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authorRalf Kirchner <ralf.kirchner@embedded-brains.de>2014-02-17 15:43:53 +0100
committerSebastian Huber <sebastian.huber@embedded-brains.de>2014-03-13 16:21:55 +0100
commit4953b72490ce9666c5d783011bbf190229ffe689 (patch)
tree862affb804874705b96ac23d2543b9cac85a4417
parentlibbsp/xilinx-zynq: Share handling for ARM cache controller L2C-310 (diff)
downloadrtems-4953b72490ce9666c5d783011bbf190229ffe689.tar.bz2
libchip: Add dwmac 10/100/1000 network driver
-rw-r--r--c/src/libchip/Makefile.am11
-rw-r--r--c/src/libchip/network/README.dwmac25
-rw-r--r--c/src/libchip/network/dwmac-1000-core.c238
-rw-r--r--c/src/libchip/network/dwmac-1000-dma.c244
-rw-r--r--c/src/libchip/network/dwmac-1000-ethernet-mac-ops.c33
-rw-r--r--c/src/libchip/network/dwmac-common.h374
-rw-r--r--c/src/libchip/network/dwmac-core.c406
-rw-r--r--c/src/libchip/network/dwmac-core.h76
-rw-r--r--c/src/libchip/network/dwmac-desc-com.c60
-rw-r--r--c/src/libchip/network/dwmac-desc-com.h44
-rw-r--r--c/src/libchip/network/dwmac-desc-enh.c1051
-rw-r--r--c/src/libchip/network/dwmac-desc.h257
-rw-r--r--c/src/libchip/network/dwmac-regs.h515
-rw-r--r--c/src/libchip/network/dwmac.c2325
-rw-r--r--c/src/libchip/network/dwmac.h878
-rw-r--r--c/src/libchip/preinstall.am4
16 files changed, 6540 insertions, 1 deletions
diff --git a/c/src/libchip/Makefile.am b/c/src/libchip/Makefile.am
index eb0d015dce..003c3c1268 100644
--- a/c/src/libchip/Makefile.am
+++ b/c/src/libchip/Makefile.am
@@ -44,11 +44,20 @@ libnetchip_a_SOURCES = network/cs8900.c network/dec21140.c network/i82586.c \
libnetchip_a_SOURCES += network/greth.c
include_libchip_HEADERS += network/smc91111.h network/smc91111exp.h
libnetchip_a_SOURCES += network/smc91111.c network/smc91111config.h
+include_libchip_HEADERS += network/dwmac.h
+libnetchip_a_SOURCES += \
+ network/dwmac-1000-core.c \
+ network/dwmac-1000-dma.c \
+ network/dwmac-1000-ethernet-mac-ops.c \
+ network/dwmac-core.c \
+ network/dwmac-desc-com.c \
+ network/dwmac-desc-enh.c \
+ network/dwmac.c
endif
EXTRA_DIST += network/README network/README.cs8900 network/README.dec21140 \
network/README.i82586 network/README.open_eth network/README.sonic \
- network/cs8900.c.bsp network/README.tulipclone
+ network/cs8900.c.bsp network/README.tulipclone network/README.dwmac
# rtc
include_libchip_HEADERS += rtc/rtc.h rtc/icm7170.h rtc/m48t08.h \
diff --git a/c/src/libchip/network/README.dwmac b/c/src/libchip/network/README.dwmac
new file mode 100644
index 0000000000..4fd16221bd
--- /dev/null
+++ b/c/src/libchip/network/README.dwmac
@@ -0,0 +1,25 @@
+About
+=====
+The dwmac* files implement libchip driver for the DWMAC 10/100/1000
+ethernet MAC. The DWMAC 10/100/1000 ethernet MAC is a Synopsys IP core.
+
+Target Support
+==============
+
+The target is required to provide the low level support routines as
+listed in the Configuration section of this file.
+
+The file cs8900.[ch].bsp are an example BSP files for DIMMPC target.
+
+Conditionals
+============
+None
+
+Todo
+====
++ Add support for DWMAC 10/100. currently only support for DWMAC 1000
+ is implemented
+
+Configuration
+=============
+See the dwmac.h header file for the documentation. \ No newline at end of file
diff --git a/c/src/libchip/network/dwmac-1000-core.c b/c/src/libchip/network/dwmac-1000-core.c
new file mode 100644
index 0000000000..770078af43
--- /dev/null
+++ b/c/src/libchip/network/dwmac-1000-core.c
@@ -0,0 +1,238 @@
+/**
+ * @file
+ *
+ * @brief DWMAC 1000 on-chip Ethernet controllers Core Handling
+ *
+ * Functions and data which are specific to the DWMAC 1000 Core Handling.
+ */
+
+/*
+ * Copyright (c) 2013 embedded brains GmbH. All rights reserved.
+ *
+ * embedded brains GmbH
+ * Dornierstr. 4
+ * 82178 Puchheim
+ * Germany
+ * <rtems@embedded-brains.de>
+ *
+ * The license and distribution terms for this file may be
+ * found in the file LICENSE in this distribution or at
+ * http://www.rtems.org/license/LICENSE.
+ */
+
+#include <assert.h>
+#include "dwmac-core.h"
+#include "dwmac-common.h"
+
+#define DWMAC_1000_CORE_DEBUG
+
+//#undef DWMAC_1000_CORE_DEBUG
+#ifdef DWMAC_1000_CORE_DEBUG
+#define DWMAC_1000_CORE_PRINT_DBG( fmt, args ... ) printk( fmt, ## args )
+#else
+#define DWMAC_1000_CORE_PRINT_DBG( fmt, args ... ) do { } while ( 0 )
+#endif
+
+#define DWMAC_1000_CORE_INIT \
+ ( \
+ ( MACGRP_MAC_CONFIGURATION_JD \
+ | MACGRP_MAC_CONFIGURATION_BE ) \
+ & ~MACGRP_MAC_CONFIGURATION_PS \
+ )
+
+#define DWMAC_1000_CORE_HASH_TABLE_SIZE 256
+
+static volatile uint32_t *dwmac_1000_core_get_mac_addr_low(
+ dwmac_common_context *self,
+ const unsigned int mac_addr_index )
+{
+ volatile uint32_t *addr = NULL;
+
+ assert( self != NULL );
+ assert( mac_addr_index <= 127 );
+
+ if ( mac_addr_index > 15 ) {
+ addr = &self->macgrp->mac_addr16_127[mac_addr_index].low;
+ } else {
+ addr = &self->macgrp->mac_addr0_15[mac_addr_index].low;
+ }
+
+ return addr;
+}
+
+static volatile uint32_t *dwmac_1000_core_get_mac_addr_high(
+ dwmac_common_context *self,
+ const unsigned int mac_addr_index )
+{
+ volatile uint32_t *addr = NULL;
+
+ assert( self != NULL );
+ assert( mac_addr_index <= 127 );
+
+ if ( mac_addr_index > 15 ) {
+ addr = &self->macgrp->mac_addr16_127[mac_addr_index].high;
+ } else {
+ addr = &self->macgrp->mac_addr0_15[mac_addr_index].high;
+ }
+
+ return addr;
+}
+
+static void dwmac_1000_core_init( dwmac_common_context *self )
+{
+ uint32_t value = self->macgrp->mac_configuration;
+
+ value |= DWMAC_1000_CORE_INIT;
+
+ if ( ( self->dmagrp->hw_feature & DMAGRP_HW_FEATURE_RXTYP1COE ) != 0
+ || ( self->dmagrp->hw_feature & DMAGRP_HW_FEATURE_RXTYP2COE ) != 0 ) {
+ /* Enable RX checksum calculation offload to hardware */
+ value |= MACGRP_MAC_CONFIGURATION_IPC;
+ }
+
+ /* No Jumbo- or Giant frames. The network stack does not support them */
+ value &= ~MACGRP_MAC_CONFIGURATION_JE;
+ value &= ~MACGRP_MAC_CONFIGURATION_TWOKPE;
+ self->macgrp->mac_configuration = value;
+
+ /* Mask GMAC interrupts */
+ self->macgrp->interrupt_mask =
+ MACGRP_INTERRUPT_MASK_RGSMIIIM
+ | MACGRP_INTERRUPT_MASK_PCSLCHGIM
+ | MACGRP_INTERRUPT_MASK_PCSANCIM
+ | MACGRP_INTERRUPT_MASK_TSIM;
+
+ /* mask out interrupts because we don't handle them yet */
+ self->macgrp->mmc_receive_interrupt_mask = ( uint32_t ) ~0L;
+ self->macgrp->mmc_transmit_interrupt_mask = ( uint32_t ) ~0L;
+ self->macgrp->mmc_ipc_receive_interrupt_mask = ( uint32_t ) ~0L;
+}
+
+static void dwmac_1000_core_set_umac_addr(
+ dwmac_common_context *self,
+ const uint8_t *addr,
+ unsigned int reg_n )
+{
+ dwmac_core_set_mac_addr(
+ addr,
+ dwmac_1000_core_get_mac_addr_high( self, reg_n ),
+ dwmac_1000_core_get_mac_addr_low( self, reg_n )
+ );
+}
+
+static void dwmac_1000_core_set_hash_filter(
+ dwmac_common_context *self,
+ const bool add,
+ struct ifreq *ifr )
+{
+ int eno = 0;
+ struct arpcom *ac = &self->arpcom;
+
+ if ( add ) {
+ eno = ether_addmulti( ifr, ac );
+ } else {
+ eno = ether_delmulti( ifr, ac );
+ }
+
+ if ( eno == ENETRESET ) {
+ struct ether_multistep step;
+ struct ether_multi *enm;
+ unsigned int num_multi = 0;
+ unsigned int index;
+
+ ETHER_FIRST_MULTI( step, ac, enm );
+
+ while ( enm != NULL ) {
+ /* Find out how many multicast addresses we have to handle */
+ uint64_t addrlo = 0;
+ uint64_t addrhi = 0;
+
+ memcpy( &addrlo, enm->enm_addrlo, ETHER_ADDR_LEN );
+ memcpy( &addrhi, enm->enm_addrhi, ETHER_ADDR_LEN );
+ num_multi += 1U + (uint32_t) ( addrhi - addrlo );
+ }
+
+ if ( num_multi > DWMAC_1000_CORE_HASH_TABLE_SIZE ) {
+ /* Too many addresses to be hashed, Use the
+ * pass all multi option instead */
+
+ for ( index = 0; index < 8; ++index ) {
+ self->macgrp->hash_table_reg[index] = 0xffffffff;
+ }
+
+ self->macgrp->mac_frame_filter |= MACGRP_MAC_FRAME_FILTER_PM;
+ } else if ( num_multi > 0 ) {
+ uint32_t hash_shadow[8] = {0, 0, 0, 0, 0, 0, 0, 0};
+ ETHER_FIRST_MULTI( step, ac, enm );
+
+ while ( enm != NULL ) {
+ uint64_t addrlo = 0;
+ uint64_t addrhi = 0;
+
+ memcpy( &addrlo, enm->enm_addrlo, ETHER_ADDR_LEN );
+ memcpy( &addrhi, enm->enm_addrhi, ETHER_ADDR_LEN );
+
+ while ( addrlo <= addrhi ) {
+ /* XXX: ether_crc32_le() does not work, why? */
+ uint32_t crc = ether_crc32_be( (uint8_t *) &addrlo, ETHER_ADDR_LEN );
+
+ /* The upper 8 bits of the bit reversed 32 bit CRC are used for hash filtering.
+ * The most significant bits determine the register to be used and the
+ * least significant five bits determine which bit to be set within the register */
+ uint32_t index_reg = ( crc >> 29 ) & 0x7;
+ uint32_t index_bit = ( crc >> 24 ) & 0x1f;
+
+ hash_shadow[index_reg] |= 1U << index_bit;
+ ++addrlo;
+ }
+
+ ETHER_NEXT_MULTI( step, enm );
+ }
+
+ for ( index = 0; index < 8; ++index ) {
+ self->macgrp->hash_table_reg[index] = hash_shadow[index];
+ }
+
+ /* Hash filter for multicast */
+ self->macgrp->mac_frame_filter |= MACGRP_MAC_FRAME_FILTER_HMC;
+ } else {
+ /* Set all hash registers to accect to accept no multicast packets */
+ for ( index = 0; index < 8; ++index ) {
+ self->macgrp->hash_table_reg[index] = 0x00000000;
+ }
+
+ /* Hash filter for multicast */
+ self->macgrp->mac_frame_filter |= MACGRP_MAC_FRAME_FILTER_HMC;
+ }
+
+ DWMAC_1000_CORE_PRINT_DBG(
+ "Frame Filter reg: 0x%08x\n",
+ self->macgrp->mac_frame_filter
+ );
+ DWMAC_1000_CORE_PRINT_DBG(
+ "Hash regs:\n"
+ "0x%08x\n"
+ "0x%08x\n"
+ "0x%08x\n"
+ "0x%08x\n"
+ "0x%08x\n"
+ "0x%08x\n"
+ "0x%08x\n"
+ "0x%08x\n",
+ self->macgrp->hash_table_reg[0],
+ self->macgrp->hash_table_reg[1],
+ self->macgrp->hash_table_reg[2],
+ self->macgrp->hash_table_reg[3],
+ self->macgrp->hash_table_reg[4],
+ self->macgrp->hash_table_reg[5],
+ self->macgrp->hash_table_reg[6],
+ self->macgrp->hash_table_reg[7]
+ );
+ }
+}
+
+const dwmac_common_core_ops dwmac_core_ops_1000 = {
+ .core_init = dwmac_1000_core_init,
+ .set_hash_filter = dwmac_1000_core_set_hash_filter,
+ .set_umac_addr = dwmac_1000_core_set_umac_addr,
+};
diff --git a/c/src/libchip/network/dwmac-1000-dma.c b/c/src/libchip/network/dwmac-1000-dma.c
new file mode 100644
index 0000000000..32e5914f08
--- /dev/null
+++ b/c/src/libchip/network/dwmac-1000-dma.c
@@ -0,0 +1,244 @@
+/**
+ * @file
+ *
+ * @brief DWMAC 1000 on-chip Ethernet controllers DMA handling
+ *
+ * Functions and data which are specific to the DWMAC 1000 DMA Handling.
+ */
+
+/*
+ * Copyright (c) 2013 embedded brains GmbH. All rights reserved.
+ *
+ * embedded brains GmbH
+ * Dornierstr. 4
+ * 82178 Puchheim
+ * Germany
+ * <rtems@embedded-brains.de>
+ *
+ * The license and distribution terms for this file may be
+ * found in the file LICENSE in this distribution or at
+ * http://www.rtems.org/license/LICENSE.
+ */
+
+#include <errno.h>
+#include "dwmac-core.h"
+#include "dwmac-common.h"
+
+typedef enum {
+ DWMAC100_OPERATION_MODE_TTC_CONTROL_64 = 0x00000000,
+ DWMAC100_OPERATION_MODE_TTC_CONTROL_128 = 0x00004000,
+ DWMAC100_OPERATION_MODE_TTC_CONTROL_192 = 0x00008000,
+ DWMAC100_OPERATION_MODE_TTC_CONTROL_256 = 0x0000c000,
+ DWMAC100_OPERATION_MODE_TTC_CONTROL_40 = 0x00010000,
+ DWMAC100_OPERATION_MODE_TTC_CONTROL_32 = 0x00014000,
+ DWMAC100_OPERATION_MODE_TTC_CONTROL_24 = 0x00018000,
+ DWMAC100_OPERATION_MODE_TTC_CONTROL_16 = 0x0001c000,
+} dwmac1000_operation_mode_ttc_control;
+
+typedef enum {
+ DWMAC100_OPERATION_MODE_RTC_CONTROL_64 = 0x00000000,
+ DWMAC100_OPERATION_MODE_RTC_CONTROL_32 = 0x00000008,
+ DWMAC100_OPERATION_MODE_RTC_CONTROL_96 = 0x00000010,
+ DWMAC100_OPERATION_MODE_RTC_CONTROL_128 = 0x00000018,
+} dwmac1000_operation_mode_rtc_control;
+
+static int dwmac1000_dma_init(
+ dwmac_common_context *self,
+ const uint32_t pbl,
+ const uint32_t fb,
+ const uint32_t mb,
+ const bool use_enhanced_desc,
+ const uint32_t burst_len_4_support,
+ const uint32_t burst_len_8_support,
+ const uint32_t burst_len_16_support,
+ const uint32_t burst_boundary,
+ volatile dwmac_desc *dma_tx,
+ volatile dwmac_desc *dma_rx )
+{
+ int eno = 0;
+ uint32_t value = self->dmagrp->bus_mode;
+ int limit = 10;
+
+
+ /* DMA SW reset */
+ value |= DMAGRP_BUS_MODE_SWR;
+ self->dmagrp->bus_mode = value;
+
+ while ( limit-- ) {
+ if ( !( self->dmagrp->bus_mode & DMAGRP_BUS_MODE_SWR ) )
+ break;
+
+ rtems_task_wake_after( rtems_clock_get_ticks_per_second() / 100 );
+ }
+
+ if ( limit < 0 ) {
+ eno = EBUSY;
+ } else {
+ /*
+ * Set the DMA PBL (Programmable Burst Length) mode
+ */
+ if ( pbl >= DWMAC_DMA_CFG_BUS_MODE_BURST_LENGTH_8 ) {
+ value =
+ DMAGRP_BUS_MODE_PBL( ( pbl + 1 ) / 8 ) | DMAGRP_BUS_MODE_RPBL(
+ ( pbl + 1 ) / 8 ) | DMAGRP_BUS_MODE_EIGHTXPBL;
+ } else {
+ value = DMAGRP_BUS_MODE_PBL( pbl + 1 ) | DMAGRP_BUS_MODE_RPBL( pbl + 1 );
+ }
+
+ /* Set the Fixed burst mode */
+ if ( fb ) {
+ value |= DMAGRP_BUS_MODE_FB;
+ }
+
+ /* Mixed Burst has no effect when fb is set */
+ if ( mb ) {
+ value |= DMAGRP_BUS_MODE_MB;
+ }
+
+ if ( use_enhanced_desc ) {
+ value |= DMAGRP_BUS_MODE_ATDS;
+ }
+
+ self->dmagrp->bus_mode = value;
+
+ /* In case of GMAC AXI configuration, program the DMA_AXI_BUS_MODE
+ * for supported bursts.
+ *
+ * Note: This is applicable only for revision GMACv3.61a. For
+ * older version this register is reserved and shall have no
+ * effect.
+ *
+ * Note:
+ * For Fixed Burst Mode: if we directly write 0xFF to this
+ * register using the configurations pass from platform code,
+ * this would ensure that all bursts supported by core are set
+ * and those which are not supported would remain ineffective.
+ *
+ * For Non Fixed Burst Mode: provide the maximum value of the
+ * burst length. Any burst equal or below the provided burst
+ * length would be allowed to perform. */
+ value = self->dmagrp->axi_bus_mode;
+
+ if ( burst_len_4_support ) {
+ value |= DMAGRP_AXI_BUS_MODE_BLEND4;
+ } else {
+ value &= ~DMAGRP_AXI_BUS_MODE_BLEND4;
+ }
+
+ if ( burst_len_8_support ) {
+ value |= DMAGRP_AXI_BUS_MODE_BLEND8;
+ } else {
+ value &= ~DMAGRP_AXI_BUS_MODE_BLEND8;
+ }
+
+ if ( burst_len_16_support ) {
+ value |= DMAGRP_AXI_BUS_MODE_BLEND16;
+ } else {
+ value &= ~DMAGRP_AXI_BUS_MODE_BLEND16;
+ }
+
+ if ( burst_boundary ) {
+ value |= DMAGRP_AXI_BUS_MODE_ONEKBBE;
+ } else {
+ value &= ~DMAGRP_AXI_BUS_MODE_ONEKBBE;
+ }
+
+ self->dmagrp->axi_bus_mode = value;
+
+ /* Mask interrupts by writing to CSR7 */
+ dwmac_core_enable_dma_irq_rx( self );
+ dwmac_core_enable_dma_irq_tx( self );
+
+ /* The base address of the RX/TX descriptor lists must be written into
+ * DMA CSR3 and CSR4, respectively. */
+ self->dmagrp->transmit_descr_list_addr = (uintptr_t) &dma_tx[0];
+ self->dmagrp->receive_descr_list_addr = (uintptr_t) &dma_rx[0];
+ }
+
+ return eno;
+}
+
+static void dwmac1000_dma_operation_mode(
+ dwmac_common_context *self,
+ const unsigned int txmode,
+ const unsigned int rxmode )
+{
+ uint32_t value = self->dmagrp->operation_mode;
+
+
+ if ( txmode == DWMAC_COMMON_DMA_MODE_STORE_AND_FORWARD ) {
+ /* Transmit COE type 2 cannot be done in cut-through mode. */
+ value |= DMAGRP_OPERATION_MODE_TSF;
+
+ /* Operating on second frame increase the performance
+ * especially when transmit store-and-forward is used.*/
+ value |= DMAGRP_OPERATION_MODE_OSF;
+ } else {
+ value &= ~DMAGRP_OPERATION_MODE_TSF;
+ value &= ~DMAGRP_OPERATION_MODE_TTC_GET( value );
+
+ /* Set the transmit threshold */
+ if ( txmode <= 32 ) {
+ value |= DMAGRP_OPERATION_MODE_TTC_SET(
+ value,
+ DWMAC100_OPERATION_MODE_TTC_CONTROL_32
+ );
+ } else if ( txmode <= 64 ) {
+ value = DMAGRP_OPERATION_MODE_TTC_SET(
+ value,
+ DWMAC100_OPERATION_MODE_TTC_CONTROL_64
+ );
+ } else if ( txmode <= 128 ) {
+ value = DMAGRP_OPERATION_MODE_TTC_SET(
+ value,
+ DWMAC100_OPERATION_MODE_TTC_CONTROL_128
+ );
+ } else if ( txmode <= 192 ) {
+ value = DMAGRP_OPERATION_MODE_TTC_SET(
+ value,
+ DWMAC100_OPERATION_MODE_TTC_CONTROL_192
+ );
+ } else {
+ value = DMAGRP_OPERATION_MODE_TTC_SET(
+ value,
+ DWMAC100_OPERATION_MODE_TTC_CONTROL_256
+ );
+ }
+ }
+
+ if ( rxmode == DWMAC_COMMON_DMA_MODE_STORE_AND_FORWARD ) {
+ value |= DMAGRP_OPERATION_MODE_RSF;
+ } else {
+ value &= ~DMAGRP_OPERATION_MODE_RSF;
+ value &= DMAGRP_OPERATION_MODE_RTC_GET( value );
+
+ if ( rxmode <= 32 ) {
+ value = DMAGRP_OPERATION_MODE_RTC_SET(
+ value,
+ DWMAC100_OPERATION_MODE_RTC_CONTROL_32
+ );
+ } else if ( rxmode <= 64 ) {
+ value = DMAGRP_OPERATION_MODE_RTC_SET(
+ value,
+ DWMAC100_OPERATION_MODE_RTC_CONTROL_64
+ );
+ } else if ( rxmode <= 96 ) {
+ value = DMAGRP_OPERATION_MODE_RTC_SET(
+ value,
+ DWMAC100_OPERATION_MODE_RTC_CONTROL_96
+ );
+ } else {
+ value = DMAGRP_OPERATION_MODE_RTC_SET(
+ value,
+ DWMAC100_OPERATION_MODE_RTC_CONTROL_128
+ );
+ }
+ }
+
+ self->dmagrp->operation_mode = value;
+}
+
+const dwmac_common_dma_ops dwmac_dma_ops_1000 = {
+ .init = dwmac1000_dma_init,
+ .dma_mode = dwmac1000_dma_operation_mode,
+};
diff --git a/c/src/libchip/network/dwmac-1000-ethernet-mac-ops.c b/c/src/libchip/network/dwmac-1000-ethernet-mac-ops.c
new file mode 100644
index 0000000000..a4fe78241c
--- /dev/null
+++ b/c/src/libchip/network/dwmac-1000-ethernet-mac-ops.c
@@ -0,0 +1,33 @@
+/**
+ * @file
+ *
+ * @brief Operations for the dwmac 1000 ethernet mac
+ *
+ * DWMAC_1000_ETHERNET_MAC_OPS will be accessible in the API header and can be
+ * passed to the configuration data if handling a DWMAC 1000 driver
+ */
+
+/*
+ * Copyright (c) 2014 embedded brains GmbH. All rights reserved.
+ *
+ * embedded brains GmbH
+ * Dornierstr. 4
+ * 82178 Puchheim
+ * Germany
+ * <rtems@embedded-brains.de>
+ *
+ * The license and distribution terms for this file may be
+ * found in the file LICENSE in this distribution or at
+ * http://www.rtems.org/license/LICENSE.
+ */
+
+#include "dwmac-common.h"
+
+extern const dwmac_common_dma_ops dwmac_dma_ops_1000;
+extern const dwmac_common_core_ops dwmac_core_ops_1000;
+
+const dwmac_ethernet_mac_ops DWMAC_1000_ETHERNET_MAC_OPS =
+ DWMAC_ETHERNET_MAC_OPS_INITIALIZER(
+ &dwmac_core_ops_1000,
+ &dwmac_dma_ops_1000
+ );
diff --git a/c/src/libchip/network/dwmac-common.h b/c/src/libchip/network/dwmac-common.h
new file mode 100644
index 0000000000..b61b833078
--- /dev/null
+++ b/c/src/libchip/network/dwmac-common.h
@@ -0,0 +1,374 @@
+/**
+ * @file
+ */
+
+/*
+ * Copyright (c) 2013 embedded brains GmbH. All rights reserved.
+ *
+ * embedded brains GmbH
+ * Dornierstr. 4
+ * 82178 Puchheim
+ * Germany
+ * <rtems@embedded-brains.de>
+ *
+ * The license and distribution terms for this file may be
+ * found in the file LICENSE in this distribution or at
+ * http://www.rtems./license/LICENSE.
+ */
+
+#ifndef DWMAC_COMMON_H_
+#define DWMAC_COMMON_H_
+
+#define __INSIDE_RTEMS_BSD_TCPIP_STACK__ 1
+#define __BSD_VISIBLE 1
+
+#include <stdint.h>
+#include <rtems.h>
+#include <rtems/rtems_bsdnet.h>
+#include <rtems/rtems_mii_ioctl.h>
+
+#include <sys/param.h>
+#include <sys/socket.h>
+#include <sys/sockio.h>
+#include <sys/mbuf.h>
+
+#include <net/if.h>
+#include <net/if_arp.h>
+#include <netinet/in.h>
+#include <netinet/if_ether.h>
+#include <netinet/in_systm.h>
+#include <netinet/ip.h>
+
+#include <libchip/dwmac.h>
+#include "dwmac-desc.h"
+#include "dwmac-regs.h"
+
+#ifdef __cplusplus
+extern "C" {
+#endif /* __cplusplus */
+
+#define DWMAC_COMMON_DMA_MODE_STORE_AND_FORWARD 1 /* DMA STORE-AND-FORWARD Operation Mode */
+
+/* Events */
+/* Common task events */
+#define DWMAC_COMMON_EVENT_TASK_INIT RTEMS_EVENT_1
+#define DWMAC_COMMON_EVENT_TASK_STOP RTEMS_EVENT_2
+
+/* Events for the transmit task */
+#define DWMAC_COMMON_EVENT_TX_TRANSMIT_FRAME RTEMS_EVENT_3
+#define DWMAC_COMMON_EVENT_TX_FRAME_TRANSMITTED RTEMS_EVENT_4
+#define DWMAC_COMMON_EVENT_TX_BUMP_UP_DMA_THRESHOLD RTEMS_EVENT_5
+#define DWMAC_COMMON_EVENT_TX_PHY_STATUS_CHANGE RTEMS_EVENT_6
+
+/* Events for the receive task */
+#define DWMAC_COMMON_EVENT_RX_FRAME_RECEIVED RTEMS_EVENT_3
+
+#ifdef __ARM_ARCH_7A__
+ #define DWMAC_COMMON_DSB() _ARM_Data_synchronization_barrier()
+#else /* __ARM_ARCH_7A__ */
+ #define DWMAC_COMMON_DSB()
+#endif /* __ARM_ARCH_7A__ */
+
+/* Foreward declarations */
+typedef struct dwmac_common_core_ops dwmac_common_core_ops;
+typedef struct dwmac_common_dma_ops dwmac_common_dma_ops;
+typedef struct dwmac_common_desc_ops dwmac_common_desc_ops;
+
+typedef enum { /* IPC status */
+ DWMAC_COMMON_RX_FRAME_STATUS_GOOD,
+ DWMAC_COMMON_RX_FRAME_STATUS_DISCARD,
+ DWMAC_COMMON_RX_FRAME_STATUS_CSUM_NONE,
+ DWMAC_COMMON_RX_FRAME_STATUS_LLC_SNAP
+} dwmac_common_rx_frame_status;
+
+typedef enum {
+ DWMAC_COMMON_STATE_DOWN,
+ DWMAC_COMMON_STATE_UP,
+
+ DWMAC_COMMON_STATE_COUNT
+} dwmac_common_state;
+
+typedef struct {
+ uint32_t link_down;
+ uint32_t link_up;
+} dwmac_common_phy_status_counts;
+
+typedef struct {
+ uint32_t receive;
+ uint32_t transmit;
+ uint32_t tx_underflow;
+ uint32_t tx_jabber;
+ uint32_t rx_overflow;
+ uint32_t rx_early;
+ uint32_t rx_buf_unav;
+ uint32_t rx_process_stopped;
+ uint32_t rx_watchdog;
+ uint32_t tx_early;
+ uint32_t tx_buf_unav;
+ uint32_t tx_process_stopped;
+ uint32_t fatal_bus_error;
+ uint32_t unhandled;
+} dwmac_common_dma_irq_counts;
+
+typedef struct {
+ uint32_t dest_addr_fail; /* When set, this bit indicates a frame that failed in the DA Filter in the MAC. */
+ uint32_t crc_error; /* When set, this bit indicates that a CRC error occurred on the received frame. This field is valid only when the Last
+ Descriptor (RDES0[8]) is set. */
+ uint32_t receive_error; /* When set, this bit indicates that the gmii_rxer_i signal is asserted while gmii_rxdv_i is asserted during frame
+ reception. Error can be of less or no extension, or error (rxd !=0xf) during extension. */
+ uint32_t watchdog_timeout; /* When set, this bit indicates that the receive Watchdog Timer has expired while receiving the current frame and the
+ current frame is truncated after the Watchdog Timeout. */
+ uint32_t late_collision; /* When set, this bit indicates that a late collision has occurred while receiving the frame in the half-duplex mode. */
+ uint32_t giant_frame; /* When advanced timestamp feature is present, when set, this bit indicates that a snapshot of the Timestamp is
+ written in descriptor words 6 (RDES6) and 7 (RDES7). This is valid only when the Last Descriptor bit (RDES0[8]) is
+ set.
+ When IP Checksum Engine (Type 1) is selected, this bit, when set, indicates that the 16-bit IPv4 Header checksum
+ calculated by the EMAC did not match the received checksum bytes.
+ Otherwise, this bit, when set, indicates the Giant frame Status. Giant frames are larger than 1,518-byte (or
+ 1,522-byte for VLAN or 2,000-byte when Bit 27 (2KPE) of MAC Configuration register is set) normal frames and
+ larger than 9,018-byte (9,022-byte for VLAN) frame when Jumbo frame processing is enabled. */
+ uint32_t overflow_error; /* When set, this bit indicates that the received frame was damaged because of buffer overflow in MTL.
+ Note: This bit is set only when the DMA transfers a partial frame to the application. This happens only when the RX
+ FIFO buffer is operating in the threshold mode. In the store-and-forward mode, all partial frames are dropped
+ completely in RX FIFO buffer. */
+ uint32_t descriptor_error; /* When set, this bit indicates a frame truncation caused by a frame that does not fit within the current descriptor
+ buffers, and that the DMA does not own the Next descriptor. The frame is truncated. This field is valid only when the
+ Last Descriptor (RDES0[8]) is set. */
+ uint32_t source_addr_fail; /* When set, this bit indicates that the SA field of frame failed the SA Filter in the MAC. */
+ uint32_t length_error; /* When set, this bit indicates that the actual length of the frame received and that the Length/ Type field does not
+ match. This bit is valid only when the Frame Type (RDES0[5]) bit is reset. */
+ uint32_t vlan_tag; /* When set, this bit indicates that the frame to which this descriptor is pointing is a VLAN frame tagged by the MAC.
