************************/ + /* Set other misc configuration-related registers to default values */ + + pic32mz_putreg(0, PIC32MZ_EMAC1_CFG2); + pic32mz_putreg(0, PIC32MZ_EMAC1_TEST); + + /* Having available the Duplex and Speed settings, configure the MAC + * accordingly, using the following steps: + * + * Enable the RXENABLE bit (EMAC1CFG1:0), selecting both the TXPAUSE and + * RXPAUSE bit (EMAC1CFG1:2-3) (the PIC32 MAC supports both). + */ + + pic32mz_putreg(EMAC1_CFG1_RXEN | EMAC1_CFG1_RXPAUSE | EMAC1_CFG1_TXPAUSE, + PIC32MZ_EMAC1_CFG1SET); + + /* Select the desired auto-padding and CRC capabilities, and the enabling + * of the huge frames and the Duplex type in the EMAC1CFG2 register. + * (This was done in the PHY initialization logic). + */ + + /* Program EMAC1IPGT with the back-to-back inter-packet gap */ + /* Use EMAC1IPGR for setting the non back-to-back inter-packet gap */ + + pic32mz_putreg(((12 << EMAC1_IPGR_GAP1_SHIFT) | (12 << EMAC1_IPGR_GAP2_SHIFT)), + PIC32MZ_EMAC1_IPGR); + + /* Set the collision window and the maximum number of retransmissions in + * EMAC1CLRT. + */ + + pic32mz_putreg(((15 << EMAC1_CLRT_RETX_SHIFT) | (55 << EMAC1_CLRT_CWINDOW_SHIFT)), + PIC32MZ_EMAC1_CLRT); + + /* Set the maximum frame length in EMAC1MAXF. "This field resets to + * 0x05EE, which represents a maximum receive frame of 1518 octets. An + * untagged maximum size Ethernet frame is 1518 octets. A tagged frame adds + * four octets for a total of 1522 octets. If a shorter/longer maximum + * length restriction is desired, program this 16-bit field. + */ + + pic32mz_putreg(CONFIG_NET_ETH_MTU, PIC32MZ_EMAC1_MAXF); + + /* Configure the MAC station address in the EMAC1SA0, EMAC1SA1 and + * EMAC1SA2 registers (these registers are loaded at reset from the + * factory preprogrammed station address). + */ + +#if 0 + regval = (uint32_t)priv->pd_dev.d_mac.ether_addr_octet[5] << 8 | + (uint32_t)priv->pd_dev.d_mac.ether_addr_octet[4]; + pic32mz_putreg(regval, PIC32MZ_EMAC1_SA0); + + regval = (uint32_t)priv->pd_dev.d_mac.ether_addr_octet[3] << 8 | + (uint32_t)priv->pd_dev.d_mac.ether_addr_octet[2]; + pic32mz_putreg(regval, PIC32MZ_EMAC1_SA1); + + regval = (uint32_t)priv->pd_dev.d_mac.ether_addr_octet[1] << 8 | + (uint32_t)priv->pd_dev.d_mac.ether_addr_octet[0]; + pic32mz_putreg(regval, PIC32MZ_EMAC1_SA2); +#else + regval = pic32mz_getreg(PIC32MZ_EMAC1_SA0); + priv->pd_dev.d_mac.ether_addr_octet[4] = (uint32_t)(regval & 0xff); + priv->pd_dev.d_mac.ether_addr_octet[5] = (uint32_t)((regval >> 8) & 0xff); + + regval = pic32mz_getreg(PIC32MZ_EMAC1_SA1); + priv->pd_dev.d_mac.ether_addr_octet[2] = (uint32_t)(regval & 0xff); + priv->pd_dev.d_mac.ether_addr_octet[3] = (uint32_t)((regval >> 8) & 0xff); + + regval = pic32mz_getreg(PIC32MZ_EMAC1_SA2); + priv->pd_dev.d_mac.ether_addr_octet[0] = (uint32_t)(regval & 0xff); + priv->pd_dev.d_mac.ether_addr_octet[1] = (uint32_t)((regval >> 8) & 0xff); +#endif + + /* Continue Ethernet Controller Initialization ****************************/ + /* If planning to turn on the flow control, update the PTV value + *(ETHCON1:16-31). + */ + + /* If using the auto-flow control, set the full and empty watermarks: RXFWM + * and RXEWM (ETHRXWM:16-23 and ETHRXWM:0-7). + */ + + /* If needed, enable the auto-flow control by setting AUTOFC (ETHCON1:7). */ + + /* Set the RX filters by updating the ETHHT0, ETHHT1, ETHPMM0, ETHPMM1, + * ETHPMCS and ETHRXFC registers. + * + * Set up RX filter and configure to accept broadcast addresses and multicast + * addresses (if so configured). NOTE: There is a selection + * CONFIG_NET_BROADCAST, but this enables receipt of UDP broadcast packets + * inside of the stack. + */ + + regval = ETH_RXFC_BCEN | ETH_RXFC_UCEN | ETH_RXFC_PMMODE_DISABLED; +#ifdef CONFIG_NET_MULTICAST + regval |= ETH_RXFC_MCEN; +#endif + pic32mz_putreg(regval, PIC32MZ_ETH_RXFC); + + /* Set the size of the RX buffers in the RXBUFSZ bit (ETHCON2:4-10) (all + * receive descriptors use the same buffer size). Keep in mind that using + * packets that are too small leads to packet fragmentation and has a + * noticeable impact on the performance. + */ + + pic32mz_putreg(ETH_CON2_RXBUFSZ(CONFIG_NET_ETH_MTU), PIC32MZ_ETH_CON2); + + /* Reset state varialbes */ + + priv->pd_polling = false; + priv->pd_txpending = false; + + /* Initialize the buffer list */ + + pic32mz_bufferinit(priv); + + /* Initialize the TX descriptor list */ + + pic32mz_txdescinit(priv); + + /* Initialize the RX descriptor list */ + + pic32mz_rxdescinit(priv); + + /* Enable the Ethernet Controller by setting the ON bit (ETHCON1:15). + * Enable the receiving of messages by setting the RXEN bit (ETHCON1:8). + */ + + pic32mz_putreg(ETH_CON1_RXEN | ETH_CON1_ON, PIC32MZ_ETH_CON1SET); + + /* Initialize Ethernet interface for the PHY setup */ + + pic32mz_macmode(priv->pd_mode); + + /* Configure to pass all received frames */ + + regval = pic32mz_getreg(PIC32MZ_EMAC1_CFG1); + regval |= EMAC1_CFG1_PASSALL; + pic32mz_putreg(regval, PIC32MZ_EMAC1_CFG1); + + /* Clear any pending interrupts (shouldn't be any) */ + + pic32mz_putreg(0xffffffff, PIC32MZ_ETH_IRQCLR); + + /* Configure interrupts. The Ethernet interrupt was attached during one-time + * initialization, so we only need to set the interrupt priority, configure + * interrupts, and enable them. + */ + + /* If the user provided an interrupt priority, then set the interrupt to that + * priority + */ + +#if defined(CONFIG_NET_PRIORITY) && defined(CONFIG_ARCH_IRQPRIO) +#if CONFIG_PIC32MZ_NINTERFACES > 1 + (void)up_prioritize_irq(priv->pd_irq, CONFIG_NET_PRIORITY); +#else + (void)up_prioritize_irq(PIC32MZ_IRQ_ETH, CONFIG_NET_PRIORITY); +#endif +#endif + + /* Otherwise, enable all Rx interrupts. Tx interrupts, SOFTINT and WoL are + * excluded. Tx interrupts will not be enabled until there is data to be + * sent. + */ + + priv->pd_inten = ETH_RXINTS; + pic32mz_putreg(ETH_RXINTS, PIC32MZ_ETH_IENSET); + + /* Set and activate a timer process */ + + (void)wd_start(priv->pd_txpoll, PIC32MZ_WDDELAY, pic32mz_polltimer, 1, + (uint32_t)priv); + + /* Finally, enable the Ethernet interrupt at the interrupt controller */ + + priv->pd_ifup = true; +#if CONFIG_PIC32MZ_NINTERFACES > 1 + up_enable_irq(priv->pd_irqsrc); +#else + up_enable_irq(PIC32MZ_IRQSRC_ETH); +#endif + return OK; +} + +/**************************************************************************** + * Function: pic32mz_ifdown + * + * Description: + * NuttX Callback: Stop the interface. + * + * Parameters: + * dev - Reference to the NuttX driver state structure + * + * Returned Value: + * None + * + * Assumptions: + * + ****************************************************************************/ + +static int pic32mz_ifdown(struct net_driver_s *dev) +{ + struct pic32mz_driver_s *priv = (struct pic32mz_driver_s *)dev->d_private; + irqstate_t flags; + + /* Disable the Ethernet interrupt */ + + flags = irqsave(); +#if CONFIG_PIC32MZ_NINTERFACES > 1 + up_disable_irq(priv->pd_irqsrc); +#else + up_disable_irq(PIC32MZ_IRQSRC_ETH); +#endif + + /* Cancel the TX poll timer and TX timeout timers */ + + wd_cancel(priv->pd_txpoll); + wd_cancel(priv->pd_txtimeout); + + /* Reset the device and mark it as down. */ + + pic32mz_ethreset(priv); + priv->pd_ifup = false; + irqrestore(flags); + return OK; +} + +/**************************************************************************** + * Function: pic32mz_txavail + * + * Description: + * Driver callback invoked when new TX data is available. This is a + * stimulus perform an out-of-cycle poll and, thereby, reduce the TX + * latency. + * + * Parameters: + * dev - Reference to the NuttX driver state structure + * + * Returned Value: + * None + * + * Assumptions: + * Called in normal user mode + * + ****************************************************************************/ + +static int pic32mz_txavail(struct net_driver_s *dev) +{ + struct pic32mz_driver_s *priv = (struct pic32mz_driver_s *)dev->d_private; + irqstate_t flags; + + /* Disable interrupts because this function may be called from interrupt + * level processing. + */ + + flags = irqsave(); + + /* Ignore the notification if the interface is not yet up */ + + if (priv->pd_ifup) + { + /* Check if the next Tx descriptor is available. */ + + if (pic32mz_txdesc(priv) != NULL) + { + /* If so, then poll uIP for new XMIT data. First allocate a buffer + * to perform the poll + */ + + pic32mz_poll(priv); + } + } + + irqrestore(flags); + return OK; +} + +/**************************************************************************** + * Function: pic32mz_addmac + * + * Description: + * NuttX Callback: Add the specified MAC address to the hardware multicast + * address filtering + * + * Parameters: + * dev - Reference to the NuttX driver state structure + * mac - The MAC address to be added + * + * Returned Value: + * None + * + * Assumptions: + * + ****************************************************************************/ + +#ifdef CONFIG_NET_IGMP +static int pic32mz_addmac(struct net_driver_s *dev, const uint8_t *mac) +{ + struct pic32mz_driver_s *priv = (struct pic32mz_driver_s *)dev->d_private; + + /* Add the MAC address to the hardware multicast routing table */ + +#warning "Not implemented" + return OK; +} +#endif + +/**************************************************************************** + * Function: pic32mz_rmmac + * + * Description: + * NuttX Callback: Remove the specified MAC address from the hardware multicast + * address filtering + * + * Parameters: + * dev - Reference to the NuttX driver state structure + * mac - The MAC address to be removed + * + * Returned Value: + * None + * + * Assumptions: + * + ****************************************************************************/ + +#ifdef CONFIG_NET_IGMP +static int pic32mz_rmmac(struct net_driver_s *dev, const uint8_t *mac) +{ + struct pic32mz_driver_s *priv = (struct pic32mz_driver_s *)dev->d_private; + + /* Add the MAC address to the hardware multicast routing table */ + +#warning "Not implemented" + return OK; +} +#endif + +/******************************************************************************* + * Name: pic32mz_showmii + * + * Description: + * Dump PHY MII registers + * + * Parameters: + * phyaddr - The device address where the PHY was discovered + * + * Returned Value: + * None + * + * Assumptions: + * + *******************************************************************************/ + +#if defined(CONFIG_NET_REGDEBUG) && defined(PIC32MZ_HAVE_PHY) +static void pic32mz_showmii(uint8_t phyaddr, const char *msg) +{ + dbg("PHY " PIC32MZ_PHYNAME ": %s\n", msg); + dbg(" MCR: %04x\n", pic32mz_phyread(phyaddr, MII_MCR)); + dbg(" MSR: %04x\n", pic32mz_phyread(phyaddr, MII_MSR)); + dbg(" ADVERTISE: %04x\n", pic32mz_phyread(phyaddr, MII_ADVERTISE)); + dbg(" LPA: %04x\n", pic32mz_phyread(phyaddr, MII_LPA)); + dbg(" EXPANSION: %04x\n", pic32mz_phyread(phyaddr, MII_EXPANSION)); +#ifdef CONFIG_ETH0_PHY_KS8721 + dbg(" 10BTCR: %04x\n", pic32mz_phyread(phyaddr, MII_KS8721_10BTCR)); +#endif +} +#endif + +/**************************************************************************** + * Function: pic32mz_phybusywait + * + * Description: + * Wait until the PHY is no longer busy + * + * Parameters: + * None + * + * Returned Value: + * None + * + * Assumptions: + * + ****************************************************************************/ + +static void pic32mz_phybusywait(void) +{ + while ((pic32mz_getreg(PIC32MZ_EMAC1_MIND) & EMAC1_MIND_MIIMBUSY) != 0); +} + +/**************************************************************************** + * Function: pic32mz_phywrite + * + * Description: + * Write a value to an MII PHY register + * + * Parameters: + * phyaddr - The device address where the PHY was discovered + * regaddr - The address of the PHY register to be written + * phydata - The data to write to the PHY register + * + * Returned Value: + * None + * + * Assumptions: + * + ****************************************************************************/ + +#ifdef PIC32MZ_HAVE_PHY +static void pic32mz_phywrite(uint8_t phyaddr, uint8_t regaddr, uint16_t phydata) +{ + uint32_t regval; + + /* Make sure that the PHY is not still busy from the last command */ + + pic32mz_phybusywait(); + + /* Set PHY address and PHY register address */ + + regval = ((uint32_t)phyaddr << EMAC1_MADR_PHYADDR_SHIFT) | + ((uint32_t)regaddr << EMAC1_MADR_REGADDR_SHIFT); + pic32mz_putreg(regval, PIC32MZ_EMAC1_MADR); + + /* Write the register data to the PHY */ + + pic32mz_putreg((uint32_t)phydata, PIC32MZ_EMAC1_MWTD); + + /* Two clock cycles until busy is set from the write operation */ + + __asm__ __volatile__ ("nop; nop;"); +} +#endif + +/**************************************************************************** + * Function: pic32mz_phyread + * + * Description: + * Read a value from an MII PHY register + * + * Parameters: + * phyaddr - The device address where the PHY was discovered + * regaddr - The address of the PHY register to be written + * + * Returned Value: + * Data read from the PHY register + * + * Assumptions: + * + ****************************************************************************/ + +#ifdef PIC32MZ_HAVE_PHY +static uint16_t pic32mz_phyread(uint8_t phyaddr, uint8_t regaddr) +{ + uint32_t regval; + + /* Make sure that the PHY is not still busy from the last command */ + + pic32mz_phybusywait(); + + /* Set PHY address and PHY register address */ + + regval = ((uint32_t)phyaddr << EMAC1_MADR_PHYADDR_SHIFT) | + ((uint32_t)regaddr << EMAC1_MADR_REGADDR_SHIFT); + pic32mz_putreg(regval, PIC32MZ_EMAC1_MADR); + + /* Set up to read */ + + pic32mz_putreg(EMAC1_MCMD_READ, PIC32MZ_EMAC1_MCMD); + + /* Four clock cycles until busy is set from the write operation */ + + __asm__ __volatile__ ("nop; nop; nop; nop;"); + + /* Wait for the PHY command to complete */ + + pic32mz_phybusywait(); + pic32mz_putreg(0, PIC32MZ_EMAC1_MCMD); + + /* Return the PHY register data */ + + return (uint16_t)(pic32mz_getreg(PIC32MZ_EMAC1_MRDD) & EMAC1_MRDD_MASK); +} +#endif + +/**************************************************************************** + * Function: pic32mz_phyreset + * + * Description: + * Reset the PHY + * + * Parameters: + * phyaddr - The device address where the PHY was discovered + * + * Returned Value: + * None + * + * Assumptions: + * + ****************************************************************************/ + +#ifdef PIC32MZ_HAVE_PHY +static inline int pic32mz_phyreset(uint8_t phyaddr) +{ + int32_t timeout; + uint16_t phyreg; + + /* Reset the PHY. Needs a minimal 50uS delay after reset. */ + + pic32mz_phywrite(phyaddr, MII_MCR, MII_MCR_RESET); + + /* Wait for a minimum of 50uS no matter what */ + + up_udelay(50); + + /* The MCR reset bit is self-clearing. Wait for it to be clear indicating + * that the reset is complete. + */ + + for (timeout = PIC32MZ_MIITIMEOUT; timeout > 0; timeout--) + { + phyreg = pic32mz_phyread(phyaddr, MII_MCR); + if ((phyreg & MII_MCR_RESET) == 0) + { + return OK; + } + } + + ndbg("Reset failed. MCR: %04x\n", phyreg); + return -ETIMEDOUT; +} +#endif + +/**************************************************************************** + * Function: pic32mz_phyautoneg + * + * Description: + * Enable auto-negotiation. + * + * Parameters: + * phyaddr - The device address where the PHY was discovered + * + * Returned Value: + * None + * + * Assumptions: + * The adverisement regiser has already been configured. + * + ****************************************************************************/ + +#if defined(PIC32MZ_HAVE_PHY) && defined(CONFIG_PHY_AUTONEG) +static inline int pic32mz_phyautoneg(uint8_t phyaddr) +{ + int32_t timeout; + uint16_t phyreg; + + /* Start auto-negotiation */ + + pic32mz_phywrite(phyaddr, MII_MCR, MII_MCR_ANENABLE | MII_MCR_ANRESTART); + + /* Wait for autonegotiation to complete */ + + for (timeout = PIC32MZ_MIITIMEOUT; timeout > 0; timeout--) + { + /* Check if auto-negotiation has completed */ + + phyreg = pic32mz_phyread(phyaddr, MII_MSR); + if ((phyreg & MII_MSR_ANEGCOMPLETE) != 0) + { + /* Yes.. return success */ + + return OK; + } + } + + ndbg("Auto-negotiation failed. MSR: %04x\n", phyreg); + return -ETIMEDOUT; +} +#endif + +/**************************************************************************** + * Function: pic32mz_phymode + * + * Description: + * Set the PHY to operate at a selected speed/duplex mode. + * + * Parameters: + * phyaddr - The device address where the PHY was discovered + * mode - speed/duplex mode + * + * Returned Value: + * None + * + * Assumptions: + * + ****************************************************************************/ + +#ifdef PIC32MZ_HAVE_PHY +static int pic32mz_phymode(uint8_t phyaddr, uint8_t mode) +{ + int32_t timeout; + uint16_t phyreg; + + /* Disable auto-negotiation and set fixed Speed and Duplex settings: + * + * MII_MCR_UNIDIR 0=Disable unidirectional enable + * MII_MCR_SPEED1000 0=Reserved on 10/100 + * MII_MCR_CTST 0=Disable collision test + * MII_MCR_FULLDPLX ?