+ The VLAN tagging depends on checking the VLAN fields of received frame based on the Register 7 (VLAN Tag
+ Register) setting. */
+ uint32_t ethernet_frames; /* When set, this bit indicates that the receive frame is an Ethernet-type frame (the LT field is greater than or equal to
+ 0x0600). When this bit is reset, it indicates that the received frame is an IEEE802.3 frame. This bit is not valid for
+ Runt frames less than 14 bytes. */
+ uint32_t dribble_bit_error; /* When set, this bit indicates that the received frame has a non-integer multiple of bytes (odd nibbles). This bit is valid
+ only in the MII Mode. */
+} dwmac_common_desc_status_counts_rx;
+
+typedef struct {
+ uint32_t jabber; /* When set, this bit indicates the MAC transmitter has experienced a jabber time-out. This bit is only set when Bit 22
+ (Jabber Disable) of Register 0 (MAC Configuration Register) is not set. */
+ uint32_t frame_flushed; /* When set, this bit indicates that the DMA or MTL flushed the frame because of a software Flush command given by
+ the CPU. */
+ uint32_t losscarrier; /* When set, this bit indicates that a loss of carrier occurred during frame transmission (that is, the gmii_crs_i
+ signal was inactive for one or more transmit clock periods during frame transmission). This is valid only for the
+ frames transmitted without collision when the MAC operates in the half-duplex mode. */
+ uint32_t no_carrier; /* When set, this bit indicates that the Carrier Sense signal form the PHY was not asserted during transmission. */
+ uint32_t excessive_collisions; /* When set, this bit indicates that the transmission was aborted after 16 successive collisions while attempting to
+ transmit the current frame. If Bit 9 (Disable Retry) bit in the Register 0 (MAC Configuration Register) is set, this bit
+ is set after the first collision, and the transmission of the frame is aborted. */
+ uint32_t excessive_deferral; /* When set, this bit indicates that the transmission has ended because of excessive deferral of over 24,288 bit times
+ (155,680 bits times in 1,000-Mbps mode or if Jumbo frame is enabled) if Bit 4 (Deferral Check) bit in Register 0
+ (MAC Configuration Register) is set high. */
+ uint32_t underflow; /* When set, this bit indicates that the MAC aborted the frame because the data arrived late from the Host memory.
+ Underflow Error indicates that the DMA encountered an empty transmit buffer while transmitting the frame. The
+ transmission process enters the Suspended state and sets both Transmit Underflow (Register 5[5]) and Transmit
+ Interrupt (Register 5[0]). */
+ uint32_t ip_header_error; /* When set, this bit indicates that the MAC transmitter detected an error in the IP datagram header. The transmitter
+ checks the header length in the IPv4 packet against the number of header bytes received from the application and
+ indicates an error status if there is a mismatch. For IPv6 frames, a header error is reported if the main header length
+ is not 40 bytes. Furthermore, the Ethernet Length/Type field value for an IPv4 or IPv6 frame must match the IP
+ header version received with the packet. For IPv4 frames, an error status is also indicated if the Header Length field
+ has a value less than 0x5. */
+ uint32_t payload_error; /* When set, this bit indicates that MAC transmitter detected an error in the TCP, UDP, or ICMP IP datagram payload.
+ The transmitter checks the payload length received in the IPv4 or IPv6 header against the actual number of TCP,
+ UDP, or ICMP packet bytes received from the application and issues an error status in case of a mismatch. */
+ uint32_t deferred; /* When set, this bit indicates that the MAC defers before transmission because of the presence of carrier. This bit is
+ valid only in the half-duplex mode. */
+ uint32_t vlan; /* When set, this bit indicates that the transmitted frame is a VLAN-type frame. */
+} dwmac_common_desc_status_counts_tx;
+
+typedef struct {
+ uint32_t errors; /* Frames with errors */
+ uint32_t dropped; /* Frames dropped */
+ uint32_t frames_good; /* Frames passed to the network stack */
+ uint32_t bytes_good; /* Sum of bytes passed to the network stack */
+ uint32_t frames; /* Frames handled (good or bad) */
+ uint32_t dma_suspended; /* The receive DMA was supended due to lack of descriptors */
+} dwmac_common_rx_frame_counts;
+
+typedef struct {
+ uint32_t frames_from_stack; /* Frames received from the network stack fro tranmission */
+ uint32_t frames_to_dma; /* Number of frames transmitted to DMA */
+ uint32_t packets_to_dma; /* Number of packets transmitted to DMA*/
+ uint32_t bytes_to_dma; /* Number of bytes transmitted */
+ uint32_t packet_errors; /* Packets with errors */
+ uint32_t packets_tranmitted_by_DMA; /* Packets tranmitted by the DMA */
+} dwmac_common_tx_frame_counts;
+
+typedef struct {
+ dwmac_common_phy_status_counts phy_status_counts;
+ dwmac_common_dma_irq_counts dma_irq_counts;
+ dwmac_common_desc_status_counts_rx desc_status_counts_rx;
+ dwmac_common_desc_status_counts_tx desc_status_counts_tx;
+ dwmac_common_rx_frame_counts frame_counts_rx;
+ dwmac_common_tx_frame_counts frame_counts_tx;
+} dwmac_common_stats;
+
+typedef struct {
+ struct arpcom arpcom;
+ struct rtems_bsdnet_ifconfig *bsd_config;
+ struct rtems_mdio_info mdio;
+ rtems_id task_id_rx;
+ rtems_id task_id_tx;
+ rtems_id task_id_control;
+ void *arg;
+ volatile macgrp *macgrp;
+ volatile dmagrp *dmagrp;
+ unsigned int csr_clock;
+ dwmac_common_state state;
+ dwmac_common_stats stats;
+ unsigned int dma_threshold_control;
+ volatile dwmac_desc *dma_tx;
+ volatile dwmac_desc *dma_rx;
+ unsigned int idx_rx;
+ struct mbuf **mbuf_addr_rx;
+ struct mbuf **mbuf_addr_tx;
+ const dwmac_cfg *CFG;
+} dwmac_common_context;
+
+struct dwmac_common_core_ops {
+ /* MAC core initialization */
+ void (*core_init) ( dwmac_common_context *self );
+
+ /* Multicast filter setting */
+ void (*set_hash_filter) (
+ dwmac_common_context *self,
+ const bool add,
+ struct ifreq *ifr );
+
+ /* Set/Get Unicast MAC addresses */
+ void (*set_umac_addr) (
+ dwmac_common_context *ioaddr,
+ const unsigned char *addr,
+ const unsigned int reg_n );
+};
+
+struct dwmac_common_dma_ops {
+ /* DMA core initialization */
+ int (*init) (
+ dwmac_common_context *self,
+ const uint32_t pbl,
+ const uint32_t fb,
+ const uint32_t mb,
+ const bool use_enhanced_desc,
+ const uint32_t burst_len_4_support,
+ const uint32_t burst_len_8_support,
+ const uint32_t burst_len_16_support,
+ const uint32_t burst_boundary,
+ volatile dwmac_desc *dma_tx,
+ volatile dwmac_desc *dma_rx );
+
+ /* Set tx/rx threshold in the csr6 register
+ * An invalid value enables the store-and-forward mode */
+ void (*dma_mode) (
+ dwmac_common_context *self,
+ const unsigned int txmode,
+ const unsigned int rxmode );
+};
+
+struct dwmac_common_desc_ops {
+ /* Verify that it is OK to use the selected descriptor operations */
+ int (*validate) ( dwmac_common_context *self );
+ bool (*use_enhanced_descs) ( dwmac_common_context *self );
+
+ /* DMA RX descriptor ring allocation */
+ int (*create_rx_desc) ( dwmac_common_context *self );
+
+ /* DMA TX descriptor ring allocation */
+ int (*create_tx_desc) ( dwmac_common_context *self );
+
+ /* Free DMA RX descriptor ring */
+ int (*destroy_rx_desc) ( dwmac_common_context *self );
+
+ /* Free DMA TX descriptor ring */
+ int (*destroy_tx_desc) ( dwmac_common_context *self );
+
+ /* DMA RX descriptor initialization */
+ void (*init_rx_desc) (
+ dwmac_common_context *self,
+ const unsigned int index );
+
+ /* DMA TX descriptor ring initialization */
+ void (*init_tx_desc) ( dwmac_common_context *self );
+
+ /* Free rx data buffers */
+ void (*release_rx_bufs) ( dwmac_common_context *self );
+
+ /* Allocate a data buffer */
+ struct mbuf *(*alloc_data_buf)( dwmac_common_context *self );
+
+ /* Free tx data buffers */
+ void (*release_tx_bufs) ( dwmac_common_context *self );
+
+ /* Invoked by the xmit function to prepare the tx descriptor */
+ void (*prepare_tx_desc) (
+ dwmac_common_context *self,
+ const unsigned int idx,
+ const bool is_first,
+ const size_t len,
+ const void *pdata );
+
+ /* Set/get the owner of the descriptor */
+ void (*release_tx_ownership) (
+ dwmac_common_context *self,
+ const unsigned int idx_tx );
+ bool (*am_i_tx_owner) (
+ dwmac_common_context *self,
+ const unsigned int idx_tx );
+
+ /* Invoked by the xmit function to close the tx descriptor */
+ void (*close_tx_desc) (
+ dwmac_common_context *self,
+ const unsigned int idx_tx );
+
+ /* Clean the tx descriptor as soon as the tx irq is received */
+ void (*release_tx_desc) (
+ dwmac_common_context *self,
+ const unsigned int idx_tx );
+
+ /* Last tx segment reports the transmit status */
+ int (*get_tx_ls) (
+ dwmac_common_context *self,
+ const unsigned int idx_tx );
+
+ /* Return the transmit status looking at the TDES1 */
+ int (*tx_status) (
+ dwmac_common_context *self,
+ const unsigned int idx_tx );
+
+ /* Handle extra events on specific interrupts hw dependent */
+ bool (*am_i_rx_owner) (
+ dwmac_common_context *self,
+ const unsigned int desc_idx );
+
+ /* Get the receive frame size */
+ size_t (*get_rx_frame_len) (
+ dwmac_common_context *self,
+ const unsigned int desc_idx );
+
+ /* Return the reception status looking at the RDES1 */
+ dwmac_common_rx_frame_status (*rx_status) (
+ dwmac_common_context *self,
+ const unsigned int desc_idx );
+ bool (*is_first_rx_segment) (
+ dwmac_common_context *self,
+ const unsigned int descriptor_index );
+ bool (*is_last_rx_segment) (
+ dwmac_common_context *self,
+ const unsigned int descriptor_index );
+ void (*print_tx_desc) (
+ volatile dwmac_desc *p,
+ const unsigned int count );
+ void (*print_rx_desc) (
+ volatile dwmac_desc *p,
+ const unsigned int count );
+};
+
+#ifdef __cplusplus
+}
+#endif /* __cplusplus */
+
+#endif /* DWMAC_COMMON_H_ */
diff --git a/c/src/libchip/network/dwmac-core.c b/c/src/libchip/network/dwmac-core.c
new file mode 100644
index 0000000000..1050751e57
--- /dev/null
+++ b/c/src/libchip/network/dwmac-core.c
@@ -0,0 +1,406 @@
+/**
+ * @file
+ *
+ * @brief DWMAC 10/100/1000 Network Interface Controllers Core Handling
+ *
+ * DWMAC 10/100/1000 on-chip Synopsys IP Ethernet controllers.
+ * Driver core handling.
+ */
+
+/*
+ * Copyright (c) 2013 embedded brains GmbH. All rights reserved.
+ *
+ * embedded brains GmbH
+ * Dornierstr. 4
+ * 82178 Puchheim
+ * Germany
+ * <rtems@embedded-brains.de>
+ *
+ * The license and distribution terms for this file may be
+ * found in the file LICENSE in this distribution or at
+ * http://www.rtems.org/license/LICENSE.
+ */
+
+#include "dwmac-core.h"
+#include "dwmac-common.h"
+#include "dwmac-regs.h"
+
+#undef DWMAC_CORE_DEBUG
+#ifdef DWMAC_CORE_DEBUG
+#define DWMAC_CORE_PRINT_DBG( fmt, args ... ) printk( fmt, ## args )
+#else
+#define DWMAC_CORE_PRINT_DBG( fmt, args ... ) do { } while ( 0 )
+#endif
+
+/* DMA default interrupt masks */
+#define DWMAC_CORE_INTR_ENABLE_DEFAULT_MASK_RX \
+ ( \
+ DMAGRP_INTERRUPT_ENABLE_NIE \
+ | DMAGRP_INTERRUPT_ENABLE_RIE \
+ )
+#define DWMAC_CORE_INTR_ENABLE_DEFAULT_MASK_TX \
+ ( \
+ DMAGRP_INTERRUPT_ENABLE_NIE \
+ | DMAGRP_INTERRUPT_ENABLE_TIE \
+ | DMAGRP_INTERRUPT_ENABLE_FBE \
+ | DMAGRP_INTERRUPT_ENABLE_UNE \
+ | DMAGRP_INTERRUPT_ENABLE_AIE \
+ )
+
+#define DWMAC_CORE_INTR_STATUS_DEFAULT_MASK_RX \
+ ( \
+ DMAGRP_STATUS_NIS \
+ | DMAGRP_STATUS_RI \
+ )
+#define DWMAC_CORE_INTR_STATUS_DEFAULT_MASK_TX \
+ ( \
+ DMAGRP_STATUS_NIS \
+ | DMAGRP_STATUS_TI \
+ | DMAGRP_STATUS_FBI \
+ | DMAGRP_STATUS_UNF \
+ | DMAGRP_STATUS_AIS \
+ )
+
+/* CSR1 enables the transmit DMA to check for new descriptor */
+void dwmac_core_dma_restart_tx( dwmac_common_context *self )
+{
+ self->dmagrp->transmit_poll_demand = 1;
+}
+
+void dwmac_core_enable_dma_irq_tx( dwmac_common_context *self )
+{
+ self->dmagrp->interrupt_enable |= DWMAC_CORE_INTR_ENABLE_DEFAULT_MASK_TX;
+}
+
+void dwmac_core_enable_dma_irq_rx( dwmac_common_context *self )
+{
+ self->dmagrp->interrupt_enable |= DWMAC_CORE_INTR_ENABLE_DEFAULT_MASK_RX;
+}
+
+void dwmac_core_disable_dma_irq_tx( dwmac_common_context *self )
+{
+ self->dmagrp->interrupt_enable &= ~DWMAC_CORE_INTR_ENABLE_DEFAULT_MASK_TX;
+}
+
+void dwmac_core_reset_dma_irq_status_tx( dwmac_common_context *self )
+{
+ self->dmagrp->status = DWMAC_CORE_INTR_STATUS_DEFAULT_MASK_TX;
+}
+
+void dwmac_core_reset_dma_irq_status_rx( dwmac_common_context *self )
+{
+ self->dmagrp->status = DWMAC_CORE_INTR_STATUS_DEFAULT_MASK_RX;
+}
+
+void dwmac_core_disable_dma_irq_rx( dwmac_common_context *self )
+{
+ self->dmagrp->interrupt_enable &= ~DWMAC_CORE_INTR_ENABLE_DEFAULT_MASK_RX;
+}
+
+void dwmac_core_dma_start_tx( dwmac_common_context *self )
+{
+ self->dmagrp->operation_mode |= DMAGRP_OPERATION_MODE_ST;
+}
+
+void dwmac_core_dma_stop_tx( dwmac_common_context *self )
+{
+ self->dmagrp->operation_mode &= ~DMAGRP_OPERATION_MODE_ST;
+}
+
+void dwmac_core_dma_start_rx( dwmac_common_context *self )
+{
+ self->dmagrp->operation_mode |= DMAGRP_OPERATION_MODE_SR;
+}
+
+void dwmac_core_dma_stop_rx( dwmac_common_context *self )
+{
+ self->dmagrp->operation_mode &= ~DMAGRP_OPERATION_MODE_SR;
+}
+
+void dwmac_core_dma_restart_rx( dwmac_common_context *self )
+{
+ self->dmagrp->receive_poll_demand = 1;
+}
+
+#ifdef DWMAC_CORE_DEBUG
+static void show_tx_process_state( const uint32_t status )
+{
+ const uint32_t STATE = DMAGRP_STATUS_TS_GET( status );
+
+
+ switch ( STATE ) {
+ case 0:
+ DWMAC_CORE_PRINT_DBG( "- TX (Stopped): Reset or Stop command\n" );
+ break;
+ case 1:
+ DWMAC_CORE_PRINT_DBG( "- TX (Running):Fetching the Tx desc\n" );
+ break;
+ case 2:
+ DWMAC_CORE_PRINT_DBG( "- TX (Running): Waiting for end of tx\n" );
+ break;
+ case 3:
+ DWMAC_CORE_PRINT_DBG( "- TX (Running): Reading the data "
+ "and queuing the data into the Tx buf\n" );
+ break;
+ case 6:
+ DWMAC_CORE_PRINT_DBG( "- TX (Suspended): Tx Buff Underflow "
+ "or an unavailable Transmit descriptor\n" );
+ break;
+ case 7:
+ DWMAC_CORE_PRINT_DBG( "- TX (Running): Closing Tx descriptor\n" );
+ break;
+ default:
+ break;
+ }
+}
+
+static void show_rx_process_state( const uint32_t status )
+{
+ const uint32_t STATE = DMAGRP_STATUS_RS_GET( status );
+
+
+ switch ( STATE ) {
+ case 0:
+ DWMAC_CORE_PRINT_DBG( "- RX (Stopped): Reset or Stop command\n" );
+ break;
+ case 1:
+ DWMAC_CORE_PRINT_DBG( "- RX (Running): Fetching the Rx desc\n" );
+ break;
+ case 2:
+ DWMAC_CORE_PRINT_DBG( "- RX (Running):Checking for end of pkt\n" );
+ break;
+ case 3:
+ DWMAC_CORE_PRINT_DBG( "- RX (Running): Waiting for Rx pkt\n" );
+ break;
+ case 4:
+ DWMAC_CORE_PRINT_DBG( "- RX (Suspended): Unavailable Rx buf\n" );
+ break;
+ case 5:
+ DWMAC_CORE_PRINT_DBG( "- RX (Running): Closing Rx descriptor\n" );
+ break;
+ case 6:
+ DWMAC_CORE_PRINT_DBG( "- RX(Running): Flushing the current frame"
+ " from the Rx buf\n" );
+ break;
+ case 7:
+ DWMAC_CORE_PRINT_DBG( "- RX (Running): Queuing the Rx frame"
+ " from the Rx buf into memory\n" );
+ break;
+ default:
+ break;
+ }
+}
+
+#else /* DWMAC_CORE_DEBUG */
+ #define show_tx_process_state( status )
+ #define show_rx_process_state( status )
+#endif /* DWMAC_CORE_DEBUG */
+
+void dwmac_core_dma_interrupt( void *arg )
+{
+ dwmac_common_context *self = (dwmac_common_context *) arg;
+ dwmac_common_dma_irq_counts *count = &self->stats.dma_irq_counts;
+ rtems_event_set events_receive = 0;
+ rtems_event_set events_transmit = 0;
+
+ /* Get interrupt status */
+ uint32_t irq_status = self->dmagrp->status & self->dmagrp->interrupt_enable;
+ uint32_t irq_handled = 0;
+ uint32_t irq_disable = 0;
+
+
+ DWMAC_CORE_PRINT_DBG( "%s: [CSR5: 0x%08x]\n", __func__, irq_status );
+
+ /* It displays the DMA process states (CSR5 register) if DWMAC_CORE_DEBUG is #defined */
+ show_tx_process_state( self->dmagrp->status );
+ show_rx_process_state( self->dmagrp->status );
+
+ /* Is there any abnormal interrupt? */
+ if ( irq_status & DMAGRP_STATUS_AIS ) {
+ DWMAC_CORE_PRINT_DBG( "CSR5[15] DMA ABNORMAL IRQ: " );
+
+ if ( irq_status & DMAGRP_STATUS_UNF ) {
+ DWMAC_CORE_PRINT_DBG( "transmit underflow\n" );
+ events_transmit |= DWMAC_COMMON_EVENT_TX_BUMP_UP_DMA_THRESHOLD;
+ irq_handled |= DMAGRP_STATUS_UNF;
+ irq_disable |= DMAGRP_INTERRUPT_ENABLE_UNE;
+ ++count->tx_underflow;
+ }
+
+ if ( irq_status & DMAGRP_STATUS_TJT ) {
+ DWMAC_CORE_PRINT_DBG( "transmit jabber\n" );
+ irq_handled |= DMAGRP_STATUS_TJT;
+ ++count->tx_jabber;
+ }
+
+ if ( irq_status & DMAGRP_STATUS_OVF ) {
+ DWMAC_CORE_PRINT_DBG( "recv overflow\n" );
+ irq_handled |= DMAGRP_STATUS_OVF;
+ ++count->rx_overflow;
+ }
+
+ if ( irq_status & DMAGRP_STATUS_TU ) {
+ DWMAC_CORE_PRINT_DBG( "transmit buffer unavailable\n" );
+ irq_handled |= DMAGRP_STATUS_TU;
+ ++count->tx_buf_unav;
+ }
+
+ if ( irq_status & DMAGRP_STATUS_RU ) {
+ DWMAC_CORE_PRINT_DBG( "receive buffer unavailable\n" );
+ irq_handled |= DMAGRP_STATUS_RU;
+ ++count->rx_buf_unav;
+ }
+
+ if ( irq_status & DMAGRP_STATUS_RPS ) {
+ DWMAC_CORE_PRINT_DBG( "receive process stopped\n" );
+ irq_handled |= DMAGRP_STATUS_RPS;
+ ++count->rx_process_stopped;
+ }
+
+ if ( irq_status & DMAGRP_STATUS_RWT ) {
+ DWMAC_CORE_PRINT_DBG( "receive watchdog\n" );
+ irq_handled |= DMAGRP_STATUS_RWT;
+ ++count->rx_watchdog;
+ }
+
+ if ( irq_status & DMAGRP_STATUS_ETI ) {
+ DWMAC_CORE_PRINT_DBG( "transmit early interrupt\n" );
+ irq_handled |= DMAGRP_STATUS_ETI;
+ ++count->tx_early;
+ }
+
+ if ( irq_status & DMAGRP_STATUS_ERI ) {
+ DWMAC_CORE_PRINT_DBG( "receive early interrupt\n" );
+ irq_handled |= DMAGRP_STATUS_ERI;
+ ++count->rx_early;
+ }
+
+ if ( irq_status & DMAGRP_STATUS_TPS ) {
+ DWMAC_CORE_PRINT_DBG( "transmit process stopped\n" );
+ events_transmit |= DWMAC_COMMON_EVENT_TASK_INIT;
+ irq_handled |= DMAGRP_STATUS_TPS;
+ irq_disable |= DMAGRP_INTERRUPT_ENABLE_TSE;
+ ++count->tx_process_stopped;
+ }
+
+ if ( irq_status & DMAGRP_STATUS_FBI ) {
+ DWMAC_CORE_PRINT_DBG( "fatal bus error\n" );
+ events_transmit |= DWMAC_COMMON_EVENT_TASK_INIT;
+ irq_handled |= DMAGRP_STATUS_FBI;
+ irq_disable |= DMAGRP_INTERRUPT_ENABLE_FBE;
+ ++count->fatal_bus_error;
+ }
+
+ irq_handled |= DMAGRP_STATUS_AIS;
+ }
+
+ /* Is there any normal interrupt? */
+ if ( irq_status & DMAGRP_STATUS_NIS ) {
+ /* Transmit interrupt */
+ if ( irq_status & DMAGRP_STATUS_TI ) {
+ events_transmit |= DWMAC_COMMON_EVENT_TX_FRAME_TRANSMITTED;
+ irq_handled |= DMAGRP_STATUS_TI;
+ irq_disable |= DMAGRP_INTERRUPT_ENABLE_TIE;
+ ++count->transmit;
+ }
+
+ /* Receive interrupt */
+ if ( irq_status & DMAGRP_STATUS_RI ) {
+ events_receive |= DWMAC_COMMON_EVENT_RX_FRAME_RECEIVED;
+ irq_handled |= DMAGRP_STATUS_RI;
+ irq_disable |= DMAGRP_INTERRUPT_ENABLE_RIE;
+ ++count->receive;
+ }
+
+ irq_handled |= DMAGRP_STATUS_NIS;
+ }
+
+ /* Optional hardware blocks, interrupts should be disabled */
+ if ( irq_status
+ & ( DMAGRP_STATUS_GMI | DMAGRP_STATUS_GLI ) ) {
+ DWMAC_CORE_PRINT_DBG( "%s: unexpected status %08x\n", __func__,
+ irq_status );
+
+ if ( irq_status & DMAGRP_STATUS_GMI ) {
+ irq_handled |= DMAGRP_STATUS_GMI;
+ ++count->unhandled;
+ }
+
+ if ( irq_status & DMAGRP_STATUS_GLI ) {
+ irq_handled |= DMAGRP_STATUS_GLI;
+ ++count->unhandled;
+ }
+ }
+
+ /* Count remaining unhandled interrupts (there should not be any) */
+ if ( ( irq_status & 0x1FFCF ) != irq_handled ) {
+ ++count->unhandled;
+ }
+
+ /* Disable interrupts which need further handling by tasks.
+ * The tasks will re-enable them. */
+ self->dmagrp->interrupt_enable &= ~irq_disable;
+
+ /* Clear interrupts */
+ self->dmagrp->status = irq_handled;
+
+ /* Send events to receive task */
+ if ( events_receive != 0 ) {
+ (void) rtems_bsdnet_event_send( self->task_id_rx, events_receive );
+ }
+
+ /* Send events to transmit task */
+ if ( events_transmit != 0 ) {
+ (void) rtems_bsdnet_event_send( self->task_id_tx, events_transmit );
+ }
+
+ DWMAC_CORE_PRINT_DBG( "\n\n" );
+}
+
+void dwmac_core_dma_flush_tx_fifo( dwmac_common_context *self )
+{
+ self->dmagrp->operation_mode |= DMAGRP_OPERATION_MODE_FTF;
+
+ do {
+ } while ( ( self->dmagrp->operation_mode & DMAGRP_OPERATION_MODE_FTF ) != 0 );
+}
+
+void dwmac_core_set_mac_addr(
+ const uint8_t addr[6],
+ volatile uint32_t *reg_high,
+ volatile uint32_t *reg_low )
+{
+ uint32_t data = MAC_HIGH_ADDRHI( ( addr[5] << 8 ) | addr[4] );
+
+
+ /* For MAC Addr registers se have to set the Address Enable (AE)
+ * bit that has no effect on the High Reg 0 where the bit 31 (MO)
+ * is RO.
+ */
+ data |= MAC_HIGH_AE;
+ *reg_high = data;
+
+ data =
+ ( (uint32_t) addr[3] << 24 )
+ | ( (uint32_t) addr[2] << 16 )
+ | ( (uint32_t) addr[1] << 8 )
+ | addr[0];
+ *reg_low = data;
+}
+
+/* Enable disable MAC RX/TX */
+void dwmac_core_set_mac(
+ dwmac_common_context *self,
+ const bool enable )
+{
+ uint32_t value = self->macgrp->mac_configuration;
+
+
+ if ( enable ) {
+ value |= MACGRP_MAC_CONFIGURATION_RE | MACGRP_MAC_CONFIGURATION_TE;
+ } else {
+ value &= ~( MACGRP_MAC_CONFIGURATION_RE | MACGRP_MAC_CONFIGURATION_TE );
+ }
+
+ self->macgrp->mac_configuration = value;
+}
diff --git a/c/src/libchip/network/dwmac-core.h b/c/src/libchip/network/dwmac-core.h
new file mode 100644
index 0000000000..3a35d00729
--- /dev/null
+++ b/c/src/libchip/network/dwmac-core.h
@@ -0,0 +1,76 @@
+/**
+ * @file
+ *
+ * @brief DWMAC 10/100/1000 Network Interface Controllers Core Handling
+ *
+ * DWMAC 10/100/1000 on-chip Synopsys IP Ethernet controllers.
+ * Driver core handling.
+ * This header file is NOT part of the driver API.
+ */
+
+/*
+ * Copyright (c) 2014 embedded brains GmbH. All rights reserved.
+ *
+ * embedded brains GmbH
+ * Dornierstr. 4
+ * 82178 Puchheim
+ * Germany
+ * <rtems@embedded-brains.de>
+ *
+ * The license and distribution terms for this file may be
+ * found in the file LICENSE in this distribution or at
+ * http://www.rtems.org/license/LICENSE.
+ */
+
+#ifndef DWMAC_CORE_H_
+#define DWMAC_CORE_H_
+
+#include <stdint.h>
+#include "dwmac-common.h"
+
+#ifdef __cplusplus
+extern "C" {
+#endif /* __cplusplus */
+
+void dwmac_core_set_mac_addr(
+ const uint8_t addr[6],
+ volatile uint32_t *reg_high,
+ volatile uint32_t *reg_low );
+
+void dwmac_core_set_mac(
+ dwmac_common_context *self,
+ const bool enable );
+
+void dwmac_core_dma_start_tx( dwmac_common_context *self );
+
+void dwmac_core_dma_stop_tx( dwmac_common_context *self );
+
+void dwmac_core_dma_start_rx( dwmac_common_context *self );
+
+void dwmac_core_dma_stop_rx( dwmac_common_context *self );
+
+void dwmac_core_dma_restart_rx( dwmac_common_context *self );
+
+void dwmac_core_dma_restart_tx( dwmac_common_context *self );
+
+void dwmac_core_enable_dma_irq_rx( dwmac_common_context *self );
+
+void dwmac_core_enable_dma_irq_tx( dwmac_common_context *self );
+
+void dwmac_core_disable_dma_irq_tx( dwmac_common_context *self );
+
+void dwmac_core_disable_dma_irq_rx( dwmac_common_context *self );
+
+void dwmac_core_reset_dma_irq_status_tx( dwmac_common_context *self );
+
+void dwmac_core_reset_dma_irq_status_rx( dwmac_common_context *self );
+
+void dwmac_core_dma_interrupt( void *arg );
+
+void dwmac_core_dma_flush_tx_fifo( dwmac_common_context *self );
+
+#ifdef __cplusplus
+}
+#endif /* __cplusplus */
+
+#endif /* DWMAC_CORE_H_ */
diff --git a/c/src/libchip/network/dwmac-desc-com.c b/c/src/libchip/network/dwmac-desc-com.c
new file mode 100644
index 0000000000..ecbd2624db
--- /dev/null
+++ b/c/src/libchip/network/dwmac-desc-com.c
@@ -0,0 +1,60 @@
+/**
+ * @file
+ *
+ * @brief DWMAC 10/100/1000 Common Descriptor Handling
+ *
+ * DWMAC 10/100/1000 on-chip Ethernet controllers.
+ * Functions which are common to normal and enhanced DMA descriptors.
+ */
+
+/*
+ * Copyright (c) 2013 embedded brains GmbH. All rights reserved.
+ *
+ * embedded brains GmbH
+ * Dornierstr. 4
+ * 82178 Puchheim
+ * Germany
+ * <rtems@embedded-brains.de>
+ *
+ * The license and distribution terms for this file may be
+ * found in the file LICENSE in this distribution or at
+ * http://www.rtems.org/license/LICENSE.
+ */
+
+#include "dwmac-desc-com.h"
+
+#undef DWMAC_DESC_COM_DEBUG
+#ifdef DWMAC_DESC_COM_DEBUG
+#define DWMAC_DESC_COM_PRINT_DBG( fmt, args ... ) printk( fmt, ## args )
+#else
+#define DWMAC_DESC_COM_PRINT_DBG( fmt, args ... ) do { } while ( 0 )
+#endif
+
+struct mbuf *dwmac_desc_com_new_mbuf( dwmac_common_context *self ) {
+ struct ifnet *ifp = &self->arpcom.ac_if;
+ struct mbuf *m = NULL;
+
+
+ MGETHDR( m, M_DONTWAIT, MT_DATA );
+
+ if ( m != NULL ) {
+ MCLGET( m, M_DONTWAIT );
+
+ if ( m->m_ext.ext_buf != NULL ) {
+ if ( ( m->m_flags & M_EXT ) != 0 ) {
+ /* Set receive interface */
+ m->m_pkthdr.rcvif = ifp;
+
+ /* Make sure packet data will be aligned */
+ m->m_data = mtod( m, char * ) + ETHER_ALIGN;
+ return m;
+ } else {
+ m_free( m );
+ }
+ } else {
+ m_free( m );
+ }
+ }
+
+ return NULL;
+}
diff --git a/c/src/libchip/network/dwmac-desc-com.h b/c/src/libchip/network/dwmac-desc-com.h
new file mode 100644
index 0000000000..da591c1a74
--- /dev/null
+++ b/c/src/libchip/network/dwmac-desc-com.h
@@ -0,0 +1,44 @@
+/**
+ * @file
+ *
+ * @brief DWMAC 10/100/1000 Common Descriptor Handling.
+ *
+ * DWMAC 10/100/1000 on-chip Ethernet controllers.
+ * Functions and data which are common to normal and enhanced DMA descriptors.
+ * This header file is NOT part of the driver API.
+ */
+
+/*
+ * Copyright (c) 2013 embedded brains GmbH. All rights reserved.
+ *
+ * embedded brains GmbH
+ * Dornierstr. 4
+ * 82178 Puchheim
+ * Germany
+ * <rtems@embedded-brains.de>
+ *
+ * The license and distribution terms for this file may be
+ * found in the file LICENSE in this distribution or at
+ * http://www.rtems.org/license/LICENSE.
+ */
+
+#ifndef DWMAC_DESC_COM_H_
+#define DWMAC_DESC_COM_H_
+
+#include "dwmac-common.h"
+#include <sys/queue.h>
+
+#ifdef __cplusplus
+extern "C" {
+#endif /* __cplusplus */
+
+#define DWMAC_DESC_COM_HW_CRC_BYTES 4
+#define DWMAC_DESC_COM_BUF_SIZE ( ETHER_MAX_LEN + DWMAC_DESC_COM_HW_CRC_BYTES )
+
+struct mbuf *dwmac_desc_com_new_mbuf( dwmac_common_context *self );
+
+#ifdef __cplusplus
+}
+#endif /* __cplusplus */
+
+#endif /* DWMAC_DESC_COM_H_ */
diff --git a/c/src/libchip/network/dwmac-desc-enh.c b/c/src/libchip/network/dwmac-desc-enh.c
new file mode 100644
index 0000000000..bd1e77db6c
--- /dev/null
+++ b/c/src/libchip/network/dwmac-desc-enh.c
@@ -0,0 +1,1051 @@
+/**
+ * @file
+ *
+ * @brief DWMAC 10/100/1000 Enhanced DMA Descriptor Handling.
+ *
+ * DWMAC 10/100/1000 on-chip Ethernet controllers.
+ * Functions and data for the handling of enhanced DMA descriptors.
+ */
+
+/*
+ * Copyright (c) 2013 embedded brains GmbH. All rights reserved.
+ *
+ * embedded brains GmbH
+ * Dornierstr. 4
+ * 82178 Puchheim
+ * Germany
+ * <rtems@embedded-brains.de>
+ *
+ * The license and distribution terms for this file may be
+ * found in the file LICENSE in this distribution or at
+ * http://www.rtems.org/license/LICENSE.
+ */
+
+#include <assert.h>
+#include <stdlib.h>
+#include <stdio.h>
+#include "dwmac-common.h"
+#include "dwmac-desc-com.h"
+#include "dwmac-core.h"
+#include <sys/queue.h>
+
+#undef DWMAC_DESC_ENH_DEBUG
+#ifdef DWMAC_DESC_ENH_DEBUG
+#define DWMAC_DESC_ENH_PRINT_DBG( fmt, args ... ) printk( fmt, ## args )
+#else
+#define DWMAC_DESC_ENH_PRINT_DBG( fmt, args ... ) do { } while ( 0 )
+#endif
+
+typedef enum {
+ DWMAC_IP_PAYLOAD_TYPE_UNKNOWN,
+ DWMAC_IP_PAYLOAD_TYPE_UDP,
+ DWMAC_IP_PAYLOAD_TYPE_TCP,
+ DWMAC_IP_PAYLOAD_TYPE_ICMP
+} dwmac_ip_payload_type;
+
+static void dwmac_desc_enh_rx_set_on_ring_chain(
+ volatile dwmac_desc_ext *p, int end )
+{
+ /* For simplicity reasons we will not use the second buffer.
+ * If we would use it we would have to set the size to MCLBYTES -1 */
+ p->erx.des0_3.des1 = DWMAC_DESC_ERX_DES1_RECEIVE_BUFF_2_SIZE_SET(
+ p->erx.des0_3.des1, 0
+ );
+ p->erx.des0_3.des3 = (uint32_t) NULL;
+
+ if ( end )
+ p->erx.des0_3.des1 |= DWMAC_DESC_ERX_DES1_RECEIVE_END_OF_RING;
+}
+
+static void dwmac_desc_enh_tx_set_on_ring_chain(
+ volatile dwmac_desc_ext *p, const bool end )
+{
+ if ( end )
+ p->etx.des0_3.des0 |= DWMAC_DESC_ETX_DES0_TRANSMIT_END_OF_RING;
+}
+
+static void dwmac_desc_enh_set_tx_desc_len(
+ volatile dwmac_desc_ext *p_enh, size_t len )
+{
+ p_enh->etx.des0_3.des1 = DWMAC_DESC_ETX_DES1_TRANSMIT_BUFFER_1_SIZE_SET(
+ p_enh->etx.des0_3.des1,
+ len
+ );
+}
+
+static bool dwmac_desc_enh_is_giant_frame( const uint32_t des0 )
+{
+ return (
+ ( des0
+ & DWMAC_DESC_ERX_DES0_TIMESTAMP_AVAIL_OR_CHECKSUM_ERROR_OR_GIANT_FRAME
+ ) != 0
+ );
+}
+
+static bool dwmac_desc_enh_is_udp_payload( const uint32_t des4 )
+{
+ return (
+ DWMAC_DESC_EXT_ERX_DES4_IP_PAYLOAD_TYPE_GET( des4 )
+ == DWMAC_IP_PAYLOAD_TYPE_UDP
+ );
+}
+
+static bool dwmac_desc_enh_is_tcp_payload( const uint32_t des4 )
+{
+ return (
+ DWMAC_DESC_EXT_ERX_DES4_IP_PAYLOAD_TYPE_GET( des4 )
+ == DWMAC_IP_PAYLOAD_TYPE_TCP
+ );
+}
+
+static bool dwmac_desc_enh_is_icmp_payload( const uint32_t des4 )
+{
+ return (
+ DWMAC_DESC_EXT_ERX_DES4_IP_PAYLOAD_TYPE_GET( des4 )
+ == DWMAC_IP_PAYLOAD_TYPE_ICMP
+ );
+}
+
+static dwmac_common_rx_frame_status dwmac_desc_enh_coe_status(
+ volatile dwmac_desc_ext *p_enh )
+{
+ dwmac_common_rx_frame_status ret = DWMAC_COMMON_RX_FRAME_STATUS_GOOD;
+ const uint32_t DES0 = p_enh->erx.des0_3.des0;
+ const uint32_t DES4 = p_enh->erx.des4;
+
+
+ if ( ( DES0 & DWMAC_DESC_ERX_DES0_EXT_STATUS_AVAIL_OR_RX_MAC_ADDR_STATUS )
+ != 0 ) {
+ if ( !dwmac_desc_enh_is_giant_frame( DES0 )
+ && ( DES0 & DWMAC_DESC_ERX_DES0_FREAME_TYPE ) == 0
+ && ( DES4 & DWMAC_DESC_EXT_ERX_DES4_IPV6_PACKET_RECEIVED ) == 0
+ && ( DES4 & DWMAC_DESC_EXT_ERX_DES4_IPV4_PACKET_RECEIVED ) == 0
+ && ( DES4 & DWMAC_DESC_EXT_ERX_DES4_IP_PAYLOAD_ERROR ) == 0
+ && ( DES4 & DWMAC_DESC_EXT_ERX_DES4_IP_HEADER_ERROR ) == 0 ) {
+ DWMAC_DESC_ENH_PRINT_DBG( "RX Des0 status: IEEE 802.3 Type frame.\n" );
+ ret = DWMAC_COMMON_RX_FRAME_STATUS_LLC_SNAP;
+ } else if ( ( ( DES4 & DWMAC_DESC_EXT_ERX_DES4_IPV6_PACKET_RECEIVED ) != 0
+ || ( DES4 & DWMAC_DESC_EXT_ERX_DES4_IPV4_PACKET_RECEIVED )
+ != 0 )
+ && dwmac_desc_enh_is_giant_frame( DES0 ) ) {
+ DWMAC_DESC_ENH_PRINT_DBG( "RX Des0 status: IPv4/6 No CSUM Error.\n" );
+ ret = DWMAC_COMMON_RX_FRAME_STATUS_GOOD;
+ } else if ( ( ( DES4 & DWMAC_DESC_EXT_ERX_DES4_IPV6_PACKET_RECEIVED ) != 0
+ || ( DES4 & DWMAC_DESC_EXT_ERX_DES4_IPV4_PACKET_RECEIVED )
+ != 0 )
+ && ( DES4 & DWMAC_DESC_EXT_ERX_DES4_IP_PAYLOAD_ERROR ) != 0 ) {
+ DWMAC_DESC_ENH_PRINT_DBG( "RX Des0 status: IPv4/6 Payload Error.\n" );
+ ret = DWMAC_COMMON_RX_FRAME_STATUS_CSUM_NONE;
+ } else if ( ( ( DES4 & DWMAC_DESC_EXT_ERX_DES4_IPV6_PACKET_RECEIVED ) != 0
+ || ( DES4 & DWMAC_DESC_EXT_ERX_DES4_IPV4_PACKET_RECEIVED )
+ != 0 )
+ && ( DES4 & DWMAC_DESC_EXT_ERX_DES4_IP_HEADER_ERROR ) != 0 ) {
+ DWMAC_DESC_ENH_PRINT_DBG( "RX Des0 status: IPv4/6 Header Error.\n" );
+ ret = DWMAC_COMMON_RX_FRAME_STATUS_CSUM_NONE;
+ } else if ( ( ( DES4 & DWMAC_DESC_EXT_ERX_DES4_IPV6_PACKET_RECEIVED ) != 0
+ || ( DES4 & DWMAC_DESC_EXT_ERX_DES4_IPV4_PACKET_RECEIVED )
+ != 0 )
+ && ( DES4 & DWMAC_DESC_EXT_ERX_DES4_IP_PAYLOAD_ERROR ) != 0
+ && ( DES4 & DWMAC_DESC_EXT_ERX_DES4_IP_HEADER_ERROR ) != 0 ) {
+ DWMAC_DESC_ENH_PRINT_DBG(
+ "RX Des0 status: IPv4/6 Header and Payload Error.\n" );
+ ret = DWMAC_COMMON_RX_FRAME_STATUS_CSUM_NONE;
+ } else if ( ( ( DES4 & DWMAC_DESC_EXT_ERX_DES4_IPV6_PACKET_RECEIVED ) != 0
+ || ( DES4 & DWMAC_DESC_EXT_ERX_DES4_IPV4_PACKET_RECEIVED )
+ != 0 )
+ && ( !dwmac_desc_enh_is_udp_payload( DES4 ) )
+ && ( !dwmac_desc_enh_is_tcp_payload( DES4 ) )
+ && ( !dwmac_desc_enh_is_icmp_payload( DES4 ) ) ) {
+ DWMAC_DESC_ENH_PRINT_DBG(
+ "RX Des0 status: IPv4/6 unsupported IP PAYLOAD.\n" );
+ ret = DWMAC_COMMON_RX_FRAME_STATUS_DISCARD;
+ } else if ( ( DES4 & DWMAC_DESC_EXT_ERX_DES4_IPV6_PACKET_RECEIVED ) == 0
+ && ( DES4 & DWMAC_DESC_EXT_ERX_DES4_IPV4_PACKET_RECEIVED )
+ == 0 ) {
+ DWMAC_DESC_ENH_PRINT_DBG( "RX Des0 status: No IPv4, IPv6 frame.\n" );
+ ret = DWMAC_COMMON_RX_FRAME_STATUS_DISCARD;
+ }
+ } else {
+ uint32_t status = (
+ (uint32_t) ( dwmac_desc_enh_is_giant_frame( DES0 ) << 2U )
+ | (uint32_t) ( ( ( DES0 & DWMAC_DESC_ERX_DES0_FREAME_TYPE )
+ != 0 ) << 1U ) )
+ & 0x7U;
+
+ /* bits 5 7 0 | Frame status
+ * ----------------------------------------------------------
+ * 0 0 0 | IEEE 802.3 Type frame (length < 1536 octects)
+ * 1 0 0 | IPv4/6 No CSUM errorS.
+ * 1 0 1 | IPv4/6 CSUM PAYLOAD error
+ * 1 1 0 | IPv4/6 CSUM IP HR error
+ * 1 1 1 | IPv4/6 IP PAYLOAD AND HEADER errorS
+ * 0 0 1 | IPv4/6 unsupported IP PAYLOAD
+ * 0 1 1 | COE bypassed.. no IPv4/6 frame
+ * 0 1 0 | Reserved.
+ */
+ if ( status == 0x0 ) {
+ DWMAC_DESC_ENH_PRINT_DBG( "RX Des0 status: IEEE 802.3 Type frame.\n" );
+ ret = DWMAC_COMMON_RX_FRAME_STATUS_LLC_SNAP;
+ } else if ( status == 0x4 ) {
+ DWMAC_DESC_ENH_PRINT_DBG( "RX Des0 status: IPv4/6 No CSUM errorS.\n" );
+ ret = DWMAC_COMMON_RX_FRAME_STATUS_GOOD;
+ } else if ( status == 0x5 ) {
+ DWMAC_DESC_ENH_PRINT_DBG( "RX Des0 status: IPv4/6 Payload Error.\n" );
+ ret = DWMAC_COMMON_RX_FRAME_STATUS_CSUM_NONE;
+ } else if ( status == 0x6 ) {
+ DWMAC_DESC_ENH_PRINT_DBG( "RX Des0 status: IPv4/6 Header Error.\n" );
+ ret = DWMAC_COMMON_RX_FRAME_STATUS_CSUM_NONE;
+ } else if ( status == 0x7 ) {
+ DWMAC_DESC_ENH_PRINT_DBG(
+ "RX Des0 status: IPv4/6 Header and Payload Error.\n" );
+ ret = DWMAC_COMMON_RX_FRAME_STATUS_CSUM_NONE;
+ } else if ( status == 0x1 ) {
+ DWMAC_DESC_ENH_PRINT_DBG(
+ "RX Des0 status: IPv4/6 unsupported IP PAYLOAD.\n" );
+ ret = DWMAC_COMMON_RX_FRAME_STATUS_DISCARD;
+ } else if ( status == 0x3 ) {
+ DWMAC_DESC_ENH_PRINT_DBG( "RX Des0 status: No IPv4, IPv6 frame.\n" );
+ ret = DWMAC_COMMON_RX_FRAME_STATUS_DISCARD;
+ }
+ }
+
+ return ret;
+}
+
+static int dwmac_desc_enh_get_tx_status(
+ dwmac_common_context *self,
+ const unsigned int idx_tx )
+{
+ int ret = 0;
+ volatile dwmac_desc_ext *dma_tx =
+ (volatile dwmac_desc_ext *) self->dma_tx;
+ volatile dwmac_desc_ext *p_desc = &dma_tx[idx_tx];
+ dwmac_common_desc_status_counts_tx *counts =
+ &self->stats.desc_status_counts_tx;
+
+
+ if ( ( p_desc->etx.des0_3.des0 & DWMAC_DESC_ETX_DES0_ERROR_SUMMARY ) != 0 ) {
+ DWMAC_DESC_ENH_PRINT_DBG( "DWMAC TX error... 0x%08x\n", p->des01.etx );
+
+ if ( ( p_desc->etx.des0_3.des0 & DWMAC_DESC_ETX_DES0_JABBER_TIMEOUT )
+ != 0 ) {
+ DWMAC_DESC_ENH_PRINT_DBG( "\tjabber_timeout error\n" );
+ ++counts->jabber;
+ }
+
+ if ( ( p_desc->etx.des0_3.des0 & DWMAC_DESC_ETX_DES0_FRAME_FLUSHED )
+ != 0 ) {
+ DWMAC_DESC_ENH_PRINT_DBG( "\tframe_flushed error\n" );
+ ++counts->frame_flushed;
+ dwmac_core_dma_flush_tx_fifo( self );
+ }
+
+ if ( ( p_desc->etx.des0_3.des0 & DWMAC_DESC_ETX_DES0_LOSS_OF_CARRIER )
+ != 0 ) {
+ DWMAC_DESC_ENH_PRINT_DBG( "\tloss_carrier error\n" );
+ ++counts->losscarrier;
+ }
+
+ if ( ( p_desc->etx.des0_3.des0 & DWMAC_DESC_ETX_DES0_NO_CARRIER )
+ != 0 ) {
+ DWMAC_DESC_ENH_PRINT_DBG( "\tno_carrier error\n" );
+ ++counts->no_carrier;
+ }
+
+ if ( ( p_desc->etx.des0_3.des0 & DWMAC_DESC_ETX_DES0_EXCESSIVE_COLLISION )
+ != 0 ) {
+ DWMAC_DESC_ENH_PRINT_DBG( "\texcessive_collisions\n" );
+ ++counts->excessive_collisions;
+ }
+
+ if ( ( p_desc->etx.des0_3.des0 & DWMAC_DESC_ETX_DES0_EXCESSIVE_DEFERAL )
+ != 0 ) {
+ DWMAC_DESC_ENH_PRINT_DBG( "\texcessive tx_deferral\n" );
+ ++counts->excessive_deferral;
+ }
+
+ if ( ( p_desc->etx.des0_3.des0 & DWMAC_DESC_ETX_DES0_UNDERFLOW_ERROR )
+ != 0 ) {
+ DWMAC_DESC_ENH_PRINT_DBG( "\tunderflow error\n" );
+ dwmac_core_dma_flush_tx_fifo( self );
+ ++counts->underflow;
+ }
+
+ if ( ( p_desc->etx.des0_3.des0 & DWMAC_DESC_ETX_DES0_IP_HEADER_ERROR )
+ != 0 ) {
+ DWMAC_DESC_ENH_PRINT_DBG( "\tTX IP header csum error\n" );
+ ++counts->ip_header_error;
+ }
+
+ if ( ( p_desc->etx.des0_3.des0 & DWMAC_DESC_ETX_DES0_IP_PAYLOAD_ERROR )
+ != 0 ) {
+ DWMAC_DESC_ENH_PRINT_DBG( "\tAddr/Payload csum error\n" );
+ ++counts->payload_error;
+ dwmac_core_dma_flush_tx_fifo( self );
+ }
+
+ ret = -1;
+ }
+
+ if ( ( p_desc->etx.des0_3.des0 & DWMAC_DESC_ETX_DES0_DEFERRED_BIT ) != 0 ) {
+ DWMAC_DESC_ENH_PRINT_DBG( "GMAC TX status: tx deferred\n" );
+ ++counts->deferred;
+ }
+
+ if ( ( p_desc->etx.des0_3.des0 & DWMAC_DESC_ETX_DES0_VLAN_FRAME ) != 0 ) {
+ DWMAC_DESC_ENH_PRINT_DBG( "GMAC TX status: VLAN frame\n" );
+ ++counts->vlan;
+ }
+
+ return ret;
+}
+
+static dwmac_common_rx_frame_status dwmac_desc_enh_get_rx_status(
+ dwmac_common_context *self,
+ const unsigned int desc_idx )
+{
+ dwmac_common_desc_status_counts_rx *counts =
+ &self->stats.desc_status_counts_rx;
+ dwmac_common_rx_frame_status ret =
+ DWMAC_COMMON_RX_FRAME_STATUS_GOOD;
+ volatile dwmac_desc_ext *dma_rx =
+ (volatile dwmac_desc_ext *) self->dma_rx;
+ const uint32_t DES0 = dma_rx[desc_idx].erx.des0_3.des0;
+
+
+ if ( ( DES0 & DWMAC_DESC_ERX_DES0_ERROR_SUMMARY ) != 0 ) {
+ DWMAC_DESC_ENH_PRINT_DBG( "GMAC RX Error Summary 0x%08x\n",
+ DES0 );
+
+ if ( ( DES0 & DWMAC_DESC_ERX_DES0_DESCRIPTOR_ERROR ) != 0 ) {
+ DWMAC_DESC_ENH_PRINT_DBG( "\tdescriptor error\n" );
+ ++counts->descriptor_error;
+ }
+
+ if ( ( DES0 & DWMAC_DESC_ERX_DES0_OVERFLOW_ERROR ) != 0 ) {
+ DWMAC_DESC_ENH_PRINT_DBG( "\toverflow error\n" );
+ ++counts->overflow_error;
+ }
+
+ if ( dwmac_desc_enh_is_giant_frame( DES0 ) ) {
+ DWMAC_DESC_ENH_PRINT_DBG( "\tIPC Csum Error/Giant frame\n" );
+ ++counts->giant_frame;
+ }
+
+ if ( ( DES0 & DWMAC_DESC_ERX_DES0_LATE_COLLISION ) != 0 ) {
+ DWMAC_DESC_ENH_PRINT_DBG( "\tlate_collision error\n" );
+ ++counts->late_collision;
+ }
+
+ if ( ( DES0 & DWMAC_DESC_ERX_DES0_RECEIVE_WATCHDOG_TIMEOUT )
+ != 0 ) {
+ DWMAC_DESC_ENH_PRINT_DBG( "\treceive_watchdog error\n" );
+ ++counts->watchdog_timeout;
+ }
+
+ if ( ( DES0 & DWMAC_DESC_ERX_DES0_RECEIVE_ERROR ) != 0 ) {
+ DWMAC_DESC_ENH_PRINT_DBG( "\tReceive Error\n" );
+ ++counts->receive_error;
+ }
+
+ if ( ( DES0 & DWMAC_DESC_ERX_DES0_CRC_ERROR ) != 0 ) {
+ DWMAC_DESC_ENH_PRINT_DBG( "\tCRC error\n" );
+ ++counts->crc_error;
+ }
+
+ ret = DWMAC_COMMON_RX_FRAME_STATUS_DISCARD;
+ }
+
+ if ( ret == DWMAC_COMMON_RX_FRAME_STATUS_GOOD ) {
+ /* After a payload csum error, the ES bit is set.
+ * It doesn't match with the information reported into the databook.
+ * At any rate, we need to understand if the CSUM hw computation is ok
+ * and report this info to the upper layers. */
+ ret = dwmac_desc_enh_coe_status( &dma_rx[desc_idx] );
+ }
+
+ if ( ( DES0 & DWMAC_DESC_ERX_DES0_DRIBBLE_BIT_ERROR ) != 0 ) {
+ DWMAC_DESC_ENH_PRINT_DBG( "GMAC RX: dribbling error\n" );
+ ++counts->dribble_bit_error;
+ }
+
+ if ( ( DES0 & DWMAC_DESC_ERX_DES0_SRC_ADDR_FILTER_FAIL ) != 0 ) {
+ DWMAC_DESC_ENH_PRINT_DBG( "GMAC RX : Source Address filter fail\n" );
+ ++counts->source_addr_fail;
+ ret = DWMAC_COMMON_RX_FRAME_STATUS_DISCARD;
+ }
+
+ if ( ( DES0 & DWMAC_DESC_ERX_DES0_DEST_ADDR_FILTER_FAIL ) != 0 ) {
+ DWMAC_DESC_ENH_PRINT_DBG( "GMAC RX : Dest Address filter fail\n" );
+ ++counts->dest_addr_fail;
+ ret = DWMAC_COMMON_RX_FRAME_STATUS_DISCARD;
+ }
+
+ if ( ( DES0 & DWMAC_DESC_ERX_DES0_LENGTH_ERROR ) != 0 ) {
+ DWMAC_DESC_ENH_PRINT_DBG( "GMAC RX: length_error error\n" );
+ ++counts->length_error;
+ ret = DWMAC_COMMON_RX_FRAME_STATUS_DISCARD;
+ }
+
+ if ( ( DES0 & DWMAC_DESC_ERX_DES0_VLAN_TAG ) != 0 ) {
+ DWMAC_DESC_ENH_PRINT_DBG( "GMAC RX: VLAN frame tagged\n" );
+ ++counts->vlan_tag;
+ }
+
+ return ret;
+}
+
+static void dwmac_desc_enh_print_tx_desc(
+ volatile dwmac_desc *p,
+ const unsigned int count )
+{
+ volatile dwmac_desc_ext *p_enh = (volatile dwmac_desc_ext *) p;
+ unsigned int index;
+
+
+ if ( p_enh != NULL ) {
+ for ( index = 0; index < count; ++index ) {
+ printf( "Transmit DMA Descriptor %d\n", index );
+ printf( "des0\n" );
+ printf(
+ " %u own bit\n"
+ " %u IRQ on Completion\n"
+ " %u Last Segment\n"
+ " %u First Segment\n"
+ " %u Disable CRC\n"
+ " %u Disable Pad\n"
+ " %u Transmit Timestamp Enable\n"
+ " %lu Checksum Insertion Control\n"
+ " %u Transmit End of Ring\n"
+ " %u Second Address Chained\n"
+ " %u Transmit Timestamp Status\n"
+ " %u IP Header Error\n"
+ " %u VLAN Frame\n"
+ " %lu Collision Count\n"
+ " %u Deferred Bit\n",
+ ( p_enh[index].etx.des0_3.des0 & DWMAC_DESC_ETX_DES0_OWN_BIT ) != 0,
+ ( p_enh[index].etx.des0_3.des0 & DWMAC_DESC_ETX_DES0_IRQ_ON_COMPLETION ) != 0,
+ ( p_enh[index].etx.des0_3.des0 & DWMAC_DESC_ETX_DES0_LAST_SEGMENT ) != 0,
+ ( p_enh[index].etx.des0_3.des0 & DWMAC_DESC_ETX_DES0_FIRST_SEGMENT ) != 0,
+ ( p_enh[index].etx.des0_3.des0 & DWMAC_DESC_ETX_DES0_DISABLE_CRC ) != 0,
+ ( p_enh[index].etx.des0_3.des0 & DWMAC_DESC_ETX_DES0_DISABLE_PAD ) != 0,
+ ( p_enh[index].etx.des0_3.des0
+ & DWMAC_DESC_ETX_DES0_TRANSMIT_TIMESTAMP_ENABLE ) != 0,
+ DWMAC_DESC_ETX_DES0_CHECKSUM_INSERTION_CONTROL_GET( p_enh[index].etx.
+ des0_3.des0 ),
+ ( p_enh[index].etx.des0_3.des0
+ & DWMAC_DESC_ETX_DES0_TRANSMIT_END_OF_RING ) != 0,
+ ( p_enh[index].etx.des0_3.des0 & DWMAC_DESC_ETX_DES0_SECOND_ADDR_CHAINED ) != 0,
+ ( p_enh[index].etx.des0_3.des0
+ & DWMAC_DESC_ETX_DES0_TRANSMIT_TIMESTAMP_STATUS ) != 0,
+ ( p_enh[index].etx.des0_3.des0 & DWMAC_DESC_ETX_DES0_IP_HEADER_ERROR ) != 0,
+ ( p_enh[index].etx.des0_3.des0 & DWMAC_DESC_ETX_DES0_VLAN_FRAME ) != 0,
+ DWMAC_DESC_ETX_DES0_COLLISION_COUNT_GET( p_enh[index].etx.des0_3.des0 ),
+ ( p_enh[index].etx.des0_3.des0 & DWMAC_DESC_ETX_DES0_DEFERRED_BIT ) != 0
+ );
+
+ if ( ( p_enh[index].etx.des0_3.des0
+ & DWMAC_DESC_ETX_DES0_ERROR_SUMMARY ) != 0 ) {
+ printf( " Error Summary:\n" );
+
+ if ( p_enh[index].etx.des0_3.des0
+ & DWMAC_DESC_ETX_DES0_JABBER_TIMEOUT ) {
+ printf( " Jabber Timeout\n" );
+ }
+
+ if ( ( p_enh[index].etx.des0_3.des0
+ & DWMAC_DESC_ETX_DES0_FRAME_FLUSHED ) != 0 ) {
+ printf( " Frame Flush\n" );
+ }
+
+ if ( ( p_enh[index].etx.des0_3.des0
+ & DWMAC_DESC_ETX_DES0_IP_PAYLOAD_ERROR ) != 0 ) {
+ printf( " Payload Error\n" );
+ }
+
+ if ( ( p_enh[index].etx.des0_3.des0
+ & DWMAC_DESC_ETX_DES0_LOSS_OF_CARRIER ) != 0 ) {
+ printf( " Loss of Carrier\n" );
+ }
+
+ if ( ( p_enh[index].etx.des0_3.des0
+ & DWMAC_DESC_ETX_DES0_NO_CARRIER ) != 0 ) {
+ printf( " No Carrier\n" );
+ }
+
+ if ( ( p_enh[index].etx.des0_3.des0
+ & DWMAC_DESC_ETX_DES0_EXCESSIVE_COLLISION ) != 0 ) {
+ printf( " Excessive Collision\n" );
+ }
+
+ if ( ( p_enh[index].etx.des0_3.des0
+ & DWMAC_DESC_ETX_DES0_EXCESSIVE_COLLISION ) != 0 ) {
+ printf( " Ecessive Deferral\n" );
+ }
+
+ if ( ( p_enh[index].etx.des0_3.des0
+ & DWMAC_DESC_ETX_DES0_UNDERFLOW_ERROR ) != 0 ) {
+ printf( " Undeflow Error\n" );
+ }
+ }
+
+ printf( "des1\n" );
+ printf(
+ " %lu Transmit Buffer 2 Size\n"
+ " %lu Transmit Buffer 1 Size\n",
+ DWMAC_DESC_ETX_DES1_TRANSMIT_BUFFER_2_SIZE_GET( p_enh[index].etx.des0_3.
+ des1 ),
+ DWMAC_DESC_ETX_DES1_TRANSMIT_BUFFER_1_SIZE_GET( p_enh[index].etx.des0_3.