=Full duplex + * MII_MCR_ANRESTART 0=Don't restart auto negotiation + * MII_MCR_ISOLATE 0=Don't electronically isolate PHY from MII + * MII_MCR_PDOWN 0=Don't powerdown the PHY + * MII_MCR_ANENABLE 0=Disable auto negotiation + * MII_MCR_SPEED100 ?=Select 100Mbps + * MII_MCR_LOOPBACK 0=Disable loopback mode + * MII_MCR_RESET 0=No PHY reset + */ + + phyreg = 0; + if ((mode & PIC32MZ_SPEED_MASK) == PIC32MZ_SPEED_100) + { + phyreg = MII_MCR_SPEED100; + } + + if ((mode & PIC32MZ_DUPLEX_MASK) == PIC32MZ_DUPLEX_FULL) + { + phyreg |= MII_MCR_FULLDPLX; + } + + pic32mz_phywrite(phyaddr, MII_MCR, phyreg); + + /* Then wait for the link to be established */ + + for (timeout = PIC32MZ_MIITIMEOUT; timeout > 0; timeout--) + { +#ifdef CONFIG_ETH0_PHY_DP83848C + phyreg = pic32mz_phyread(phyaddr, MII_DP83848C_STS); + if ((phyreg & 0x0001) != 0) + { + /* Yes.. return success */ + + return OK; + } +#else + phyreg = pic32mz_phyread(phyaddr, MII_MSR); + if ((phyreg & MII_MSR_LINKSTATUS) != 0) + { + /* Yes.. return success */ + + return OK; + } +#endif + } + + ndbg("Link failed. MSR: %04x\n", phyreg); + return -ETIMEDOUT; +} +#endif + +/**************************************************************************** + * Function: pic32mz_phyinit + * + * Description: + * Initialize the PHY + * + * Parameters: + * priv - Pointer to EMAC device driver structure + * + * Returned Value: + * None directly. As a side-effect, it will initialize priv->pd_phyaddr + * and priv->pd_phymode. + * + * Assumptions: + * + ****************************************************************************/ + +#ifdef PIC32MZ_HAVE_PHY +static inline int pic32mz_phyinit(struct pic32mz_driver_s *priv) +{ + unsigned int phyaddr; + uint16_t phyreg; + uint32_t regval; + int ret; + +#if CONFIG_PIC32MZ_FMIIEN == 0 + /* Set the RMII operation mode. This usually requires access to a vendor + * specific control register. + */ + +#ifdef CONFIG_ETH0_PHY_DP83848C + /* The RMII/MII of operation can be selected by strap options or register + * control (using the RBR register). For RMII mode, it is required to use the + * strap option, since it requires a 50 MHz clock instead of the normal 25 MHz. + */ +#endif + +#else + /* Set the MII/ operation mode. This usually requires access to a vendor- + * specific control register. + */ + +#ifdef CONFIG_ETH0_PHY_DP83848C +# warning "Missing logic" +#endif + +#endif + + /* Find PHY Address. Because the controller has a pull-up and the + * PHY has pull-down resistors on RXD lines some times the PHY + * latches different at different addresses. + */ + + for (phyaddr = 0; phyaddr < 32; phyaddr++) + { + /* Clear any ongoing PHY command bits */ + + pic32mz_putreg(0, PIC32MZ_EMAC1_MCMD); + + /* Reset the PHY (use Control Register 0). */ + + ret = pic32mz_phyreset(phyaddr); + if (ret < 0) + { + ndbg("Failed to reset PHY at address %d\n", phyaddr); + continue; + } + + /* Set the normal, swapped or auto (preferred) MDIX. This usually + * requires access to a vendor-specific control register. + */ + + /* Check if we can see the selected device ID at this + * PHY address. + */ + + phyreg = (unsigned int)pic32mz_phyread(phyaddr, MII_PHYID1); + nvdbg("Addr: %d PHY ID1: %04x\n", phyaddr, phyreg); + + if (phyreg == PIC32MZ_PHYID1) + { + phyreg = pic32mz_phyread(phyaddr, MII_PHYID2); + nvdbg("Addr: %d PHY ID2: %04x\n", phyaddr, phyreg); + + if (phyreg == PIC32MZ_PHYID2) + { + break; + } + } + } + + /* Check if the PHY device address was found */ + + if (phyaddr > 31) + { + /* Failed to find PHY at any location */ + + ndbg("No PHY detected\n"); + return -ENODEV; + } + nvdbg("phyaddr: %d\n", phyaddr); + + /* Save the discovered PHY device address */ + + priv->pd_phyaddr = phyaddr; + + /* Reset the PHY */ + + ret = pic32mz_phyreset(phyaddr); + if (ret < 0) + { + return ret; + } + pic32mz_showmii(phyaddr, "After reset"); + + /* Set the MII/RMII operation mode. This usually requires access to a + * vendor-specific control register. + */ + + /* Set the normal, swapped or auto (preferred) MDIX. This usually requires + * access to a vendor-specific control register. + */ + + /* Check the PHY capabilities by investigating the Status Register 1. */ + + /* Check for preamble suppression support */ + + phyreg = pic32mz_phyread(phyaddr, MII_MSR); + if ((phyreg & MII_MSR_MFRAMESUPPRESS) != 0) + { + /* The PHY supports preamble suppression */ + + regval = pic32mz_getreg(PIC32MZ_EMAC1_MCFG); + regval |= EMAC1_MCFG_NOPRE; + pic32mz_putreg(regval, PIC32MZ_EMAC1_MCFG); + } + + /* Are we configured to do auto-negotiation? + * + * Preferably the auto-negotiation should be selected if the PHY supports + * it. Expose the supported capabilities: Half/Full Duplex, 10BaseT/100Base + * TX, etc. (Extended Register 4). Start the negotiation (Control Register + * 0) and wait for the negotiation complete and get the link partner + * capabilities (Extended Register 5) and negotiation result (vendor- + * specific register). + */ + +#ifdef CONFIG_PHY_AUTONEG + /* Setup the Auto-negotiation advertisement: 100 or 10, and HD or FD */ + + pic32mz_phywrite(phyaddr, MII_ADVERTISE, + (MII_ADVERTISE_100BASETXFULL | MII_ADVERTISE_100BASETXHALF | + MII_ADVERTISE_10BASETXFULL | MII_ADVERTISE_10BASETXHALF | + MII_ADVERTISE_CSMA)); + + /* Then perform the auto-negotiation */ + + ret = pic32mz_phyautoneg(phyaddr); + if (ret < 0) + { + return ret; + } +#else + /* Set up the fixed PHY configuration + * + * If auto-negotiation is not supported/selected, update the PHY Duplex and + * Speed settings directly (use Control Register 0 and possibly some vendor- + * pecific registers). + */ + + ret = pic32mz_phymode(phyaddr, PIC32MZ_MODE_DEFLT); + if (ret < 0) + { + return ret; + } +#endif + + /* The link is established */ + + pic32mz_showmii(phyaddr, "After link established"); + + /* Check configuration */ + +#if defined(CONFIG_ETH0_PHY_KS8721) + phyreg = pic32mz_phyread(phyaddr, MII_KS8721_10BTCR); + + switch (phyreg & KS8721_10BTCR_MODE_MASK) + { + case KS8721_10BTCR_MODE_10BTHD: /* 10BASE-T half duplex */ + priv->pd_mode = PIC32MZ_10BASET_HD; + break; + case KS8721_10BTCR_MODE_100BTHD: /* 100BASE-T half duplex */ + priv->pd_mode = PIC32MZ_100BASET_HD; + break; + case KS8721_10BTCR_MODE_10BTFD: /* 10BASE-T full duplex */ + priv->pd_mode = PIC32MZ_10BASET_FD; + break; + case KS8721_10BTCR_MODE_100BTFD: /* 100BASE-T full duplex */ + priv->pd_mode = PIC32MZ_100BASET_FD; + break; + default: + ndbg("Unrecognized mode: %04x\n", phyreg); + return -ENODEV; + } +#elif defined(CONFIG_ETH0_PHY_DP83848C) + phyreg = pic32mz_phyread(phyaddr, MII_DP83848C_STS); + + /* Configure for full/half duplex mode and speed */ + + switch (phyreg & 0x0006) + { + case 0x0000: + priv->pd_mode = PIC32MZ_100BASET_HD; + break; + case 0x0002: + priv->pd_mode = PIC32MZ_10BASET_HD; + break; + case 0x0004: + priv->pd_mode = PIC32MZ_100BASET_FD; + break; + case 0x0006: + priv->pd_mode = PIC32MZ_10BASET_FD; + break; + default: + ndbg("Unrecognized mode: %04x\n", phyreg); + return -ENODEV; + } +#elif defined(CONFIG_ETH0_PHY_LAN8720) || defined(CONFIG_ETH0_PHY_LAN8740) + { + uint16_t advertise; + uint16_t lpa; + + up_udelay(500); + advertise = pic32mz_phyread(phyaddr, MII_ADVERTISE); + lpa = pic32mz_phyread(phyaddr, MII_LPA); + + /* Check for 100BASETX full duplex */ + + if ((advertise & MII_ADVERTISE_100BASETXFULL) != 0 && + (lpa & MII_LPA_100BASETXFULL) != 0) + { + priv->pd_mode = PIC32MZ_100BASET_FD; + } + + /* Check for 100BASETX half duplex */ + + else if ((advertise & MII_ADVERTISE_100BASETXHALF) != 0 && + (lpa & MII_LPA_100BASETXHALF) != 0) + { + priv->pd_mode = PIC32MZ_100BASET_HD; + } + + /* Check for 10BASETX full duplex */ + + else if ((advertise & MII_ADVERTISE_10BASETXFULL) != 0 && + (lpa & MII_LPA_10BASETXFULL) != 0) + { + priv->pd_mode = PIC32MZ_10BASET_FD; + } + + /* Check for 10BASETX half duplex */ + + else if ((advertise & MII_ADVERTISE_10BASETXHALF) != 0 && + (lpa & MII_LPA_10BASETXHALF) != 0) + { + priv->pd_mode = PIC32MZ_10BASET_HD; + } + else + { + ndbg("Unrecognized mode: %04x\n", phyreg); + return -ENODEV; + } + } +#else +# warning "PHY Unknown: speed and duplex are bogus" +#endif + + ndbg("%dBase-T %s duplex\n", + (priv->pd_mode & PIC32MZ_SPEED_MASK) == PIC32MZ_SPEED_100 ? 100 : 10, + (priv->pd_mode & PIC32MZ_DUPLEX_MASK) == PIC32MZ_DUPLEX_FULL ?"full" : "half"); + + /* Disable auto-configuration. Set the fixed speed/duplex mode. + * (probably more than little redundant). + */ + + ret = pic32mz_phymode(phyaddr, priv->pd_mode); + pic32mz_showmii(phyaddr, "After final configuration"); + return ret; +} +#else +static inline int pic32mz_phyinit(struct pic32mz_driver_s *priv) +{ + priv->pd_mode = PIC32MZ_MODE_DEFLT; + return OK; +} +#endif + +/**************************************************************************** + * Function: pic32mz_macmode + * + * Description: + * Set the MAC to operate at a selected speed/duplex mode. + * + * Parameters: + * mode - speed/duplex mode + * + * Returned Value: + * None + * + * Assumptions: + * + ****************************************************************************/ + +#ifdef PIC32MZ_HAVE_PHY +static void pic32mz_macmode(uint8_t mode) +{ + /* Set up for full or half duplex operation */ + + if ((mode & PIC32MZ_DUPLEX_MASK) == PIC32MZ_DUPLEX_FULL) + { + /* Set the back-to-back inter-packet gap */ + + pic32mz_putreg(21, PIC32MZ_EMAC1_IPGT); + + /* Set MAC to operate in full duplex mode with CRC and Pad enabled */ + + pic32mz_putreg((EMAC1_CFG2_FULLDPLX | EMAC1_CFG2_CRCEN | EMAC1_CFG2_PADCRCEN), + PIC32MZ_EMAC1_CFG2SET); + } + else + { + /* Set the back-to-back inter-packet gap */ + + pic32mz_putreg(18, PIC32MZ_EMAC1_IPGT); + + /* Set MAC to operate in half duplex mode with CRC and Pad enabled */ + + pic32mz_putreg(EMAC1_CFG2_FULLDPLX, PIC32MZ_EMAC1_CFG2CLR); + pic32mz_putreg((EMAC1_CFG2_CRCEN | EMAC1_CFG2_PADCRCEN), PIC32MZ_EMAC1_CFG2SET); + } + + /* Set the RMII MAC speed. */ + +#if CONFIG_PIC32MZ_FMIIEN == 0 + if ((mode & PIC32MZ_SPEED_MASK) == PIC32MZ_SPEED_100) + { + pic32mz_putreg(EMAC1_SUPP_SPEEDRMII, PIC32MZ_EMAC1_SUPPSET); + } + else + { + pic32mz_putreg(EMAC1_SUPP_SPEEDRMII, PIC32MZ_EMAC1_SUPPCLR); + } +#endif +} +#endif + +/**************************************************************************** + * Function: pic32mz_ethreset + * + * Description: + * Configure and reset the Ethernet module, leaving it in a disabled state. + * + * Parameters: + * priv - Reference to the driver state structure + * + * Returned Value: + * OK on success; a negated errno on failure + * + * Assumptions: + * + ****************************************************************************/ + +static void pic32mz_ethreset(struct pic32mz_driver_s *priv) +{ + irqstate_t flags; + + /* Reset the MAC */ + + flags = irqsave(); + + /* Ethernet Controller Initialization *************************************/ + /* Disable Ethernet interrupts in the EVIC */ + +#if CONFIG_PIC32MZ_NINTERFACES > 1 + up_disable_irq(priv->pd_irqsrc); +#else + up_disable_irq(PIC32MZ_IRQSRC_ETH); +#endif + + /* Turn the Ethernet Controller off: Clear the ON, RXEN and TXRTS bits */ + + pic32mz_putreg(ETH_CON1_RXEN | ETH_CON1_TXRTS | ETH_CON1_ON, PIC32MZ_ETH_CON1CLR); + + /* Wait activity abort by polling the ETHBUSY bit */ + + while ((pic32mz_getreg(PIC32MZ_ETH_STAT) & ETH_STAT_ETHBUSY) != 0); + + /* Turn the Ethernet controller on. */ + + pic32mz_putreg(ETH_CON1_ON, PIC32MZ_ETH_CON1SET); + + /* Clear the Ethernet STAT BUFCNT */ + + while ((pic32mz_getreg(PIC32MZ_ETH_STAT) & ETH_STAT_BUFCNT_MASK) != 0) + { + pic32mz_putreg(ETH_CON1_BUFCDEC, PIC32MZ_ETH_CON1SET); + } + + /* Clear the Ethernet Interrupt Flag (ETHIF) bit in the Interrupts module */ + +#if CONFIG_PIC32MZ_NINTERFACES > 1 + up_pending_irq(priv->pd_irqsrc); +#else + up_pending_irq(PIC32MZ_IRQSRC_ETH); +#endif + + /* Disable any Ethernet Controller interrupt generation by clearing the IEN + * register. + */ + + pic32mz_putreg(ETH_INT_ALLINTS, PIC32MZ_ETH_IENCLR); + + /* Clear the TX and RX start addresses by using ETHTXSTCLR and ETHRXSTCLR */ + + pic32mz_putreg(0xffffffff, PIC32MZ_ETH_TXSTCLR); + pic32mz_putreg(0xffffffff, PIC32MZ_ETH_RXSTCLR); + + /* MAC Initialization *****************************************************/ + /* Put the MAC into the reset state */ + + pic32mz_putreg((EMAC1_CFG1_TXRST | EMAC1_CFG1_MCSTXRST | EMAC1_CFG1_RXRST | + EMAC1_CFG1_MCSRXRST | EMAC1_CFG1_SIMRST | EMAC1_CFG1_SOFTRST), + PIC32MZ_EMAC1_CFG1); + + /* Take the MAC out of the reset state */ + + up_udelay(50); + pic32mz_putreg(0, PIC32MZ_EMAC1_CFG1); + irqrestore(flags); +} + +/**************************************************************************** + * Public Functions + ****************************************************************************/ + +/**************************************************************************** + * Function: pic32mz_ethinitialize + * + * Description: + * Initialize one Ethernet controller and driver structure. + * + * Parameters: + * intf - Selects the interface to be initialized. + * + * Returned Value: + * OK on success; Negated errno on failure. + * + * Assumptions: + * + ****************************************************************************/ + +#if CONFIG_PIC32MZ_NINTERFACES > 1 +int pic32mz_ethinitialize(int intf) +#else +static inline int pic32mz_ethinitialize(int intf) +#endif +{ + struct pic32mz_driver_s *priv; + int ret; + + DEBUGASSERT(intf < CONFIG_PIC32MZ_NINTERFACES); + priv = &g_ethdrvr[intf]; + + /* Initialize the driver structure */ + + memset(priv, 0, sizeof(struct pic32mz_driver_s)); + priv->pd_dev.d_ifup = pic32mz_ifup; /* I/F down callback */ + priv->pd_dev.d_ifdown = pic32mz_ifdown; /* I/F up (new IP address) callback */ + priv->pd_dev.d_txavail = pic32mz_txavail; /* New TX data callback */ +#ifdef CONFIG_NET_IGMP + priv->pd_dev.d_addmac = pic32mz_addmac; /* Add multicast MAC address */ + priv->pd_dev.d_rmmac = pic32mz_rmmac; /* Remove multicast MAC address */ +#endif + priv->pd_dev.d_private = (void*)priv; /* Used to recover private state from dev */ + +#if CONFIG_PIC32MZ_NINTERFACES > 1 +# error "A mechanism to associate base address an IRQ with an interface is needed" + priv->pd_base = ??; /* Ethernet controller base address */ + priv->pd_irq = ??; /* Ethernet controller IRQ vector number */ + priv->pd_irqsrc = ??; /* Ethernet controller IRQ source number */ +#endif + + /* Create a watchdog for timing polling for and timing of transmisstions */ + + priv->pd_txpoll = wd_create(); /* Create periodic poll timer */ + priv->pd_txtimeout = wd_create(); /* Create TX timeout timer */ + + /* Configure Ethernet peripheral pin selections */ + /* Controlled by DEVCFG FMIIEN and FETHIO settings */ + + /* Reset the Ethernet controller and leave