+ des1 )
+ );
+ printf( "des2\n" );
+ printf( " %p Buffer 1 Address\n", (void *) p_enh[index].etx.des0_3.des2 );
+ printf( "des3\n" );
+ printf( " %p Buffer 2 Address\n", (void *) p_enh[index].etx.des0_3.des3 );
+ }
+ }
+}
+
+static void dwmac_desc_enh_print_rx_desc(
+ volatile dwmac_desc *p,
+ const unsigned int count )
+{
+ volatile dwmac_desc_ext *p_enh = (volatile dwmac_desc_ext *) p;
+ unsigned int index;
+
+
+ if ( p_enh != NULL ) {
+ for ( index = 0; index < count; ++index ) {
+ printf( "Receive DMA Descriptor %d\n", index );
+ printf( "des0\n" );
+ printf(
+ " %u Own Bit\n"
+ " %u Dest. Addr. Filter Fail\n"
+ " %lu Frame Length\n"
+ " %u Source Addr. Filter Fail\n"
+ " %u Length Error\n"
+ " %u VLAN Tag\n"
+ " %u First Descriptor\n"
+ " %u Last Descriptor\n"
+ " %u Frame Type\n"
+ " %u Dribble Bit Error\n"
+ " %u Extended Status Available\n",
+ ( p_enh[index].erx.des0_3.des0 & DWMAC_DESC_ERX_DES0_OWN_BIT ) != 0,
+ ( p_enh[index].erx.des0_3.des0
+ & DWMAC_DESC_ERX_DES0_DEST_ADDR_FILTER_FAIL ) != 0,
+ DWMAC_DESC_ERX_DES0_FRAME_LENGTH_GET(
+ p_enh[index].erx.des0_3.des0 ),
+ ( p_enh[index].erx.des0_3.des0
+ & DWMAC_DESC_ERX_DES0_SRC_ADDR_FILTER_FAIL ) != 0,
+ ( p_enh[index].erx.des0_3.des0 & DWMAC_DESC_ERX_DES0_LENGTH_ERROR ) != 0,
+ ( p_enh[index].erx.des0_3.des0 & DWMAC_DESC_ERX_DES0_VLAN_TAG ) != 0,
+ ( p_enh[index].erx.des0_3.des0 & DWMAC_DESC_ERX_DES0_FIRST_DESCRIPTOR ) != 0,
+ ( p_enh[index].erx.des0_3.des0 & DWMAC_DESC_ERX_DES0_LAST_DESCRIPTOR ) != 0,
+ ( p_enh[index].erx.des0_3.des0 & DWMAC_DESC_ERX_DES0_FREAME_TYPE ) != 0,
+ ( p_enh[index].erx.des0_3.des0 & DWMAC_DESC_ERX_DES0_DRIBBLE_BIT_ERROR ) != 0,
+ ( p_enh[index].erx.des0_3.des0
+ & DWMAC_DESC_ERX_DES0_EXT_STATUS_AVAIL_OR_RX_MAC_ADDR_STATUS ) != 0
+ );
+
+ if ( ( p_enh[index].erx.des0_3.des0
+ & DWMAC_DESC_ERX_DES0_ERROR_SUMMARY ) != 0 ) {
+ printf( " Error Summary:\n" );
+
+ if ( ( p_enh[index].erx.des0_3.des0
+ & DWMAC_DESC_ERX_DES0_DESCRIPTOR_ERROR ) != 0 ) {
+ printf( " Descriptor Error\n" );
+ }
+
+ if ( ( p_enh[index].erx.des0_3.des0
+ & DWMAC_DESC_ERX_DES0_OVERFLOW_ERROR ) != 0 ) {
+ printf( " Overflow Error\n" );
+ }
+
+ if ( ( p_enh[index].erx.des0_3.des0
+ &
+ DWMAC_DESC_ERX_DES0_TIMESTAMP_AVAIL_OR_CHECKSUM_ERROR_OR_GIANT_FRAME )
+ != 0 ) {
+ printf( " Giant Frame\n" );
+ }
+
+ if ( ( p_enh[index].erx.des0_3.des0
+ & DWMAC_DESC_ERX_DES0_LATE_COLLISION ) != 0 ) {
+ printf( " Late Collision\n" );
+ }
+
+ if ( ( p_enh[index].erx.des0_3.des0
+ & DWMAC_DESC_ERX_DES0_RECEIVE_WATCHDOG_TIMEOUT ) != 0
+ || ( p_enh[index].erx.des0_3.des0
+ & DWMAC_DESC_ERX_DES0_RECEIVE_ERROR ) != 0 ) {
+ printf( " IP Header or IP Payload:\n" );
+
+ if ( ( p_enh[index].erx.des0_3.des0
+ & DWMAC_DESC_ERX_DES0_RECEIVE_WATCHDOG_TIMEOUT ) != 0 ) {
+ printf( " Watchdog Timeout\n" );
+ }
+
+ if ( ( p_enh[index].erx.des0_3.des0
+ & DWMAC_DESC_ERX_DES0_RECEIVE_ERROR ) != 0 ) {
+ printf( " Receive Error\n" );
+ }
+ }
+
+ if ( ( p_enh[index].erx.des0_3.des0 & DWMAC_DESC_ERX_DES0_CRC_ERROR )
+ != 0 ) {
+ printf( " CRC Error\n" );
+ }
+ }
+
+ printf( "des1\n" );
+ printf(
+ " %u Disable Interrupt on Completion\n"
+ " %lu Receive Buffer 2 Size\n"
+ " %u Receive End of Ring\n"
+ " %u Second Addr. Chained\n"
+ " %lu Receive Buffer 1 Size\n",
+ ( p_enh[index].erx.des0_3.des1
+ & DWMAC_DESC_ERX_DES1_DISABLE_IRQ_ON_COMPLETION ) != 0,
+ DWMAC_DESC_ERX_DES1_RECEIVE_BUFF_2_SIZE_GET( p_enh[index].erx.des0_3.
+ des1 ),
+ ( p_enh[index].erx.des0_3.des1 & DWMAC_DESC_ERX_DES1_RECEIVE_END_OF_RING ) != 0,
+ ( p_enh[index].erx.des0_3.des1 & DWMAC_DESC_ERX_DES1_SECOND_ADDR_CHAINED ) != 0,
+ DWMAC_DESC_ERX_DES1_RECEIVE_BUFF_1_SIZE_GET( p_enh[index].erx.des0_3.
+ des1 )
+ );
+ printf( "des2\n" );
+ printf( " %p Buffer 1 Address\n", (void *) p_enh[index].erx.des0_3.des2 );
+ printf( "des3\n" );
+ printf( " %p Buffer 2 Address\n", (void *) p_enh[index].erx.des0_3.des3 );
+ }
+ }
+}
+
+static int dwmac_desc_enh_create_rx_desc( dwmac_common_context *self )
+{
+ int eno = 0;
+ const size_t NUM_DESCS = (size_t) self->bsd_config->rbuf_count;
+ const size_t SIZE_DESCS = NUM_DESCS * sizeof( dwmac_desc_ext );
+ void *desc_mem = NULL;
+
+
+ assert( NULL == self->dma_rx );
+
+ /* Allocate an array of mbuf pointers */
+ self->mbuf_addr_rx = calloc( NUM_DESCS, sizeof( struct mbuf * ) );
+
+ if ( self->mbuf_addr_rx == NULL ) {
+ eno = ENOMEM;
+ }
+
+ /* Allocate an array of dma descriptors */
+ if ( eno == 0 ) {
+ eno = ( self->CFG->CALLBACK.mem_alloc_nocache )(
+ self->arg,
+ &desc_mem,
+ SIZE_DESCS
+ );
+ }
+
+ if ( eno == 0 ) {
+ if ( desc_mem != NULL ) {
+ memset( desc_mem, 0, SIZE_DESCS );
+ DWMAC_COMMON_DSB();
+ } else {
+ eno = ENOMEM;
+ }
+ }
+
+ if ( eno == 0 ) {
+ self->dma_rx = (volatile dwmac_desc *) desc_mem;
+ DWMAC_COMMON_DSB();
+ }
+
+ return eno;
+}
+
+static void dwmac_desc_enh_init_rx_desc(
+ dwmac_common_context *self,
+ const unsigned int index )
+{
+ volatile dwmac_desc_ext *p_enh =
+ (volatile dwmac_desc_ext *) self->dma_rx;
+ const size_t NUM_DESCS = (size_t) self->bsd_config->rbuf_count;
+ char *clust_start =
+ mtod( self->mbuf_addr_rx[index], char * );
+
+
+ assert( NULL != p_enh );
+
+ DWMAC_COMMON_DSB();
+
+ rtems_cache_invalidate_multiple_data_lines(
+ clust_start,
+ DWMAC_DESC_COM_BUF_SIZE + ETHER_ALIGN
+ );
+
+ if ( self->mbuf_addr_rx[index] != NULL ) {
+ p_enh[index].erx.des0_3.des1 = DWMAC_DESC_ERX_DES1_RECEIVE_BUFF_1_SIZE_SET(
+ p_enh->erx.des0_3.des1,
+ DWMAC_DESC_COM_BUF_SIZE );
+ } else {
+ p_enh[index].erx.des0_3.des1 = DWMAC_DESC_ERX_DES1_RECEIVE_BUFF_1_SIZE_SET(
+ p_enh->erx.des0_3.des1,
+ 0 );
+ }
+
+ p_enh[index].erx.des0_3.des2 = (uint32_t) clust_start;
+
+ /* The network controller supports adding a second data buffer to
+ * p_enh->erx.des0_3.des3. For simplicity reasons we will not do this */
+ dwmac_desc_enh_rx_set_on_ring_chain( &p_enh[index],
+ ( index == NUM_DESCS - 1 ) );
+ DWMAC_COMMON_DSB();
+ p_enh[index].erx.des0_3.des0 = DWMAC_DESC_ERX_DES0_OWN_BIT;
+}
+
+static int dwmac_desc_enh_destroy_rx_desc( dwmac_common_context *self )
+{
+ int eno = 0;
+ void *desc_mem = __DEVOLATILE( void *, self->dma_rx );
+
+
+ if ( self->mbuf_addr_rx != NULL ) {
+ free( self->mbuf_addr_rx, 0 );
+ self->mbuf_addr_rx = NULL;
+ }
+
+ if ( desc_mem != NULL ) {
+ eno = self->CFG->CALLBACK.mem_free_nocache( self->arg, desc_mem );
+ desc_mem = NULL;
+ self->dma_rx = (volatile dwmac_desc *) desc_mem;
+ }
+
+ DWMAC_COMMON_DSB();
+
+ return eno;
+}
+
+static void dwmac_desc_enh_release_rx_bufs( dwmac_common_context *self )
+{
+ volatile dwmac_desc_ext *p_enh = (volatile dwmac_desc_ext *) self->dma_rx;
+ const size_t NUM_DESCS = (size_t) self->bsd_config->rbuf_count;
+ unsigned int i;
+
+
+ assert( p_enh != NULL );
+
+ for ( i = 0; i < NUM_DESCS; ++i ) {
+ if ( p_enh[i].erx.des0_3.des2 != 0 ) {
+ struct mbuf *dummy;
+
+ assert( self->mbuf_addr_rx[i] != NULL );
+
+ MFREE( self->mbuf_addr_rx[i], dummy );
+ (void) dummy;
+ memset( __DEVOLATILE( void *,
+ &p_enh[i].erx ), 0, sizeof( dwmac_desc_ext ) );
+ }
+ }
+
+ self->dma_rx = (volatile dwmac_desc *) p_enh;
+ DWMAC_COMMON_DSB();
+}
+
+static int dwmac_desc_enh_create_tx_desc( dwmac_common_context *self )
+{
+ int eno = 0;
+ void *mem_desc = __DEVOLATILE( void *, self->dma_tx );
+ const size_t NUM_DESCS = (size_t) self->bsd_config->xbuf_count;
+ const size_t SIZE_DESCS = NUM_DESCS * sizeof( dwmac_desc_ext );
+
+
+ assert( mem_desc == NULL );
+
+ /* Allocate an array of mbuf pointers */
+ self->mbuf_addr_tx = calloc( NUM_DESCS, sizeof( struct mbuf * ) );
+
+ if ( self->mbuf_addr_tx == NULL ) {
+ eno = ENOMEM;
+ }
+
+ if ( eno == 0 ) {
+ eno = ( self->CFG->CALLBACK.mem_alloc_nocache )(
+ self->arg,
+ &mem_desc,
+ SIZE_DESCS
+ );
+ }
+
+ if ( eno == 0 ) {
+ if ( mem_desc != NULL ) {
+ memset( mem_desc, 0, SIZE_DESCS );
+ DWMAC_COMMON_DSB();
+ } else {
+ eno = ENOMEM;
+ }
+ }
+
+ if ( eno == 0 ) {
+ self->dma_tx = (volatile dwmac_desc *) mem_desc;
+ DWMAC_COMMON_DSB();
+ }
+
+ return eno;
+}
+
+static void dwmac_desc_enh_init_tx_desc( dwmac_common_context *self )
+{
+ volatile dwmac_desc_ext *p_enh = (volatile dwmac_desc_ext *) self->dma_tx;
+ const size_t NUM_DESCS = (size_t) self->bsd_config->xbuf_count;
+ unsigned int i;
+
+
+ assert( p_enh != NULL );
+
+ for ( i = 0; i < NUM_DESCS; ++i ) {
+ dwmac_desc_enh_tx_set_on_ring_chain( &p_enh[i], ( i == NUM_DESCS - 1 ) );
+ }
+
+ self->dma_tx = (volatile dwmac_desc *) &p_enh[0];
+ DWMAC_COMMON_DSB();
+}
+
+static int dwmac_desc_enh_destroy_tx_desc( dwmac_common_context *self )
+{
+ int eno = 0;
+ void *mem_desc = __DEVOLATILE( void *, self->dma_tx );
+
+
+ if ( self->mbuf_addr_tx != NULL ) {
+ free( self->mbuf_addr_tx, 0 );
+ self->mbuf_addr_tx = NULL;
+ }
+
+ if ( mem_desc != NULL ) {
+ eno = self->CFG->CALLBACK.mem_free_nocache( self->arg, mem_desc );
+ mem_desc = NULL;
+ self->dma_tx = (volatile dwmac_desc *) mem_desc;
+ }
+
+ DWMAC_COMMON_DSB();
+
+ return eno;
+}
+
+static void dwmac_desc_enh_release_tx_bufs( dwmac_common_context *self )
+{
+ volatile dwmac_desc_ext *p_enh = (volatile dwmac_desc_ext *) self->dma_tx;
+ const size_t NUM_DESCS = (size_t) self->bsd_config->xbuf_count;
+ unsigned int i;
+
+
+ assert( p_enh != NULL );
+
+ for ( i = 0; i < NUM_DESCS; ++i ) {
+ if ( p_enh[i].etx.des0_3.des1 != 0 ) {
+ struct mbuf *dummy;
+
+ assert( self->mbuf_addr_tx[i] != NULL );
+
+ MFREE( self->mbuf_addr_tx[i], dummy );
+ (void) dummy;
+ memset( __DEVOLATILE( void *,
+ &p_enh[i].etx ), 0, sizeof( dwmac_desc_ext ) );
+ }
+ }
+
+ self->dma_tx = (volatile dwmac_desc *) p_enh;
+ DWMAC_COMMON_DSB();
+}
+
+static inline size_t dwmac_desc_enh_get_rx_frame_len(
+ dwmac_common_context *self,
+ const unsigned int desc_idx )
+{
+ volatile dwmac_desc_ext *p_enh = (volatile dwmac_desc_ext *) self->dma_rx;
+
+
+ /* The type-1 checksum offload engines append the checksum at
+ * the end of frame and the two bytes of checksum are added in
+ * the length.
+ * Adjust for that in the framelen for type-1 checksum offload
+ * engines. */
+ if ( self->dmagrp->hw_feature & DMAGRP_HW_FEATURE_RXTYP1COE ) {
+ return DWMAC_DESC_ERX_DES0_FRAME_LENGTH_GET( p_enh[desc_idx].erx.des0_3.des0 )
+ - 2U;
+ } else {
+ return DWMAC_DESC_ERX_DES0_FRAME_LENGTH_GET( p_enh[desc_idx].erx.des0_3.des0 );
+ }
+}
+
+static bool dwmac_desc_enh_am_i_rx_owner(
+ dwmac_common_context *self,
+ const unsigned int desc_idx )
+{
+ volatile dwmac_desc_ext *p_enh = (volatile dwmac_desc_ext *) self->dma_rx;
+ bool am_i_owner;
+
+
+ DWMAC_COMMON_DSB();
+ am_i_owner =
+ ( p_enh[desc_idx].erx.des0_3.des0 & DWMAC_DESC_ERX_DES0_OWN_BIT ) == 0;
+
+ return am_i_owner;
+}
+
+static bool dwmac_desc_enh_am_i_tx_owner(
+ dwmac_common_context *self,
+ const unsigned int idx_tx )
+{
+ volatile dwmac_desc_ext *p_enh = (volatile dwmac_desc_ext *) self->dma_tx;
+ bool am_i_owner;
+
+
+ DWMAC_COMMON_DSB();
+ am_i_owner =
+ ( p_enh[idx_tx].etx.des0_3.des0 & DWMAC_DESC_ETX_DES0_OWN_BIT ) == 0;
+
+ return am_i_owner;
+}
+
+static void dwmac_desc_enh_release_tx_ownership(
+ dwmac_common_context *self,
+ const unsigned int idx_tx )
+{
+ volatile dwmac_desc_ext *p_enh = (volatile dwmac_desc_ext *) self->dma_tx;
+
+
+ DWMAC_COMMON_DSB();
+ p_enh[idx_tx].erx.des0_3.des0 |= DWMAC_DESC_ETX_DES0_OWN_BIT;
+}
+
+static int dwmac_desc_enh_get_tx_ls(
+ dwmac_common_context *self,
+ const unsigned int idx_tx )
+{
+ volatile dwmac_desc_ext *p_enh = (volatile dwmac_desc_ext *) self->dma_tx;
+
+
+ return ( ( p_enh[idx_tx].etx.des0_3.des0
+ & DWMAC_DESC_ETX_DES0_LAST_SEGMENT ) != 0 );
+}
+
+static void dwmac_desc_enh_release_tx_desc(
+ dwmac_common_context *self,
+ const unsigned int idx_tx )
+{
+ volatile dwmac_desc_ext *p_enh = (volatile dwmac_desc_ext *) self->dma_tx;
+
+
+ p_enh[idx_tx].etx.des0_3.des0 =
+ p_enh[idx_tx].etx.des0_3.des0
+ & ( DWMAC_DESC_ETX_DES0_TRANSMIT_END_OF_RING
+ | DWMAC_DESC_ETX_DES0_SECOND_ADDR_CHAINED );
+
+ p_enh[idx_tx].etx.des0_3.des1 = 0;
+}
+
+static void dwmac_desc_enh_prepare_tx_desc(
+ dwmac_common_context *self,
+ const unsigned int idx,
+ const bool is_first,
+ const size_t len,
+ const void *pdata )
+{
+ volatile dwmac_desc_ext *p_enh = (volatile dwmac_desc_ext *) self->dma_tx;
+
+
+ if ( is_first ) {
+ p_enh[idx].etx.des0_3.des0 |= DWMAC_DESC_ETX_DES0_FIRST_SEGMENT;
+ }
+
+ dwmac_desc_enh_set_tx_desc_len( &p_enh[idx], len );
+
+ p_enh[idx].etx.des0_3.des2 = (uintptr_t) pdata;
+}
+
+static void dwmac_desc_enh_close_tx_desc(
+ dwmac_common_context *self,
+ const unsigned int idx_tx )
+{
+ volatile dwmac_desc_ext *p_enh = (volatile dwmac_desc_ext *) self->dma_tx;
+
+
+ p_enh[idx_tx].etx.des0_3.des0 |= DWMAC_DESC_ETX_DES0_LAST_SEGMENT;
+ p_enh[idx_tx].etx.des0_3.des0 |= DWMAC_DESC_ETX_DES0_IRQ_ON_COMPLETION;
+}
+
+static bool dwmac_desc_enh_is_first_rx_segment(
+ dwmac_common_context *self,
+ const unsigned int descriptor_index )
+{
+ volatile dwmac_desc_ext *p_descs = (volatile dwmac_desc_ext *) self->dma_rx;
+
+
+ return ( ( p_descs[descriptor_index].erx.des0_3.des0
+ & DWMAC_DESC_ERX_DES0_FIRST_DESCRIPTOR ) != 0 );
+}
+
+static bool dwmac_desc_enh_is_last_rx_segment(
+ dwmac_common_context *self,
+ const unsigned int descriptor_index )
+{
+ volatile dwmac_desc_ext *p_descs = (volatile dwmac_desc_ext *) self->dma_rx;
+
+
+ return ( ( p_descs[descriptor_index].erx.des0_3.des0
+ & DWMAC_DESC_ERX_DES0_LAST_DESCRIPTOR ) != 0 );
+}
+
+static int dwmac_desc_enh_validate( dwmac_common_context *self )
+{
+ /* Does the hardware support enhanced descriptors? */
+ if ( ( self->dmagrp->hw_feature & DMAGRP_HW_FEATURE_ENHDESSEL ) != 0 ) {
+ return 0;
+ } else {
+ return EINVAL;
+ }
+}
+
+static bool dwmac_desc_enh_use_enhanced_descs( dwmac_common_context *self )
+{
+ (void) self;
+
+ /* Yes, we use enhanced descriptors */
+ return true;
+}
+
+const dwmac_common_desc_ops dwmac_desc_ops_enhanced = {
+ .validate = dwmac_desc_enh_validate,
+ .use_enhanced_descs = dwmac_desc_enh_use_enhanced_descs,
+ .tx_status = dwmac_desc_enh_get_tx_status,
+ .rx_status = dwmac_desc_enh_get_rx_status,
+ .create_rx_desc = dwmac_desc_enh_create_rx_desc,
+ .create_tx_desc = dwmac_desc_enh_create_tx_desc,
+ .destroy_rx_desc = dwmac_desc_enh_destroy_rx_desc,
+ .destroy_tx_desc = dwmac_desc_enh_destroy_tx_desc,
+ .init_rx_desc = dwmac_desc_enh_init_rx_desc,
+ .init_tx_desc = dwmac_desc_enh_init_tx_desc,
+ .release_rx_bufs = dwmac_desc_enh_release_rx_bufs,
+ .release_tx_bufs = dwmac_desc_enh_release_tx_bufs,
+ .alloc_data_buf = dwmac_desc_com_new_mbuf,
+ .am_i_tx_owner = dwmac_desc_enh_am_i_tx_owner,
+ .am_i_rx_owner = dwmac_desc_enh_am_i_rx_owner,
+ .release_tx_desc = dwmac_desc_enh_release_tx_desc,
+ .prepare_tx_desc = dwmac_desc_enh_prepare_tx_desc,
+ .close_tx_desc = dwmac_desc_enh_close_tx_desc,
+ .get_tx_ls = dwmac_desc_enh_get_tx_ls,
+ .release_tx_ownership = dwmac_desc_enh_release_tx_ownership,
+ .get_rx_frame_len = dwmac_desc_enh_get_rx_frame_len,
+ .is_first_rx_segment = dwmac_desc_enh_is_first_rx_segment,
+ .is_last_rx_segment = dwmac_desc_enh_is_last_rx_segment,
+ .print_tx_desc = dwmac_desc_enh_print_tx_desc,
+ .print_rx_desc = dwmac_desc_enh_print_rx_desc,
+};
+
+/* This wrapped function pointer struct can be passed into the
+ * configuration initializer for the driver */
+const dwmac_descriptor_ops DWMAC_DESCRIPTOR_OPS_ENHANCED =
+ DWMAC_DESCRIPTOR_OPS_INITIALIZER(
+ &dwmac_desc_ops_enhanced
+ );
diff --git a/c/src/libchip/network/dwmac-desc.h b/c/src/libchip/network/dwmac-desc.h
new file mode 100644
index 0000000000..bc5b54abbe
--- /dev/null
+++ b/c/src/libchip/network/dwmac-desc.h
@@ -0,0 +1,257 @@
+#ifndef DWMAC_DESC_RX_REGS_H
+#define DWMAC_DESC_RX_REGS_H
+
+#include <bsp/utility.h>
+
+typedef struct {
+ uint32_t des0;
+#define DWMAC_DESC_RX_DES0_OWN_BIT BSP_BIT32(31)
+#define DWMAC_DESC_RX_DES0_DEST_ADDR_FILTER_FAIL BSP_BIT32(30)
+#define DWMAC_DESC_RX_DES0_FRAME_LENGTH(val) BSP_FLD32(val, 16, 29)
+#define DWMAC_DESC_RX_DES0_FRAME_LENGTH_GET(reg) BSP_FLD32GET(reg, 16, 29)
+#define DWMAC_DESC_RX_DES0_FRAME_LENGTH_SET(reg, val) BSP_FLD32SET(reg, val, 16, 29)
+#define DWMAC_DESC_RX_DES0_ERROR_SUMMARY BSP_BIT32(15)
+#define DWMAC_DESC_RX_DES0_DESCRIPTOR_ERROR BSP_BIT32(14)
+#define DWMAC_DESC_RX_DES0_SRC_ADDR_FILTER_FAIL BSP_BIT32(13)
+#define DWMAC_DESC_RX_DES0_LENGTH_ERROR BSP_BIT32(12)
+#define DWMAC_DESC_RX_DES0_OVERFLOW_ERROR BSP_BIT32(11)
+#define DWMAC_DESC_RX_DES0_VLAN_TAG BSP_BIT32(10)
+#define DWMAC_DESC_RX_DES0_FIRST_DESCRIPTOR BSP_BIT32(9)
+#define DWMAC_DESC_RX_DES0_LAST_DESCRIPTOR BSP_BIT32(8)
+#define DWMAC_DESC_RX_DES0_CHECKSUM_ERROR BSP_BIT32(7)
+#define DWMAC_DESC_RX_DES0_LATE_COLLISION BSP_BIT32(6)
+#define DWMAC_DESC_RX_DES0_FRAME_TYPE BSP_BIT32(5)
+#define DWMAC_DESC_RX_DES0_RECEIVE_WATCHDOG_TIMEOUT BSP_BIT32(4)
+#define DWMAC_DESC_RX_DES0_RECEIVE_ERROR BSP_BIT32(3)
+#define DWMAC_DESC_RX_DES0_DRIBBLE_BIT_ERROR BSP_BIT32(2)
+#define DWMAC_DESC_RX_DES0_CRC_ERROR BSP_BIT32(1)
+#define DWMAC_DESC_RX_DES0_RX_MAC_ADDR_OR_PAYLOAD_CHECKSUM_ERROR BSP_BIT32(0)
+ uint32_t des1;
+#define DWMAC_DESC_RX_DES1_DISABLE_IRQ_ON_COMPLETION BSP_BIT32(31)
+#define DWMAC_DESC_RX_DES1_RECEIVE_END_OF_RING BSP_BIT32(25)
+#define DWMAC_DESC_RX_DES1_SECOND_ADDR_CHAINED BSP_BIT32(24)
+#define DWMAC_DESC_RX_DES1_RECEIVE_BUFFER_2_SIZE(val) BSP_FLD32(val, 11, 21)
+#define DWMAC_DESC_RX_DES1_RECEIVE_BUFFER_2_SIZE_GET(reg) BSP_FLD32GET(reg, 11, 21)
+#define DWMAC_DESC_RX_DES1_RECEIVE_BUFFER_2_SIZE_SET(reg, val) BSP_FLD32SET(reg, val, 11, 21)
+#define DWMAC_DESC_RX_DES1_RECIVE_BUFFER_1_SIZE(val) BSP_FLD32(val, 0, 10)
+#define DWMAC_DESC_RX_DES1_RECIVE_BUFFER_1_SIZE_GET(reg) BSP_FLD32GET(reg, 0, 10)
+#define DWMAC_DESC_RX_DES1_RECIVE_BUFFER_1_SIZE_SET(reg, val) BSP_FLD32SET(reg, val, 0, 10)
+ uint32_t des2;
+#define DWMAC_DESC_RX_DES2_BUFF_1_ADDR_PTR(val) BSP_FLD32(val, 0, 31)
+#define DWMAC_DESC_RX_DES2_BUFF_1_ADDR_PTR_GET(reg) BSP_FLD32GET(reg, 0, 31)
+#define DWMAC_DESC_RX_DES2_BUFF_1_ADDR_PTR_SET(reg, val) BSP_FLD32SET(reg, val, 0, 31)
+#define DWMAC_DESC_RX_DES2_IEEE_RECEIVE_FRAME_TIMESTAMP_LOW(val) BSP_FLD32(val, 0, 31)
+#define DWMAC_DESC_RX_DES2_IEEE_RECEIVE_FRAME_TIMESTAMP_LOW_GET(reg) BSP_FLD32GET(reg, 0, 31)
+#define DWMAC_DESC_RX_DES2_IEEE_RECEIVE_FRAME_TIMESTAMP_LOW_SET(reg, val) BSP_FLD32SET(reg, val, 0, 31)
+ uint32_t des3;
+#define DWMAC_DESC_RX_DES3_BUFF_2_ADDR_PTR(val) BSP_FLD32(val, 0, 31)
+#define DWMAC_DESC_RX_DES3_BUFF_2_ADDR_PTR_GET(reg) BSP_FLD32GET(reg, 0, 31)
+#define DWMAC_DESC_RX_DES3_BUFF_2_ADDR_PTR_SET(reg, val) BSP_FLD32SET(reg, val, 0, 31)
+#define DWMAC_DESC_RX_DES3_IEEE_RECEIVE_FRAME_TIMESTAMP_LOW(val) BSP_FLD32(val, 0, 31)
+#define DWMAC_DESC_RX_DES3_IEEE_RECEIVE_FRAME_TIMESTAMP_LOW_GET(reg) BSP_FLD32GET(reg, 0, 31)
+#define DWMAC_DESC_RX_DES3_IEEE_RECEIVE_FRAME_TIMESTAMP_LOW_SET(reg, val) BSP_FLD32SET(reg, val, 0, 31)
+} dwmac_desc_rx;
+
+typedef struct {
+ uint32_t des0;
+#define DWMAC_DESC_TX_DES0_OWN_BIT BSP_BIT32(31)
+#define DWMAC_DESC_TX_DES0_TX_TIMESTAMP_STATUS BSP_BIT32(17)
+#define DWMAC_DESC_TX_DES0_IP_HEADER_ERROR BSP_BIT32(16)
+#define DWMAC_DESC_TX_DES0_ERROR_SUMMARY BSP_BIT32(15)
+#define DWMAC_DESC_TX_DES0_JABBER_TIMEOUT BSP_BIT32(14)
+#define DWMAC_DESC_TX_DES0_FRAME_FLUSHED BSP_BIT32(13)
+#define DWMAC_DESC_TX_DES0_PAYLOAD_CHECKSUM_ERROR BSP_BIT32(12)
+#define DWMAC_DESC_TX_DES0_LOSS_OF_CARRIER BSP_BIT32(11)
+#define DWMAC_DESC_TX_DES0_NO_CARRIER BSP_BIT32(10)
+#define DWMAC_DESC_TX_DES0_EXCESSIVE_COLLISION BSP_BIT32(8)
+#define DWMAC_DESC_TX_DES0_VLAN_FRAME BSP_BIT32(7)
+#define DWMAC_DESC_TX_DES0_COLLISION_TIMEOUT(val) BSP_FLD32(val, 3, 6)
+#define DWMAC_DESC_TX_DES0_COLLISION_TIMEOUT_GET(reg) BSP_FLD32GET(reg, 3, 6)
+#define DWMAC_DESC_TX_DES0_COLLISION_TIMEOUT_SET(reg, val) BSP_FLD32SET(reg, val, 3, 6)
+#define DWMAC_DESC_TX_DES0_EXCESSIVE_DEFERAL BSP_BIT32(2)
+#define DWMAC_DESC_TX_DES0_UNDERFLOW_ERROR BSP_BIT32(1)
+#define DWMAC_DESC_TX_DES0_DEFERED_BIT BSP_BIT32(0)
+ uint32_t des1;
+#define DWMAC_DESC_TX_DES1_IRQ_ON_COMPLETION BSP_BIT32(31)
+#define DWMAC_DESC_TX_DES1_LAST_SEGMENT BSP_BIT32(30)
+#define DWMAC_DESC_TX_DES1_FIRST_SEGMENT BSP_BIT32(29)
+#define DWMAC_DESC_TX_DES1_CHECKSUM_INSERTION_CONTROL(val) BSP_FLD32(val, 27, 28)
+#define DWMAC_DESC_TX_DES1_CHECKSUM_INSERTION_CONTROL_GET(reg) BSP_FLD32GET(reg, 27, 28)
+#define DWMAC_DESC_TX_DES1_CHECKSUM_INSERTION_CONTROL_SET(reg, val) BSP_FLD32SET(reg, val, 27, 28)
+#define DWMAC_DESC_TX_DES1_DISABLE_CRC BSP_BIT32(26)
+#define DWMAC_DESC_TX_DES1_TRANSMIT_END_OF_RING BSP_BIT32(25)
+#define DWMAC_DESC_TX_DES1_SECOND_ADDRESS_CHAINED BSP_BIT32(24)
+#define DWMAC_DESC_TX_DES1_DISABLE_PADDING BSP_BIT32(23)
+#define DWMAC_DESC_TX_DES1_TRANSMIT_TIMESTAMP_ENABLE BSP_BIT32(22)
+#define DWMAC_DESC_TX_DES1_TRANMIT_BUFFER_2_SIZE(val) BSP_FLD32(val, 11, 21)
+#define DWMAC_DESC_TX_DES1_TRANMIT_BUFFER_2_SIZE_GET(reg) BSP_FLD32GET(reg, 11, 21)
+#define DWMAC_DESC_TX_DES1_TRANMIT_BUFFER_2_SIZE_SET(reg, val) BSP_FLD32SET(reg, val, 11, 21)
+#define DWMAC_DESC_TX_DES1_TRANSMIT_BUFFER_1_SIZE(val) BSP_FLD32(val, 0, 10)
+#define DWMAC_DESC_TX_DES1_TRANSMIT_BUFFER_1_SIZE_GET(reg) BSP_FLD32GET(reg, 0, 10)
+#define DWMAC_DESC_TX_DES1_TRANSMIT_BUFFER_1_SIZE_SET(reg, val) BSP_FLD32SET(reg, val, 0, 10)
+ uint32_t des2;
+#define DWMAC_DESC_TX_DES2_BUFF_1_ADDR_PTR(val) BSP_FLD32(val, 0, 31)
+#define DWMAC_DESC_TX_DES2_BUFF_1_ADDR_PTR_GET(reg) BSP_FLD32GET(reg, 0, 31)
+#define DWMAC_DESC_TX_DES2_BUFF_1_ADDR_PTR_SET(reg, val) BSP_FLD32SET(reg, val, 0, 31)
+#define DWMAC_DESC_TX_DES2_IEEE_TRANSMIT_FRAME_TIMESTAMP_LOW(val) BSP_FLD32(val, 0, 31)
+#define DWMAC_DESC_TX_DES2_IEEE_TRANSMIT_FRAME_TIMESTAMP_LOW_GET(reg) BSP_FLD32GET(reg, 0, 31)
+#define DWMAC_DESC_TX_DES2_IEEE_TRANSMIT_FRAME_TIMESTAMP_LOW_SET(reg, val) BSP_FLD32SET(reg, val, 0, 31)
+ uint32_t des3;
+#define DWMAC_DESC_TX_DES3_BUFF_2_ADDR_PTR(val) BSP_FLD32(val, 0, 31)
+#define DWMAC_DESC_TX_DES3_BUFF_2_ADDR_PTR_GET(reg) BSP_FLD32GET(reg, 0, 31)
+#define DWMAC_DESC_TX_DES3_BUFF_2_ADDR_PTR_SET(reg, val) BSP_FLD32SET(reg, val, 0, 31)
+#define DWMAC_DESC_TX_DES3_IEEE_TRANSMIT_FRAME_TIMESTAMP_LOW(val) BSP_FLD32(val, 0, 31)
+#define DWMAC_DESC_TX_DES3_IEEE_TRANSMIT_FRAME_TIMESTAMP_LOW_GET(reg) BSP_FLD32GET(reg, 0, 31)
+#define DWMAC_DESC_TX_DES3_IEEE_TRANSMIT_FRAME_TIMESTAMP_LOW_SET(reg, val) BSP_FLD32SET(reg, val, 0, 31)
+} dwmac_desc_tx;
+
+typedef struct {
+ uint32_t des0;
+#define DWMAC_DESC_ERX_DES0_OWN_BIT BSP_BIT32(31)
+#define DWMAC_DESC_ERX_DES0_DEST_ADDR_FILTER_FAIL BSP_BIT32(30)
+#define DWMAC_DESC_ERX_DES0_FRAME_LENGTH(val) BSP_FLD32(val, 16, 29)
+#define DWMAC_DESC_ERX_DES0_FRAME_LENGTH_GET(reg) BSP_FLD32GET(reg, 16, 29)
+#define DWMAC_DESC_ERX_DES0_FRAME_LENGTH_SET(reg, val) BSP_FLD32SET(reg, val, 16, 29)
+#define DWMAC_DESC_ERX_DES0_ERROR_SUMMARY BSP_BIT32(15)
+#define DWMAC_DESC_ERX_DES0_DESCRIPTOR_ERROR BSP_BIT32(14)
+#define DWMAC_DESC_ERX_DES0_SRC_ADDR_FILTER_FAIL BSP_BIT32(13)
+#define DWMAC_DESC_ERX_DES0_LENGTH_ERROR BSP_BIT32(12)
+#define DWMAC_DESC_ERX_DES0_OVERFLOW_ERROR BSP_BIT32(11)
+#define DWMAC_DESC_ERX_DES0_VLAN_TAG BSP_BIT32(10)
+#define DWMAC_DESC_ERX_DES0_FIRST_DESCRIPTOR BSP_BIT32(9)
+#define DWMAC_DESC_ERX_DES0_LAST_DESCRIPTOR BSP_BIT32(8)
+#define DWMAC_DESC_ERX_DES0_TIMESTAMP_AVAIL_OR_CHECKSUM_ERROR_OR_GIANT_FRAME BSP_BIT32(7)
+#define DWMAC_DESC_ERX_DES0_LATE_COLLISION BSP_BIT32(6)
+#define DWMAC_DESC_ERX_DES0_FREAME_TYPE BSP_BIT32(5)
+#define DWMAC_DESC_ERX_DES0_RECEIVE_WATCHDOG_TIMEOUT BSP_BIT32(4)
+#define DWMAC_DESC_ERX_DES0_RECEIVE_ERROR BSP_BIT32(3)
+#define DWMAC_DESC_ERX_DES0_DRIBBLE_BIT_ERROR BSP_BIT32(2)
+#define DWMAC_DESC_ERX_DES0_CRC_ERROR BSP_BIT32(1)
+#define DWMAC_DESC_ERX_DES0_EXT_STATUS_AVAIL_OR_RX_MAC_ADDR_STATUS BSP_BIT32(0)
+ uint32_t des1;
+#define DWMAC_DESC_ERX_DES1_DISABLE_IRQ_ON_COMPLETION BSP_BIT32(31)
+#define DWMAC_DESC_ERX_DES1_RECEIVE_BUFF_2_SIZE(val) BSP_FLD32(val, 16, 28)
+#define DWMAC_DESC_ERX_DES1_RECEIVE_BUFF_2_SIZE_GET(reg) BSP_FLD32GET(reg, 16, 28)
+#define DWMAC_DESC_ERX_DES1_RECEIVE_BUFF_2_SIZE_SET(reg, val) BSP_FLD32SET(reg, val, 16, 28)
+#define DWMAC_DESC_ERX_DES1_RECEIVE_END_OF_RING BSP_BIT32(15)
+#define DWMAC_DESC_ERX_DES1_SECOND_ADDR_CHAINED BSP_BIT32(14)
+#define DWMAC_DESC_ERX_DES1_RECEIVE_BUFF_1_SIZE(val) BSP_FLD32(val, 0, 12)
+#define DWMAC_DESC_ERX_DES1_RECEIVE_BUFF_1_SIZE_GET(reg) BSP_FLD32GET(reg, 0, 12)
+#define DWMAC_DESC_ERX_DES1_RECEIVE_BUFF_1_SIZE_SET(reg, val) BSP_FLD32SET(reg, val, 0, 12)
+ uint32_t des2;
+#define DWMAC_DESC_ERX_DES2_BUFF_1_ADDR_PTR(val) BSP_FLD32(val, 0, 31)
+#define DWMAC_DESC_ERX_DES2_BUFF_1_ADDR_PTR_GET(reg) BSP_FLD32GET(reg, 0, 31)
+#define DWMAC_DESC_ERX_DES2_BUFF_1_ADDR_PTR_SET(reg, val) BSP_FLD32SET(reg, val, 0, 31)
+ uint32_t des3;
+#define DWMAC_DESC_ERX_DES3_BUFF_2_ADDR_PTR(val) BSP_FLD32(val, 0, 31)
+#define DWMAC_DESC_ERX_DES3_BUFF_2_ADDR_PTR_GET(reg) BSP_FLD32GET(reg, 0, 31)
+#define DWMAC_DESC_ERX_DES3_BUFF_2_ADDR_PTR_SET(reg, val) BSP_FLD32SET(reg, val, 0, 31)
+} dwmac_desc_erx;
+
+typedef struct {
+ uint32_t des0;
+#define DWMAC_DESC_ETX_DES0_OWN_BIT BSP_BIT32(31)
+#define DWMAC_DESC_ETX_DES0_IRQ_ON_COMPLETION BSP_BIT32(30)
+#define DWMAC_DESC_ETX_DES0_LAST_SEGMENT BSP_BIT32(29)
+#define DWMAC_DESC_ETX_DES0_FIRST_SEGMENT BSP_BIT32(28)
+#define DWMAC_DESC_ETX_DES0_DISABLE_CRC BSP_BIT32(27)
+#define DWMAC_DESC_ETX_DES0_DISABLE_PAD BSP_BIT32(26)
+#define DWMAC_DESC_ETX_DES0_TRANSMIT_TIMESTAMP_ENABLE BSP_BIT32(25)
+#define DWMAC_DESC_ETX_DES0_CHECKSUM_INSERTION_CONTROL(val) BSP_FLD32(val, 22, 23)
+#define DWMAC_DESC_ETX_DES0_CHECKSUM_INSERTION_CONTROL_GET(reg) BSP_FLD32GET(reg, 22, 23)
+#define DWMAC_DESC_ETX_DES0_CHECKSUM_INSERTION_CONTROL_SET(reg, val) BSP_FLD32SET(reg, val, 22, 23)
+#define DWMAC_DESC_ETX_DES0_TRANSMIT_END_OF_RING BSP_BIT32(21)
+#define DWMAC_DESC_ETX_DES0_SECOND_ADDR_CHAINED BSP_BIT32(20)
+#define DWMAC_DESC_ETX_DES0_TRANSMIT_TIMESTAMP_STATUS BSP_BIT32(17)
+#define DWMAC_DESC_ETX_DES0_IP_HEADER_ERROR BSP_BIT32(16)
+#define DWMAC_DESC_ETX_DES0_ERROR_SUMMARY BSP_BIT32(15)
+#define DWMAC_DESC_ETX_DES0_JABBER_TIMEOUT BSP_BIT32(14)
+#define DWMAC_DESC_ETX_DES0_FRAME_FLUSHED BSP_BIT32(13)
+#define DWMAC_DESC_ETX_DES0_IP_PAYLOAD_ERROR BSP_BIT32(12)
+#define DWMAC_DESC_ETX_DES0_LOSS_OF_CARRIER BSP_BIT32(11)
+#define DWMAC_DESC_ETX_DES0_NO_CARRIER BSP_BIT32(10)
+#define DWMAC_DESC_ETX_DES0_EXCESSIVE_COLLISION BSP_BIT32(8)
+#define DWMAC_DESC_ETX_DES0_VLAN_FRAME BSP_BIT32(7)
+#define DWMAC_DESC_ETX_DES0_COLLISION_COUNT(val) BSP_FLD32(val, 3, 6)
+#define DWMAC_DESC_ETX_DES0_COLLISION_COUNT_GET(reg) BSP_FLD32GET(reg, 3, 6)
+#define DWMAC_DESC_ETX_DES0_COLLISION_COUNT_SET(reg, val) BSP_FLD32SET(reg, val, 3, 6)
+#define DWMAC_DESC_ETX_DES0_EXCESSIVE_DEFERAL BSP_BIT32(2)
+#define DWMAC_DESC_ETX_DES0_UNDERFLOW_ERROR BSP_BIT32(1)
+#define DWMAC_DESC_ETX_DES0_DEFERRED_BIT BSP_BIT32(0)
+ uint32_t des1;
+#define DWMAC_DESC_ETX_DES1_TRANSMIT_BUFFER_2_SIZE(val) BSP_FLD32(val, 16, 28)
+#define DWMAC_DESC_ETX_DES1_TRANSMIT_BUFFER_2_SIZE_GET(reg) BSP_FLD32GET(reg, 16, 28)
+#define DWMAC_DESC_ETX_DES1_TRANSMIT_BUFFER_2_SIZE_SET(reg, val) BSP_FLD32SET(reg, val, 16, 28)
+#define DWMAC_DESC_ETX_DES1_TRANSMIT_BUFFER_1_SIZE(val) BSP_FLD32(val, 0, 12)
+#define DWMAC_DESC_ETX_DES1_TRANSMIT_BUFFER_1_SIZE_GET(reg) BSP_FLD32GET(reg, 0, 12)
+#define DWMAC_DESC_ETX_DES1_TRANSMIT_BUFFER_1_SIZE_SET(reg, val) BSP_FLD32SET(reg, val, 0, 12)
+ uint32_t des2;
+#define DWMAC_DESC_ETX_DES2_BUFF_1_ADDR_PTR(val) BSP_FLD32(val, 0, 31)
+#define DWMAC_DESC_ETX_DES2_BUFF_1_ADDR_PTR_GET(reg) BSP_FLD32GET(reg, 0, 31)
+#define DWMAC_DESC_ETX_DES2_BUFF_1_ADDR_PTR_SET(reg, val) BSP_FLD32SET(reg, val, 0, 31)
+ uint32_t des3;
+#define DWMAC_DESC_ETX_DES3_BUFF_2_ADDR_PTR(val) BSP_FLD32(val, 0, 31)
+#define DWMAC_DESC_ETX_DES3_BUFF_2_ADDR_PTR_GET(reg) BSP_FLD32GET(reg, 0, 31)
+#define DWMAC_DESC_ETX_DES3_BUFF_2_ADDR_PTR_SET(reg, val) BSP_FLD32SET(reg, val, 0, 31)
+} dwmac_desc_etx;
+
+typedef union {
+ dwmac_desc_rx rx;
+ dwmac_desc_tx tx;
+ dwmac_desc_erx erx;
+ dwmac_desc_etx etx;
+} dwmac_desc;
+
+typedef struct {
+ dwmac_desc_erx des0_3;
+ uint32_t des4;
+#define DWMAC_DESC_EXT_ERX_DES4_LAYER3_AND_LAYER4_FILTER_MATCHED(val) BSP_FLD32(val, 26, 27)
+#define DWMAC_DESC_EXT_ERX_DES4_LAYER3_AND_LAYER4_FILTER_MATCHED_GET(reg) BSP_FLD32GET(reg, 26, 27)
+#define DWMAC_DESC_EXT_ERX_DES4_LAYER3_AND_LAYER4_FILTER_MATCHED_SET(reg, val) BSP_FLD32SET(reg, val, 26, 27)
+#define DWMAC_DESC_EXT_ERX_DES4_LAYER4_FILTER_MATCH BSP_BIT32(25)
+#define DWMAC_DESC_EXT_ERX_DES4_LAYER3_FILTER_MATCH BSP_BIT32(24)
+#define DWMAC_DESC_EXT_ERX_DES4_TIMESTAMP_DROPPED BSP_BIT32(14)
+#define DWMAC_DESC_EXT_ERX_DES4_PTP_VERSION BSP_BIT32(13)
+#define DWMAC_DESC_EXT_ERX_DES4_PTP_FRAME_TYPE BSP_BIT32(12)
+#define DWMAC_DESC_EXT_ERX_DES4_MESSAGE_TYPE(val) BSP_FLD32(val, 8, 11)
+#define DWMAC_DESC_EXT_ERX_DES4_MESSAGE_TYPE_GET(reg) BSP_FLD32GET(reg, 8, 11)
+#define DWMAC_DESC_EXT_ERX_DES4_MESSAGE_TYPE_SET(reg, val) BSP_FLD32SET(reg, val, 8, 11)
+#define DWMAC_DESC_EXT_ERX_DES4_IPV6_PACKET_RECEIVED BSP_BIT32(7)
+#define DWMAC_DESC_EXT_ERX_DES4_IPV4_PACKET_RECEIVED BSP_BIT32(6)
+#define DWMAC_DESC_EXT_ERX_DES4_IP_CHECKSUM_BYPASSED BSP_BIT32(5)
+#define DWMAC_DESC_EXT_ERX_DES4_IP_PAYLOAD_ERROR BSP_BIT32(4)
+#define DWMAC_DESC_EXT_ERX_DES4_IP_HEADER_ERROR BSP_BIT32(3)
+#define DWMAC_DESC_EXT_ERX_DES4_IP_PAYLOAD_TYPE(val) BSP_FLD32(val, 0, 2)
+#define DWMAC_DESC_EXT_ERX_DES4_IP_PAYLOAD_TYPE_GET(reg) BSP_FLD32GET(reg, 0, 2)
+#define DWMAC_DESC_EXT_ERX_DES4_IP_PAYLOAD_TYPE_SET(reg, val) BSP_FLD32SET(reg, val, 0, 2)
+ uint32_t des5;
+ uint32_t des6;
+#define DWMAC_DESC_EXT_ERX_DES6_RECEIVE_FRAME_TIMESTAMP_LOW(val) BSP_FLD32(val, 0, 31)
+#define DWMAC_DESC_EXT_ERX_DES6_RECEIVE_FRAME_TIMESTAMP_LOW_GET(reg) BSP_FLD32GET(reg, 0, 31)
+#define DWMAC_DESC_EXT_ERX_DES6_RECEIVE_FRAME_TIMESTAMP_LOW_SET(reg, val) BSP_FLD32SET(reg, val, 0, 31)
+ uint32_t des7;
+#define DWMAC_DESC_EXT_ERX_DES7_RECEIVE_FRAME_TIMESTAMP_HIGH(val) BSP_FLD32(val, 0, 31)
+#define DWMAC_DESC_EXT_ERX_DES7_RECEIVE_FRAME_TIMESTAMP_HIGH_GET(reg) BSP_FLD32GET(reg, 0, 31)
+#define DWMAC_DESC_EXT_ERX_DES7_RECEIVE_FRAME_TIMESTAMP_HIGH_SET(reg, val) BSP_FLD32SET(reg, val, 0, 31)
+} dwmac_desc_ext_erx;
+
+typedef struct {
+ dwmac_desc_etx des0_3;
+ uint32_t des4;
+ uint32_t des5;
+ uint32_t des6;
+#define DWMAC_DESC_EXT_ETX_DES6_TRANSMIT_FRAME_TIMESTAMP_LOW(val) BSP_FLD32(val, 0, 31)
+#define DWMAC_DESC_EXT_ETX_DES6_TRANSMIT_FRAME_TIMESTAMP_LOW_GET(reg) BSP_FLD32GET(reg, 0, 31)
+#define DWMAC_DESC_EXT_ETX_DES6_TRANSMIT_FRAME_TIMESTAMP_LOW_SET(reg, val) BSP_FLD32SET(reg, val, 0, 31)
+ uint32_t des7;
+#define DWMAC_DESC_EXT_ETX_DES7_TRANSMIT_FRAME_TIMESTAMP_HIGH(val) BSP_FLD32(val, 0, 31)
+#define DWMAC_DESC_EXT_ETX_DES7_TRANSMIT_FRAME_TIMESTAMP_HIGH_GET(reg) BSP_FLD32GET(reg, 0, 31)
+#define DWMAC_DESC_EXT_ETX_DES7_TRANSMIT_FRAME_TIMESTAMP_HIGH_SET(reg, val) BSP_FLD32SET(reg, val, 0, 31)
+} dwmac_desc_ext_etx;
+
+typedef union {
+ dwmac_desc_ext_erx erx;
+ dwmac_desc_ext_etx etx;
+} dwmac_desc_ext;
+
+#endif /* DWMAC_DESC_RX_REGS_H */
diff --git a/c/src/libchip/network/dwmac-regs.h b/c/src/libchip/network/dwmac-regs.h
new file mode 100644
index 0000000000..53d7486750
--- /dev/null
+++ b/c/src/libchip/network/dwmac-regs.h
@@ -0,0 +1,515 @@
+#ifndef MAC_REGS_H
+#define MAC_REGS_H
+
+#include <bsp/utility.h>
+
+typedef struct {
+ uint32_t high;
+#define MAC_HIGH_ADDRHI(val) BSP_FLD32(val, 0, 15)
+#define MAC_HIGH_ADDRHI_GET(reg) BSP_FLD32GET(reg, 0, 15)
+#define MAC_HIGH_ADDRHI_SET(reg, val) BSP_FLD32SET(reg, val, 0, 15)
+#define MAC_HIGH_MBC0 BSP_BIT32(24)
+#define MAC_HIGH_MBC1 BSP_BIT32(25)
+#define MAC_HIGH_MBC2 BSP_BIT32(26)
+#define MAC_HIGH_MBC3 BSP_BIT32(27)
+#define MAC_HIGH_MBC4 BSP_BIT32(28)
+#define MAC_HIGH_MBC5 BSP_BIT32(29)
+#define MAC_HIGH_SA BSP_BIT32(30)
+#define MAC_HIGH_AE BSP_BIT32(31)
+ uint32_t low;
+#define MAC_LOW_ADDRLO(val) BSP_FLD32(val, 0, 32)
+#define MAC_LOW_ADDRLO_GET(reg) BSP_FLD32GET(reg, 0, 32)
+#define MAC_LOW_ADDRLO_SET(reg, val) BSP_FLD32SET(reg, val, 0, 32)
+} mac;
+
+typedef struct {
+ uint32_t mac_configuration;
+#define MACGRP_MAC_CONFIGURATION_PRELEN(val) BSP_FLD32(val, 0, 1)
+#define MACGRP_MAC_CONFIGURATION_PRELEN_GET(reg) BSP_FLD32GET(reg, 0, 1)
+#define MACGRP_MAC_CONFIGURATION_PRELEN_SET(reg, val) BSP_FLD32SET(reg, val, 0, 1)
+#define MACGRP_MAC_CONFIGURATION_RE BSP_BIT32(2)
+#define MACGRP_MAC_CONFIGURATION_TE BSP_BIT32(3)
+#define MACGRP_MAC_CONFIGURATION_DC BSP_BIT32(4)
+#define MACGRP_MAC_CONFIGURATION_BL(val) BSP_FLD32(val, 5, 6)
+#define MACGRP_MAC_CONFIGURATION_BL_GET(reg) BSP_FLD32GET(reg, 5, 6)
+#define MACGRP_MAC_CONFIGURATION_BL_SET(reg, val) BSP_FLD32SET(reg, val, 5, 6)
+#define MACGRP_MAC_CONFIGURATION_ACS BSP_BIT32(7)
+#define MACGRP_MAC_CONFIGURATION_LUD BSP_BIT32(8)
+#define MACGRP_MAC_CONFIGURATION_DR BSP_BIT32(9)
+#define MACGRP_MAC_CONFIGURATION_IPC BSP_BIT32(10)
+#define MACGRP_MAC_CONFIGURATION_DM BSP_BIT32(11)
+#define MACGRP_MAC_CONFIGURATION_LM BSP_BIT32(12)
+#define MACGRP_MAC_CONFIGURATION_DO BSP_BIT32(13)
+#define MACGRP_MAC_CONFIGURATION_FES BSP_BIT32(14)
+#define MACGRP_MAC_CONFIGURATION_PS BSP_BIT32(15)
+#define MACGRP_MAC_CONFIGURATION_DCRS BSP_BIT32(16)
+#define MACGRP_MAC_CONFIGURATION_IFG(val) BSP_FLD32(val, 17, 19)
+#define MACGRP_MAC_CONFIGURATION_IFG_GET(reg) BSP_FLD32GET(reg, 17, 19)
+#define MACGRP_MAC_CONFIGURATION_IFG_SET(reg, val) BSP_FLD32SET(reg, val, 17, 19)
+#define MACGRP_MAC_CONFIGURATION_JE BSP_BIT32(20)
+#define MACGRP_MAC_CONFIGURATION_BE BSP_BIT32(21)
+#define MACGRP_MAC_CONFIGURATION_JD BSP_BIT32(22)
+#define MACGRP_MAC_CONFIGURATION_WD BSP_BIT32(23)
+#define MACGRP_MAC_CONFIGURATION_TC BSP_BIT32(24)
+#define MACGRP_MAC_CONFIGURATION_CST BSP_BIT32(25)
+#define MACGRP_MAC_CONFIGURATION_TWOKPE BSP_BIT32(27)
+ uint32_t mac_frame_filter;
+#define MACGRP_MAC_FRAME_FILTER_PR BSP_BIT32(0)
+#define MACGRP_MAC_FRAME_FILTER_HUC BSP_BIT32(1)
+#define MACGRP_MAC_FRAME_FILTER_HMC BSP_BIT32(2)
+#define MACGRP_MAC_FRAME_FILTER_DAIF BSP_BIT32(3)
+#define MACGRP_MAC_FRAME_FILTER_PM BSP_BIT32(4)
+#define MACGRP_MAC_FRAME_FILTER_DBF BSP_BIT32(5)
+#define MACGRP_MAC_FRAME_FILTER_PCF(val) BSP_FLD32(val, 6, 7)
+#define MACGRP_MAC_FRAME_FILTER_PCF_GET(reg) BSP_FLD32GET(reg, 6, 7)
+#define MACGRP_MAC_FRAME_FILTER_PCF_SET(reg, val) BSP_FLD32SET(reg, val, 6, 7)
+#define MACGRP_MAC_FRAME_FILTER_SAIF BSP_BIT32(8)
+#define MACGRP_MAC_FRAME_FILTER_SAF BSP_BIT32(9)
+#define MACGRP_MAC_FRAME_FILTER_HPF BSP_BIT32(10)
+#define MACGRP_MAC_FRAME_FILTER_VTFE BSP_BIT32(16)
+#define MACGRP_MAC_FRAME_FILTER_IPFE BSP_BIT32(20)
+#define MACGRP_MAC_FRAME_FILTER_DNTU BSP_BIT32(21)
+#define MACGRP_MAC_FRAME_FILTER_RA BSP_BIT32(31)
+ uint32_t reserved_08[2];
+ uint32_t gmii_address;
+#define MACGRP_GMII_ADDRESS_GMII_BUSY BSP_BIT32(0)
+#define MACGRP_GMII_ADDRESS_GMII_WRITE BSP_BIT32(1)
+#define MACGRP_GMII_ADDRESS_CSR_CLOCK_RANGE(val) BSP_FLD32(val, 2, 5)
+#define MACGRP_GMII_ADDRESS_CSR_CLOCK_RANGE_GET(reg) BSP_FLD32GET(reg, 2, 5)
+#define MACGRP_GMII_ADDRESS_CSR_CLOCK_RANGE_SET(reg, val) BSP_FLD32SET(reg, val, 2, 5)
+#define MACGRP_GMII_ADDRESS_GMII_REGISTER(val) BSP_FLD32(val, 6, 10)
+#define MACGRP_GMII_ADDRESS_GMII_REGISTER_GET(reg) BSP_FLD32GET(reg, 6, 10)
+#define MACGRP_GMII_ADDRESS_GMII_REGISTER_SET(reg, val) BSP_FLD32SET(reg, val, 6, 10)
+#define MACGRP_GMII_ADDRESS_PHYSICAL_LAYER_ADDRESS(val) BSP_FLD32(val, 11, 15)
+#define MACGRP_GMII_ADDRESS_PHYSICAL_LAYER_ADDRESS_GET(reg) BSP_FLD32GET(reg, 11, 15)
+#define MACGRP_GMII_ADDRESS_PHYSICAL_LAYER_ADDRESS_SET(reg, val) BSP_FLD32SET(reg, val, 11, 15)
+ uint32_t gmii_data;
+#define MACGRP_GMII_DATA_GMII_DATA(val) BSP_FLD32(val, 0, 15)
+#define MACGRP_GMII_DATA_GMII_DATA_GET(reg) BSP_FLD32GET(reg, 0, 15)
+#define MACGRP_GMII_DATA_GMII_DATA_SET(reg, val) BSP_FLD32SET(reg, val, 0, 15)
+ uint32_t reserved_18[9];
+ uint32_t interrupt_mask;
+#define MACGRP_INTERRUPT_MASK_RGSMIIIM BSP_BIT32(0)
+#define MACGRP_INTERRUPT_MASK_PCSLCHGIM BSP_BIT32(1)
+#define MACGRP_INTERRUPT_MASK_PCSANCIM BSP_BIT32(2)
+#define MACGRP_INTERRUPT_MASK_TSIM BSP_BIT32(9)
+#define MACGRP_INTERRUPT_MASK_LPIIM BSP_BIT32(10)
+ mac mac_addr0_15[16];
+ uint32_t reserved_c0[16];
+ uint32_t mmc_control;
+#define MACGRP_MMC_CONTROL_CNTRST BSP_BIT32(0)
+#define MACGRP_MMC_CONTROL_CNTSTOPRO BSP_BIT32(1)
+#define MACGRP_MMC_CONTROL_RSTONRD BSP_BIT32(2)
+#define MACGRP_MMC_CONTROL_CNTFREEZ BSP_BIT32(3)
+#define MACGRP_MMC_CONTROL_CNTPRST BSP_BIT32(4)
+#define MACGRP_MMC_CONTROL_CNTPRSTLVL BSP_BIT32(5)
+#define MACGRP_MMC_CONTROL_UCDBC BSP_BIT32(8)
+ uint32_t mmc_receive_interrupt;
+#define MACGRP_MMC_RECEIVE_INTERRUPT_RXGBFRMIS BSP_BIT32(0)
+#define MACGRP_MMC_RECEIVE_INTERRUPT_RXGBOCTIS BSP_BIT32(1)
+#define MACGRP_MMC_RECEIVE_INTERRUPT_RXGOCTIS BSP_BIT32(2)
+#define MACGRP_MMC_RECEIVE_INTERRUPT_RXBCGFIS BSP_BIT32(3)
+#define MACGRP_MMC_RECEIVE_INTERRUPT_RXMCGFIS BSP_BIT32(4)
+#define MACGRP_MMC_RECEIVE_INTERRUPT_RXCRCERFIS BSP_BIT32(5)
+#define MACGRP_MMC_RECEIVE_INTERRUPT_RXALGNERFIS BSP_BIT32(6)
+#define MACGRP_MMC_RECEIVE_INTERRUPT_RXRUNTFIS BSP_BIT32(7)
+#define MACGRP_MMC_RECEIVE_INTERRUPT_RXJABERFIS BSP_BIT32(8)
+#define MACGRP_MMC_RECEIVE_INTERRUPT_RXUSIZEGFIS BSP_BIT32(9)
+#define MACGRP_MMC_RECEIVE_INTERRUPT_RXOSIZEGFIS BSP_BIT32(10)
+#define MACGRP_MMC_RECEIVE_INTERRUPT_RX64OCTGBFIS BSP_BIT32(11)
+#define MACGRP_MMC_RECEIVE_INTERRUPT_RX65T127OCTGBFIS BSP_BIT32(12)
+#define MACGRP_MMC_RECEIVE_INTERRUPT_RX128T255OCTGBFIS BSP_BIT32(13)
+#define MACGRP_MMC_RECEIVE_INTERRUPT_RX256T511OCTGBFIS BSP_BIT32(14)
+#define MACGRP_MMC_RECEIVE_INTERRUPT_RX512T1023OCTGBFIS BSP_BIT32(15)
+#define MACGRP_MMC_RECEIVE_INTERRUPT_RX1024TMAXOCTGBFIS BSP_BIT32(16)
+#define MACGRP_MMC_RECEIVE_INTERRUPT_RXUCGFIS BSP_BIT32(17)
+#define MACGRP_MMC_RECEIVE_INTERRUPT_RXLENERFIS BSP_BIT32(18)
+#define MACGRP_MMC_RECEIVE_INTERRUPT_RXORANGEFIS BSP_BIT32(19)
+#define MACGRP_MMC_RECEIVE_INTERRUPT_RXPAUSFIS BSP_BIT32(20)
+#define MACGRP_MMC_RECEIVE_INTERRUPT_RXFOVFIS BSP_BIT32(21)
+#define MACGRP_MMC_RECEIVE_INTERRUPT_RXVLANGBFIS BSP_BIT32(22)
+#define MACGRP_MMC_RECEIVE_INTERRUPT_RXWDOGFIS BSP_BIT32(23)
+#define MACGRP_MMC_RECEIVE_INTERRUPT_RXRCVERRFIS BSP_BIT32(24)
+#define MACGRP_MMC_RECEIVE_INTERRUPT_RXCTRLFIS BSP_BIT32(25)
+ uint32_t mmc_transmit_interrupt;
+#define MACGRP_MMC_TRANSMIT_INTERRUPT_TXGBOCTIS BSP_BIT32(0)
+#define MACGRP_MMC_TRANSMIT_INTERRUPT_TXGBFRMIS BSP_BIT32(1)
+#define MACGRP_MMC_TRANSMIT_INTERRUPT_TXBCGFIS BSP_BIT32(2)
+#define MACGRP_MMC_TRANSMIT_INTERRUPT_TXMCGFIS BSP_BIT32(3)
+#define MACGRP_MMC_TRANSMIT_INTERRUPT_TX64OCTGBFIS BSP_BIT32(4)
+#define MACGRP_MMC_TRANSMIT_INTERRUPT_TX65T127OCTGBFIS BSP_BIT32(5)
+#define MACGRP_MMC_TRANSMIT_INTERRUPT_TX128T255OCTGBFIS BSP_BIT32(6)
+#define MACGRP_MMC_TRANSMIT_INTERRUPT_TX256T511OCTGBFIS BSP_BIT32(7)
+#define MACGRP_MMC_TRANSMIT_INTERRUPT_TX512T1023OCTGBFIS BSP_BIT32(8)
+#define MACGRP_MMC_TRANSMIT_INTERRUPT_TX1024TMAXOCTGBFIS BSP_BIT32(9)
+#define MACGRP_MMC_TRANSMIT_INTERRUPT_TXUCGBFIS BSP_BIT32(10)
+#define MACGRP_MMC_TRANSMIT_INTERRUPT_TXMCGBFIS BSP_BIT32(11)
+#define MACGRP_MMC_TRANSMIT_INTERRUPT_TXBCGBFIS BSP_BIT32(12)
+#define MACGRP_MMC_TRANSMIT_INTERRUPT_TXUFLOWERFIS BSP_BIT32(13)
+#define MACGRP_MMC_TRANSMIT_INTERRUPT_TXSCOLGFIS BSP_BIT32(14)
+#define MACGRP_MMC_TRANSMIT_INTERRUPT_TXMCOLGFIS BSP_BIT32(15)
+#define MACGRP_MMC_TRANSMIT_INTERRUPT_TXDEFFIS BSP_BIT32(16)
+#define MACGRP_MMC_TRANSMIT_INTERRUPT_TXLATCOLFIS BSP_BIT32(17)
+#define MACGRP_MMC_TRANSMIT_INTERRUPT_TXEXCOLFIS BSP_BIT32(18)
+#define MACGRP_MMC_TRANSMIT_INTERRUPT_TXCARERFIS BSP_BIT32(19)
+#define MACGRP_MMC_TRANSMIT_INTERRUPT_TXGOCTIS BSP_BIT32(20)
+#define MACGRP_MMC_TRANSMIT_INTERRUPT_TXGFRMIS BSP_BIT32(21)
+#define MACGRP_MMC_TRANSMIT_INTERRUPT_TXEXDEFFIS BSP_BIT32(22)
+#define MACGRP_MMC_TRANSMIT_INTERRUPT_TXPAUSFIS BSP_BIT32(23)
+#define MACGRP_MMC_TRANSMIT_INTERRUPT_TXVLANGFIS BSP_BIT32(24)
+#define MACGRP_MMC_TRANSMIT_INTERRUPT_TXOSIZEGFIS BSP_BIT32(25)
+ uint32_t mmc_receive_interrupt_mask;
+#define MACGRP_MMC_RECEIVE_INTERRUPT_MASK_RXGBFRMIM BSP_BIT32(0)
+#define MACGRP_MMC_RECEIVE_INTERRUPT_MASK_RXGBOCTIM BSP_BIT32(1)