in the ifdown state. The + * Ethernet controller will be properly re-initialized each time + * pic32mz_ifup() is called. + */ + + pic32mz_ifdown(&priv->pd_dev); + + /* Attach the IRQ to the driver */ + +#if CONFIG_PIC32MZ_NINTERFACES > 1 + ret = irq_attach(priv->pd_irq, pic32mz_interrupt); +#else + ret = irq_attach(PIC32MZ_IRQ_ETH, pic32mz_interrupt); +#endif + if (ret != 0) + { + /* We could not attach the ISR to the interrupt */ + + return -EAGAIN; + } + + /* Register the device with the OS so that socket IOCTLs can be performed */ + + (void)netdev_register(&priv->pd_dev, NET_LL_ETHERNET); + return OK; +} + +/**************************************************************************** + * Name: up_netinitialize + * + * Description: + * Initialize the first network interface. If there are more than one + * interface in the chip, then board-specific logic will have to provide + * this function to determine which, if any, Ethernet controllers should + * be initialized. + * + ****************************************************************************/ + +#if CONFIG_PIC32MZ_NINTERFACES == 1 +void up_netinitialize(void) +{ + (void)pic32mz_ethinitialize(0); +} +#endif +#endif /* CHIP_NETHERNET > 0 */ +#endif /* CONFIG_NET && CONFIG_PIC32MZ_ETHERNET */ diff --git a/nuttx/arch/mips/src/pic32mz/pic32mz_ethernet.c b/nuttx/arch/mips/src/pic32mz/pic32mz_ethernet.c deleted file mode 100644 index e3b2c84c7..000000000 --- a/nuttx/arch/mips/src/pic32mz/pic32mz_ethernet.c +++ /dev/null @@ -1,3278 +0,0 @@ -/**************************************************************************** - * arch/arm/src/pic32mz/pic32mz_ethernet.c - * - * Copyright (C) 2015 Gregory Nutt. All rights reserved. - * Author: Gregory Nutt - * - * This driver derives from the PIC32MZ Ethernet Driver - * - * Redistribution and use in source and binary forms, with or without - * modification, are permitted provided that the following conditions - * are met: - * - * 1. Redistributions of source code must retain the above copyright - * notice, this list of conditions and the following disclaimer. - * 2. Redistributions in binary form must reproduce the above copyright - * notice, this list of conditions and the following disclaimer in - * the documentation and/or other materials provided with the - * distribution. - * 3. Neither the name NuttX nor the names of its contributors may be - * used to endorse or promote products derived from this software - * without specific prior written permission. - * - * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS - * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT - * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS - * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE - * COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, - * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, - * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS - * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED - * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT - * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN - * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE - * POSSIBILITY OF SUCH DAMAGE. - * - ****************************************************************************/ - -/**************************************************************************** - * Included Files - ****************************************************************************/ - -#include -#if defined(CONFIG_NET) && defined(CONFIG_PIC32MZ_ETHERNET) - -#include -#include -#include -#include -#include -#include -#include - -#include - -#include -#include -#include -#include -#include -#include -#include - -#ifdef CONFIG_NET_PKT -# include -#endif - -#include -#include - -#include "up_arch.h" -#include "pic32mz-config.h" -#include "chip/pic32mz-ethernet.h" - -/* Does this chip have and Ethernet controller? */ - -#if CHIP_NETHERNET > 0 - -/**************************************************************************** - * Pre-processor Definitions - ****************************************************************************/ -/* Configuration ************************************************************/ -/* CONFIG_PIC32MZ_NINTERFACES determines the number of physical interfaces - * that will be supported -- unless it is more than actually supported by the - * hardware! - */ - -#if !defined(CONFIG_PIC32MZ_NINTERFACES) || CONFIG_PIC32MZ_NINTERFACES > CHIP_NETHERNET -# undef CONFIG_PIC32MZ_NINTERFACES -# define CONFIG_PIC32MZ_NINTERFACES CHIP_NETHERNET -#endif - -/* The logic here has a few hooks for support for multiple interfaces, but - * that capability is not yet in place (and I won't worry about it until I get - * the first multi-interface PIC32MZ). - */ - -#if CONFIG_PIC32MZ_NINTERFACES > 1 -# warning "Only a single ethernet controller is supported" -# undef CONFIG_PIC32MZ_NINTERFACES -# define CONFIG_PIC32MZ_NINTERFACES 1 -#endif - -/* CONFIG_NET_MULTIBUFFER is required */ - -#ifndef CONFIG_NET_MULTIBUFFER -# error "CONFIG_NET_MULTIBUFFER=y is required" -#endif - -/* If IGMP is enabled, then accept multi-cast frames. */ - -#if defined(CONFIG_NET_IGMP) && !defined(CONFIG_NET_MULTICAST) -# define CONFIG_NET_MULTICAST 1 -#endif - -/* Use defaults if the number of discriptors is not provided */ - -#ifndef CONFIG_NET_NTXDESC -# define CONFIG_NET_NTXDESC 2 -#endif - -#if CONFIG_NET_NTXDESC > 255 -# error "The number of TX descriptors exceeds the range of a uint8_t index" -#endif - -#ifndef CONFIG_NET_NRXDESC -# define CONFIG_NET_NRXDESC 4 -#endif - -/* Make sure that the size of each buffer is a multiple of 4 bytes. This - * will force alignment of all buffers to 4-byte boundaries (this is needed - * by the queuing logic which will cast each buffer address to a pointer - * type). - */ - -#define PIC32MZ_ALIGNED_BUFSIZE ((CONFIG_NET_ETH_MTU + 3) & ~3) - -/* The number of buffers will, then, be one for each descriptor plus one extra */ - -#define PIC32MZ_NBUFFERS (CONFIG_NET_NRXDESC + CONFIG_NET_NTXDESC + 1) - -/* Debug Configuration *****************************************************/ -/* Register/Descriptor debug -- can only happen of CONFIG_DEBUG is selected. - * This will probably generate much more output than you care to see. - */ - -#ifndef CONFIG_DEBUG -# undef CONFIG_NET_REGDEBUG -# undef CONFIG_NET_DESCDEBUG -#endif - -/* CONFIG_NET_DUMPPACKET will dump the contents of each packet to the - * console. - */ - -#ifndef CONFIG_DEBUG -# undef CONFIG_NET_DUMPPACKET -#endif - -#ifdef CONFIG_NET_DUMPPACKET -# define pic32mz_dumppacket(m,a,n) lib_dumpbuffer(m,a,n) -#else -# define pic32mz_dumppacket(m,a,n) -#endif - -/* Timing *******************************************************************/ - -/* TX poll deley = 1 seconds. CLK_TCK is the number of clock ticks per second */ - -#define PIC32MZ_WDDELAY (1*CLK_TCK) -#define PIC32MZ_POLLHSEC (1*2) - -/* TX timeout = 1 minute */ - -#define PIC32MZ_TXTIMEOUT (60*CLK_TCK) - -/* PHY timout = 1 minute */ - -#define PIC32MZ_MIITIMEOUT (666666) - -/* Ethernet MII clocking. - * - * The clock divider used to create the MII Management Clock (MDC). The MIIM - * module uses the SYSCLK as an input clock. According to the IEEE 802.3 - * Specification this should be no faster than 2.5 MHz. However, some PHYs - * support clock rates up to 12.5 MHz. - * - * The board.h file provides the "ideal" divisor as BOARD_EMAC_MIIM_DIV. We - * pick the closest, actual divisor greater than or equal to this. - */ - -#if BOARD_EMAC_MIIM_DIV <= 4 -# define EMAC1_MCFG_CLKSEL_DIV EMAC1_MCFG_CLKSEL_DIV4 -#elif BOARD_EMAC_MIIM_DIV <= 6 -# define EMAC1_MCFG_CLKSEL_DIV EMAC1_MCFG_CLKSEL_DIV6 -#elif BOARD_EMAC_MIIM_DIV <= 8 -# define EMAC1_MCFG_CLKSEL_DIV EMAC1_MCFG_CLKSEL_DIV8 -#elif BOARD_EMAC_MIIM_DIV <= 10 -# define EMAC1_MCFG_CLKSEL_DIV EMAC1_MCFG_CLKSEL_DIV10 -#elif BOARD_EMAC_MIIM_DIV <= 14 -# define EMAC1_MCFG_CLKSEL_DIV EMAC1_MCFG_CLKSEL_DIV14 -#elif BOARD_EMAC_MIIM_DIV <= 20 -# define EMAC1_MCFG_CLKSEL_DIV EMAC1_MCFG_CLKSEL_DIV20 -#elif BOARD_EMAC_MIIM_DIV <= 28 -# define EMAC1_MCFG_CLKSEL_DIV EMAC1_MCFG_CLKSEL_DIV28 -#elif BOARD_EMAC_MIIM_DIV <= 40 -# define EMAC1_MCFG_CLKSEL_DIV EMAC1_MCFG_CLKSEL_DIV40 -#elif BOARD_EMAC_MIIM_DIV <= 48 -# define EMAC1_MCFG_CLKSEL_DIV EMAC1_MCFG_CLKSEL_DIV48 -#elif BOARD_EMAC_MIIM_DIV <= 50 -# define EMAC1_MCFG_CLKSEL_DIV EMAC1_MCFG_CLKSEL_DIV50 -#else -# error "MIIM divider cannot be realized" -#endif - -/* Interrupts ***************************************************************/ - -#define ETH_RXINTS (ETH_INT_RXOVFLW | ETH_INT_RXBUFNA | ETH_INT_RXDONE | ETH_INT_RXBUSE) -#define ETH_TXINTS (ETH_INT_TXABORT | ETH_INT_TXDONE | ETH_INT_TXBUSE) - -/* Misc. Helpers ***********************************************************/ - -/* This is a helper pointer for accessing the contents of the Ethernet header */ - -#define BUF ((struct eth_hdr_s *)priv->pd_dev.d_buf) - -/* PHYs *********************************************************************/ -/* Select PHY-specific values. Add more PHYs as needed. */ - -#if defined(CONFIG_ETH0_PHY_KS8721) -# define PIC32MZ_PHYNAME "KS8721" -# define PIC32MZ_PHYID1 MII_PHYID1_KS8721 -# define PIC32MZ_PHYID2 MII_PHYID2_KS8721 -# define PIC32MZ_HAVE_PHY 1 -#elif defined(CONFIG_ETH0_PHY_DP83848C) -# define PIC32MZ_PHYNAME "DP83848C" -# define PIC32MZ_PHYID1 MII_PHYID1_DP83848C -# define PIC32MZ_PHYID2 MII_PHYID2_DP83848C -# define PIC32MZ_HAVE_PHY 1 -#elif defined(CONFIG_ETH0_PHY_LAN8720) -# define PIC32MZ_PHYNAME "LAN8720" -# define PIC32MZ_PHYID1 MII_PHYID1_LAN8720 -# define PIC32MZ_PHYID2 MII_PHYID2_LAN8720 -# define PIC32MZ_HAVE_PHY 1 -#elif defined(CONFIG_ETH0_PHY_LAN8740) -# define PIC32MZ_PHYNAME "LAN8740" -# define PIC32MZ_PHYID1 MII_PHYID1_LAN8740 -# define PIC32MZ_PHYID2 MII_PHYID2_LAN8740 -# define PIC32MZ_HAVE_PHY 1 -#else -# warning "No PHY specified!" -# undef PIC32MZ_HAVE_PHY -#endif - -/* These definitions are used to remember the speed/duplex settings */ - -#define PIC32MZ_SPEED_MASK 0x01 -#define PIC32MZ_SPEED_100 0x01 -#define PIC32MZ_SPEED_10 0x00 - -#define PIC32MZ_DUPLEX_MASK 0x02 -#define PIC32MZ_DUPLEX_FULL 0x02 -#define PIC32MZ_DUPLEX_HALF 0x00 - -#define PIC32MZ_10BASET_HD (PIC32MZ_SPEED_10 | PIC32MZ_DUPLEX_HALF) -#define PIC32MZ_10BASET_FD (PIC32MZ_SPEED_10 | PIC32MZ_DUPLEX_FULL) -#define PIC32MZ_100BASET_HD (PIC32MZ_SPEED_100 | PIC32MZ_DUPLEX_HALF) -#define PIC32MZ_100BASET_FD (PIC32MZ_SPEED_100 | PIC32MZ_DUPLEX_FULL) - -#ifdef CONFIG_PHY_SPEED100 -# ifdef CONFIG_PHY_FDUPLEX -# define PIC32MZ_MODE_DEFLT PIC32MZ_100BASET_FD -# else -# define PIC32MZ_MODE_DEFLT PIC32MZ_100BASET_HD -# endif -#else -# ifdef CONFIG_PHY_FDUPLEX -# define PIC32MZ_MODE_DEFLT PIC32MZ_10BASET_FD -# else -# define PIC32MZ_MODE_DEFLT PIC32MZ_10BASET_HD -# endif -#endif - -/* Misc Helper Macros *******************************************************/ - -#define PHYS_ADDR(va) ((uint32_t)(va) & 0x1fffffff) -#define VIRT_ADDR(pa) (KSEG1_BASE | (uint32_t)(pa)) - -/* Ever-present MIN and MAX macros */ - -#ifndef MIN -# define MIN(a,b) (a < b ? a : b) -#endif - -#ifndef MAX -# define MAX(a,b) (a > b ? a : b) -#endif - -/**************************************************************************** - * Private Types - ****************************************************************************/ - -/* EMAC statistics (debug only) */ - -#if defined(CONFIG_DEBUG) && defined(CONFIG_DEBUG_NET) -struct pic32mz_statistics_s -{ - uint32_t rx_done; /* Rx done interrupts */ - uint32_t rx_errors; /* Number of Rx error interrupts */ - uint32_t rx_ovflw; /* Number of Rx overflow error interrupts */ - uint32_t rx_bufna; /* Number of Rx buffer not available errors */ - uint32_t rx_buse; /* Number of Rx BVCI bus errors */ - uint32_t rx_packets; /* Number of packets received (sum of the following): */ -#ifdef CONFIG_NET_IPv4 - uint32_t rx_ip; /* Number of Rx IPv4 packets received */ -#endif -#ifdef CONFIG_NET_IPv6 - uint32_t rx_ipv6; /* Number of Rx IPv6 packets received */ -#endif - uint32_t rx_arp; /* Number of Rx ARP packets received */ - uint32_t rx_dropped; /* Number of dropped, unsupported Rx packets */ - uint32_t rx_pkterr; /* Number of dropped, error in Rx descriptor */ - uint32_t rx_pktsize; /* Number of dropped, too small or too big */ - uint32_t rx_fragment; /* Number of dropped, packet fragments */ - uint32_t tx_done; /* Tx done interrupts */ - uint32_t tx_errors; /* Number of Tx error interrupts (OR of other errors) */ - uint32_t tx_abort; /* Number of Tx abort interrupts */ - uint32_t tx_buse; /* Number of Tx bus errors */ - uint32_t tx_packets; /* Number of Tx packets queued */ - uint32_t tx_pending; /* Number of Tx packets that had to wait for a TxDesc */ - uint32_t tx_unpend; /* Number of pending Tx packets that were sent */ - uint32_t tx_timeouts; /* Number of Tx timeout errors */ -}; -# define EMAC_STAT(priv,name) priv->pd_stat.name++ -#else -# define EMAC_STAT(priv,name) -#endif - -/* The pic32mz_driver_s encapsulates all state information for a single hardware - * interface - */ - -struct pic32mz_driver_s -{ - /* The following fields would only be necessary on chips that support - * multiple Ethernet controllers. - */ - -#if CONFIG_PIC32MZ_NINTERFACES > 1 - uint32_t pd_base; /* Ethernet controller base address */ - int pd_irq; /* Ethernet controller IRQ vector number */ - int pd_irqsrc; /* Ethernet controller IRQ source number */ -#endif - - bool pd_ifup; /* true:ifup false:ifdown */ - bool pd_txpending; /* There is a pending Tx in pd_dev */ - bool pd_polling; /* Avoid concurrent attempts to poll */ - uint8_t pd_mode; /* Speed/duplex */ -#ifdef PIC32MZ_HAVE_PHY - uint8_t pd_phyaddr; /* PHY device address */ -#endif - uint8_t pd_txnext; /* Index to the next Tx descriptor */ - uint32_t pd_inten; /* Shadow copy of INTEN register */ - WDOG_ID pd_txpoll; /* TX poll timer */ - WDOG_ID pd_txtimeout; /* TX timeout timer */ - - sq_queue_t pd_freebuffers; /* The free buffer list */ - -#if defined(CONFIG_DEBUG) && defined(CONFIG_DEBUG_NET) - struct pic32mz_statistics_s pd_stat; -#endif - - /* This holds the information visible to uIP/NuttX */ - - struct net_driver_s pd_dev; /* Interface understood by uIP */ - - /* Descriptors and packet buffers */ - - struct pic32mz_rxdesc_s pd_rxdesc[CONFIG_NET_NRXDESC]; - struct pic32mz_txdesc_s pd_txdesc[CONFIG_NET_NTXDESC]; - uint8_t pd_buffers[PIC32MZ_NBUFFERS * PIC32MZ_ALIGNED_BUFSIZE]; -}; - -/**************************************************************************** - * Private Data - ****************************************************************************/ - -/* Array of ethernet driver status structures */ - -static struct pic32mz_driver_s g_ethdrvr[CONFIG_PIC32MZ_NINTERFACES]; - -/**************************************************************************** - * Private Function Prototypes - ****************************************************************************/ - -/* Register operations */ - -#ifdef CONFIG_NET_REGDEBUG -static void pic32mz_printreg(uint32_t addr, uint32_t val, bool iswrite); -static void pic32mz_checkreg(uint32_t addr, uint32_t val, bool iswrite); -static uint32_t pic32mz_getreg(uint32_t addr); -static void pic32mz_putreg(uint32_t val, uint32_t addr); -#else -# define pic32mz_getreg(addr) getreg32(addr) -# define pic32mz_putreg(val,addr) putreg32(val,addr) -#endif - -/* Buffer and descriptor management */ - -#ifdef CONFIG_NET_DESCDEBUG -static void pic32mz_dumptxdesc(struct pic32mz_txdesc_s *txdesc, const char *msg); -static void pic32mz_dumprxdesc(struct pic32mz_rxdesc_s *rxdesc, const char *msg); -#else -# define pic32mz_dumptxdesc(txdesc,msg) -# define pic32mz_dumprxdesc(rxdesc,msg) -#endif - -static inline void pic32mz_bufferinit(struct pic32mz_driver_s *priv); -static uint8_t *pic32mz_allocbuffer(struct pic32mz_driver_s *priv); -static void pic32mz_freebuffer(struct pic32mz_driver_s *priv, uint8_t *buffer); - -static inline void pic32mz_txdescinit(struct pic32mz_driver_s *priv); -static inline void pic32mz_rxdescinit(struct pic32mz_driver_s *priv); -static inline struct pic32mz_txdesc_s *pic32mz_txdesc(struct pic32mz_driver_s *priv); -static inline void pic32mz_txnext(struct pic32mz_driver_s *priv); -static inline void pic32mz_rxreturn(struct pic32mz_rxdesc_s *rxdesc); -static struct pic32mz_rxdesc_s *pic32mz_rxdesc(struct pic32mz_driver_s *priv); - -/* Common TX logic */ - -static int pic32mz_transmit(struct pic32mz_driver_s *priv); -static int pic32mz_txpoll(struct net_driver_s *dev); -static void pic32mz_poll(struct pic32mz_driver_s *priv); -static void pic32mz_timerpoll(struct pic32mz_driver_s *priv); - -/* Interrupt handling */ - -static void pic32mz_response(struct pic32mz_driver_s *priv); -static void pic32mz_rxdone(struct pic32mz_driver_s *priv); -static void pic32mz_txdone(struct pic32mz_driver_s *priv); -static int pic32mz_interrupt(int irq, void *context); - -/* Watchdog timer expirations */ - -static void pic32mz_polltimer(int argc, uint32_t arg, ...); -static void pic32mz_txtimeout(int argc, uint32_t arg, ...); - -/* NuttX callback functions */ - -static int pic32mz_ifup(struct net_driver_s *dev); -static int pic32mz_ifdown(struct net_driver_s *dev); -static int pic32mz_txavail(struct net_driver_s *dev); -#ifdef CONFIG_NET_IGMP -static int pic32mz_addmac(struct net_driver_s *dev, const uint8_t *mac); -static int pic32mz_rmmac(struct net_driver_s *dev, const uint8_t *mac); -#endif - -/* PHY initialization functions */ - -#ifdef PIC32MZ_HAVE_PHY -# ifdef CONFIG_NET_REGDEBUG -static void pic32mz_showmii(uint8_t phyaddr, const char *msg); -# else -# define pic32mz_showmii(phyaddr,msg) -# endif - -static void pic32mz_phybusywait(void); -static void pic32mz_phywrite(uint8_t phyaddr, uint8_t regaddr, - uint16_t phydata); -static uint16_t pic32mz_phyread(uint8_t phyaddr, uint8_t regaddr); -static inline int pic32mz_phyreset(uint8_t phyaddr); -# ifdef CONFIG_PHY_AUTONEG -static inline int pic32mz_phyautoneg(uint8_t phyaddr); -# endif -static int pic32mz_phymode(uint8_t phyaddr, uint8_t mode); -static inline int pic32mz_phyinit(struct pic32mz_driver_s *priv); -#else -# define pic32mz_phyinit(priv) -#endif - -/* EMAC Initialization functions */ - -static void pic32mz_macmode(uint8_t mode); -static void pic32mz_ethreset(struct pic32mz_driver_s *priv); - -/**************************************************************************** - * Private Functions - ****************************************************************************/ - -/******************************************************************************* - * Name: pic32mz_printreg - * - * Description: - * Print the contents of an PIC32MZ register operation - * - *******************************************************************************/ - -#ifdef CONFIG_NET_REGDEBUG -static void pic32mz_printreg(uint32_t addr, uint32_t val, bool iswrite) -{ - lldbg("%08x%s%08x\n", addr, iswrite ? "<-" : "->", val); -} -#endif - -/******************************************************************************* - * Name: pic32mz_checkreg - * - * Description: - * Get the contents of an PIC32MZ register - * - *******************************************************************************/ - -#ifdef CONFIG_NET_REGDEBUG -static void pic32mz_checkreg(uint32_t addr, uint32_t val, bool iswrite) -{ - static uint32_t prevaddr = 0; - static uint32_t preval = 0; - static uint32_t count = 0; - static bool prevwrite = false; - - /* Is this the same value that we read from/wrote to the same register last time? - * Are we polling the register? If so, suppress the output. - */ - - if (addr == prevaddr && val == preval && prevwrite == iswrite) - { - /* Yes.. Just increment the count */ - - count++; - } - else - { - /* No this is a new address or value or operation. Were there any - * duplicate accesses before this one? - */ - - if (count > 0) - { - /* Yes.. Just one? */ - - if (count == 1) - { - /* Yes.. Just one */ - - pic32mz_printreg(prevaddr, preval, prevwrite); - } - else - { - /* No.. More than one. */ - - lldbg("[repeats %d more times]\n", count); - } - } - - /* Save the new address, value, count, and operation for next time */ - - prevaddr = addr; - preval = val; - count = 0; - prevwrite = iswrite; - - /* Show the new register access */ - - pic32mz_printreg(addr, val, iswrite); - } -} -#endif - -/******************************************************************************* - * Name: pic32mz_getreg - * - * Description: - * Get the contents of an PIC32MZ register - * - *******************************************************************************/ - -#ifdef CONFIG_NET_REGDEBUG -static uint32_t pic32mz_getreg(uint32_t addr) -{ - /* Read the value from the register */ - - uint32_t val = getreg32(addr); - - /* Check if we need to print this value */ - - pic32mz_checkreg(addr, val, false); - return val; -} -#endif - -/******************************************************************************* - * Name: pic32mz_putreg - * - * Description: - * Set the contents of an PIC32MZ register to a value - * - *******************************************************************************/ - -#ifdef CONFIG_NET_REGDEBUG -static void pic32mz_putreg(uint32_t val, uint32_t addr) -{ - /* Check if we need to print this value */ - - pic32mz_checkreg(addr, val, true); - - /* Write the value */ - - putreg32(val, addr); -} -#endif - -/**************************************************************************** - * Function: pic32mz_dumptxdesc - * - * Description: - * Dump the contents of the specified TX descriptor - * - * Parameters: - * txdesc - Pointer to the TX descriptor to dump - * msg - Annotation for the TX descriptor - * - * Returned Value: - * None - * - ****************************************************************************/ - -#ifdef CONFIG_NET_DESCDEBUG -static void pic32mz_dumptxdesc(struct pic32mz_txdesc_s *txdesc, const char *msg) -{ - lldbg("TX Descriptor [%p]: %s\n", txdesc, msg); - lldbg(" status: %08x\n", txdesc->status); - lldbg(" address: %08x [%08x]\n", txdesc->address, VIRT_ADDR(txdesc->address)); - lldbg(" tsv1: %08x\n", txdesc->tsv1); - lldbg(" tsv2: %08x\n", txdesc->tsv2); - lldbg(" nexted: %08x [%08x]\n", txdesc->nexted, VIRT_ADDR(txdesc->nexted)); -} -#endif - -/**************************************************************************** - * Function: pic32mz_dumprxdesc - * - * Description: - * Dump the contents of the specified RX descriptor - * - * Parameters: - * txdesc - Pointer to the RX descriptor to dump - * msg - Annotation for the RX descriptor - * - * Returned Value: - * None - * - ****************************************************************************/ - -#ifdef CONFIG_NET_DESCDEBUG -static void pic32mz_dumprxdesc(struct pic32mz_rxdesc_s *rxdesc, const char *msg) -{ - lldbg("RX Descriptor [%p]: %s\n", rxdesc, msg); - lldbg(" status: %08x\n", rxdesc->status); - lldbg(" address: %08x [%08x]\n", rxdesc->address, VIRT_ADDR(rxdesc->address)); - lldbg(" rsv1: %08x\n", rxdesc->rsv1); - lldbg(" rsv2: %08x\n", rxdesc->rsv2); - lldbg(" nexted: %08x [%08x]\n", rxdesc->nexted, VIRT_ADDR(rxdesc->nexted)); -} -#endif - -/**************************************************************************** - * Function: pic32mz_bufferinit - * - * Description: - * Initialize the buffers by placing them all in a free list - * - * Parameters: - * priv - Pointer to EMAC device driver structure - * - * Returned Value: - * None - * - ****************************************************************************/ - -static inline void pic32mz_bufferinit(struct pic32mz_driver_s *priv) -{ - uint8_t *buffer; - int i; - - for (i = 0, buffer = priv->pd_buffers; i < PIC32MZ_NBUFFERS; i++) - { - /* Add the buffer to the end of the list of free buffers */ - - sq_addlast((sq_entry_t*)buffer, &priv->pd_freebuffers); - - /* Get the address of the next buffer */ - - buffer += PIC32MZ_ALIGNED_BUFSIZE; - } -} - -/**************************************************************************** - * Function: pic32mz_allocbuffer - * - * Description: - * Allocate one buffer by removing it from the free list - * - * Parameters: - * priv - Pointer to EMAC device driver structure - * - * Returned Value: - * Pointer to the allocated buffer (or NULL on failure) - * - ****************************************************************************/ - -static uint8_t *pic32mz_allocbuffer(struct pic32mz_driver_s *priv) -{ - /* Return the next free buffer from the head of the free buffer list */ - - return (uint8_t*)sq_remfirst(&priv->pd_freebuffers); -} - -/**************************************************************************** - * Function: pic32mz_freebuffer - * - * Description: - * Free one buffer by returning it to the free list - * - * Parameters: - * priv - Pointer to EMAC device driver structure - * - * Returned Value: - * Pointer to the allocated buffer (or NULL on failure) - * - ****************************************************************************/ - -static void pic32mz_freebuffer(struct pic32mz_driver_s *priv, uint8_t *buffer) -{ - /* Add the buffer to the end of the free buffer list */ - - sq_addlast((sq_entry_t*)buffer, &priv->pd_freebuffers); -} - -/**************************************************************************** - * Function: pic32mz_txdescinit - * - * Description: - * Initialize the EMAC Tx descriptor table - * - * Parameters: - * priv - Pointer to EMAC device driver structure - * - * Returned Value: - * None - * - * Assumptions: - * - ****************************************************************************/ - -static inline void pic32mz_txdescinit(struct pic32mz_driver_s *priv) -{ - struct pic32mz_txdesc_s *txdesc; - int i; - - /* Assign a buffer to each TX descriptor. For now, just mark each TX - * descriptor as owned by softare andnot linked. - */ - - for (i = 0; i < CONFIG_NET_NTXDESC; i++) - { - /* Point to the next entry */ - - txdesc = &priv->pd_txdesc[i]; - - /* Initialize the buffer. It is idle, owned by software and has - * no buffer assigned to it. - */ - - txdesc->status = TXDESC_STATUS_SOWN | TXDESC_STATUS_NPV; - txdesc->address = 0; - txdesc->tsv1 = 0; - txdesc->tsv2 = 0; - - /* Set the NEXTED pointer. If this is the last descriptor in the - * list, then set the NEXTED pointer back to the first entry, - * creating a ring. - */ - - if (i == (CONFIG_NET_NRXDESC-1)) - { - txdesc->nexted = PHYS_ADDR(priv->pd_txdesc); - } - else - { - txdesc->nexted = PHYS_ADDR(&priv->pd_txdesc[i+1]); - } - - pic32mz_dumptxdesc(txdesc, "Initial"); - } - - /* Position the Tx index to the first descriptor in the ring */ - - priv->pd_txnext = 0; - - /* Update the ETHTXST register with the physical address of the head of - * the TX descriptors list. - */ - - pic32mz_putreg(PHYS_ADDR(priv->pd_txdesc), PIC32MZ_ETH_TXST); -} - -/**************************************************************************** - * Function: pic32mz_rxdescinit - * - * Description: - * Initialize the EMAC Rx descriptor table - * - * Parameters: - * priv - Pointer to EMAC device driver structure - * - * Returned Value: - * None - * - * Assumptions: - * - ****************************************************************************/ - -static inline void pic32mz_rxdescinit(struct pic32mz_driver_s *priv) -{ - struct pic32mz_rxdesc_s *rxdesc; - int i; - - /* Prepare a list of RX descriptors populated with valid buffers for - * messages to be received. Properly update the NPV, EOWN = 1 and - * DATA_BUFFER_ADDRESS fields in the RX descriptors. The - * DATA_BUFFER_ADDRESS should contain the physical address of the - * corresponding RX buffer. - */ - - for (i = 0; i < CONFIG_NET_NRXDESC; i++) - { - /* Point to the next entry */ - - rxdesc = &priv->pd_rxdesc[i]; - - /* Initialize the descriptor. Assign it a buffer and make it ready - * for reception. - */ - - rxdesc->rsv1 = 0; - rxdesc->rsv2 = 0; - rxdesc->address = PHYS_ADDR(pic32mz_allocbuffer(priv)); - rxdesc->status = RXDESC_STATUS_EOWN | TXDESC_STATUS_NPV; - - /* Set the NEXTED pointer. If this is the last descriptor in the - * list, then set the NEXTED pointer back to the first entry, - * creating a ring. - */ - - if (i == (CONFIG_NET_NRXDESC-1)) - { - rxdesc->nexted = PHYS_ADDR(priv->pd_rxdesc); - } - else - { - rxdesc->nexted = PHYS_ADDR(&priv->pd_rxdesc[i+1]); - } - - pic32mz_dumprxdesc(rxdesc, "Initial"); - } - - /* Update the ETHRXST register with the physical address of the head of the - * RX descriptors list. - */ - - pic32mz_putreg(PHYS_ADDR(priv->pd_rxdesc), PIC32MZ_ETH_RXST); -} - -/**************************************************************************** - * Function: pic32mz_txdesc - * - * Description: - * Check if the next Tx descriptor is available. - * - * Parameters: - * priv - Reference to the driver state structure - * - * Returned Value: - * A pointer to the next available Tx descriptor on success; NULL if the - * next Tx dscriptor is not available. - * - ****************************************************************************/ - -static inline struct pic32mz_txdesc_s *pic32mz_txdesc(struct pic32mz_driver_s *priv) -{ - struct pic32mz_txdesc_s *txdesc; - - /* Get a reference to the next Tx descriptor in the ring */ - - txdesc = &priv->pd_txdesc[priv->pd_txnext]; - - /* Check if the EOWN bit is cleared. If it is, this descriptor is now under - * software control and the message has been transmitted. - * - * Also check that the buffer address is NULL. There is a race condition - * in that the hardware may have completed the transfer, but there may - * still be a valid buffer attached to the Tx descriptor because we have - * not yet processed the Tx done condition. We will know that the Tx - * done condition has been processed when the buffer has been freed and - * reset to zero. - */ - - if ((txdesc->status & TXDESC_STATUS_EOWN) == 0 && txdesc->address == 0) - { - /* Yes.. return a pointer to the descriptor */ - - return txdesc; - } - - /* The next Tx descriptor is still owned by the Ethernet controller.. the - * Tx ring if full and cannot be used now. Return NULL. - */ - - return NULL; -} - -/**************************************************************************** - * Function: pic32mz_txnext - * - * Description: - * After the next Tx descriptor has been given to the hardware, update the - * index to the next Tx descriptor in the ring. - * - * Parameters: - * priv - Reference to the driver state structure - * - * Returned Value: - * None. - * - ****************************************************************************/ - -static inline void pic32mz_txnext(struct pic32mz_driver_s *priv) -{ - /* Increment the index to the next Tx descriptor in the ring */ - - int txnext = priv->pd_txnext + 1; - - /* If the new index would go beyond the end of the allocated descriptors - * for the Tx ring, then reset to first descriptor. - */ - - if (txnext >= CONFIG_NET_NTXDESC) - { - txnext = 0; - } - - /* Save the index to the next Tx descriptor */ - - priv->pd_txnext = txnext; -} - -/**************************************************************************** - * Function: pic32mz_rxreturn - * - * Description: - * Return an RX descriptor to the hardware. - * - * Parameters: - * rxdesc - Reference to the RX descriptor to be returned - * - * Returned Value: - * None - * - * Assumptions: - * - ****************************************************************************/ - -static inline void pic32mz_rxreturn(struct pic32mz_rxdesc_s *rxdesc) -{ - rxdesc->rsv1 = 0; - rxdesc->rsv2 = 0; - rxdesc->status = RXDESC_STATUS_EOWN | TXDESC_STATUS_NPV; - pic32mz_dumprxdesc(rxdesc, "Returned to hardware"); -} - -/**************************************************************************** - * Function: pic32mz_rxdesc - * - * Description: - * Check if a RX descriptor is owned