+#define MACGRP_MMC_RECEIVE_INTERRUPT_MASK_RXGOCTIM BSP_BIT32(2)
+#define MACGRP_MMC_RECEIVE_INTERRUPT_MASK_RXBCGFIM BSP_BIT32(3)
+#define MACGRP_MMC_RECEIVE_INTERRUPT_MASK_RXMCGFIM BSP_BIT32(4)
+#define MACGRP_MMC_RECEIVE_INTERRUPT_MASK_RXCRCERFIM BSP_BIT32(5)
+#define MACGRP_MMC_RECEIVE_INTERRUPT_MASK_RXALGNERFIM BSP_BIT32(6)
+#define MACGRP_MMC_RECEIVE_INTERRUPT_MASK_RXRUNTFIM BSP_BIT32(7)
+#define MACGRP_MMC_RECEIVE_INTERRUPT_MASK_RXJABERFIM BSP_BIT32(8)
+#define MACGRP_MMC_RECEIVE_INTERRUPT_MASK_RXUSIZEGFIM BSP_BIT32(9)
+#define MACGRP_MMC_RECEIVE_INTERRUPT_MASK_RXOSIZEGFIM BSP_BIT32(10)
+#define MACGRP_MMC_RECEIVE_INTERRUPT_MASK_RX64OCTGBFIM BSP_BIT32(11)
+#define MACGRP_MMC_RECEIVE_INTERRUPT_MASK_RX65T127OCTGBFIM BSP_BIT32(12)
+#define MACGRP_MMC_RECEIVE_INTERRUPT_MASK_RX128T255OCTGBFIM BSP_BIT32(13)
+#define MACGRP_MMC_RECEIVE_INTERRUPT_MASK_RX256T511OCTGBFIM BSP_BIT32(14)
+#define MACGRP_MMC_RECEIVE_INTERRUPT_MASK_RX512T1023OCTGBFIM BSP_BIT32(15)
+#define MACGRP_MMC_RECEIVE_INTERRUPT_MASK_RX1024TMAXOCTGBFIM BSP_BIT32(16)
+#define MACGRP_MMC_RECEIVE_INTERRUPT_MASK_RXUCGFIM BSP_BIT32(17)
+#define MACGRP_MMC_RECEIVE_INTERRUPT_MASK_RXLENERFIM BSP_BIT32(18)
+#define MACGRP_MMC_RECEIVE_INTERRUPT_MASK_RXORANGEFIM BSP_BIT32(19)
+#define MACGRP_MMC_RECEIVE_INTERRUPT_MASK_RXPAUSFIM BSP_BIT32(20)
+#define MACGRP_MMC_RECEIVE_INTERRUPT_MASK_RXFOVFIM BSP_BIT32(21)
+#define MACGRP_MMC_RECEIVE_INTERRUPT_MASK_RXVLANGBFIM BSP_BIT32(22)
+#define MACGRP_MMC_RECEIVE_INTERRUPT_MASK_RXWDOGFIM BSP_BIT32(23)
+#define MACGRP_MMC_RECEIVE_INTERRUPT_MASK_RXRCVERRFIM BSP_BIT32(24)
+#define MACGRP_MMC_RECEIVE_INTERRUPT_MASK_RXCTRLFIM BSP_BIT32(25)
+ uint32_t mmc_transmit_interrupt_mask;
+#define MACGRP_MMC_TRANSMIT_INTERRUPT_MASK_TXGBOCTIM BSP_BIT32(0)
+#define MACGRP_MMC_TRANSMIT_INTERRUPT_MASK_TXGBFRMIM BSP_BIT32(1)
+#define MACGRP_MMC_TRANSMIT_INTERRUPT_MASK_TXBCGFIM BSP_BIT32(2)
+#define MACGRP_MMC_TRANSMIT_INTERRUPT_MASK_TXMCGFIM BSP_BIT32(3)
+#define MACGRP_MMC_TRANSMIT_INTERRUPT_MASK_TX64OCTGBFIM BSP_BIT32(4)
+#define MACGRP_MMC_TRANSMIT_INTERRUPT_MASK_TX65T127OCTGBFIM BSP_BIT32(5)
+#define MACGRP_MMC_TRANSMIT_INTERRUPT_MASK_TX128T255OCTGBFIM BSP_BIT32(6)
+#define MACGRP_MMC_TRANSMIT_INTERRUPT_MASK_TX256T511OCTGBFIM BSP_BIT32(7)
+#define MACGRP_MMC_TRANSMIT_INTERRUPT_MASK_TX512T1023OCTGBFIM BSP_BIT32(8)
+#define MACGRP_MMC_TRANSMIT_INTERRUPT_MASK_TX1024TMAXOCTGBFIM BSP_BIT32(9)
+#define MACGRP_MMC_TRANSMIT_INTERRUPT_MASK_TXUCGBFIM BSP_BIT32(10)
+#define MACGRP_MMC_TRANSMIT_INTERRUPT_MASK_TXMCGBFIM BSP_BIT32(11)
+#define MACGRP_MMC_TRANSMIT_INTERRUPT_MASK_TXBCGBFIM BSP_BIT32(12)
+#define MACGRP_MMC_TRANSMIT_INTERRUPT_MASK_TXUFLOWERFIM BSP_BIT32(13)
+#define MACGRP_MMC_TRANSMIT_INTERRUPT_MASK_TXSCOLGFIM BSP_BIT32(14)
+#define MACGRP_MMC_TRANSMIT_INTERRUPT_MASK_TXMCOLGFIM BSP_BIT32(15)
+#define MACGRP_MMC_TRANSMIT_INTERRUPT_MASK_TXDEFFIM BSP_BIT32(16)
+#define MACGRP_MMC_TRANSMIT_INTERRUPT_MASK_TXLATCOLFIM BSP_BIT32(17)
+#define MACGRP_MMC_TRANSMIT_INTERRUPT_MASK_TXEXCOLFIM BSP_BIT32(18)
+#define MACGRP_MMC_TRANSMIT_INTERRUPT_MASK_TXCARERFIM BSP_BIT32(19)
+#define MACGRP_MMC_TRANSMIT_INTERRUPT_MASK_TXGOCTIM BSP_BIT32(20)
+#define MACGRP_MMC_TRANSMIT_INTERRUPT_MASK_TXGFRMIM BSP_BIT32(21)
+#define MACGRP_MMC_TRANSMIT_INTERRUPT_MASK_TXEXDEFFIM BSP_BIT32(22)
+#define MACGRP_MMC_TRANSMIT_INTERRUPT_MASK_TXPAUSFIM BSP_BIT32(23)
+#define MACGRP_MMC_TRANSMIT_INTERRUPT_MASK_TXVLANGFIM BSP_BIT32(24)
+#define MACGRP_MMC_TRANSMIT_INTERRUPT_MASK_TXOSIZEGFIM BSP_BIT32(25)
+ uint32_t txoctetcount_gb;
+ uint32_t txframecount_gb;
+ uint32_t txbroadcastframes_g;
+ uint32_t txmulticastframes_g;
+ uint32_t tx64octets_gb;
+ uint32_t tx65to127octets_gb;
+ uint32_t tx128to255octets_gb;
+ uint32_t tx256to511octets_gb;
+ uint32_t tx512to1023octets_gb;
+ uint32_t tx1024tomaxoctets_gb;
+ uint32_t txunicastframes_gb;
+ uint32_t txmulticastframes_gb;
+ uint32_t txbroadcastframes_gb;
+ uint32_t txunderflowerror;
+ uint32_t txsinglecol_g;
+ uint32_t txmulticol_g;
+ uint32_t txdeferred;
+ uint32_t txlatecol;
+ uint32_t txexesscol;
+ uint32_t txcarriererr;
+ uint32_t txoctetcnt;
+ uint32_t txframecount_g;
+ uint32_t txexcessdef;
+ uint32_t txpauseframes;
+ uint32_t txvlanframes_g;
+ uint32_t txoversize_g;
+ uint32_t reserved_17c;
+ uint32_t rxframecount_gb;
+ uint32_t rxoctetcount_gb;
+ uint32_t rxoctetcount_g;
+ uint32_t rxbroadcastframes_g;
+ uint32_t rxmulticastframes_g;
+ uint32_t rxcrcerror;
+ uint32_t rxalignmenterror;
+ uint32_t rxrunterror;
+ uint32_t rxjabbererror;
+ uint32_t rxundersize_g;
+ uint32_t rxoversize_g;
+ uint32_t rx64octets_gb;
+ uint32_t rx65to127octets_gb;
+ uint32_t rx128to255octets_gb;
+ uint32_t rx256to511octets_gb;
+ uint32_t rx512to1023octets_gb;
+ uint32_t rx1024tomaxoctets_gb;
+ uint32_t rxunicastframes_g;
+ uint32_t rxlengtherror;
+ uint32_t rxoutofrangetype;
+ uint32_t rxpauseframes;
+ uint32_t rxfifooverflow;
+ uint32_t rxvlanframes_gb;
+ uint32_t rxwatchdogerror;
+ uint32_t rxrcverror;
+ uint32_t rxctrlframes_g;
+ uint32_t reserved_1e8[6];
+ uint32_t mmc_ipc_receive_interrupt_mask;
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_MASK_RXIPV4GFIM BSP_BIT32(0)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_MASK_RXIPV4HERFIM BSP_BIT32(1)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_MASK_RXIPV4NOPAYFIM BSP_BIT32(2)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_MASK_RXIPV4FRAGFIM BSP_BIT32(3)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_MASK_RXIPV4UDSBLFIM BSP_BIT32(4)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_MASK_RXIPV6GFIM BSP_BIT32(5)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_MASK_RXIPV6HERFIM BSP_BIT32(6)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_MASK_RXIPV6NOPAYFIM BSP_BIT32(7)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_MASK_RXUDPGFIM BSP_BIT32(8)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_MASK_RXUDPERFIM BSP_BIT32(9)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_MASK_RXTCPGFIM BSP_BIT32(10)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_MASK_RXTCPERFIM BSP_BIT32(11)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_MASK_RXICMPGFIM BSP_BIT32(12)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_MASK_RXICMPERFIM BSP_BIT32(13)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_MASK_RXIPV4GOIM BSP_BIT32(16)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_MASK_RXIPV4HEROIM BSP_BIT32(17)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_MASK_RXIPV4NOPAYOIM BSP_BIT32(18)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_MASK_RXIPV4FRAGOIM BSP_BIT32(19)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_MASK_RXIPV4UDSBLOIM BSP_BIT32(20)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_MASK_RXIPV6GOIM BSP_BIT32(21)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_MASK_RXIPV6HEROIM BSP_BIT32(22)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_MASK_RXIPV6NOPAYOIM BSP_BIT32(23)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_MASK_RXUDPGOIM BSP_BIT32(24)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_MASK_RXUDPEROIM BSP_BIT32(25)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_MASK_RXTCPGOIM BSP_BIT32(26)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_MASK_RXTCPEROIM BSP_BIT32(27)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_MASK_RXICMPGOIM BSP_BIT32(28)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_MASK_RXICMPEROIM BSP_BIT32(29)
+ uint32_t reserved_204;
+ uint32_t mmc_ipc_receive_interrupt;
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_RXIPV4GFIS BSP_BIT32(0)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_RXIPV4HERFIS BSP_BIT32(1)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_RXIPV4NOPAYFIS BSP_BIT32(2)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_RXIPV4FRAGFIS BSP_BIT32(3)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_RXIPV4UDSBLFIS BSP_BIT32(4)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_RXIPV6GFIS BSP_BIT32(5)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_RXIPV6HERFIS BSP_BIT32(6)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_RXIPV6NOPAYFIS BSP_BIT32(7)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_RXUDPGFIS BSP_BIT32(8)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_RXUDPERFIS BSP_BIT32(9)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_RXTCPGFIS BSP_BIT32(10)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_RXTCPERFIS BSP_BIT32(11)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_RXICMPGFIS BSP_BIT32(12)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_RXICMPERFIS BSP_BIT32(13)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_RXIPV4GOIS BSP_BIT32(16)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_RXIPV4HEROIS BSP_BIT32(17)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_RXIPV4NOPAYOIS BSP_BIT32(18)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_RXIPV4FRAGOIS BSP_BIT32(19)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_RXIPV4UDSBLOIS BSP_BIT32(20)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_RXIPV6GOIS BSP_BIT32(21)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_RXIPV6HEROIS BSP_BIT32(22)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_RXIPV6NOPAYOIS BSP_BIT32(23)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_RXUDPGOIS BSP_BIT32(24)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_RXUDPEROIS BSP_BIT32(25)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_RXTCPGOIS BSP_BIT32(26)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_RXTCPEROIS BSP_BIT32(27)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_RXICMPGOIS BSP_BIT32(28)
+#define MACGRP_MMC_IPC_RECEIVE_INTERRUPT_RXICMPEROIS BSP_BIT32(29)
+ uint32_t reserved_20c;
+ uint32_t rxipv4_gd_frms;
+ uint32_t rxipv4_hdrerr_frms;
+ uint32_t rxipv4_nopay_frms;
+ uint32_t rxipv4_frag_frms;
+ uint32_t rxipv4_udsbl_frms;
+ uint32_t rxipv6_gd_frms;
+ uint32_t rxipv6_hdrerr_frms;
+ uint32_t rxipv6_nopay_frms;
+ uint32_t rxudp_gd_frms;
+ uint32_t rxudp_err_frms;
+ uint32_t rxtcp_gd_frms;
+ uint32_t rxtcp_err_frms;
+ uint32_t rxicmp_gd_frms;
+ uint32_t rxicmp_err_frms;
+ uint32_t reserved_248[2];
+ uint32_t rxipv4_gd_octets;
+ uint32_t rxipv4_hdrerr_octets;
+ uint32_t rxipv4_nopay_octets;
+ uint32_t rxipv4_frag_octets;
+ uint32_t rxipv4_udsbl_octets;
+ uint32_t rxipv6_gd_octets;
+ uint32_t rxipv6_hdrerr_octets;
+ uint32_t rxipv6_nopay_octets;
+ uint32_t rxudp_gd_octets;
+ uint32_t rxudp_err_octets;
+ uint32_t rxtcp_gd_octets;
+ uint32_t rxtcperroctets;
+ uint32_t rxicmp_gd_octets;
+ uint32_t rxicmp_err_octets;
+ uint32_t reserved_288[158];
+ uint32_t hash_table_reg[8];
+ uint32_t reserved_520[184];
+ mac mac_addr16_127[112];
+} macgrp;
+
+typedef struct {
+ uint32_t bus_mode;
+#define DMAGRP_BUS_MODE_SWR BSP_BIT32(0)
+#define DMAGRP_BUS_MODE_DSL(val) BSP_FLD32(val, 2, 6)
+#define DMAGRP_BUS_MODE_DSL_GET(reg) BSP_FLD32GET(reg, 2, 6)
+#define DMAGRP_BUS_MODE_DSL_SET(reg, val) BSP_FLD32SET(reg, val, 2, 6)
+#define DMAGRP_BUS_MODE_ATDS BSP_BIT32(7)
+#define DMAGRP_BUS_MODE_PBL(val) BSP_FLD32(val, 8, 13)
+#define DMAGRP_BUS_MODE_PBL_GET(reg) BSP_FLD32GET(reg, 8, 13)
+#define DMAGRP_BUS_MODE_PBL_SET(reg, val) BSP_FLD32SET(reg, val, 8, 13)
+#define DMAGRP_BUS_MODE_FB BSP_BIT32(16)
+#define DMAGRP_BUS_MODE_RPBL(val) BSP_FLD32(val, 17, 22)
+#define DMAGRP_BUS_MODE_RPBL_GET(reg) BSP_FLD32GET(reg, 17, 22)
+#define DMAGRP_BUS_MODE_RPBL_SET(reg, val) BSP_FLD32SET(reg, val, 17, 22)
+#define DMAGRP_BUS_MODE_USP BSP_BIT32(23)
+#define DMAGRP_BUS_MODE_EIGHTXPBL BSP_BIT32(24)
+#define DMAGRP_BUS_MODE_AAL BSP_BIT32(25)
+#define DMAGRP_BUS_MODE_MB BSP_BIT32(26)
+ uint32_t transmit_poll_demand;
+#define DMAGRP_TRANSMIT_POLL_DEMAND_TPD(val) BSP_FLD32(val, 0, 31)
+#define DMAGRP_TRANSMIT_POLL_DEMAND_TPD_GET(reg) BSP_FLD32GET(reg, 0, 31)
+#define DMAGRP_TRANSMIT_POLL_DEMAND_TPD_SET(reg, val) BSP_FLD32SET(reg, val, 0, 31)
+ uint32_t receive_poll_demand;
+#define DMAGRP_RECEIVE_POLL_DEMAND_RPD(val) BSP_FLD32(val, 0, 31)
+#define DMAGRP_RECEIVE_POLL_DEMAND_RPD_GET(reg) BSP_FLD32GET(reg, 0, 31)
+#define DMAGRP_RECEIVE_POLL_DEMAND_RPD_SET(reg, val) BSP_FLD32SET(reg, val, 0, 31)
+ uint32_t receive_descr_list_addr;
+#define DMAGRP_RECEIVE_DESCR_LIST_ADDR_RDESLA_32BIT(val) BSP_FLD32(val, 2, 31)
+#define DMAGRP_RECEIVE_DESCR_LIST_ADDR_RDESLA_32BIT_GET(reg) BSP_FLD32GET(reg, 2, 31)
+#define DMAGRP_RECEIVE_DESCR_LIST_ADDR_RDESLA_32BIT_SET(reg, val) BSP_FLD32SET(reg, val, 2, 31)
+ uint32_t transmit_descr_list_addr;
+#define DMAGRP_TRANSMIT_DESCR_LIST_ADDR_TDESLA_32BIT(val) BSP_FLD32(val, 2, 31)
+#define DMAGRP_TRANSMIT_DESCR_LIST_ADDR_TDESLA_32BIT_GET(reg) BSP_FLD32GET(reg, 2, 31)
+#define DMAGRP_TRANSMIT_DESCR_LIST_ADDR_TDESLA_32BIT_SET(reg, val) BSP_FLD32SET(reg, val, 2, 31)
+ uint32_t status;
+#define DMAGRP_STATUS_TI BSP_BIT32(0)
+#define DMAGRP_STATUS_TPS BSP_BIT32(1)
+#define DMAGRP_STATUS_TU BSP_BIT32(2)
+#define DMAGRP_STATUS_TJT BSP_BIT32(3)
+#define DMAGRP_STATUS_OVF BSP_BIT32(4)
+#define DMAGRP_STATUS_UNF BSP_BIT32(5)
+#define DMAGRP_STATUS_RI BSP_BIT32(6)
+#define DMAGRP_STATUS_RU BSP_BIT32(7)
+#define DMAGRP_STATUS_RPS BSP_BIT32(8)
+#define DMAGRP_STATUS_RWT BSP_BIT32(9)
+#define DMAGRP_STATUS_ETI BSP_BIT32(10)
+#define DMAGRP_STATUS_FBI BSP_BIT32(13)
+#define DMAGRP_STATUS_ERI BSP_BIT32(14)
+#define DMAGRP_STATUS_AIS BSP_BIT32(15)
+#define DMAGRP_STATUS_NIS BSP_BIT32(16)
+#define DMAGRP_STATUS_RS(val) BSP_FLD32(val, 17, 19)
+#define DMAGRP_STATUS_RS_GET(reg) BSP_FLD32GET(reg, 17, 19)
+#define DMAGRP_STATUS_RS_SET(reg, val) BSP_FLD32SET(reg, val, 17, 19)
+#define DMAGRP_STATUS_TS(val) BSP_FLD32(val, 20, 22)
+#define DMAGRP_STATUS_TS_GET(reg) BSP_FLD32GET(reg, 20, 22)
+#define DMAGRP_STATUS_TS_SET(reg, val) BSP_FLD32SET(reg, val, 20, 22)
+#define DMAGRP_STATUS_EB(val) BSP_FLD32(val, 23, 25)
+#define DMAGRP_STATUS_EB_GET(reg) BSP_FLD32GET(reg, 23, 25)
+#define DMAGRP_STATUS_EB_SET(reg, val) BSP_FLD32SET(reg, val, 23, 25)
+#define DMAGRP_STATUS_GLI BSP_BIT32(26)
+#define DMAGRP_STATUS_GMI BSP_BIT32(27)
+#define DMAGRP_STATUS_TTI BSP_BIT32(29)
+#define DMAGRP_STATUS_GLPII BSP_BIT32(30)
+ uint32_t operation_mode;
+#define DMAGRP_OPERATION_MODE_SR BSP_BIT32(1)
+#define DMAGRP_OPERATION_MODE_OSF BSP_BIT32(2)
+#define DMAGRP_OPERATION_MODE_RTC(val) BSP_FLD32(val, 3, 4)
+#define DMAGRP_OPERATION_MODE_RTC_GET(reg) BSP_FLD32GET(reg, 3, 4)
+#define DMAGRP_OPERATION_MODE_RTC_SET(reg, val) BSP_FLD32SET(reg, val, 3, 4)
+#define DMAGRP_OPERATION_MODE_FUF BSP_BIT32(6)
+#define DMAGRP_OPERATION_MODE_FEF BSP_BIT32(7)
+#define DMAGRP_OPERATION_MODE_EFC BSP_BIT32(8)
+#define DMAGRP_OPERATION_MODE_RFA(val) BSP_FLD32(val, 9, 10)
+#define DMAGRP_OPERATION_MODE_RFA_GET(reg) BSP_FLD32GET(reg, 9, 10)
+#define DMAGRP_OPERATION_MODE_RFA_SET(reg, val) BSP_FLD32SET(reg, val, 9, 10)
+#define DMAGRP_OPERATION_MODE_RFD(val) BSP_FLD32(val, 11, 12)
+#define DMAGRP_OPERATION_MODE_RFD_GET(reg) BSP_FLD32GET(reg, 11, 12)
+#define DMAGRP_OPERATION_MODE_RFD_SET(reg, val) BSP_FLD32SET(reg, val, 11, 12)
+#define DMAGRP_OPERATION_MODE_ST BSP_BIT32(13)
+#define DMAGRP_OPERATION_MODE_TTC(val) BSP_FLD32(val, 14, 16)
+#define DMAGRP_OPERATION_MODE_TTC_GET(reg) BSP_FLD32GET(reg, 14, 16)
+#define DMAGRP_OPERATION_MODE_TTC_SET(reg, val) BSP_FLD32SET(reg, val, 14, 16)
+#define DMAGRP_OPERATION_MODE_FTF BSP_BIT32(20)
+#define DMAGRP_OPERATION_MODE_TSF BSP_BIT32(21)
+#define DMAGRP_OPERATION_MODE_DFF BSP_BIT32(24)
+#define DMAGRP_OPERATION_MODE_RSF BSP_BIT32(25)
+#define DMAGRP_OPERATION_MODE_DT BSP_BIT32(26)
+ uint32_t interrupt_enable;
+#define DMAGRP_INTERRUPT_ENABLE_TIE BSP_BIT32(0)
+#define DMAGRP_INTERRUPT_ENABLE_TSE BSP_BIT32(1)
+#define DMAGRP_INTERRUPT_ENABLE_TUE BSP_BIT32(2)
+#define DMAGRP_INTERRUPT_ENABLE_TJE BSP_BIT32(3)
+#define DMAGRP_INTERRUPT_ENABLE_OVE BSP_BIT32(4)
+#define DMAGRP_INTERRUPT_ENABLE_UNE BSP_BIT32(5)
+#define DMAGRP_INTERRUPT_ENABLE_RIE BSP_BIT32(6)
+#define DMAGRP_INTERRUPT_ENABLE_RUE BSP_BIT32(7)
+#define DMAGRP_INTERRUPT_ENABLE_RSE BSP_BIT32(8)
+#define DMAGRP_INTERRUPT_ENABLE_RWE BSP_BIT32(9)
+#define DMAGRP_INTERRUPT_ENABLE_ETE BSP_BIT32(10)
+#define DMAGRP_INTERRUPT_ENABLE_FBE BSP_BIT32(13)
+#define DMAGRP_INTERRUPT_ENABLE_ERE BSP_BIT32(14)
+#define DMAGRP_INTERRUPT_ENABLE_AIE BSP_BIT32(15)
+#define DMAGRP_INTERRUPT_ENABLE_NIE BSP_BIT32(16)
+ uint32_t reserved_20[2];
+ uint32_t axi_bus_mode;
+#define DMAGRP_AXI_BUS_MODE_UNDEFINED BSP_BIT32(0)
+#define DMAGRP_AXI_BUS_MODE_BLEND4 BSP_BIT32(1)
+#define DMAGRP_AXI_BUS_MODE_BLEND8 BSP_BIT32(2)
+#define DMAGRP_AXI_BUS_MODE_BLEND16 BSP_BIT32(3)
+#define DMAGRP_AXI_BUS_MODE_AXI_AAL BSP_BIT32(12)
+#define DMAGRP_AXI_BUS_MODE_ONEKBBE BSP_BIT32(13)
+#define DMAGRP_AXI_BUS_MODE_RD_OSR_LMT(val) BSP_FLD32(val, 16, 19)
+#define DMAGRP_AXI_BUS_MODE_RD_OSR_LMT_GET(reg) BSP_FLD32GET(reg, 16, 19)
+#define DMAGRP_AXI_BUS_MODE_RD_OSR_LMT_SET(reg, val) BSP_FLD32SET(reg, val, 16, 19)
+#define DMAGRP_AXI_BUS_MODE_WR_OSR_LMT(val) BSP_FLD32(val, 20, 23)
+#define DMAGRP_AXI_BUS_MODE_WR_OSR_LMT_GET(reg) BSP_FLD32GET(reg, 20, 23)
+#define DMAGRP_AXI_BUS_MODE_WR_OSR_LMT_SET(reg, val) BSP_FLD32SET(reg, val, 20, 23)
+#define DMAGRP_AXI_BUS_MODE_LPI_XIT_FRM BSP_BIT32(30)
+#define DMAGRP_AXI_BUS_MODE_EN_LPI BSP_BIT32(31)
+ uint32_t reserved_2c[11];
+ uint32_t hw_feature;
+#define DMAGRP_HW_FEATURE_MIISEL BSP_BIT32(0)
+#define DMAGRP_HW_FEATURE_GMIISEL BSP_BIT32(1)
+#define DMAGRP_HW_FEATURE_HDSEL BSP_BIT32(2)
+#define DMAGRP_HW_FEATURE_HASHSEL BSP_BIT32(4)
+#define DMAGRP_HW_FEATURE_ADDMACADRSEL BSP_BIT32(5)
+#define DMAGRP_HW_FEATURE_PCSSEL BSP_BIT32(6)
+#define DMAGRP_HW_FEATURE_SMASEL BSP_BIT32(8)
+#define DMAGRP_HW_FEATURE_RWKSEL BSP_BIT32(9)
+#define DMAGRP_HW_FEATURE_MGKSEL BSP_BIT32(10)
+#define DMAGRP_HW_FEATURE_MMCSEL BSP_BIT32(11)
+#define DMAGRP_HW_FEATURE_TSVER1SEL BSP_BIT32(12)
+#define DMAGRP_HW_FEATURE_TSVER2SEL BSP_BIT32(13)
+#define DMAGRP_HW_FEATURE_EEESEL BSP_BIT32(14)
+#define DMAGRP_HW_FEATURE_AVSEL BSP_BIT32(15)
+#define DMAGRP_HW_FEATURE_TXOESEL BSP_BIT32(16)
+#define DMAGRP_HW_FEATURE_RXTYP1COE BSP_BIT32(17)
+#define DMAGRP_HW_FEATURE_RXTYP2COE BSP_BIT32(18)
+#define DMAGRP_HW_FEATURE_RXFIFOSIZE BSP_BIT32(19)
+#define DMAGRP_HW_FEATURE_RXCHCNT(val) BSP_FLD32(val, 20, 21)
+#define DMAGRP_HW_FEATURE_RXCHCNT_GET(reg) BSP_FLD32GET(reg, 20, 21)
+#define DMAGRP_HW_FEATURE_RXCHCNT_SET(reg, val) BSP_FLD32SET(reg, val, 20, 21)
+#define DMAGRP_HW_FEATURE_TXCHCNT(val) BSP_FLD32(val, 22, 23)
+#define DMAGRP_HW_FEATURE_TXCHCNT_GET(reg) BSP_FLD32GET(reg, 22, 23)
+#define DMAGRP_HW_FEATURE_TXCHCNT_SET(reg, val) BSP_FLD32SET(reg, val, 22, 23)
+#define DMAGRP_HW_FEATURE_ENHDESSEL BSP_BIT32(24)
+#define DMAGRP_HW_FEATURE_ACTPHYIF(val) BSP_FLD32(val, 28, 30)
+#define DMAGRP_HW_FEATURE_ACTPHYIF_GET(reg) BSP_FLD32GET(reg, 28, 30)
+#define DMAGRP_HW_FEATURE_ACTPHYIF_SET(reg, val) BSP_FLD32SET(reg, val, 28, 30)
+} dmagrp;
+
+#endif /* MAC_REGS_H */
diff --git a/c/src/libchip/network/dwmac.c b/c/src/libchip/network/dwmac.c
new file mode 100644
index 0000000000..a4373d2388
--- /dev/null
+++ b/c/src/libchip/network/dwmac.c
@@ -0,0 +1,2325 @@
+/**
+ * @file
+ *
+ * @brief DWMAC 10/100/1000 Network Interface Controller
+ *
+ * DWMAC 10/100/1000 on-chip Ethernet controllers are a Synopsys IP Core.
+ * This is the main mode for the network interface controller.
+ */
+
+/*
+ * Copyright (c) 2013 embedded brains GmbH. All rights reserved.
+ *
+ * embedded brains GmbH
+ * Dornierstr. 4
+ * 82178 Puchheim
+ * Germany
+ * <rtems@embedded-brains.de>
+ *
+ * The license and distribution terms for this file may be
+ * found in the file LICENSE in this distribution or at
+ * http://www.rtems.org/license/LICENSE.
+ */
+
+#include <assert.h>
+#include <stdlib.h>
+#include <stdio.h>
+#include <string.h>
+#include <errno.h>
+#include <rtems.h>
+#include <rtems/endian.h>
+#include "dwmac-common.h"
+#include "dwmac-core.h"
+#include <bsp/irq.h>
+
+/* PHY events which can be combined to an event set.
+ * The PHY can create an event for a corresponding status change */
+const dwmac_phy_event PHY_EVENT_JABBER = 0x80;
+const dwmac_phy_event PHY_EVENT_RECEIVE_ERROR = 0x40;
+const dwmac_phy_event PHY_EVENT_PAGE_RECEIVE = 0x20;
+const dwmac_phy_event PHY_EVENT_PARALLEL_DETECT_FAULT = 0x10;
+const dwmac_phy_event PHY_EVENT_LINK_PARTNER_ACK = 0x08;
+const dwmac_phy_event PHY_EVENT_LINK_DOWN = 0x04;
+const dwmac_phy_event PHY_EVENT_REMOTE_FAULT = 0x02;
+const dwmac_phy_event PHY_EVENT_LINK_UP = 0x01;
+
+/* Default values for the number of DMA descriptors and mbufs to be used */
+#define DWMAC_CONFIG_RX_UNIT_COUNT_DEFAULT 256
+#define DWMAC_CONFIG_RX_UNIT_COUNT_MAX INT_MAX
+#define DWMAC_CONFIG_TX_UNIT_COUNT_DEFAULT 256
+#define DWMAC_CONFIG_TX_UNIT_COUNT_MAX INT_MAX
+
+/* Default values for the DMA configuration */
+#define DWMAC_DMA_BUS_MODE_PBL_DEFAULT DWMAC_DMA_CFG_BUS_MODE_BURST_LENGTH_8
+#define DWMAC_DMA_BUS_MODE_FB_DEFAULT \
+ DWMAC_DMA_CFG_BUS_MODE_BURST_MODE_SINGLE_OR_INCR
+#define DWMAC_DMA_BUS_MODE_MIXED_BURSTS_DEFAULT \
+ DWMAC_DMA_CFG_BUS_MODE_BURST_NOT_MIXED
+#define DWMAC_DMA_AXI_BURST_LENGTH_4_DEFAULT \
+ DWMAC_DMA_CFG_AXI_BURST_LENGTH_4_NOT_SUPPORTED
+#define DWMAC_DMA_AXI_BURST_LENGTH_8_DEFAULT \
+ DWMAC_DMA_CFG_AXI_BURST_LENGTH_8_NOT_SUPPORTED
+#define DWMAC_DMA_AXI_BURST_LENGTH_16_DEFAULT \
+ DWMAC_DMA_CFG_AXI_BURST_LENGTH_16_NOT_SUPPORTED
+#define DWMAC_DMA_AXI_BURST_BOUNDARY_DEFAULT \
+ DWMAC_DMA_CFG_AXI_BURST_BOUNDARY_4_KB
+
+/* CSR Frequency Access Defines*/
+#define DWCGNAC3504_CSR_F_35M 35000000
+#define DWCGNAC3504_CSR_F_60M 60000000
+#define DWCGNAC3504_CSR_F_100M 100000000
+#define DWCGNAC3504_CSR_F_150M 150000000
+#define DWCGNAC3504_CSR_F_250M 250000000
+#define DWCGNAC3504_CSR_F_300M 300000000
+
+/* MDC Clock Selection define*/
+#define DWCGNAC3504_CSR_60_100M 0x0 /* MDC = clk_scr_i/42 */
+#define DWCGNAC3504_CSR_100_150M 0x1 /* MDC = clk_scr_i/62 */
+#define DWCGNAC3504_CSR_20_35M 0x2 /* MDC = clk_scr_i/16 */
+#define DWCGNAC3504_CSR_35_60M 0x3 /* MDC = clk_scr_i/26 */
+#define DWCGNAC3504_CSR_150_250M 0x4 /* MDC = clk_scr_i/102 */
+#define DWCGNAC3504_CSR_250_300M 0x5 /* MDC = clk_scr_i/122 */
+
+#define DWMAC_ALIGN( value, num_bytes_to_align_to ) \
+ ( ( ( value ) + ( ( typeof( value ) )( num_bytes_to_align_to ) - 1 ) ) \
+ & ~( ( typeof( value ) )( num_bytes_to_align_to ) - 1 ) )
+
+#undef DWMAC_DEBUG
+#ifdef DWMAC_DEBUG
+#define DWMAC_PRINT_DBG( fmt, args ... ) printk( fmt, ## args )
+#else
+#define DWMAC_PRINT_DBG( fmt, args ... ) do { } while ( 0 )
+#endif
+
+#define DWMAC_DMA_THRESHOLD_CONTROL_DEFAULT 64
+
+static int dwmac_if_mdio_busy_wait( const volatile uint32_t *gmii_address )
+{
+ rtems_interval timeout = rtems_clock_get_ticks_per_second();
+ rtems_interval i = 0;
+
+
+ while ( ( *gmii_address & MACGRP_GMII_ADDRESS_GMII_BUSY ) != 0
+ && i < timeout ) {
+ rtems_task_wake_after( 1 );
+ ++i;
+ }
+
+ return i < timeout ? 0 : EBUSY;
+}
+
+static int dwmac_if_mdio_read(
+ int phy,
+ void *arg,
+ unsigned phy_reg,
+ uint32_t *val )
+{
+ int eno = 0;
+ dwmac_common_context *self = (dwmac_common_context *) arg;
+ volatile uint32_t *mii_address = &self->macgrp->gmii_address;
+ volatile uint32_t *mii_data = &self->macgrp->gmii_data;
+ uint32_t reg_value = 0;
+
+
+ if ( phy == -1 ) {
+ reg_value = MACGRP_GMII_ADDRESS_PHYSICAL_LAYER_ADDRESS_SET(
+ reg_value,
+ self->CFG->MDIO_BUS_ADDR
+ );
+ } else {
+ reg_value = MACGRP_GMII_ADDRESS_PHYSICAL_LAYER_ADDRESS_SET(
+ reg_value,
+ phy
+ );
+ }
+
+ reg_value = MACGRP_GMII_ADDRESS_GMII_REGISTER_SET(
+ reg_value,
+ phy_reg
+ );
+ reg_value &= ~MACGRP_GMII_ADDRESS_GMII_WRITE;
+
+ /* For the 7111 GMAC, we must set BUSY bit in the MII address register while
+ * accessing the PHY registers.
+ * Fortunately, it seems this has no drawback for the 7109 MAC. */
+ reg_value |= MACGRP_GMII_ADDRESS_GMII_BUSY;
+ reg_value = MACGRP_GMII_ADDRESS_CSR_CLOCK_RANGE_SET(
+ reg_value,
+ self->csr_clock
+ );
+
+ eno = dwmac_if_mdio_busy_wait( mii_address );
+
+ if ( eno == 0 ) {
+ *mii_address = reg_value;
+
+ if ( dwmac_if_mdio_busy_wait( mii_address ) ) {
+ eno = EBUSY;
+ } else {
+ /* Read the value from the MII data register */
+ *val = MACGRP_GMII_DATA_GMII_DATA_GET( *mii_data );
+ }
+ }
+
+ return eno;
+}
+
+static int dwmac_if_mdio_write(
+ int phy,
+ void *arg,
+ unsigned phy_reg,
+ uint32_t val )
+{
+ int eno = 0;
+ dwmac_common_context *self = (dwmac_common_context *) arg;
+ volatile uint32_t *mii_address = &self->macgrp->gmii_address;
+ volatile uint32_t *mii_data = &self->macgrp->gmii_data;
+ uint32_t reg_value = *mii_address;
+
+
+ if ( phy == -1 ) {
+ reg_value = MACGRP_GMII_ADDRESS_PHYSICAL_LAYER_ADDRESS_SET(
+ reg_value,
+ self->CFG->MDIO_BUS_ADDR
+ );
+ } else {
+ reg_value = MACGRP_GMII_ADDRESS_PHYSICAL_LAYER_ADDRESS_SET(
+ reg_value,
+ phy
+ );
+ }
+
+ reg_value = MACGRP_GMII_ADDRESS_GMII_REGISTER_SET(
+ reg_value,
+ phy_reg
+ );
+ reg_value |= MACGRP_GMII_ADDRESS_GMII_WRITE;
+ reg_value |= MACGRP_GMII_ADDRESS_GMII_BUSY;
+ reg_value = MACGRP_GMII_ADDRESS_CSR_CLOCK_RANGE_SET(
+ reg_value,
+ self->csr_clock
+ );
+
+ /* Wait until any existing MII operation is complete */
+ eno = dwmac_if_mdio_busy_wait( mii_address );
+
+ if ( eno == 0 ) {
+ /* Set the MII address register to write */
+ *mii_data = val;
+ *mii_address = reg_value;
+
+ /* Wait until any existing MII operation is complete */
+ eno = dwmac_if_mdio_busy_wait( mii_address );
+ }
+
+ return eno;
+}
+
+static int dwmac_get_phy_info(
+ dwmac_common_context *self,
+ const uint8_t mdio_bus_addr,
+ uint32_t *oui,
+ uint8_t *model,
+ uint8_t *revision )
+{
+ int eno = 0;
+ uint32_t read;
+
+
+ eno = dwmac_if_mdio_read(
+ mdio_bus_addr,
+ self,
+ 2,
+ &read );
+
+ if ( eno == 0 ) {
+ *oui = 0 | ( read << 6 );
+ eno = dwmac_if_mdio_read(
+ mdio_bus_addr,
+ self,
+ 3,
+ &read );
+
+ if ( eno == 0 ) {
+ *oui |= ( read & 0xFC00 ) >> 10;
+ *model = (uint8_t) ( ( read & 0x03F0 ) >> 4 );
+ *revision = read & 0x000F;
+ }
+ }
+
+ return eno;
+}
+
+static inline void dwmac_enable_irq_rx( dwmac_common_context *self )
+{
+ dwmac_core_enable_dma_irq_rx( self );
+}
+
+static inline void dwmac_enable_irq_tx( dwmac_common_context *self )
+{
+ dwmac_core_enable_dma_irq_tx( self );
+}
+
+static inline void dwmac_disable_irq_rx( dwmac_common_context *self )
+{
+ dwmac_core_disable_dma_irq_rx( self );
+}
+
+static inline void dwmac_diable_irq_tx( dwmac_common_context *self )
+{
+ dwmac_core_disable_dma_irq_tx( self );
+}
+
+static void dwmac_control_request_complete( const dwmac_common_context *self )
+{
+ rtems_status_code sc = rtems_event_transient_send( self->task_id_control );
+
+
+ assert( sc == RTEMS_SUCCESSFUL );
+}
+
+static int dwmac_control_request(
+ dwmac_common_context *self,
+ rtems_id task,
+ rtems_event_set event )
+{
+ int eno = 0;
+ rtems_status_code sc = RTEMS_SUCCESSFUL;
+ uint32_t nest_count = 0;
+
+
+ self->task_id_control = rtems_task_self();
+
+ sc = rtems_bsdnet_event_send( task, event );
+
+ eno = rtems_status_code_to_errno( sc );
+
+ if ( eno == 0 ) {
+ nest_count = rtems_bsdnet_semaphore_release_recursive();
+ sc = rtems_event_transient_receive( RTEMS_WAIT, RTEMS_NO_TIMEOUT );
+ eno = rtems_status_code_to_errno( sc );
+ }
+
+ if ( eno == 0 ) {
+ rtems_bsdnet_semaphore_obtain_recursive( nest_count );
+ self->task_id_control = 0;
+ }
+
+ return eno;
+}
+
+static bool dwmac_if_media_status(
+ dwmac_common_context *self,
+ int *media,
+ uint8_t phy_address )
+{
+ struct ifnet *ifp = &self->arpcom.ac_if;
+
+
+ *media = (int) IFM_MAKEWORD( 0, 0, 0, phy_address );
+
+ return ( *ifp->if_ioctl )( ifp, SIOCGIFMEDIA, (caddr_t) media ) == 0;
+}
+
+#define DWMAC_PRINT_COUNTER( fmt, counter, args ... ) \
+ if ( counter != 0 ) { \
+ printf( fmt, counter, ## args ); \
+ }
+
+/* Print statistics. Get called via ioctl. */
+static int dwmac_if_interface_stats( void *arg )
+{
+ int eno = 0;
+ dwmac_common_context *self = arg;
+ volatile macgrp *macgrp = self->macgrp;
+ int media = 0;
+ bool media_ok = dwmac_if_media_status(
+ self, &media, self->CFG->MDIO_BUS_ADDR );
+ uint32_t oui;
+ uint8_t model;
+ uint8_t revision;
+ uint16_t giant_frame_size = 1518;
+
+
+ if ( ( MACGRP_MAC_CONFIGURATION_JE & macgrp->mac_configuration ) != 0 ) {
+ /* Jumbo Frames are enabled */
+ giant_frame_size = 9018;
+ }
+
+ if ( media_ok ) {
+ rtems_ifmedia2str( media, NULL, 0 );
+ printf( "\n" );
+ eno = dwmac_get_phy_info(
+ self,
+ self->CFG->MDIO_BUS_ADDR,
+ &oui,
+ &model,
+ &revision );
+
+ if ( eno == 0 ) {
+ printf( "PHY 0x%02x: OUI = 0x%04" PRIX32 ", Model = 0x%02" PRIX8 ", Rev = "
+ "0x%02" PRIX8 "\n",
+ self->CFG->MDIO_BUS_ADDR,
+ oui,
+ model,
+ revision );
+ printf( "PHY status counters:\n" );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " link down\n",
+ self->stats.phy_status_counts.link_down
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " link up\n",
+ self->stats.phy_status_counts.link_up
+ );
+ }
+ } else {
+ printf( "PHY %d communication error\n", self->CFG->MDIO_BUS_ADDR );
+ }
+
+ printf( "\nHardware counters:\n" );
+
+ if ( ( self->dmagrp->hw_feature & DMAGRP_HW_FEATURE_MMCSEL ) != 0 ) {
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " bytes transmitted, exclusive of preamble and retried bytes, "
+ "in good and bad frames\n",
+ macgrp->txoctetcount_gb
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " good and bad frames transmitted, exclusive of retried "
+ "frames\n",
+ macgrp->txframecount_gb
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " good broadcast frames transmitted\n",
+ macgrp->txbroadcastframes_g
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " good multicast frames transmitted\n",
+ macgrp->txmulticastframes_g
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " good and bad frames transmitted with length 64 bytes, "
+ "exclusive of preamble and retried frames\n",
+ macgrp->tx64octets_gb
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " good and bad frames transmitted with length between 65 and "
+ "127 (inclusive) bytes, exclusive of preamble and retried frames\n",
+ macgrp->tx65to127octets_gb
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " good and bad frames transmitted with length between 128 and "
+ "255 (inclusive) bytes, exclusive of preamble and retried frames\n",
+ macgrp->tx128to255octets_gb
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " good and bad frames transmitted with length between 256 and "
+ "511 (inclusive) bytes, exclusive of preamble and retried frames\n",
+ macgrp->tx256to511octets_gb
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " good and bad frames transmitted with length between 512 and "
+ "1,023 (inclusive) bytes, exclusive of preamble and retried frames\n",
+ macgrp->tx512to1023octets_gb
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " good and bad frames transmitted with length between 1,024 and"
+ " maxsize (inclusive) bytes, exclusive of preamble and retried frames\n",
+ macgrp->tx1024tomaxoctets_gb
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " good and bad unicast frames transmitted\n",
+ macgrp->txunicastframes_gb
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " good and bad multicast frames transmitted\n",
+ macgrp->txmulticastframes_gb
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " good and bad broadcast frames transmitted\n",
+ macgrp->txbroadcastframes_gb
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " frames aborted due to frame underflow error\n",
+ macgrp->txunderflowerror
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " successfully transmitted frames after a single collision in "
+ "Half-duplex mode\n",
+ macgrp->txsinglecol_g
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " successfully transmitted frames after more than a single"
+ " collision in Half-duplex mode\n",
+ macgrp->txmulticol_g
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " successfully transmitted frames after a deferral in "
+ "Halfduplex mode\n",
+ macgrp->txdeferred
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " frames aborted due to late collision error\n",
+ macgrp->txlatecol
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " frames aborted due to excessive (16) collision errors\n",
+ macgrp->txexesscol
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " frames aborted due to carrier sense error (no carrier or loss"
+ " of carrier)\n",
+ macgrp->txcarriererr
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " bytes transmitted, exclusive of preamble, in good frames "
+ "only\n",
+ macgrp->txoctetcnt
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " good frames transmitted\n",
+ macgrp->txframecount_g
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " frames aborted due to excessive deferral error (deferred for"
+ " more than two max-sized frame times)\n",
+ macgrp->txexcessdef
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " good PAUSE frames transmitted\n",
+ macgrp->txpauseframes
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " good VLAN frames transmitted, exclusive of retried frames\n",
+ macgrp->txvlanframes_g
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " good and bad frames received\n",
+ macgrp->txoversize_g
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " good and bad frames received\n",
+ macgrp->rxframecount_gb
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " bytes received, exclusive of preamble, in good and bad "
+ "frames\n",
+ macgrp->rxoctetcount_gb
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " bytes received, exclusive of preamble, only in good frames\n",
+ macgrp->rxoctetcount_g
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " good broadcast frames received\n",
+ macgrp->rxbroadcastframes_g
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " good multicast frames received\n",
+ macgrp->rxmulticastframes_g
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " frames received with CRC error\n",
+ macgrp->rxcrcerror
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " frames received with alignment (dribble) error. Valid only"
+ " in 10/100 mode\n",
+ macgrp->rxalignmenterror
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " frames received with runt (<64 bytes and CRC error) error\n",
+ macgrp->rxrunterror
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " giant frames received with length (including CRC) greater "
+ "than %" PRIu16 " bytes (%" PRIu16 " bytes for VLAN tagged) and with CRC"
+ " error\n",
+ macgrp->rxjabbererror, giant_frame_size, giant_frame_size + 4
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " frames received with length less than 64 bytes, without any"
+ " errors\n",
+ macgrp->rxundersize_g
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " frames received with length greater than the maxsize (1,518"
+ " or 1,522 for VLAN tagged frames), without errors\n",
+ macgrp->rxoversize_g
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " good and bad frames received with length 64 bytes, exclusive"
+ " of preamble\n",
+ macgrp->rx64octets_gb
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " good and bad frames received with length between 65 and 127"
+ " (inclusive) bytes, exclusive of preamble\n",
+ macgrp->rx65to127octets_gb
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " good and bad frames received with length between 128 and 255"
+ " (inclusive) bytes, exclusive of preamble\n",
+ macgrp->rx128to255octets_gb
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " good and bad frames received with length between 256 and 511"
+ " (inclusive) bytes, exclusive of preamble\n",
+ macgrp->rx256to511octets_gb
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " good and bad frames received with length between 512 and "
+ "1,023 (inclusive) bytes, exclusive of preamble\n",
+ macgrp->rx512to1023octets_gb
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " good and bad frames received with length between 1,024 and"
+ " maxsize (inclusive) bytes, exclusive of preamble and retried frames\n",
+ macgrp->rx1024tomaxoctets_gb
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " good unicast frames received\n",
+ macgrp->rxunicastframes_g
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " frames received with length error (length type field not "
+ "equal to frame size), for all frames with valid length field\n",
+ macgrp->rxlengtherror
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " frames received with length field not equal to the valid "
+ "frame size (greater than 1,500 but less than 1,536)\n",
+ macgrp->rxoutofrangetype
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " good and valid PAUSE frames received\n",
+ macgrp->rxpauseframes
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " missed received frames due to FIFO overflow\n",
+ macgrp->rxfifooverflow
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " good and bad VLAN frames received\n",
+ macgrp->rxvlanframes_gb
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " frames received with error due to watchdog timeout error "
+ "(frames with a data load larger than 2,048 bytes)\n",
+ macgrp->rxwatchdogerror
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " frames received with Receive error or Frame Extension error"
+ " on the GMII or MII interface\n",
+ macgrp->rxrcverror
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " received good control frames\n",
+ macgrp->rxctrlframes_g
+ );
+
+ printf( "\n" );
+
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " good IPv4 datagrams received with the TCP, UDP, or ICMP "
+ "payload\n",
+ macgrp->rxipv4_gd_frms
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " IPv4 datagrams received with header (checksum, length, or "
+ "version mismatch) errors\n",
+ macgrp->rxipv4_hdrerr_frms
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " IPv4 datagram frames received that did not have a TCP, UDP, "
+ "or ICMP payload processed by the Checksum engine\n",
+ macgrp->rxipv4_nopay_frms
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " good IPv4 datagrams with fragmentation\n",
+ macgrp->rxipv4_frag_frms
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " good IPv4 datagrams received that had a UDP payload with "
+ "checksum disabled\n",
+ macgrp->rxipv4_udsbl_frms
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " good IPv6 datagrams received with TCP, UDP, or ICMP "
+ "payloads\n",
+ macgrp->rxipv6_gd_frms
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " IPv6 datagrams received with header errors (length or "
+ "version mismatch)\n",
+ macgrp->rxipv6_hdrerr_frms
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " IPv6 datagram frames received that did not have a TCP, UDP,"
+ " or ICMP payload. This includes all IPv6 datagrams with fragmentation"
+ " or security extension headers\n",
+ macgrp->rxipv6_nopay_frms
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " good IP datagrams with a good UDP payload. This counter is "
+ "not updated when the counter is incremented\n",
+ macgrp->rxudp_gd_frms
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " good IP datagrams whose UDP payload has a checksum error\n",
+ macgrp->rxudp_err_frms
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " good IP datagrams with a good TCP payload\n",
+ macgrp->rxtcp_gd_frms
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " good IP datagrams whose TCP payload has a checksum error\n",
+ macgrp->rxtcp_err_frms
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " good IP datagrams with a good ICMP payload\n",
+ macgrp->rxicmp_gd_frms
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " good IP datagrams whose ICMP payload has a checksum error\n",
+ macgrp->rxicmp_err_frms
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " bytes received in good IPv4 datagrams encapsulating TCP, UDP,"
+ " or ICMP data\n",
+ macgrp->rxipv4_gd_octets
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " bytes received in IPv4 datagrams with header errors (checksum,"
+ " length, version mismatch). The value in the Length field of IPv4 "
+ "header is used to update this counter\n",
+ macgrp->rxipv4_hdrerr_octets
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " bytes received in IPv4 datagrams that did not have a TCP, UDP"
+ ", or ICMP payload. The value in the IPv4 headers Length field is used"
+ " to update this counter\n",
+ macgrp->rxipv4_nopay_octets
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " bytes received in fragmented IPv4 datagrams. The value in the"
+ " IPv4 headers Length field is used to update this counter\n",
+ macgrp->rxipv4_frag_octets
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " bytes received in a UDP segment that had the UDP checksum "
+ "disabled. This counter does not count IP Header bytes\n",
+ macgrp->rxipv4_udsbl_octets
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " bytes received in good IPv6 datagrams encapsulating TCP, UDP "
+ "or ICMPv6 data\n",
+ macgrp->rxipv6_gd_octets
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " bytes received in IPv6 datagrams with header errors (length, "
+ "version mismatch). The value in the IPv6 headers Length field is used "
+ "to update this counter\n",
+ macgrp->rxipv6_hdrerr_octets
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " bytes received in IPv6 datagrams that did not have a TCP, UDP"
+ ", or ICMP payload. The value in the IPv6 headers Length field is used "
+ "to update this counter\n",
+ macgrp->rxipv6_nopay_octets
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " bytes received in a good UDP segment. This counter does not "
+ "count IP header bytes\n",
+ macgrp->rxudp_gd_octets
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " bytes received in a UDP segment that had checksum errors\n",
+ macgrp->rxudp_err_octets
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " bytes received in a good TCP segment\n",
+ macgrp->rxtcp_gd_octets
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " bytes received in a TCP segment with checksum errors\n",
+ macgrp->rxtcperroctets
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " bytes received in a good ICMP segment\n",
+ macgrp->rxicmp_gd_octets
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " bytes received in an ICMP segment with checksum errors\n",
+ macgrp->rxicmp_err_octets
+ );
+ }
+
+ if ( eno == 0 ) {
+ printf( "\nInterrupt counts:\n" );
+ DWMAC_PRINT_COUNTER( "%" PRIu32 " receive interrputs\n",
+ self->stats.dma_irq_counts.receive
+ );
+ DWMAC_PRINT_COUNTER( "%" PRIu32 " transmit interrupts\n",
+ self->stats.dma_irq_counts.transmit
+ );
+ DWMAC_PRINT_COUNTER( "%" PRIu32 " tx jabber interrupts\n",
+ self->stats.dma_irq_counts.tx_jabber
+ );
+ DWMAC_PRINT_COUNTER( "%" PRIu32 " rx overflow interrupts\n",
+ self->stats.dma_irq_counts.rx_overflow
+ );
+ DWMAC_PRINT_COUNTER( "%" PRIu32 " rx early interrupts\n",
+ self->stats.dma_irq_counts.rx_early
+ );
+ DWMAC_PRINT_COUNTER( "%" PRIu32 " rx buffer unavailable interrupts\n",
+ self->stats.dma_irq_counts.rx_buf_unav
+ );
+ DWMAC_PRINT_COUNTER( "%" PRIu32 " rx process stopped interrupts\n",
+ self->stats.dma_irq_counts.rx_process_stopped
+ );
+ DWMAC_PRINT_COUNTER( "%" PRIu32 " rx watchdog interrupts\n",
+ self->stats.dma_irq_counts.rx_watchdog
+ );
+ DWMAC_PRINT_COUNTER( "%" PRIu32 " tx early interrupts\n",
+ self->stats.dma_irq_counts.tx_early
+ );
+ DWMAC_PRINT_COUNTER( "%" PRIu32 " tx buffer unavailable interrupts\n",
+ self->stats.dma_irq_counts.tx_buf_unav
+ );
+ DWMAC_PRINT_COUNTER( "%" PRIu32 " tx process stopped interrupts\n",
+ self->stats.dma_irq_counts.tx_process_stopped
+ );
+ DWMAC_PRINT_COUNTER( "%" PRIu32 " tx underflow interrupts\n",
+ self->stats.dma_irq_counts.tx_underflow
+ );
+ DWMAC_PRINT_COUNTER( "%" PRIu32 " fatal bus error interrupts\n",
+ self->stats.dma_irq_counts.fatal_bus_error
+ );
+ DWMAC_PRINT_COUNTER( "%" PRIu32 " unhandled interrupts\n",
+ self->stats.dma_irq_counts.unhandled
+ );
+
+ printf( "\nRX DMA status counts:\n" );
+ DWMAC_PRINT_COUNTER( "%" PRIu32 " CRC errors\n",
+ self->stats.desc_status_counts_rx.crc_error
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " late collision when receing in half duplex mode\n",
+ self->stats.desc_status_counts_rx.late_collision
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " giant frame or timestamp or checksum error\n",
+ self->stats.desc_status_counts_rx.giant_frame
+ );
+
+ if ( self->stats.desc_status_counts_rx.watchdog_timeout != 0
+ || self->stats.desc_status_counts_rx.receive_error != 0 ) {
+ printf( " IP Header or IP Payload:\n" );
+ DWMAC_PRINT_COUNTER( "%" PRIu32 " receive watchdog timeout\n",
+ self->stats.desc_status_counts_rx.watchdog_timeout
+ );
+ DWMAC_PRINT_COUNTER( "%" PRIu32 " receive error\n",
+ self->stats.desc_status_counts_rx.receive_error
+ );
+ }
+
+ DWMAC_PRINT_COUNTER( "%" PRIu32 " buffer overflows in MTL\n",
+ self->stats.desc_status_counts_rx.overflow_error
+ );
+ DWMAC_PRINT_COUNTER( "%" PRIu32 " descriptor buffers too small\n",
+ self->stats.desc_status_counts_rx.descriptor_error
+ );
+ DWMAC_PRINT_COUNTER( "%" PRIu32 " length errors\n",
+ self->stats.desc_status_counts_rx.length_error
+ );
+ DWMAC_PRINT_COUNTER( "%" PRIu32 " dribble bit errors\n",
+ self->stats.desc_status_counts_rx.dribble_bit_error
+ );
+ DWMAC_PRINT_COUNTER( "%" PRIu32 " vlan tags\n",
+ self->stats.desc_status_counts_rx.vlan_tag
+ );
+ DWMAC_PRINT_COUNTER( "%" PRIu32 " ethernet frames\n",
+ self->stats.desc_status_counts_rx.ethernet_frames
+ );
+ DWMAC_PRINT_COUNTER( "%" PRIu32 " destination address filter failures\n",
+ self->stats.desc_status_counts_rx.dest_addr_fail
+ );
+ DWMAC_PRINT_COUNTER( "%" PRIu32 " source addresss filter failures\n",
+ self->stats.desc_status_counts_rx.source_addr_fail
+ );
+
+ printf( "\nTX DMA status counts:\n" );
+ DWMAC_PRINT_COUNTER( "%" PRIu32 " jabber time-outs\n",
+ self->stats.desc_status_counts_tx.jabber
+ );
+ DWMAC_PRINT_COUNTER( "%" PRIu32 " frame flushes\n",
+ self->stats.desc_status_counts_tx.frame_flushed
+ );
+ DWMAC_PRINT_COUNTER( "%" PRIu32 " losses of carrier\n",
+ self->stats.desc_status_counts_tx.losscarrier
+ );
+ DWMAC_PRINT_COUNTER( "%" PRIu32 " no carriers\n",
+ self->stats.desc_status_counts_tx.no_carrier
+ );
+ DWMAC_PRINT_COUNTER( "%" PRIu32 " excessive collisions\n",
+ self->stats.desc_status_counts_tx.excessive_collisions
+ );
+ DWMAC_PRINT_COUNTER( "%" PRIu32 " excessive deferrals\n",
+ self->stats.desc_status_counts_tx.excessive_deferral
+ );
+ DWMAC_PRINT_COUNTER( "%" PRIu32 " underfolw errors\n",
+ self->stats.desc_status_counts_tx.underflow
+ );
+ DWMAC_PRINT_COUNTER( "%" PRIu32 " IP header error\n",
+ self->stats.desc_status_counts_tx.ip_header_error
+ );
+ DWMAC_PRINT_COUNTER( "%" PRIu32 " payload error\n",
+ self->stats.desc_status_counts_rx.source_addr_fail
+ );
+ DWMAC_PRINT_COUNTER(
+ "%" PRIu32 " MAC defers before transmission because of the presence of carrier\n",
+ self->stats.desc_status_counts_tx.deferred
+ );
+ DWMAC_PRINT_COUNTER( "%" PRIu32 " VLAN frames\n",
+ self->stats.desc_status_counts_tx.vlan
+ );
+
+ printf( "\nRX frame counts:\n" );
+ DWMAC_PRINT_COUNTER( "%" PRIu32 " frames with errors\n",
+ self->stats.frame_counts_rx.errors
+ );
+ DWMAC_PRINT_COUNTER( "%" PRIu32 " frames dropped\n",
+ self->stats.frame_counts_rx.dropped
+ );
+ DWMAC_PRINT_COUNTER( "%" PRIu32 " frames good\n",
+ self->stats.frame_counts_rx.frames_good
+ );
+ DWMAC_PRINT_COUNTER( "%" PRIu32 " bytes in good frames\n",
+ self->stats.frame_counts_rx.bytes_good
+ );
+ DWMAC_PRINT_COUNTER( "%" PRIu32 " frames good or bad\n",
+ self->stats.frame_counts_rx.frames
+ );
+ DWMAC_PRINT_COUNTER( "%" PRIu32 " DMA suspended\n",
+ self->stats.frame_counts_rx.dma_suspended
+ );
+
+ printf( "\nTX frame counts:\n" );
+ DWMAC_PRINT_COUNTER( "%" PRIu32 " frames received from network stack\n",
+ self->stats.frame_counts_tx.frames_from_stack
+ );
+ DWMAC_PRINT_COUNTER( "%" PRIu32 " frames tranmitted to DMA\n",
+ self->stats.frame_counts_tx.frames_to_dma
+ );
+ DWMAC_PRINT_COUNTER( "%" PRIu32 " packets tranmitted to DMA\n",
+ self->stats.frame_counts_tx.packets_to_dma
+ );
+ DWMAC_PRINT_COUNTER( "%" PRIu32 " bytes tranmitted to DMA\n",
+ self->stats.frame_counts_tx.bytes_to_dma
+ );
+ DWMAC_PRINT_COUNTER( "%" PRIu32 " packets tranmitted by DMA\n",
+ self->stats.frame_counts_tx.packets_tranmitted_by_DMA
+ );
+ DWMAC_PRINT_COUNTER( "%" PRIu32 " packet errors\n",
+ self->stats.frame_counts_tx.packet_errors
+ );
+
+ printf( "\n" );
+
+#ifdef RTEMS_DEBUG
+ {
+ const dwmac_common_desc_ops *DESC_OPS =
+ (const dwmac_common_desc_ops *) self->CFG->DESC_OPS->ops;
+
+ ( DESC_OPS->print_rx_desc )(
+ self->dma_rx,
+ (unsigned int) self->bsd_config->xbuf_count
+ );
+
+ ( DESC_OPS->print_tx_desc )(
+ self->dma_tx,
+ (unsigned int) self->bsd_config->xbuf_count
+ );
+ }
+#endif /* RTEMS_DEBUG */
+ }
+
+ return eno;
+}
+
+static inline unsigned int dwmac_increment(
+ const unsigned int value,
+ const unsigned int cycle )
+{
+ if ( value < cycle ) {
+ return value + 1;
+ } else {
+ return 0;
+ }
+}
+
+/* Receive task
+ * It handles receiving frames */
+static void dwmac_task_rx( void *arg )
+{
+ dwmac_common_context *self = arg;
+ dwmac_common_rx_frame_counts *counts = &self->stats.frame_counts_rx;
+ const unsigned int INDEX_MAX =
+ (unsigned int) self->bsd_config->rbuf_count - 1U;
+ size_t frame_len_last = 0;
+ const dwmac_common_desc_ops *DESC_OPS =
+ (const dwmac_common_desc_ops *) self->CFG->DESC_OPS->ops;
+ size_t segment_size;
+
+
+ while ( true ) {
+ rtems_event_set events;
+ rtems_status_code sc = rtems_bsdnet_event_receive(
+ DWMAC_COMMON_EVENT_TASK_INIT
+ | DWMAC_COMMON_EVENT_TASK_STOP
+ | DWMAC_COMMON_EVENT_RX_FRAME_RECEIVED,
+ RTEMS_EVENT_ANY | RTEMS_WAIT,
+ RTEMS_NO_TIMEOUT,
+ &events
+ );
+ assert( sc == RTEMS_SUCCESSFUL );
+
+ /* Stop the task */
+ if ( ( events & DWMAC_COMMON_EVENT_TASK_STOP ) != 0 ) {
+ dwmac_core_dma_stop_rx( self );
+ dwmac_disable_irq_rx( self );
+
+ /* Release all tx mbufs at the risk of data loss */
+ ( DESC_OPS->release_rx_bufs )( self );
+
+ dwmac_control_request_complete( self );
+
+ /* Return to events reception without re-enabling the interrupts
+ * The task needs a re-initialization to to resume work */
+ continue;
+ }
+
+ /* Ininitialize / Re-initialize reception handling */
+ if ( ( events & DWMAC_COMMON_EVENT_TASK_INIT ) != 0 ) {
+ unsigned int index;
+ dwmac_core_dma_stop_rx( self );
+ ( DESC_OPS->release_rx_bufs )( self );
+
+ for ( index = 0; index <= INDEX_MAX; ++index ) {
+ self->mbuf_addr_rx[index] = ( DESC_OPS->alloc_data_buf )( self );
+ assert( self->mbuf_addr_rx[index] != NULL );
+ ( DESC_OPS->init_rx_desc )( self, index );
+ }
+
+ self->idx_rx = 0;
+ frame_len_last = 0;
+
+ /* Clear our interrupt statuses */
+ dwmac_core_reset_dma_irq_status_rx( self );
+
+ dwmac_core_dma_start_rx( self );
+
+ dwmac_control_request_complete( self );
+ events = events
+ & (rtems_event_set) ( ~DWMAC_COMMON_EVENT_RX_FRAME_RECEIVED );
+ }
+
+ /* Handle the reception of one or more frames */
+ if ( ( events & DWMAC_COMMON_EVENT_RX_FRAME_RECEIVED ) != 0 ) {
+ unsigned int idx = self->idx_rx;
+
+ /* Only handle frames for which we own the DMA descriptor */
+ while ( ( DESC_OPS->am_i_rx_owner )( self, idx ) ) {
+ struct mbuf *p_m_new;
+ dwmac_common_rx_frame_status status;
+ unsigned int idx_next = dwmac_increment(
+ self->idx_rx, INDEX_MAX );
+
+ /* Assign the next index (with wrap around) */
+ self->idx_rx = idx_next;
+
+ /* read the status of the incoming frame */
+ status = ( DESC_OPS->rx_status )( self, idx );
+
+ if ( status == DWMAC_COMMON_RX_FRAME_STATUS_DISCARD
+ || status == DWMAC_COMMON_RX_FRAME_STATUS_CSUM_NONE ) {
+ DWMAC_PRINT_DBG(
+ "rx discarded: %02u\n",
+ idx
+ );
+ ++counts->errors;
+
+ /* simply re-initialize the DMA descriptor */
+ ( DESC_OPS->init_rx_desc )( self, idx );
+ } else if ( status == DWMAC_COMMON_RX_FRAME_STATUS_LLC_SNAP ) {
+ DWMAC_PRINT_DBG(
+ "rx dropped llc snap: %02u\n",
+ idx
+ );
+ ++counts->dropped;
+
+ /* simply re-initialize the DMA descriptor */
+ ( DESC_OPS->init_rx_desc )( self, idx );
+ } else {
+ /* Before actually handling the valid frame, make sure we get a new
+ * mbuf */
+ p_m_new = ( DESC_OPS->alloc_data_buf )( self );
+
+ if ( p_m_new != NULL ) {
+ bool is_first_seg;
+ bool is_last_seg;
+ struct mbuf *p_m;
+ uint32_t frame_len = ( DESC_OPS->get_rx_frame_len )(
+ self, idx );
+
+ /* frame_len is the cummulated size of all segments of a frame.