by the software. - * - * Parameters: - * priv - Reference to the driver state structure - * - * Returned Value: - * A pointer to the RX descriptor on success; NULL on failure - * - * Assumptions: - * May or may not be called from an interrupt handler. In either case, - * global interrupts are disabled, either explicitly or indirectly through - * interrupt handling logic. - * - ****************************************************************************/ - -static struct pic32mz_rxdesc_s *pic32mz_rxdesc(struct pic32mz_driver_s *priv) -{ - struct pic32mz_rxdesc_s *rxdesc; - int i; - - /* Inspect the list of RX descriptors to see if the EOWN bit is cleared. - * If it is, this descriptor is now under software control and a message was - * received. Use SOP and EOP to extract the message, use BYTE_COUNT, RXF_RSV, - * RSV and PKT_CHECKSUM to get the message characteristics. - */ - - for (i = 0; i < CONFIG_NET_NRXDESC; i++) - { - /* Check if software owns this descriptor */ - - rxdesc = &priv->pd_rxdesc[i]; - if ((rxdesc->status & RXDESC_STATUS_EOWN) == 0) - { - /* Yes.. return a pointer to the desciptor */ - - return rxdesc; - } - } - - /* All descriptors are owned by the Ethernet controller.. return NULL */ - - return NULL; -} - -/**************************************************************************** - * Function: pic32mz_transmit - * - * Description: - * Start hardware transmission. Called either from the txdone interrupt - * handling or from watchdog based polling. - * - * Parameters: - * priv - Reference to the driver state structure - * - * Returned Value: - * OK on success; a negated errno on failure - * - * Assumptions: - * May or may not be called from an interrupt handler. In either case, - * global interrupts are disabled, either explicitly or indirectly through - * interrupt handling logic. - * - ****************************************************************************/ - -static int pic32mz_transmit(struct pic32mz_driver_s *priv) -{ - struct pic32mz_txdesc_s *txdesc; - uint32_t status; - - /* Verify that the hardware is ready to send another packet. If we get - * here, then we are committed to sending a packet; Higher level logic - * must have assured that there is no transmission in progress. - */ - - DEBUGASSERT(priv->pd_dev.d_buf != NULL && - priv->pd_dev.d_len < CONFIG_NET_ETH_MTU); - - /* Increment statistics and dump the packet (if so configured) */ - - EMAC_STAT(priv, tx_packets); - pic32mz_dumppacket("Transmit packet", priv->pd_dev.d_buf, priv->pd_dev.d_len); - - /* In order to transmit a message: - * - * The SOP, EOP, DATA_BUFFER_ADDRESS and BYTE_COUNT will be updated when a - * particular message has to be transmitted. The DATA_BUFFER_ADDRESS will - * contain the physical address of the message, the BYTE_COUNT message size. - * SOP and EOP are set depending on how many packets are needed to transmit - * the message. - */ - - /* Find the next available TX descriptor. We are guaranteed that is will - * not fail by upstream logic that assures that a TX packet is available - * before polling uIP. - */ - - txdesc = pic32mz_txdesc(priv); - DEBUGASSERT(txdesc != NULL); - pic32mz_dumptxdesc(txdesc, "Before transmit setup"); - - /* Remove the transmit buffer from the device structure and assign it to - * the TX descriptor. - */ - - txdesc->address = PHYS_ADDR(priv->pd_dev.d_buf); - priv->pd_dev.d_buf = NULL; - - /* Set the BYTE_COUNT for in the TX descriptor with the number of bytes - * contained in the buffer. - */ - - status = ((uint32_t)priv->pd_dev.d_len << TXDESC_STATUS_BYTECOUNT_SHIFT); - priv->pd_dev.d_len = 0; - - /* Set EOWN = 1 to indicate that the packet belongs to Ethernet and set both - * SOP and EOP to indicate that the packet both begins and ends with this - * frame. - */ - - status |= (TXDESC_STATUS_EOWN | TXDESC_STATUS_NPV | - TXDESC_STATUS_EOP | TXDESC_STATUS_SOP); - txdesc->status = status; - pic32mz_dumptxdesc(txdesc, "After transmit setup"); - - /* Update the index to the next descriptor to use in the Tx ring */ - - pic32mz_txnext(priv); - - /* Enable the transmission of the message by setting the TXRTS bit (ETHCON1:9). */ - - pic32mz_putreg(ETH_CON1_TXRTS | ETH_CON1_ON, PIC32MZ_ETH_CON1SET); - - /* Enable Tx interrupts */ - - priv->pd_inten |= ETH_TXINTS; - pic32mz_putreg(priv->pd_inten, PIC32MZ_ETH_IEN); - - /* Setup the TX timeout watchdog (perhaps restarting the timer) */ - - (void)wd_start(priv->pd_txtimeout, PIC32MZ_TXTIMEOUT, pic32mz_txtimeout, - 1, (uint32_t)priv); - - return OK; -} - -/**************************************************************************** - * Function: pic32mz_txpoll - * - * Description: - * The transmitter is available, check if uIP has any outgoing packets ready - * to send. This is a callback from devif_poll(). devif_poll() may be called: - * - * 1. When the preceding TX packet send is complete, - * 2. When the preceding TX packet send timesout and the interface is reset - * 3. During normal TX polling - * - * Parameters: - * dev - Reference to the NuttX driver state structure - * - * Returned Value: - * OK on success; a negated errno on failure - * - * Assumptions: - * May or may not be called from an interrupt handler. In either case, - * global interrupts are disabled, either explicitly or indirectly through - * interrupt handling logic. - * - ****************************************************************************/ - -static int pic32mz_txpoll(struct net_driver_s *dev) -{ - struct pic32mz_driver_s *priv = (struct pic32mz_driver_s *)dev->d_private; - int ret = OK; - - /* If the polling resulted in data that should be sent out on the network, - * the field d_len is set to a value > 0. - */ - - if (priv->pd_dev.d_len > 0) - { - /* Look up the destination MAC address and add it to the Ethernet - * header. - */ - -#ifdef CONFIG_NET_IPv4 -#ifdef CONFIG_NET_IPv6 - if (IFF_IS_IPv4(priv->pd_dev.d_flags)) -#endif - { - arp_out(&priv->pd_dev); - } -#endif /* CONFIG_NET_IPv4 */ - -#ifdef CONFIG_NET_IPv6 -#ifdef CONFIG_NET_IPv4 - else -#endif - { - neighbor_out(&priv->pd_dev); - } -#endif /* CONFIG_NET_IPv6 */ - - /* Send this packet. In this context, we know that there is space for - * at least one more packet in the descriptor list. - */ - - pic32mz_transmit(priv); - - /* Check if the next TX descriptor is available. If not, return a - * non-zero value to terminate the poll. - */ - - if (pic32mz_txdesc(priv) == NULL) - { - /* There are no more TX descriptors/buffers available.. stop the poll */ - - return -EAGAIN; - } - - /* Get the next Tx buffer needed in order to continue the poll */ - - priv->pd_dev.d_buf = pic32mz_allocbuffer(priv); - if (priv->pd_dev.d_buf == NULL) - { - /* We have no more buffers available for the nex Tx.. stop the poll */ - - return -ENOMEM; - } - } - - /* If zero is returned, the polling will continue until all connections have - * been examined. - */ - - return ret; -} - -/**************************************************************************** - * Function: pic32mz_poll - * - * Description: - * Perform the uIP poll. - * - * Parameters: - * priv - Reference to the driver state structure - * - * Returned Value: - * None - * - ****************************************************************************/ - -static void pic32mz_poll(struct pic32mz_driver_s *priv) -{ - /* Is there already a poll in progress. This happens, for example, when - * debugging output is enabled. Interrupts may be re-enabled while debug - * output is performed and a timer expiration could attempt a concurrent - * poll. - */ - - if (!priv->pd_polling) - { - /* Assign a buffer for the poll */ - - DEBUGASSERT(priv->pd_dev.d_buf == NULL); - priv->pd_dev.d_buf = pic32mz_allocbuffer(priv); - if (priv->pd_dev.d_buf != NULL) - { - /* And perform the poll */ - - priv->pd_polling = true; - (void)devif_poll(&priv->pd_dev, pic32mz_txpoll); - - /* Free any buffer left attached after the poll */ - - if (priv->pd_dev.d_buf != NULL) - { - pic32mz_freebuffer(priv, priv->pd_dev.d_buf); - priv->pd_dev.d_buf = NULL; - } - priv->pd_polling = false; - } - } - -} - -/**************************************************************************** - * Function: pic32mz_timerpoll - * - * Description: - * Perform the uIP timer poll. - * - * Parameters: - * priv - Reference to the driver state structure - * - * Returned Value: - * None - * - ****************************************************************************/ - -static void pic32mz_timerpoll(struct pic32mz_driver_s *priv) -{ - /* Is there already a poll in progress. This happens, for example, when - * debugging output is enabled. Interrupts may be re-enabled while debug - * output is performed and a timer expiration could attempt a concurrent - * poll. - */ - - if (!priv->pd_polling) - { - DEBUGASSERT(priv->pd_dev.d_buf == NULL); - priv->pd_dev.d_buf = pic32mz_allocbuffer(priv); - if (priv->pd_dev.d_buf != NULL) - { - /* And perform the poll */ - - priv->pd_polling = true; - (void)devif_timer(&priv->pd_dev, pic32mz_txpoll, PIC32MZ_POLLHSEC); - - /* Free any buffer left attached after the poll */ - - if (priv->pd_dev.d_buf != NULL) - { - pic32mz_freebuffer(priv, priv->pd_dev.d_buf); - priv->pd_dev.d_buf = NULL; - } - priv->pd_polling = false; - } - } -} - -/**************************************************************************** - * Function: pic32mz_response - * - * Description: - * While processing an RxDone event, higher logic decides to send a packet, - * possibly a response to the incoming packet (but probably not, in reality). - * However, since the Rx and Tx operations are decoupled, there is no - * guarantee that there will be a Tx descriptor available at that time. - * This function will perform that check and, if no Tx descriptor is - * available, this function will (1) stop incoming Rx processing (bad), and - * (2) hold the outgoing packet in a pending state until the next Tx - * interrupt occurs. - * - * Parameters: - * priv - Reference to the driver state structure - * - * Returned Value: - * None - * - * Assumptions: - * Global interrupts are disabled by interrupt handling logic. - * - ****************************************************************************/ - -static void pic32mz_response(struct pic32mz_driver_s *priv) -{ - struct pic32mz_txdesc_s *txdesc; - - /* Check if the next TX descriptor is available. */ - - txdesc = pic32mz_txdesc(priv); - if (txdesc != NULL) - { - /* Yes.. queue the packet now. */ - - pic32mz_transmit(priv); - } - else - { - /* No.. mark the Tx as pending and halt further Rx interrupts */ - - DEBUGASSERT((priv->pd_inten & ETH_INT_TXDONE) != 0); - - priv->pd_txpending = true; - priv->pd_inten &= ~ETH_RXINTS; - pic32mz_putreg(priv->pd_inten, PIC32MZ_ETH_IEN); - EMAC_STAT(priv, tx_pending); - } -} - -/**************************************************************************** - * Function: pic32mz_rxdone - * - * Description: - * An interrupt was received indicating the availability of a new RX packet - * - * Parameters: - * priv - Reference to the driver state structure - * - * Returned Value: - * None - * - * Assumptions: - * Global interrupts are disabled by interrupt handling logic. - * - ****************************************************************************/ - -static void pic32mz_rxdone(struct pic32mz_driver_s *priv) -{ - struct pic32mz_rxdesc_s *rxdesc; - - /* Loop while there are incoming packets to be processed, that is, while - * the producer index is not equal to the consumer index. - */ - - for (;;) - { - /* Check if any RX descriptor has the EOWN bit cleared meaning that the - * this descriptor is now under software control and a message was - * received. - */ - - rxdesc = pic32mz_rxdesc(priv); - if (rxdesc == NULL) - { - /* All RX descriptors are owned by the Ethernet controller... we - * are finished here. - */ - - return; - } - pic32mz_dumprxdesc(rxdesc, "RX Complete"); - - /* Update statistics */ - - EMAC_STAT(priv, rx_packets); - - /* Get the packet length */ - - priv->pd_dev.d_len = (rxdesc->rsv2 & RXDESC_RSV2_BYTECOUNT_MASK) >> RXDESC_RSV2_BYTECOUNT_SHIFT; - - /* Check for errors */ - - if ((rxdesc->rsv2 & RXDESC_RSV2_OK) == 0) - { - nlldbg("ERROR. rsv1: %08x rsv2: %08x\n", rxdesc->rsv1, rxdesc->rsv2); - EMAC_STAT(priv, rx_pkterr); - pic32mz_rxreturn(rxdesc); - } - - /* If the packet length is greater then the buffer, then we cannot accept - * the packet. Also, since the DMA packet buffers are set up to - * be the same size as our max packet size, any fragments also - * imply that the packet is too big. - */ - - else if (priv->pd_dev.d_len > CONFIG_NET_ETH_MTU) - { - nlldbg("Too big. packet length: %d rxdesc: %08x\n", priv->pd_dev.d_len, rxdesc->status); - EMAC_STAT(priv, rx_pktsize); - pic32mz_rxreturn(rxdesc); - } - - /* We don't have any logic here for reassembling packets from fragments. */ - - else if ((rxdesc->status & (RXDESC_STATUS_EOP|RXDESC_STATUS_SOP)) != (RXDESC_STATUS_EOP|RXDESC_STATUS_SOP)) - { - nlldbg("Fragment. packet length: %d rxdesc: %08x\n", priv->pd_dev.d_len, rxdesc->status); - EMAC_STAT(priv, rx_fragment); - pic32mz_rxreturn(rxdesc); - } - else - { - uint8_t *rxbuffer; - - /* Get the Rx buffer address from the Rx descriptor */ - - priv->pd_dev.d_buf = (uint8_t*)VIRT_ADDR(rxdesc->address); - DEBUGASSERT(priv->pd_dev.d_buf != NULL); - - /* Replace the buffer in the RX descriptor with a new one */ - - rxbuffer = pic32mz_allocbuffer(priv); - DEBUGASSERT(rxbuffer != NULL); - rxdesc->address = PHYS_ADDR(rxbuffer); - - /* And give the RX descriptor back to the hardware */ - - pic32mz_rxreturn(rxdesc); - pic32mz_dumppacket("Received packet", - priv->pd_dev.d_buf, priv->pd_dev.d_len); - -#ifdef CONFIG_NET_PKT - /* When packet sockets are enabled, feed the frame into the packet - * tap. - */ - - pkt_input(&priv->pd_dev); -#endif - - /* We only accept IP packets of the configured type and ARP packets */ - -#ifdef CONFIG_NET_IPv4 - if (BUF->type == HTONS(ETHTYPE_IP)) - { - nllvdbg("IPv4 frame\n"); - - /* Handle ARP on input then give the IPv4 packet to the network - * layer - */ - - EMAC_STAT(priv, rx_ip); - arp_ipin(&priv->pd_dev); - ipv4_input(&priv->pd_dev); - - /* If the above function invocation resulted in data that - * should be sent out on the network, the field d_len will - * set to a value > 0. - */ - - if (priv->pd_dev.d_len > 0) - { - /* Update the Ethernet header with the correct MAC address */ - -#ifdef CONFIG_NET_IPv6 - if (IFF_IS_IPv4(priv->pd_dev.d_flags)) -#endif - { - arp_out(&priv->pd_dev); - } -#ifdef CONFIG_NET_IPv6 - else - { - neighbor_out(&priv->pd_dev); - } -#endif - - /* And send the packet */ - - pic32mz_response(priv); - } - } - else -#endif -#ifdef CONFIG_NET_IPv6 - if (BUF->type == HTONS(ETHTYPE_IP6)) - { - nllvdbg("Iv6 frame\n"); - - /* Give the IPv6 packet to the network layer */ - - EMAC_STAT(priv, rx_ipv6); - ipv6_input(&priv->pd_dev); - - /* If the above function invocation resulted in data that - * should be sent out on the network, the field d_len will - * set to a value > 0. - */ - - if (priv->pd_dev.d_len > 0) - { - /* Update the Ethernet header with the correct MAC address */ - -#ifdef CONFIG_NET_IPv4 - if (IFF_IS_IPv4(priv->pd_dev.d_flags)) - { - arp_out(&priv->pd_dev); - } - else -#endif -#ifdef CONFIG_NET_IPv6 - { - neighbor_out(&priv->pd_dev); - } -#endif - - /* And send the packet */ - - pic32mz_response(priv); - } - } - else -#endif -#ifdef CONFIG_NET_ARP - if (BUF->type == htons(ETHTYPE_ARP)) - { - /* Handle the incoming ARP packet */ - - EMAC_STAT(priv, rx_arp); - arp_arpin(&priv->pd_dev); - - /* If the above function invocation resulted in data that - * should be sent out on the network, the field d_len will - * set to a value > 0. - */ - - if (priv->pd_dev.d_len > 0) - { - pic32mz_response(priv); - } - } - else -#endif - { - /* Unrecognized... drop it. */ - - nlldbg("Unrecognized packet type dropped: %04x\n", ntohs(BUF->type)); - EMAC_STAT(priv, rx_dropped); - } - - /* Discard any buffers still attached to the device structure */ - - priv->pd_dev.d_len = 0; - if (priv->pd_dev.d_buf) - { - pic32mz_freebuffer(priv, priv->pd_dev.d_buf); - priv->pd_dev.d_buf = NULL; - } - } - } -} - -/**************************************************************************** - * Function: pic32mz_txdone - * - * Description: - * An interrupt was received indicating that the last TX packet(s) is done - * - * Parameters: - * priv - Reference to the driver state structure - * - * Returned Value: - * None - * - * Assumptions: - * Global interrupts are disabled by interrupt handling logic. - * - ****************************************************************************/ - -static void pic32mz_txdone(struct pic32mz_driver_s *priv) -{ - struct pic32mz_txdesc_s *txdesc; - int i; - - /* Cancel the pending Tx timeout */ - - wd_cancel(priv->pd_txtimeout); - - /* Disable further Tx interrupts. Tx interrupts may be re-enabled again - * depending upon the result of the poll. - */ - - priv->pd_inten &= ~ETH_TXINTS; - pic32mz_putreg(priv->pd_inten, PIC32MZ_ETH_IEN); - - /* Verify that the hardware is ready to send another packet. Since a Tx - * just completed, this must be the case. - */ - - DEBUGASSERT(pic32mz_txdesc(priv) != NULL); - - /* Inspect the list of TX descriptors to see if the EOWN bit is cleared. If it - * is, this descriptor is now under software control and the message was - * transmitted. Use TSV to check for the transmission result. - */ - - for (i = 0; i < CONFIG_NET_NTXDESC; i++) - { - txdesc = &priv->pd_txdesc[i]; - - /* Check if software owns this descriptor */ - - if ((txdesc->status & TXDESC_STATUS_EOWN) == 0) - { - /* Yes.. Check if there is a buffer attached? */ - - if (txdesc->address != 0) - { - pic32mz_dumptxdesc(txdesc, "Freeing TX buffer"); - - /* Free the TX buffer */ - - pic32mz_freebuffer(priv, (uint8_t *)VIRT_ADDR(txdesc->address)); - txdesc->address = 0; - - /* Reset status */ - - txdesc->tsv1 = 0; - txdesc->tsv2 = 0; - txdesc->status = TXDESC_STATUS_SOWN | TXDESC_STATUS_NPV; - pic32mz_dumptxdesc(txdesc, "TX buffer freed"); - } - } - } - - /* Check if there is a pending Tx transfer that was deferred by Rx handling - * because there were no available Tx descriptors. If so, process that - * pending Tx now. - */ - - if (priv->pd_txpending) - { - /* Clear the pending condition, send the packet, and restore Rx interrupts */ - - priv->pd_txpending = false; - EMAC_STAT(priv, tx_unpend); - - pic32mz_transmit(priv); - - priv->pd_inten |= ETH_RXINTS; - pic32mz_putreg(priv->pd_inten, PIC32MZ_ETH_IEN); - } - - /* Otherwise poll uIP for new XMIT data */ - - else - { - /* Perform the uIP poll */ - - pic32mz_poll(priv); - } -} - -/**************************************************************************** - * Function: pic32mz_interrupt - * - * Description: - * Hardware interrupt handler - * - * Parameters: - * irq - Number of the IRQ that generated the interrupt - * context - Interrupt register state save info (architecture-specific) - * - * Returned Value: - * OK on success - * - * Assumptions: - * - ****************************************************************************/ - -static int pic32mz_interrupt(int irq, void *context) -{ - register struct pic32mz_driver_s *priv; - uint32_t status; - -#if CONFIG_PIC32MZ_NINTERFACES > 1 -# error "A mechanism to associate and interface with an IRQ is needed" -#else - priv = &g_ethdrvr[0]; -#endif - - /* Get the interrupt status (zero means no interrupts pending). */ - - status = pic32mz_getreg(PIC32MZ_ETH_IRQ); - if (status != 0) - { - /* Clear all pending interrupts */ - - pic32mz_putreg(status, PIC32MZ_ETH_IRQCLR); - - /* Handle each pending interrupt **************************************/ - /* Receive Errors *****************************************************/ - /* RXOVFLW: Receive FIFO Over Flow Error. RXOVFLW is set by the RXBM - * Logic for an RX FIFO Overflow condition. It is cleared by either a - * Reset or CPU write of a ‘1’ to the CLR register. - */ - - if ((status & ETH_INT_RXOVFLW) != 0) - { - nlldbg("RX Overrun. status: %08x\n", status); - EMAC_STAT(priv, rx_errors); - EMAC_STAT(priv, rx_ovflw); - } - - /* RXBUFNA: Receive Buffer Not Available Interrupt. This bit is set by - * a RX Buffer Descriptor Overrun condition. It is cleared by either a - * Reset or a CPU write of a ‘1’ to the CLR register. - */ - - if ((status & ETH_INT_RXBUFNA) != 0) - { - nlldbg("RX buffer descriptor overrun. status: %08x\n", status); - EMAC_STAT(priv, rx_errors); - EMAC_STAT(priv, rx_bufna); - } - - /* RXBUSE: Receive BVCI Bus Error Interrupt. This bit is set when the - * RX DMA encounters a BVCI Bus error during a memory access. It is - * cleared by either a Reset or CPU write of a ‘1’ to the CLR register. - */ - - if ((status & ETH_INT_RXBUSE) != 0) - { - nlldbg("RX BVCI bus error. status: %08x\n", status); - EMAC_STAT(priv, rx_errors); - EMAC_STAT(priv, rx_buse); - } - - /* Receive Normal Events **********************************************/ - /* RXACT: Receive Activity Interrupt. This bit is set whenever RX packet - * data is stored in the RXBM FIFO. It is cleared by either a Reset or CPU - * write of a ‘1’ to the CLR register. - */ - - /* PKTPEND: Packet Pending Interrupt. This bit is set when the BUFCNT - * counter has a value other than ‘0’. It is cleared by either a Reset - * or by writing the BUFCDEC bit to decrement the BUFCNT counter. - * Writing a ‘0’ or a ‘1’ has no effect. - */ - - /* RXDONE: Receive Done Interrupt. This bit is set whenever an RX packet - * is successfully received. It is cleared by either a Reset or CPU - * write of a ‘1’ to the CLR register. - */ - - if ((status & ETH_INT_RXDONE) != 0) - { - EMAC_STAT(priv, rx_done); - - /* We have received at least one new incoming packet. */ - - pic32mz_rxdone(priv); - } - - /* Transmit Errors ****************************************************/ - /* TXABORT: Transmit Abort Condition Interrupt. This bit is set when - * the MAC aborts the transmission of a TX packet for one of the - * following reasons: - * - Jumbo TX packet abort - * - Underrun abort - * - Excessive defer abort - * - Late collision abort - * - Excessive collisions abort - * This bit is cleared by either a Reset or CPU write of a ‘1’ to the - * CLR register. - */ - - if ((status & ETH_INT_TXABORT) != 0) - { - nlldbg("TX abort. status: %08x\n", status); - EMAC_STAT(priv, tx_errors); - EMAC_STAT(priv, tx_abort); - } - - /* TXBUSE: Transmit BVCI Bus Error Interrupt. This bit is set when the - * TX DMA encounters a BVCI Bus error during a memory access. It is - * cleared by either a Reset or CPU write of a ‘1’ to the CLR register. - */ - - if ((status & ETH_INT_TXBUSE) != 0) - { - nlldbg("TX BVCI bus error. status: %08x\n", status); - EMAC_STAT(priv, tx_errors); - EMAC_STAT(priv, tx_buse); - } - - /* TXDONE: Transmit Done Interrupt. This bit is set when the currently - * transmitted TX packet completes transmission, and the Transmit - * Status Vector is loaded into the first descriptor used for the - * packet. It is cleared by either a Reset or CPU write of a ‘1’ to - * the CLR register. - */ - - if ((status & ETH_INT_TXDONE) != 0) - { - EMAC_STAT(priv, tx_done); - - /* A packet transmission just completed */ - - pic32mz_txdone(priv); - } - - /* Watermark Events ***************************************************/ - /* EWMARK: Empty Watermark Interrupt. This bit is set when the RX - * Descriptor Buffer Count is less than or equal to the value in the - * RXEWM bit (ETHRXWM:0-7) value. It is cleared by BUFCNT bit - * (ETHSTAT:16-23) being incremented by hardware. Writing a ‘0’ or a ‘1’ - * has no effect. - */ - - /* FWMARK: Full Watermark Interrupt. This bit is set when the RX - * escriptor Buffer Count is greater than or equal to the value in the - * RXFWM bit (ETHRXWM:16-23) field. It is cleared by writing the BUFCDEC - * (ETHCON1:0) bit to decrement the BUFCNT counter. Writing a ‘0’ or a - * ‘1’ has no effect. - */ - - } - - /* Clear the pending interrupt */ - -# if CONFIG_PIC32MZ_NINTERFACES > 1 - up_clrpend_irq(priv->pd_irqsrc); -# else - up_clrpend_irq(PIC32MZ_IRQSRC_ETH); -# endif - - return OK; -} - -/**************************************************************************** - * Function: pic32mz_txtimeout - * - * Description: - * Our TX watchdog timed out. Called from the timer interrupt handler. - * The last TX never completed. Reset the hardware and start again. - * - * Parameters: - * argc - The number of available arguments - * arg - The first argument - * - * Returned Value: - * None - * - * Assumptions: - * Global interrupts are disabled by the watchdog logic. - * - ****************************************************************************/ - -static void pic32mz_txtimeout(int argc, uint32_t arg, ...) -{ - struct pic32mz_driver_s *priv = (struct pic32mz_driver_s *)arg; - - /* Increment statistics and dump debug info */ - - EMAC_STAT(priv, tx_timeouts); - if (priv->pd_ifup) - { - /* Then reset the hardware. ifup() will reset the interface, then bring - * it back up. - */ - - (void)pic32mz_ifup(&priv->pd_dev); - - /* Then poll uIP for new XMIT data (We are guaranteed to have a free - * buffer here). - */ - - pic32mz_poll(priv); - } -} - -/**************************************************************************** - * Function: pic32mz_polltimer - * - * Description: - * Periodic timer handler. Called from the timer interrupt handler. - * - * Parameters: - * argc - The number of available arguments - * arg - The first argument - * - * Returned Value: - * None - * - * Assumptions: - * Global interrupts are disabled by the watchdog logic. - * - ****************************************************************************/ - -static void pic32mz_polltimer(int argc, uint32_t arg, ...) -{ - struct pic32mz_driver_s *priv = (struct pic32mz_driver_s *)arg; - - /* Check if the next Tx descriptor is available. We cannot perform the Tx - * poll if we are unable to accept another packet for transmission. - */ - - if (pic32mz_txdesc(priv) != NULL) - { - /* If so, update TCP timing states and poll uIP for new XMIT data. Hmmm.. - * might be bug here. Does this mean if there is a transmit in progress, - * we will missing TCP time state updates? - */ - - pic32mz_timerpoll(priv); - } - - /* Setup the watchdog poll timer again */ - - (void)wd_start(priv->pd_txpoll, PIC32MZ_WDDELAY, pic32mz_polltimer, 1, arg); -} - -/**************************************************************************** - * Function: pic32mz_ifup - * - * Description: - * NuttX Callback: Bring up the Ethernet interface when an IP address is - * provided - * - * Parameters: - * dev - Reference to the NuttX driver state structure - * - * Returned Value: - * None - * - * Assumptions: - * - ****************************************************************************/ - -static int pic32mz_ifup(struct net_driver_s *dev) -{ - struct pic32mz_driver_s *priv = (struct pic32mz_driver_s *)dev->d_private; - uint32_t regval; - int ret; - - ndbg("Bringing up: %d.%d.%d.%d\n", - dev->d_ipaddr & 0xff, (dev->d_ipaddr >> 8) & 0xff, - (dev->d_ipaddr >> 16) & 0xff, dev->d_ipaddr >> 24); - - /* Reset the Ethernet controller (again) */ - - pic32mz_ethreset(priv); - - /* MAC Initialization *****************************************************/ - /* Configuration: - * - Use the configuration fuse setting FETHIO bit (DEVCFG3:25) to detect - * the alternate/default I/O configuration - * - Use the configuration fuse setting FMIIEN (DEVCFG3:24) to detect the - * MII/RMII operation mode. - */ - - /* Pin Configuration: - * - * No GPIO pin configuration is required. Enabling the Ethernet Controller - * will configure the I/O pin direction as defined by the Ethernet Controller - * control bits. The port TRIS and LATCH registers will be overridden. - * - * I/O Pin MII RMII Pin Description - * Name Required Required Type - * EMDC Yes Yes O Ethernet MII Management Clock - * EMDIO Yes Yes I/O Ethernet MII Management IO - * ETXCLK Yes No I Ethernet MII TX Clock - * ETXEN Yes Yes O Ethernet Transmit Enable - * ETXD0 Yes Yes O Ethernet Data Transmit 0 - * ETXD1 Yes Yes O Ethernet Data Transmit 1 - * ETXD2 Yes No O Ethernet Data Transmit 2 - * ETXD3 Yes No O Ethernet Data Transmit 3 - * ETXERR Yes No O Ethernet Transmit Error - * ERXCLK Yes No I Ethernet MII RX Clock - * EREF_CLK No Yes I Ethernet RMII Ref Clock - * ERXDV Yes No I Ethernet MII Receive Data Valid - * ECRS_DV No Yes I Ethernet RMII Carrier Sense/Receive Data Valid - * ERXD0 Yes Yes I Ethernet Data Receive 0 - * ERXD1 Yes Yes I Ethernet Data Receive 1 - * ERXD2 Yes No I Ethernet Data Receive 2 - * ERXD3 Yes No I Ethernet Data Receive 3 - * ERXERR Yes Yes I Ethernet Receive Error - * ECRS Yes No I Ethernet Carrier Sense - * ECOL Yes No I Ethernet Collision Detected - * - * All that is required is to assure that the pins are initialized as - * digital (normally only those pins that have shared analog functionality - * need to be configured). - */ - - /* Initialize the MIIM interface - * - * If the RMII operation is selected, reset the RMII module by using the - * RESETRMII (EMAC1SUPP:11) bit and set the proper speed in the SPEEDRMII - * bit (EMAC1SUPP:8) bit. - */ - -#if CONFIG_PIC32MZ_FMIIEN == 0 - pic32mz_putreg(EMAC1_SUPP_RESETRMII, PIC32MZ_EMAC1_SUPPSET); - pic32mz_putreg((EMAC1_SUPP_RESETRMII | EMAC1_SUPP_SPEEDRMII), PIC32MZ_EMAC1_SUPPCLR); -#endif - - /* Issue an MIIM block reset, by setting the RESETMGMT (EMAC1MCFG:15) bit, - * and then clear the reset bit. - */ - - regval = pic32mz_getreg(PIC32MZ_EMAC1_MCFG); - pic32mz_putreg(EMAC1_MCFG_MGMTRST, PIC32MZ_EMAC1_MCFGSET); - - regval &= ~EMAC1_MCFG_MGMTRST; - pic32mz_putreg(regval, PIC32MZ_EMAC1_MCFG); - - /* Select a proper divider in the CLKSEL bit (EMAC1CFG:2-5) for the MIIM - * PHY communication based on the system running clock frequency and the - * external PHY supported clock. - * - * MII configuration: host clocked divider per board.h, no suppress - * preamble, no scan increment. - */ - - regval &= ~(EMAC1_MCFG_CLKSEL_MASK | EMAC1_MCFG_NOPRE | EMAC1_MCFG_SCANINC); - regval |= EMAC1_MCFG_CLKSEL_DIV; - pic32mz_putreg(regval, PIC32MZ_EMAC1_MCFG); - - /* PHY Initialization *****************************************************/ - /* Initialize the PHY and wait for the link to be established */ - - ret = pic32mz_phyinit(priv); - if (ret != 0) - { - ndbg("pic32mz_phyinit failed: %d\n", ret); - return ret; - } - - /* MAC Configuration ******************************************************/ - /* Set other misc configuration-related registers to default values */ - - pic32mz_putreg(0, PIC32MZ_EMAC1_CFG2); - pic32mz_putreg(0, PIC32MZ_EMAC1_TEST); - - /* Having available the Duplex and Speed settings, configure the MAC - * accordingly, using the following steps: - * - * Enable the RXENABLE bit (EMAC1CFG1:0), selecting both the TXPAUSE and - * RXPAUSE bit (EMAC1CFG1:2-3) (the PIC32 MAC supports both). - */ - - pic32mz_putreg(EMAC1_CFG1_RXEN | EMAC1_CFG1_RXPAUSE | EMAC1_CFG1_TXPAUSE, - PIC32MZ_EMAC1_CFG1SET); - - /* Select the desired auto-padding and CRC capabilities, and the enabling - * of the huge frames and the Duplex type in the EMAC1CFG2 register. - * (This was done in the PHY initialization logic). - */ - - /* Program EMAC1IPGT with the back-to-back inter-packet gap */ - /* Use EMAC1IPGR for setting the non back-to-back inter-packet gap */ - - pic32mz_putreg(((12 << EMAC1_IPGR_GAP1_SHIFT) | (12 << EMAC1_IPGR_GAP2_SHIFT)), - PIC32MZ_EMAC1_IPGR); - - /* Set the collision window and the maximum number of retransmissions in - * EMAC1CLRT. - */ - - pic32mz_putreg(((15 << EMAC1_CLRT_RETX_SHIFT) | (55 << EMAC1_CLRT_CWINDOW_SHIFT)), - PIC32MZ_EMAC1_CLRT); - - /* Set the maximum frame length in EMAC1MAXF. "This field resets to - * 0x05EE, which represents a maximum receive frame of 1518 octets. An - * untagged maximum size Ethernet frame is 1518 octets. A tagged frame adds - * four octets for a total of 1522 octets. If a shorter/longer maximum - * length restriction is desired, program this 16-bit field. - */ - - pic32mz_putreg(CONFIG_NET_ETH_MTU, PIC32MZ_EMAC1_MAXF); - - /* Configure the MAC station address in the EMAC1SA0, EMAC1SA1 and - * EMAC1SA2 registers (these registers are loaded at reset from the - * factory preprogrammed station address). - */ - -#if 0 - regval = (uint32_t)priv->pd_dev.d_mac.ether_addr_octet[5] << 8 | - (uint32_t)priv->pd_dev.d_mac.ether_addr_octet[4]; - pic32mz_putreg(regval, PIC32MZ_EMAC1_SA0); - - regval = (uint32_t)priv->pd_dev.d_mac.ether_addr_octet[3] << 8 | - (uint32_t)priv->pd_dev.d_mac.ether_addr_octet[2]; - pic32mz_putreg(regval, PIC32MZ_EMAC1_SA1); - - regval = (uint32_t)priv->pd_dev.d_mac.ether_addr_octet[1] << 8 | - (uint32_t)priv->pd_dev.d_mac.ether_addr_octet[0]; - pic32mz_putreg(regval, PIC32MZ_EMAC1_SA2); -#else - regval = pic32mz_getreg(PIC32MZ_EMAC1_SA0); - priv->pd_dev.d_mac.ether_addr_octet[4] = (uint32_t)(regval & 0xff); - priv->pd_dev.d_mac.ether_addr_octet[5] = (uint32_t)((regval >> 8) & 0xff); - - regval = pic32mz_getreg(PIC32MZ_EMAC1_SA1); - priv->pd_dev.d_mac.ether_addr_octet[2] = (uint32_t)(regval & 0xff); - priv->pd_dev.d_mac.ether_addr_octet[3] = (uint32_t)((regval >> 8) & 0xff); - - regval = pic32mz_getreg(PIC32MZ_EMAC1_SA2); - priv->pd_dev.d_mac.ether_addr_octet[0] = (uint32_t)(regval & 0xff); - priv->pd_dev.d_mac.ether_addr_octet[1] = (uint32_t)((regval >> 8) & 0xff); -#endif - - /* Continue Ethernet Controller Initialization ****************************/ - /* If planning to turn on the flow control, update the PTV value - *(ETHCON1:16-31). - */ - - /* If using the auto-flow control, set the full and empty watermarks: RXFWM - * and RXEWM (ETHRXWM:16-23 and ETHRXWM:0-7). - */ - - /* If needed, enable the auto-flow control by setting AUTOFC (ETHCON1:7). */ - - /* Set the RX filters by updating the ETHHT0, ETHHT1, ETHPMM0, ETHPMM1, - * ETHPMCS and ETHRXFC registers. - * - * Set up RX filter and configure to accept broadcast addresses and multicast - * addresses (if so configured). NOTE: There is a selection - * CONFIG_NET_BROADCAST, but this enables receipt of UDP broadcast packets - * inside of the stack. - */ - - regval = ETH_RXFC_BCEN | ETH_RXFC_UCEN | ETH_RXFC_PMMODE_DISABLED; -#ifdef CONFIG_NET_MULTICAST - regval |= ETH_RXFC_MCEN; -#endif - pic32mz_putreg(regval, PIC32MZ_ETH_RXFC); - - /* Set the size of the RX buffers in the RXBUFSZ bit (ETHCON2:4-10) (all - * receive descriptors use the same buffer size). Keep in mind that using - * packets that are too small leads to packet fragmentation and has a - * noticeable impact on the performance. - */ - - pic32mz_putreg(ETH_CON2_RXBUFSZ(CONFIG_NET_ETH_MTU), PIC32MZ_ETH_CON2); - - /* Reset state varialbes */ - - priv->pd_polling = false; - priv->pd_txpending = false; - - /* Initialize the buffer list */ - - pic32mz_bufferinit(priv); - - /* Initialize the TX descriptor list */ - - pic32mz_txdescinit(priv); - - /* Initialize the RX descriptor list */ - - pic32mz_rxdescinit(priv); - - /* Enable the Ethernet Controller by setting the ON bit (ETHCON1:15). - * Enable the receiving of messages by setting the RXEN bit (ETHCON1:8). - */ - - pic32mz_putreg(ETH_CON1_RXEN | ETH_CON1_ON, PIC32MZ_ETH_CON1SET); - - /* Initialize Ethernet interface for the PHY setup */ - - pic32mz_macmode(priv->pd_mode); - - /* Configure to pass all received frames */ - - regval = pic32mz_getreg(PIC32MZ_EMAC1_CFG1); - regval |= EMAC1_CFG1_PASSALL; - pic32mz_putreg(regval, PIC32MZ_EMAC1_CFG1); - - /* Clear any pending interrupts (shouldn't be any) */ - - pic32mz_putreg(0xffffffff, PIC32MZ_ETH_IRQCLR); - - /* Configure interrupts. The Ethernet interrupt was attached during one-time - * initialization, so we only need to set the interrupt priority, configure - * interrupts, and enable them. - */ - - /* If the user provided an interrupt priority, then set the interrupt to that - * priority - */ - -#if defined(CONFIG_NET_PRIORITY) && defined(CONFIG_ARCH_IRQPRIO) -#if CONFIG_PIC32MZ_NINTERFACES > 1 - (void)up_prioritize_irq(priv->pd_irq, CONFIG_NET_PRIORITY); -#else - (void)up_prioritize_irq(PIC32MZ_IRQ_ETH, CONFIG_NET_PRIORITY); -#endif -#endif - - /* Otherwise, enable all Rx interrupts. Tx interrupts, SOFTINT and WoL are - * excluded. Tx interrupts will not be enabled until there is data to be - * sent. - */ - - priv->pd_inten = ETH_RXINTS; - pic32mz_putreg(ETH_RXINTS, PIC32MZ_ETH_IENSET); - - /* Set and activate a timer process */ - - (void)wd_start(priv->pd_txpoll, PIC32MZ_WDDELAY, pic32mz_polltimer, 1, - (uint32_t)priv); - - /* Finally, enable the Ethernet interrupt at the interrupt controller */ - - priv->pd_ifup = true; -#if CONFIG_PIC32MZ_NINTERFACES > 1 - up_enable_irq(priv->pd_irqsrc); -#else - up_enable_irq(PIC32MZ_IRQSRC_ETH); -#endif - return OK; -} - -/**************************************************************************** - * Function: pic32mz_ifdown - * - * Description: - * NuttX Callback: Stop the interface. - * - * Parameters: - * dev - Reference to the NuttX driver state structure - * - * Returned Value: - * None - * - * Assumptions: - * - ****************************************************************************/ - -static int pic32mz_ifdown(struct net_driver_s *dev) -{ - struct pic32mz_driver_s *priv = (struct pic32mz_driver_s *)dev->d_private; - irqstate_t flags; - - /* Disable the Ethernet interrupt */ - - flags = irqsave(); -#if CONFIG_PIC32MZ_NINTERFACES > 1 - up_disable_irq(priv->pd_irqsrc); -#else - up_disable_irq(PIC32MZ_IRQSRC_ETH); -#endif - - /* Cancel the TX poll timer and TX timeout timers */ - - wd_cancel(priv->pd_txpoll); - wd_cancel(priv->pd_txtimeout); - - /* Reset the device and mark it as down. */ - - pic32mz_ethreset(priv); - priv->pd_ifup = false; - irqrestore(flags); - return OK; -} - -/**************************************************************************** - * Function: pic32mz_txavail - * - * Description: - * Driver callback invoked when new TX data is available. This is a - * stimulus perform an out-of-cycle poll and, thereby, reduce the TX - * latency. - * - * Parameters: - * dev - Reference to the NuttX driver state structure - * - * Returned Value: - * None - * - * Assumptions: - * Called in normal user mode - * - ****************************************************************************/ - -static int pic32mz_txavail(struct net_driver_s *dev) -{ - struct pic32mz_driver_s *priv = (struct pic32mz_driver_s *)dev->d_private; - irqstate_t flags; - - /* Disable interrupts because this function may be called from interrupt - * level processing. - */ - - flags = irqsave(); - - /* Ignore the notification if the interface is not yet up */ - - if (priv->pd_ifup) - { - /* Check if the next Tx descriptor is available. */ - - if (pic32mz_txdesc(priv) != NULL) - { - /* If so, then poll uIP for new XMIT data. First allocate a buffer - * to perform the poll - */ - - pic32mz_poll(priv); - } - } - - irqrestore(flags); - return OK; -} - -/**************************************************************************** - * Function: pic32mz_addmac - * - * Description: - * NuttX Callback: Add the specified MAC address to the hardware multicast - * address filtering - * - * Parameters: - * dev - Reference to the NuttX driver state structure - * mac - The MAC address to be added - * - * Returned Value: - * None - * - * Assumptions: - * - ****************************************************************************/ - -#ifdef CONFIG_NET_IGMP -static int pic32mz_addmac(struct net_driver_s *dev, const uint8_t *mac) -{ - struct pic32mz_driver_s *priv = (struct pic32mz_driver_s *)dev->d_private; - - /* Add the MAC address to the hardware multicast routing table */ - -#warning "Not implemented" - return OK; -} -#endif - -/**************************************************************************** - * Function: pic32mz_rmmac - * - * Description: - * NuttX Callback: Remove the specified MAC address from the hardware multicast - * address filtering - * - * Parameters: - * dev - Reference to the NuttX driver state structure - * mac - The MAC address to be removed - * - * Returned Value: - * None - * - * Assumptions: - * - ****************************************************************************/ - -#ifdef CONFIG_NET_IGMP -static int pic32mz_rmmac(struct net_driver_s *dev, const uint8_t *mac) -{ - struct pic32mz_driver_s *priv = (struct pic32mz_driver_s *)dev->d_private; - - /* Add the MAC address to the hardware multicast routing table */ - -#warning "Not implemented" - return OK; -} -#endif - -/******************************************************************************* - * Name: pic32mz_showmii - * - * Description: - * Dump PHY MII registers - * - * Parameters: - * phyaddr - The device address where the PHY was discovered - * - * Returned Value: - * None - * - * Assumptions: - * - *******************************************************************************/ - -#if defined(CONFIG_NET_REGDEBUG) && defined(PIC32MZ_HAVE_PHY) -static void pic32mz_showmii(uint8_t phyaddr, const char *msg) -{ - dbg("PHY " PIC32MZ_PHYNAME ": %s\n", msg); - dbg(" MCR: %04x\n", pic32mz_phyread(phyaddr, MII_MCR)); - dbg(" MSR: %04x\n", pic32mz_phyread(phyaddr, MII_MSR)); - dbg(" ADVERTISE: %04x\n", pic32mz_phyread(phyaddr, MII_ADVERTISE)); - dbg(" LPA: %04x\n", pic32mz_phyread(phyaddr, MII_LPA)); - dbg(" EXPANSION: %04x\n", pic32mz_phyread(phyaddr, MII_EXPANSION)); -#ifdef CONFIG_ETH0_PHY_KS8721 - dbg(" 10BTCR: %04x\n", pic32mz_phyread(phyaddr, MII_KS8721_10BTCR)); -#endif -} -#endif - -/**************************************************************************** - * Function: pic32mz_phybusywait - * - * Description: - * Wait until the PHY is no longer busy - * - * Parameters: - * None - * - * Returned Value: - * None - * - * Assumptions: - * - ****************************************************************************/ - -static void pic32mz_phybusywait(void) -{ - while ((pic32mz_getreg(PIC32MZ_EMAC1_MIND) & EMAC1_MIND_MIIMBUSY) != 0); -} - -/**************************************************************************** - * Function: pic32mz_phywrite - * - * Description: - * Write a value to an MII PHY register - * - * Parameters: - * phyaddr - The device address where the PHY was discovered - * regaddr - The address of the PHY register to be written - * phydata - The data to write to the PHY register - * - * Returned Value: - * None - * - * Assumptions: - * - ****************************************************************************/ - -#ifdef PIC32MZ_HAVE_PHY -static void pic32mz_phywrite(uint8_t phyaddr, uint8_t regaddr, uint16_t phydata) -{ - uint32_t regval; - - /* Make sure that the PHY is not still busy from the last command */ - - pic32mz_phybusywait(); - - /* Set PHY address and PHY register address */ - - regval = ((uint32_t)phyaddr << EMAC1_MADR_PHYADDR_SHIFT) | - ((uint32_t)regaddr << EMAC1_MADR_REGADDR_SHIFT); - pic32mz_putreg(regval, PIC32MZ_EMAC1_MADR); - - /* Write the register data to the PHY */ - - pic32mz_putreg((uint32_t)phydata, PIC32MZ_EMAC1_MWTD); - - /* Two clock cycles until busy is set from the write operation */ - - __asm__ __volatile__ ("nop; nop;"); -} -#endif - -/**************************************************************************** - * Function: pic32mz_phyread - * - * Description: - * Read a value from an MII PHY register - * - * Parameters: - * phyaddr - The device address where the PHY was discovered - * regaddr - The address of the PHY register to be written - * - * Returned Value: - * Data read from the PHY register - * - * Assumptions: - * - ****************************************************************************/ - -#ifdef PIC32MZ_HAVE_PHY -static uint16_t pic32mz_phyread(uint8_t phyaddr, uint8_t regaddr) -{ - uint32_t regval; - - /* Make sure that the PHY is not still busy from the last command */ - - pic32mz_phybusywait(); - - /* Set PHY address and PHY register address */ - - regval = ((uint32_t)phyaddr << EMAC1_MADR_PHYADDR_SHIFT) | - ((uint32_t)regaddr << EMAC1_MADR_REGADDR_SHIFT); - pic32mz_putreg(regval, PIC32MZ_EMAC1_MADR); - - /* Set up to read */ - - pic32mz_putreg(EMAC1_MCMD_READ, PIC32MZ_EMAC1_MCMD); - - /* Four clock cycles until busy is set from the write operation */ - - __asm__ __volatile__ ("nop; nop; nop; nop;"); - - /* Wait for the PHY command to complete */ - - pic32mz_phybusywait(); - pic32mz_putreg(0, PIC32MZ_EMAC1_MCMD); - - /* Return the PHY register data */ - - return (uint16_t)(pic32mz_getreg(PIC32MZ_EMAC1_MRDD) & EMAC1_MRDD_MASK); -} -#endif - -/**************************************************************************** - * Function: pic32mz_phyreset - * - * Description: - * Reset the PHY - * - * Parameters: - * phyaddr - The device address where the PHY was discovered - * - * Returned Value: - * None - * - * Assumptions: - * - ****************************************************************************/ - -#ifdef PIC32MZ_HAVE_PHY -static inline int pic32mz_phyreset(uint8_t phyaddr) -{ - int32_t timeout; - uint16_t phyreg; - - /* Reset the PHY. Needs a minimal 50uS delay after reset. */ - - pic32mz_phywrite(phyaddr, MII_MCR, MII_MCR_RESET); - - /* Wait for a minimum of 50uS no matter what */ - - up_udelay(50); - - /* The MCR reset bit is self-clearing. Wait for it to be clear indicating - * that the reset is complete. - */ - - for (timeout = PIC32MZ_MIITIMEOUT; timeout > 0; timeout--) - { - phyreg = pic32mz_phyread(phyaddr, MII_MCR); - if ((phyreg & MII_MCR_RESET) == 0) - { - return OK; - } - } - - ndbg("Reset failed. MCR: %04x\n", phyreg); - return -ETIMEDOUT; -} -#endif - -/**************************************************************************** - * Function: pic32mz_phyautoneg - * - * Description: - * Enable auto-negotiation. - * - * Parameters: - * phyaddr - The device address where the PHY was discovered - * - * Returned Value: - * None - * - * Assumptions: - * The adverisement regiser has already been configured. - * - ****************************************************************************/ - -#if defined(PIC32MZ_HAVE_PHY) && defined(CONFIG_PHY_AUTONEG) -static inline int pic32mz_phyautoneg(uint8_t phyaddr) -{ - int32_t timeout; - uint16_t phyreg; - - /* Start auto-negotiation */ - - pic32mz_phywrite(phyaddr, MII_MCR, MII_MCR_ANENABLE | MII_MCR_ANRESTART); - - /* Wait for autonegotiation to complete */ - - for (timeout = PIC32MZ_MIITIMEOUT; timeout > 0; timeout--) - { - /* Check if auto-negotiation has completed */ - - phyreg = pic32mz_phyread(phyaddr, MII_MSR); - if ((phyreg & MII_MSR_ANEGCOMPLETE) != 0) - { - /* Yes.. return success */ - - return OK; - } - } - - ndbg("Auto-negotiation failed. MSR: %04x\n", phyreg); - return -ETIMEDOUT; -} -#endif - -/**************************************************************************** - * Function: pic32mz_phymode - * - * Description: - * Set the PHY to operate at a selected speed/duplex mode. - * - * Parameters: - * phyaddr - The device address where the PHY was discovered - * mode - speed/duplex mode - * - * Returned Value: - * None - * - * Assumptions: - * - ****************************************************************************/ - -#ifdef PIC32MZ_HAVE_PHY -static int pic32mz_phymode(uint8_t phyaddr, uint8_t mode) -{ - int32_t timeout; - uint16_t phyreg; - - /* Disable auto-negotiation and set fixed Speed and Duplex settings: - * - * MII_MCR_UNIDIR 0=Disable unidirectional enable - * MII_MCR_SPEED1000 0=Reserved on 10/100 - * MII_MCR_CTST 0=Disable collision test - * MII_MCR_FULLDPLX ?=Full duplex - * MII_MCR_ANRESTART 0=Don't restart auto negotiation - * MII_MCR_ISOLATE 0=Don't electronically isolate PHY from MII - * MII_MCR_PDOWN 0=Don't powerdown the PHY - * MII_MCR_ANENABLE 0=Disable auto negotiation - * MII_MCR_SPEED100 ?=Select 100Mbps - * MII_MCR_LOOPBACK 0=Disable loopback mode - * MII_MCR_RESET 0=No PHY reset - */ - - phyreg = 0; - if ((mode & PIC32MZ_SPEED_MASK) == PIC32MZ_SPEED_100) - { - phyreg = MII_MCR_SPEED100; - } - - if ((mode & PIC32MZ_DUPLEX_MASK) == PIC32MZ_DUPLEX_FULL) - { - phyreg |= MII_MCR_FULLDPLX; - } - - pic32mz_phywrite(phyaddr, MII_MCR, phyreg); - - /* Then wait for the link to be established */ - - for (timeout = PIC32MZ_MIITIMEOUT; timeout > 0; timeout--) - { -#ifdef CONFIG_ETH0_PHY_DP83848C - phyreg = pic32mz_phyread(phyaddr, MII_DP83848C_STS); - if ((phyreg & 0x0001) != 0) - { - /* Yes.. return success */ - - return OK; - } -#else - phyreg = pic32mz_phyread(phyaddr, MII_MSR); - if ((phyreg & MII_MSR_LINKSTATUS) != 0) - { - /* Yes.. return success */ - - return OK; - } -#endif - } - - ndbg("Link failed. MSR: %04x\n", phyreg); - return -ETIMEDOUT; -} -#endif - -/**************************************************************************** - * Function: pic32mz_phyinit - * - * Description: - * Initialize the PHY - * - * Parameters: - * priv - Pointer to EMAC device driver structure - * - * Returned Value: - * None directly. As a side-effect, it will initialize priv->pd_phyaddr - * and priv->pd_phymode. - * - * Assumptions: - * - ****************************************************************************/ - -#ifdef PIC32MZ_HAVE_PHY -static inline int pic32mz_phyinit(struct pic32mz_driver_s *priv) -{ - unsigned int phyaddr; - uint16_t phyreg; - uint32_t regval; - int ret; - -#if CONFIG_PIC32MZ_FMIIEN == 0 - /* Set the RMII operation mode. This usually requires access to a vendor - * specific control register. - */ - -#ifdef CONFIG_ETH0_PHY_DP83848C - /* The RMII/MII of operation can be selected by strap options or register - * control (using the RBR register). For RMII mode, it is required to use the - * strap option, since it requires a 50 MHz clock instead of the normal 25 MHz. - */ -#endif - -#else - /* Set the MII/ operation mode. This usually requires access to a vendor- - * specific control register. - */ - -#ifdef CONFIG_ETH0_PHY_DP83848C -# warning "Missing logic" -#endif - -#endif - - /* Find PHY Address. Because the controller has a pull-up and the - * PHY has pull-down resistors on RXD lines some times the PHY - * latches different at different addresses. - */ - - for (phyaddr = 0; phyaddr < 32; phyaddr++) - { - /* Clear any ongoing PHY command bits */ - - pic32mz_putreg(0, PIC32MZ_EMAC1_MCMD); - - /* Reset the PHY (use Control Register 0). */ - - ret = pic32mz_phyreset(phyaddr); - if (ret < 0) - { - ndbg("Failed to reset PHY at address %d\n", phyaddr); - continue; - } - - /* Set the normal, swapped or auto (preferred) MDIX. This usually - * requires access to a vendor-specific control register. - */ - - /* Check if we can see the selected device ID at this - * PHY address. - */ - - phyreg = (unsigned int)pic32mz_phyread(phyaddr, MII_PHYID1); - nvdbg("Addr: %d PHY ID1: %04x\n", phyaddr, phyreg); - - if (phyreg == PIC32MZ_PHYID1) - { - phyreg = pic32mz_phyread(phyaddr, MII_PHYID2); - nvdbg("Addr: %d PHY ID2: %04x\n", phyaddr, phyreg); - - if (phyreg == PIC32MZ_PHYID2) - { - break; - } - } - } - - /* Check if the PHY device address was found */ - - if (phyaddr > 31) - { - /* Failed to find PHY at any location */ - - ndbg("No PHY detected\n"); - return -ENODEV; - } - nvdbg("phyaddr: %d\n", phyaddr); - - /* Save the discovered PHY device address */ - - priv->pd_phyaddr = phyaddr; - - /* Reset the PHY */ - - ret = pic32mz_phyreset(phyaddr); - if (ret < 0) - { - return ret; - } - pic32mz_showmii(phyaddr, "After reset"); - - /* Set the MII/RMII operation mode. This usually requires access to a - * vendor-specific control register. - */ - - /* Set the normal, swapped or auto (preferred) MDIX. This usually requires - * access to a vendor-specific control register. - */ - - /* Check the PHY capabilities by investigating the Status Register 1. */ - - /* Check for preamble suppression support */ - - phyreg = pic32mz_phyread(phyaddr, MII_MSR); - if ((phyreg & MII_MSR_MFRAMESUPPRESS) != 0) - { - /* The PHY supports preamble suppression */ - - regval = pic32mz_getreg(PIC32MZ_EMAC1_MCFG); - regval |= EMAC1_MCFG_NOPRE; - pic32mz_putreg(regval, PIC32MZ_EMAC1_MCFG); - } - - /* Are we configured to do auto-negotiation? - * - * Preferably the auto-negotiation should be selected if the PHY supports - * it. Expose the supported capabilities: Half/Full Duplex, 10BaseT/100Base - * TX, etc. (Extended Register 4). Start the negotiation (Control Register - * 0) and wait for the negotiation complete and get the link partner - * capabilities (Extended Register 5) and negotiation result (vendor- - * specific register). - */ - -#ifdef CONFIG_PHY_AUTONEG - /* Setup the Auto-negotiation advertisement: 100 or 10, and HD or FD */ - - pic32mz_phywrite(phyaddr, MII_ADVERTISE, - (MII_ADVERTISE_100BASETXFULL | MII_ADVERTISE_100BASETXHALF | - MII_ADVERTISE_10BASETXFULL | MII_ADVERTISE_10BASETXHALF | - MII_ADVERTISE_CSMA)); - - /* Then perform the auto-negotiation */ - - ret = pic32mz_phyautoneg(phyaddr); - if (ret < 0) - { - return ret; - } -#else - /* Set up the fixed PHY configuration - * - * If auto-negotiation is not supported/selected, update the PHY Duplex and - * Speed settings directly (use Control Register 0 and possibly some vendor- - * pecific registers). - */ - - ret = pic32mz_phymode(phyaddr, PIC32MZ_MODE_DEFLT); - if (ret < 0) - { - return ret; - } -#endif - - /* The link is established */ - - pic32mz_showmii(phyaddr, "After link established"); - - /* Check configuration */ - -#if defined(CONFIG_ETH0_PHY_KS8721) - phyreg = pic32mz_phyread(phyaddr, MII_KS8721_10BTCR); - - switch (phyreg & KS8721_10BTCR_MODE_MASK) - { - case KS8721_10BTCR_MODE_10BTHD: /* 10BASE-T half duplex */ - priv->pd_mode = PIC32MZ_10BASET_HD; - break; - case KS8721_10BTCR_MODE_100BTHD: /* 100BASE-T half duplex */ - priv->pd_mode = PIC32MZ_100BASET_HD; - break; - case KS8721_10BTCR_MODE_10BTFD: /* 10BASE-T full duplex */ - priv->pd_mode = PIC32MZ_10BASET_FD; - break; - case KS8721_10BTCR_MODE_100BTFD: /* 100BASE-T full duplex */ - priv->pd_mode = PIC32MZ_100BASET_FD; - break; - default: - ndbg("Unrecognized mode: %04x\n", phyreg); - return -ENODEV; - } -#elif defined(CONFIG_ETH0_PHY_DP83848C) - phyreg = pic32mz_phyread(phyaddr, MII_DP83848C_STS); - - /* Configure for full/half duplex mode and speed */ - - switch (phyreg & 0x0006) - { - case 0x0000: - priv->pd_mode = PIC32MZ_100BASET_HD; - break; - case 0x0002: - priv->pd_mode = PIC32MZ_10BASET_HD; - break; - case 0x0004: - priv->pd_mode = PIC32MZ_100BASET_FD; - break; - case 0x0006: - priv->pd_mode = PIC32MZ_10BASET_FD; - break; - default: - ndbg("Unrecognized mode: %04x\n", phyreg); - return -ENODEV; - } -#elif defined(CONFIG_ETH0_PHY_LAN8720) || defined(CONFIG_ETH0_PHY_LAN8740) - { - uint16_t advertise; - uint16_t lpa; - - up_udelay(500); - advertise = pic32mz_phyread(phyaddr, MII_ADVERTISE); - lpa = pic32mz_phyread(phyaddr, MII_LPA); - - /* Check for 100BASETX full duplex */ - - if ((advertise & MII_ADVERTISE_100BASETXFULL) != 0 && - (lpa & MII_LPA_100BASETXFULL) != 0) - { - priv->pd_mode = PIC32MZ_100BASET_FD; - } - - /* Check for 100BASETX half duplex */ - - else if ((advertise & MII_ADVERTISE_100BASETXHALF) != 0 && - (lpa & MII_LPA_100BASETXHALF) != 0) - { - priv->pd_mode = PIC32MZ_100BASET_HD; - } - - /* Check for 10BASETX full duplex */ - - else if ((advertise & MII_ADVERTISE_10BASETXFULL) != 0 && - (lpa & MII_LPA_10BASETXFULL) != 0) - { - priv->pd_mode = PIC32MZ_10BASET_FD; - } - - /* Check for 10BASETX half duplex */ - - else if ((advertise & MII_ADVERTISE_10BASETXHALF) != 0 && - (lpa & MII_LPA_10BASETXHALF) != 0) - { - priv->pd_mode = PIC32MZ_10BASET_HD; - } - else - { - ndbg("Unrecognized mode: %04x\n", phyreg); - return -ENODEV; - } - } -#else -# warning "PHY Unknown: speed and duplex are bogus" -#endif - - ndbg("%dBase-T %s duplex\n", - (priv->pd_mode & PIC32MZ_SPEED_MASK) == PIC32MZ_SPEED_100 ? 100 : 10, - (priv->pd_mode & PIC32MZ_DUPLEX_MASK) == PIC32MZ_DUPLEX_FULL ?"full" : "half"); - - /* Disable auto-configuration. Set the fixed speed/duplex mode. - * (probably more than little redundant). - */ - - ret = pic32mz_phymode(phyaddr, priv->pd_mode); - pic32mz_showmii(phyaddr, "After final configuration"); - return ret; -} -#else -static inline int pic32mz_phyinit(struct pic32mz_driver_s *priv) -{ - priv->pd_mode = PIC32MZ_MODE_DEFLT; - return OK; -} -#endif - -/**************************************************************************** - * Function: pic32mz_macmode - * - * Description: - * Set the MAC to operate at a selected speed/duplex mode. - * - * Parameters: - * mode - speed/duplex mode - * - * Returned Value: - * None - * - * Assumptions: - * - ****************************************************************************/ - -#ifdef PIC32MZ_HAVE_PHY -static void pic32mz_macmode(uint8_t mode) -{ - /* Set up for full or half duplex operation */ - - if ((mode & PIC32MZ_DUPLEX_MASK) == PIC32MZ_DUPLEX_FULL) - { - /* Set the back-to-back inter-packet gap */ - - pic32mz_putreg(21, PIC32MZ_EMAC1_IPGT); - - /* Set MAC to operate in full duplex mode with CRC and Pad enabled */ - - pic32mz_putreg((EMAC1_CFG2_FULLDPLX | EMAC1_CFG2_CRCEN | EMAC1_CFG2_PADCRCEN), - PIC32MZ_EMAC1_CFG2SET); - } - else - { - /* Set the back-to-back inter-packet gap */ - - pic32mz_putreg(18, PIC32MZ_EMAC1_IPGT); - - /* Set MAC to operate in half duplex mode with CRC and Pad enabled */ - - pic32mz_putreg(EMAC1_CFG2_FULLDPLX, PIC32MZ_EMAC1_CFG2CLR); - pic32mz_putreg((EMAC1_CFG2_CRCEN | EMAC1_CFG2_PADCRCEN), PIC32MZ_EMAC1_CFG2SET); - } - - /* Set the RMII MAC speed. */ - -#if CONFIG_PIC32MZ_FMIIEN == 0 - if ((mode & PIC32MZ_SPEED_MASK) == PIC32MZ_SPEED_100) - { - pic32mz_putreg(EMAC1_SUPP_SPEEDRMII, PIC32MZ_EMAC1_SUPPSET); - } - else - { - pic32mz_putreg(EMAC1_SUPP_SPEEDRMII, PIC32MZ_EMAC1_SUPPCLR); - } -#endif -} -#endif - -/**************************************************************************** - * Function: pic32mz_ethreset - * - * Description: - * Configure and reset the Ethernet module, leaving it in a disabled state. - * - * Parameters: - * priv - Reference to the driver state structure - * - * Returned Value: - * OK on success; a negated errno on failure - * - * Assumptions: - * - ****************************************************************************/ - -static void pic32mz_ethreset(struct pic32mz_driver_s *priv) -{ - irqstate_t flags; - - /* Reset the MAC */ - - flags = irqsave(); - - /* Ethernet Controller Initialization *************************************/ - /* Disable Ethernet interrupts in the EVIC */ - -#if CONFIG_PIC32MZ_NINTERFACES > 1 - up_disable_irq(priv->pd_irqsrc); -#else - up_disable_irq(PIC32MZ_IRQSRC_ETH); -#endif - - /* Turn the Ethernet Controller off: Clear the ON, RXEN and TXRTS bits */ - - pic32mz_putreg(ETH_CON1_RXEN | ETH_CON1_TXRTS | ETH_CON1_ON, PIC32MZ_ETH_CON1CLR); - - /* Wait activity abort by polling the ETHBUSY bit */ - - while ((pic32mz_getreg(PIC32MZ_ETH_STAT) & ETH_STAT_ETHBUSY) != 0); - - /* Turn the Ethernet controller on. */ - - pic32mz_putreg(ETH_CON1_ON, PIC32MZ_ETH_CON1SET); - - /* Clear the Ethernet STAT BUFCNT */ - - while ((pic32mz_getreg(PIC32MZ_ETH_STAT) & ETH_STAT_BUFCNT_MASK) != 0) - { - pic32mz_putreg(ETH_CON1_BUFCDEC, PIC32MZ_ETH_CON1SET); - } - - /* Clear the Ethernet Interrupt Flag (ETHIF) bit in the Interrupts module */ - -#if CONFIG_PIC32MZ_NINTERFACES > 1 - up_pending_irq(priv->pd_irqsrc); -#else - up_pending_irq(PIC32MZ_IRQSRC_ETH); -#endif - - /* Disable any Ethernet Controller interrupt generation by clearing the IEN - * register. - */ - - pic32mz_putreg(ETH_INT_ALLINTS, PIC32MZ_ETH_IENCLR); - - /* Clear the TX and RX start addresses by using ETHTXSTCLR and ETHRXSTCLR */ - - pic32mz_putreg(0xffffffff, PIC32MZ_ETH_TXSTCLR); - pic32mz_putreg(0xffffffff, PIC32MZ_ETH_RXSTCLR); - - /* MAC Initialization *****************************************************/ - /* Put the MAC into the reset state */ - - pic32mz_putreg((EMAC1_CFG1_TXRST | EMAC1_CFG1_MCSTXRST | EMAC1_CFG1_RXRST | - EMAC1_CFG1_MCSRXRST | EMAC1_CFG1_SIMRST | EMAC1_CFG1_SOFTRST), - PIC32MZ_EMAC1_CFG1); - - /* Take the MAC out of the reset state */ - - up_udelay(50); - pic32mz_putreg(0, PIC32MZ_EMAC1_CFG1); - irqrestore(flags); -} - -/**************************************************************************** - * Public Functions - ****************************************************************************/ - -/**************************************************************************** - * Function: pic32mz_ethinitialize - * - * Description: - * Initialize one Ethernet controller and driver structure. - * - * Parameters: - * intf - Selects the interface to be initialized. - * - * Returned Value: - * OK on success; Negated errno on failure. - * - * Assumptions: - * - ****************************************************************************/ - -#if CONFIG_PIC32MZ_NINTERFACES > 1 -int pic32mz_ethinitialize(int intf) -#else -static inline int pic32mz_ethinitialize(int intf) -#endif -{ - struct pic32mz_driver_s *priv; - int ret; - - DEBUGASSERT(intf < CONFIG_PIC32MZ_NINTERFACES); - priv = &g_ethdrvr[intf]; - - /* Initialize the driver structure */ - - memset(priv, 0, sizeof(struct pic32mz_driver_s)); - priv->pd_dev.d_ifup = pic32mz_ifup; /* I/F down callback */ - priv->pd_dev.d_ifdown = pic32mz_ifdown; /* I/F up (new IP address) callback */ - priv->pd_dev.d_txavail = pic32mz_txavail; /* New TX data callback */ -#ifdef CONFIG_NET_IGMP - priv->pd_dev.d_addmac = pic32mz_addmac; /* Add multicast MAC address */ - priv->pd_dev.d_rmmac = pic32mz_rmmac; /* Remove multicast MAC address */ -#endif - priv->pd_dev.d_private = (void*)priv; /* Used to recover private state from dev */ - -#if CONFIG_PIC32MZ_NINTERFACES > 1 -# error "A mechanism to associate base address an IRQ with an interface is needed" - priv->pd_base = ??; /* Ethernet controller base address */ - priv->pd_irq = ??; /* Ethernet controller IRQ vector number */ - priv->pd_irqsrc = ??; /* Ethernet controller IRQ source number */ -#endif - - /* Create a watchdog for timing polling for and timing of transmisstions */ - - priv->pd_txpoll = wd_create(); /* Create periodic poll timer */ - priv->pd_txtimeout = wd_create(); /* Create TX timeout timer */ - - /* Configure Ethernet peripheral pin selections */ - /* Controlled by DEVCFG FMIIEN and FETHIO settings */ - - /* Reset the Ethernet controller and leave in the ifdown state. The - * Ethernet controller will be properly re-initialized each time - * pic32mz_ifup() is called. - */ - - pic32mz_ifdown(&priv->pd_dev); - - /* Attach the IRQ to the driver */ - -#if CONFIG_PIC32MZ_NINTERFACES > 1 - ret = irq_attach(priv->pd_irq, pic32mz_interrupt); -#else - ret = irq_attach(PIC32MZ_IRQ_ETH, pic32mz_interrupt); -#endif - if (ret != 0) - { - /* We could not attach the ISR to the interrupt */ - - return -EAGAIN; - } - - /* Register the device with the OS so that socket IOCTLs can be performed */ - - (void)netdev_register(&priv->pd_dev, NET_LL_ETHERNET); - return OK; -} - -/**************************************************************************** - * Name: up_netinitialize - * - * Description: - * Initialize the first network interface. If there are more than one - * interface in the chip, then board-specific logic will have to provide - * this function to determine which, if any, Ethernet controllers should - * be initialized. - * - ****************************************************************************/ - -#if CONFIG_PIC32MZ_NINTERFACES == 1 -void up_netinitialize(void) -{ - (void)pic32mz_ethinitialize(0); -} -#endif -#endif /* CHIP_NETHERNET > 0 */ -#endif /* CONFIG_NET && CONFIG_PIC32MZ_ETHERNET */ -- cgit v1.2.3