+ * But what we need is the size of the single segment */
+ is_first_seg = ( DESC_OPS->is_first_rx_segment )( self, idx );
+ is_last_seg = ( DESC_OPS->is_last_rx_segment )( self, idx );
+
+ if ( is_first_seg ) {
+ segment_size = frame_len;
+ } else {
+ segment_size = frame_len - frame_len_last;
+ }
+
+ frame_len_last = frame_len;
+
+ p_m = self->mbuf_addr_rx[idx];
+ self->mbuf_addr_rx[idx] = p_m_new;
+
+ /* Initialize the DMA descriptor with the new mbuf */
+ ( DESC_OPS->init_rx_desc )( self, idx );
+
+ if ( p_m != NULL ) {
+ /* Ethernet header */
+ struct ether_header *eh = mtod( p_m, struct ether_header * );
+ int sz = (int) segment_size;
+
+ rtems_cache_invalidate_multiple_data_lines(
+ eh, segment_size );
+
+ /* Discard Ethernet header and CRC */
+ if ( is_last_seg ) {
+ sz -= ( ETHER_HDR_LEN + ETHER_CRC_LEN );
+ } else {
+ sz -= ETHER_HDR_LEN;
+ }
+
+ /* Update mbuf */
+ p_m->m_len = sz;
+ p_m->m_pkthdr.len = sz;
+ p_m->m_data = mtod( p_m, char * ) + ETHER_HDR_LEN;
+
+ DWMAC_COMMON_DSB();
+
+ DWMAC_PRINT_DBG(
+ "rx: %02u: %u %s%s\n",
+ idx,
+ segment_size,
+ ( is_first_seg ) ? ( "F" ) : ( "" ),
+ ( is_last_seg ) ? ( "L" ) : ( "" )
+ );
+
+ ether_input( &self->arpcom.ac_if, eh, p_m );
+
+ ++counts->frames_good;
+ counts->bytes_good += (uint32_t) p_m->m_len;
+ } else {
+ DWMAC_PRINT_DBG( "rx: %s: Inconsistent Rx descriptor chain\n",
+ self->arpcom.ac_if.if_name );
+ ++counts->dropped;
+ }
+ } else {
+ /* We have to discard the received frame because we did not get a new
+ * mbuf to replace the frame's mbuf. */
+ ++counts->dropped;
+
+ /* simply re-initialize the DMA descriptor with the existing mbuf */
+ ( DESC_OPS->init_rx_desc )( self, idx );
+ DWMAC_PRINT_DBG(
+ "rx dropped: %02u\n",
+ idx
+ );
+ }
+ }
+
+ if ( ( self->dmagrp->status & DMAGRP_STATUS_RU ) != 0 ) {
+ /* The receive DMA is suspended and needs to get restarted */
+ dwmac_core_dma_restart_rx( self );
+ DWMAC_PRINT_DBG(
+ "rx DMA restart: %02u\n",
+ idx
+ );
+ ++counts->dma_suspended;
+ }
+
+ idx = idx_next;
+ ++counts->frames;
+ }
+
+ /* Clear interrupt */
+ self->dmagrp->status = DMAGRP_STATUS_RI;
+ }
+
+ /* Re-enable the IRQs */
+ dwmac_enable_irq_rx( self );
+ }
+}
+
+static struct mbuf *dwmac_next_fragment(
+ struct ifnet *ifp,
+ struct mbuf *m,
+ bool *is_first,
+ bool *is_last,
+ size_t *size ) {
+ struct mbuf *n = NULL;
+ int sz = 0;
+
+
+ while ( true ) {
+ if ( m == NULL ) {
+ /* Dequeue first fragment of the next frame */
+ IF_DEQUEUE( &ifp->if_snd, m );
+
+ /* Empty queue? */
+ if ( m == NULL ) {
+ return m;
+ }
+
+ /* The sum of all fragments lengths must fit into one
+ * ethernet transfer unit */
+ assert( ETHER_MAX_LEN >= m->m_pkthdr.len );
+ *is_first = true;
+ }
+
+ /* Get fragment size */
+ sz = m->m_len;
+
+ if ( sz > 0 ) {
+ /* Now we have a not empty fragment */
+ break;
+ } else {
+ /* Discard empty fragments */
+ m = m_free( m );
+ }
+ }
+
+ /* Set fragment size */
+ *size = (size_t) sz;
+
+ /* Discard empty successive fragments */
+ n = m->m_next;
+
+ while ( n != NULL && n->m_len <= 0 ) {
+ n = m_free( n );
+ }
+
+ m->m_next = n;
+
+ /* Is our fragment the last in the frame? */
+ if ( n == NULL ) {
+ *is_last = true;
+ } else {
+ *is_last = false;
+ }
+
+ return m;
+}
+
+static int dwmac_update_autonegotiation_params( dwmac_common_context *self )
+{
+ int eno = 0;
+ uint32_t value = self->macgrp->mac_configuration;
+ int media = 0;
+ bool media_ok = dwmac_if_media_status(
+ self, &media, self->CFG->MDIO_BUS_ADDR );
+
+
+ if ( media_ok ) {
+ /* only ethernet supported, so far */
+ if ( IFM_ETHER == IFM_TYPE( media ) ) {
+ if ( IFM_NONE != IFM_SUBTYPE( media ) ) {
+ if ( IFM_FDX & media ) {
+ /* Enable duplex mode */
+ value |= MACGRP_MAC_CONFIGURATION_DM;
+ } else {
+ /* Disable duplex mode */
+ value &= ~MACGRP_MAC_CONFIGURATION_DM;
+ }
+
+ switch ( IFM_SUBTYPE( media ) ) {
+ case IFM_10_T:
+
+ /* Set RMII/RGMII speed to 10Mbps */
+ value &= ~MACGRP_MAC_CONFIGURATION_FES;
+
+ /* MII 10/100 Mbps */
+ value |= MACGRP_MAC_CONFIGURATION_PS;
+ break;
+ case IFM_100_TX:
+
+ /* Set RMII/RGMII speed to 100Mbps */
+ value |= MACGRP_MAC_CONFIGURATION_FES;
+
+ /* MII 10/100 Mbps */
+ value |= MACGRP_MAC_CONFIGURATION_PS;
+ break;
+ case IFM_1000_T:
+
+ /* RMII/RGMII speed irrelevant for 1000baseT */
+ value &= ~MACGRP_MAC_CONFIGURATION_FES;
+
+ /* GMII 1000 Mbps */
+ value &= ~MACGRP_MAC_CONFIGURATION_PS;
+ break;
+ default:
+ eno = ENOTSUP;
+ break;
+ }
+ } else {
+ eno = ENOTSUP;
+ }
+ } else {
+ eno = ENOTSUP;
+ }
+ } else {
+ eno = ENOTSUP;
+ }
+
+ if ( eno == 0 ) {
+ self->macgrp->mac_configuration = value;
+ }
+
+ return eno;
+}
+
+/* Transmit task
+ * It handles transmitting frames */
+static void dwmac_task_tx( void *arg )
+{
+ dwmac_common_context *self = arg;
+ unsigned int idx_transmit = 0;
+ unsigned int idx_transmit_first = 0;
+ unsigned int idx_transmitted = 0;
+ unsigned int idx_release = 0;
+ struct mbuf *p_m = NULL;
+ bool is_first = false;
+ bool is_last = false;
+ size_t size = 0;
+ const unsigned int INDEX_MAX =
+ (unsigned int) self->bsd_config->xbuf_count - 1U;
+ const dwmac_common_dma_ops *DMA_OPS =
+ (const dwmac_common_dma_ops *) self->CFG->MAC_OPS->dma;
+ const dwmac_common_desc_ops *DESC_OPS =
+ (const dwmac_common_desc_ops *) self->CFG->DESC_OPS->ops;
+ const dwmac_callback_cfg *CALLBACK = &self->CFG->CALLBACK;
+
+
+ while ( true ) {
+ rtems_event_set events = 0;
+ rtems_status_code sc = rtems_bsdnet_event_receive(
+ DWMAC_COMMON_EVENT_TASK_INIT
+ | DWMAC_COMMON_EVENT_TASK_STOP
+ | DWMAC_COMMON_EVENT_TX_TRANSMIT_FRAME
+ | DWMAC_COMMON_EVENT_TX_FRAME_TRANSMITTED
+ | DWMAC_COMMON_EVENT_TX_BUMP_UP_DMA_THRESHOLD
+ | DWMAC_COMMON_EVENT_TX_PHY_STATUS_CHANGE,
+ RTEMS_EVENT_ANY | RTEMS_WAIT,
+ RTEMS_NO_TIMEOUT,
+ &events
+ );
+ assert( sc == RTEMS_SUCCESSFUL );
+
+ /* Handle a status change of the ethernet PHY */
+ if ( ( events & DWMAC_COMMON_EVENT_TX_PHY_STATUS_CHANGE ) != 0 ) {
+ dwmac_common_phy_status_counts *counts =
+ &self->stats.phy_status_counts;
+ dwmac_phy_event phy_events = 0;
+ int eno;
+
+ /* Get tripped PHY events */
+ eno = CALLBACK->phy_events_get(
+ self->arg,
+ &phy_events
+ );
+
+ if ( eno == 0 ) {
+ /* Clear the PHY events */
+ eno = CALLBACK->phy_event_clear( self->arg );
+ }
+
+ if ( eno == 0 ) {
+ if ( ( phy_events & PHY_EVENT_LINK_DOWN ) != 0 ) {
+ ++counts->link_down;
+ }
+
+ if ( ( phy_events & PHY_EVENT_LINK_UP ) != 0 ) {
+ ++counts->link_up;
+
+ /* A link up events means that we have a new connection.
+ * Thus the autonegotiation paremeters must get updated */
+ (void) dwmac_update_autonegotiation_params( self );
+ }
+ }
+
+ assert( eno == 0 );
+ }
+
+ /* Stop the task */
+ if ( ( events & DWMAC_COMMON_EVENT_TASK_STOP ) != 0 ) {
+ dwmac_core_dma_stop_tx( self );
+ dwmac_diable_irq_tx( self );
+
+ /* Release all tx mbufs at the risk of data loss */
+ ( DESC_OPS->release_tx_bufs )( self );
+
+ dwmac_control_request_complete( self );
+
+ /* Return to events reception without re-enabling the interrupts
+ * The task needs a re-initialization to to resume work */
+ continue;
+ }
+
+ /* Ininitialize / Re-initialize transmission handling */
+ if ( ( events & DWMAC_COMMON_EVENT_TASK_INIT ) != 0 ) {
+ (void) dwmac_update_autonegotiation_params( self );
+ dwmac_core_dma_stop_tx( self );
+ ( DESC_OPS->release_tx_bufs )( self );
+ idx_transmit = 0;
+ idx_transmit_first = 0;
+ idx_transmitted = 0;
+ idx_release = 0;
+ p_m = NULL;
+ is_first = false;
+ is_last = false;
+ size = 0;
+ ( DESC_OPS->init_tx_desc )( self );
+ dwmac_core_dma_start_tx( self );
+ dwmac_core_dma_restart_tx( self );
+
+ /* Clear our interrupt statuses */
+ dwmac_core_reset_dma_irq_status_tx( self );
+
+ dwmac_control_request_complete( self );
+ }
+
+ /* Try to bump up the dma threshold due to a failure */
+ if ( ( events & DWMAC_COMMON_EVENT_TX_BUMP_UP_DMA_THRESHOLD ) != 0 ) {
+ if ( self->dma_threshold_control
+ != DWMAC_COMMON_DMA_MODE_STORE_AND_FORWARD
+ && self->dma_threshold_control <= 256 ) {
+ self->dma_threshold_control += 64;
+ ( DMA_OPS->dma_mode )(
+ self,
+ self->dma_threshold_control,
+ DWMAC_COMMON_DMA_MODE_STORE_AND_FORWARD
+ );
+ }
+ }
+
+ /* Handle one or more transmitted frames */
+ if ( ( events & DWMAC_COMMON_EVENT_TX_FRAME_TRANSMITTED ) != 0 ) {
+ dwmac_common_tx_frame_counts *counts = &self->stats.frame_counts_tx;
+
+ /* Next index to be transmitted */
+ unsigned int idx_transmitted_next = dwmac_increment(
+ idx_transmitted, INDEX_MAX );
+
+ /* Free consumed fragments */
+ while ( idx_release != idx_transmitted_next
+ && ( DESC_OPS->am_i_tx_owner )( self, idx_release ) ) {
+ /* Status handling per packet */
+ if ( ( DESC_OPS->get_tx_ls )( self, idx_release ) ) {
+ int status = ( DESC_OPS->tx_status )(
+ self, idx_release
+ );
+
+ if ( status == 0 ) {
+ ++counts->packets_tranmitted_by_DMA;
+ } else {
+ ++counts->packet_errors;
+ }
+ }
+
+ DWMAC_PRINT_DBG(
+ "tx: release %u\n",
+ idx_release
+ );
+
+ /* Release the DMA descriptor */
+ ( DESC_OPS->release_tx_desc )( self, idx_release );
+
+ /* Release mbuf */
+ m_free( self->mbuf_addr_tx[idx_release] );
+ self->mbuf_addr_tx[idx_release] = NULL;
+
+ /* Next release index */
+ idx_release = dwmac_increment(
+ idx_release, INDEX_MAX );
+ }
+
+ /* Clear transmit interrupt status */
+ self->dmagrp->status = DMAGRP_STATUS_TI;
+
+ if ( ( self->arpcom.ac_if.if_flags & IFF_OACTIVE ) != 0 ) {
+ /* The last tranmission has been incomplete
+ * (for example due to lack of DMA descriptors).
+ * Continue it now! */
+ events |= DWMAC_COMMON_EVENT_TX_TRANSMIT_FRAME;
+ }
+ }
+
+ /* There are one or more frames to be transmitted. */
+ if ( ( events & DWMAC_COMMON_EVENT_TX_TRANSMIT_FRAME ) != 0 ) {
+ dwmac_common_tx_frame_counts *counts = &self->stats.frame_counts_tx;
+
+ if ( p_m != NULL ) {
+ /* This frame will get re-counted */
+ --counts->frames_from_stack;
+ }
+
+ while ( true ) {
+ unsigned int idx = dwmac_increment(
+ idx_transmit, INDEX_MAX );
+
+ p_m = dwmac_next_fragment(
+ &self->arpcom.ac_if,
+ p_m,
+ &is_first,
+ &is_last,
+ &size
+ );
+
+ /* New fragment? */
+ if ( p_m != NULL ) {
+ ++counts->frames_from_stack;
+
+ /* Queue full? */
+ if ( idx == idx_release ) {
+ DWMAC_PRINT_DBG( "tx: full queue: 0x%08x\n", p_m );
+
+ /* The queue is full, wait for transmitted interrupt */
+ break;
+ }
+
+ /* Set the transfer data */
+ rtems_cache_flush_multiple_data_lines(
+ mtod( p_m, const void * ),
+ size
+ );
+
+ ( DESC_OPS->prepare_tx_desc )(
+ self,
+ idx_transmit,
+ is_first,
+ size,
+ mtod( p_m, const void * )
+ );
+ self->mbuf_addr_tx[idx_transmit] = p_m;
+
+ ++counts->frames_to_dma;
+ counts->bytes_to_dma += size;
+ DWMAC_PRINT_DBG(
+ "tx: %02" PRIu32 ": %u %s%s\n",
+ idx_transmit, size,
+ ( is_first != false ) ? ( "F" ) : ( "" ),
+ ( is_last != false ) ? ( "L" ) : ( "" )
+
+ );
+
+ if ( is_first ) {
+ idx_transmit_first = idx_transmit;
+ is_first = false;
+ } else {
+ /* To avoid race condition */
+ ( DESC_OPS->release_tx_ownership )( self, idx_transmit );
+ }
+
+ if ( is_last ) {
+ /* Interrupt on completition only for the latest fragment */
+ ( DESC_OPS->close_tx_desc )( self, idx_transmit );
+
+ /* To avoid race condition */
+ ( DESC_OPS->release_tx_ownership )( self, idx_transmit_first );
+ idx_transmitted = idx_transmit;
+
+ if ( ( self->dmagrp->status & DMAGRP_STATUS_TU ) != 0 ) {
+ /* Re-enable the tranmit DMA */
+ dwmac_core_dma_restart_tx( self );
+ DWMAC_PRINT_DBG(
+ "tx DMA restart: %02u\n",
+ idx_transmit_first
+ );
+ }
+ }
+
+ /* Next transmit index */
+ idx_transmit = idx;
+
+ if ( is_last ) {
+ ++counts->packets_to_dma;
+ }
+
+ /* Next fragment of the frame */
+ p_m = p_m->m_next;
+ } else {
+ /* Nothing to transmit */
+ break;
+ }
+ }
+
+ /* No more packets and fragments? */
+ if ( p_m == NULL ) {
+ /* Interface is now inactive */
+ self->arpcom.ac_if.if_flags &= ~IFF_OACTIVE;
+ } else {
+ /* There are more packets pending to be sent,
+ * but we have run out of DMA descriptors.
+ * We will continue sending once descriptors
+ * have been freed due to a transmitted interupt */
+ DWMAC_PRINT_DBG( "tx: transmission incomplete\n" );
+ }
+
+ /* TODO: Add handling */
+ }
+
+ DWMAC_PRINT_DBG( "tx: enable transmit interrupts\n" );
+
+ /* Re-enable transmit interrupts */
+ dwmac_enable_irq_tx( self );
+ }
+}
+
+/* Major driver initialization method. Gets called
+ * by the network stack automatically */
+static void dwmac_if_interface_init( void *arg )
+{
+ (void) arg;
+}
+
+static void dwmac_if_set_promiscous_mode(
+ dwmac_common_context *self,
+ const bool enabled )
+{
+ if ( enabled ) {
+ /* Enable promiscuos mode */
+ self->macgrp->mac_frame_filter |= MACGRP_MAC_FRAME_FILTER_PR;
+ } else {
+ /* Hash filter or perfect match */
+ self->macgrp->mac_frame_filter &= ~MACGRP_MAC_FRAME_FILTER_PR;
+ self->macgrp->mac_frame_filter &= ~MACGRP_MAC_FRAME_FILTER_HUC;
+ self->macgrp->mac_frame_filter |= MACGRP_MAC_FRAME_FILTER_HPF;
+ }
+}
+
+static int dwmac_create_dma_desc_rings( dwmac_common_context *self )
+{
+ int eno = 0;
+ const dwmac_common_desc_ops *DESC_OPS =
+ (const dwmac_common_desc_ops *) self->CFG->DESC_OPS->ops;
+
+
+ /* create and initialize the Rx/Tx descriptors */
+ eno = ( DESC_OPS->create_rx_desc )( self );
+
+ if ( eno == 0 ) {
+ eno = ( DESC_OPS->create_tx_desc )( self );
+ }
+
+ return eno;
+}
+
+static int dwmac_destroy_dma_desc_rings( dwmac_common_context *self )
+{
+ int eno = 0;
+ const dwmac_common_desc_ops *DESC_OPS =
+ (const dwmac_common_desc_ops *) self->CFG->DESC_OPS->ops;
+
+
+ /* Free the Rx/Tx descriptors and the data buffers */
+ eno = ( DESC_OPS->destroy_rx_desc )( self );
+
+ if ( eno == 0 ) {
+ eno = ( DESC_OPS->destroy_tx_desc )( self );
+ }
+
+ return eno;
+}
+
+static int dwmac_init_dma_engine( dwmac_common_context *self )
+{
+ uint32_t pbl =
+ DWMAC_DMA_BUS_MODE_PBL_DEFAULT;
+ uint32_t fixed_burst =
+ DWMAC_DMA_BUS_MODE_FB_DEFAULT;
+ uint32_t mixed_burst =
+ DWMAC_DMA_BUS_MODE_MIXED_BURSTS_DEFAULT;
+ uint32_t burst_len_4_support =
+ DWMAC_DMA_AXI_BURST_LENGTH_4_DEFAULT;
+ uint32_t burst_len_8_support =
+ DWMAC_DMA_AXI_BURST_LENGTH_8_DEFAULT;
+ uint32_t burst_len_16_support =
+ DWMAC_DMA_AXI_BURST_LENGTH_16_DEFAULT;
+ uint32_t burst_boundary =
+ DWMAC_DMA_AXI_BURST_BOUNDARY_DEFAULT;
+ const dwmac_common_dma_ops *DMA_OPS =
+ (const dwmac_common_dma_ops *) self->CFG->MAC_OPS->dma;
+ const dwmac_common_desc_ops *DESC_OPS =
+ (const dwmac_common_desc_ops *) self->CFG->DESC_OPS->ops;
+
+
+ /* The DMA configuration is optional */
+ if ( self->CFG->DMA_CFG != NULL ) {
+ const dwmac_dma_cfg *DMA_CFG = self->CFG->DMA_CFG;
+ pbl = DMA_CFG->bus_mode_burst_length;
+ fixed_burst = DMA_CFG->bus_mode_burst_mode;
+ mixed_burst = DMA_CFG->bus_mode_burst_mixed;
+ burst_len_4_support = DMA_CFG->axi_burst_length_4_support;
+ burst_len_8_support = DMA_CFG->axi_burst_length_8_support;
+ burst_len_16_support = DMA_CFG->axi_burst_length_16_support;
+ burst_boundary = DMA_CFG->axi_burst_boundary;
+ }
+
+ return ( DMA_OPS->init )(
+ self,
+ pbl,
+ fixed_burst,
+ mixed_burst,
+ ( DESC_OPS->use_enhanced_descs )( self ),
+ burst_len_4_support,
+ burst_len_8_support,
+ burst_len_16_support,
+ burst_boundary,
+ &self->dma_tx[0],
+ &self->dma_rx[0]
+ );
+}
+
+static void dwmac_dma_operation_mode( dwmac_common_context *self )
+{
+ const dwmac_common_dma_ops *DMA_OPS =
+ (const dwmac_common_dma_ops *) self->CFG->MAC_OPS->dma;
+
+
+ if ( ( self->dmagrp->hw_feature & DMAGRP_HW_FEATURE_TXOESEL ) != 0 ) {
+ ( DMA_OPS->dma_mode )(
+ self,
+ DWMAC_COMMON_DMA_MODE_STORE_AND_FORWARD,
+ DWMAC_COMMON_DMA_MODE_STORE_AND_FORWARD
+ );
+ self->dma_threshold_control = DWMAC_COMMON_DMA_MODE_STORE_AND_FORWARD;
+ } else {
+ ( DMA_OPS->dma_mode )(
+ self,
+ self->dma_threshold_control,
+ DWMAC_COMMON_DMA_MODE_STORE_AND_FORWARD
+ );
+ }
+}
+
+static void dwmac_mmc_setup( dwmac_common_context *self )
+{
+ /* Mask MMC irq, counters are managed in HW and registers
+ * are not cleared on each READ eventually. */
+
+ /* No MAC Management Counters available */
+ assert( ( self->dmagrp->hw_feature & DMAGRP_HW_FEATURE_MMCSEL ) != 0 );
+
+ if ( ( self->dmagrp->hw_feature & DMAGRP_HW_FEATURE_MMCSEL ) != 0 ) {
+ self->macgrp->mmc_control = MACGRP_MMC_CONTROL_CNTRST;
+ }
+}
+
+static int dwmac_if_up_or_down(
+ dwmac_common_context *self,
+ const bool up )
+{
+ int eno = 0;
+ rtems_status_code sc = RTEMS_SUCCESSFUL;
+ struct ifnet *ifp = &self->arpcom.ac_if;
+ const dwmac_callback_cfg *CALLBACK = &self->CFG->CALLBACK;
+ const dwmac_common_core_ops *CORE_OPS =
+ (const dwmac_common_core_ops *) self->CFG->MAC_OPS->core;
+
+
+ if ( up && self->state == DWMAC_COMMON_STATE_DOWN ) {
+ eno = CALLBACK->nic_enable( self->arg );
+
+ if ( eno == 0 ) {
+ eno = CALLBACK->phy_enable( self->arg );
+ }
+
+ if ( eno == 0 ) {
+ eno = CALLBACK->phy_event_enable(
+ self->arg,
+ PHY_EVENT_LINK_DOWN
+ | PHY_EVENT_LINK_UP
+ );
+ }
+
+ if ( eno == 0 ) {
+ eno = dwmac_create_dma_desc_rings( self );
+ }
+
+ if ( eno == 0 ) {
+ eno = dwmac_init_dma_engine( self );
+ }
+
+ if ( eno == 0 ) {
+ /* Copy the MAC addr into the HW */
+ ( CORE_OPS->set_umac_addr )( self, self->arpcom.ac_enaddr, 0 );
+
+ eno = ( CALLBACK->bus_setup )( self->arg );
+ }
+
+ if ( eno == 0 ) {
+ /* Initialize the MAC Core */
+ ( CORE_OPS->core_init )( self );
+
+ /* Enable the MAC Rx/Tx */
+ dwmac_core_set_mac( self, true );
+
+ /* Set the HW DMA mode and the COE */
+ dwmac_dma_operation_mode( self );
+
+ /* Set up mmc counters */
+ dwmac_mmc_setup( self );
+
+ /* Install interrupt handler */
+ sc = rtems_interrupt_handler_install(
+ self->CFG->IRQ_EMAC,
+ "Ethernet",
+ RTEMS_INTERRUPT_UNIQUE,
+ dwmac_core_dma_interrupt,
+ self
+ );
+ eno = rtems_status_code_to_errno( sc );
+ }
+
+ if ( eno == 0 ) {
+ /* Start the ball rolling ... */
+ sc = dwmac_control_request(
+ self, self->task_id_tx, DWMAC_COMMON_EVENT_TASK_INIT );
+ eno = rtems_status_code_to_errno( sc );
+ }
+
+ if ( eno == 0 ) {
+ sc = dwmac_control_request(
+ self, self->task_id_rx, DWMAC_COMMON_EVENT_TASK_INIT );
+ eno = rtems_status_code_to_errno( sc );
+ }
+
+ if ( eno == 0 ) {
+ dwmac_core_dma_start_rx( self );
+
+ /* Start the phy */
+ eno = ( CALLBACK->phy_start )( self->arg );
+ }
+
+ if ( eno == 0 ) {
+ self->state = DWMAC_COMMON_STATE_UP;
+ } else {
+ ifp->if_flags &= ~IFF_UP;
+ (void) dwmac_control_request(
+ self, self->task_id_tx, DWMAC_COMMON_EVENT_TASK_STOP );
+ (void) dwmac_control_request(
+ self, self->task_id_rx, DWMAC_COMMON_EVENT_TASK_STOP );
+ (void) rtems_interrupt_handler_remove(
+ self->CFG->IRQ_EMAC,
+ dwmac_core_dma_interrupt,
+ self
+ );
+ (void) ( CALLBACK->phy_stop )( self->arg );
+ (void) ( CALLBACK->phy_disable )( self->arg );
+
+ /* Disable the MAC Rx/Tx */
+ dwmac_core_set_mac( self, false );
+ (void) ( CALLBACK->nic_disable )( self->arg );
+ (void) dwmac_destroy_dma_desc_rings( self );
+ }
+ } else if ( !up && self->state == DWMAC_COMMON_STATE_UP ) {
+ if ( eno == 0 ) {
+ sc = dwmac_control_request(
+ self, self->task_id_tx, DWMAC_COMMON_EVENT_TASK_STOP );
+ eno = rtems_status_code_to_errno( sc );
+ }
+
+ if ( eno == 0 ) {
+ sc = dwmac_control_request(
+ self, self->task_id_rx, DWMAC_COMMON_EVENT_TASK_STOP );
+ eno = rtems_status_code_to_errno( sc );
+ }
+
+ if ( eno == 0 ) {
+ sc = rtems_interrupt_handler_remove(
+ self->CFG->IRQ_EMAC,
+ dwmac_core_dma_interrupt,
+ self
+ );
+ eno = rtems_status_code_to_errno( sc );
+ }
+
+ if ( eno == 0 ) {
+ eno = ( CALLBACK->phy_stop )( self->arg );
+ }
+
+ if ( eno == 0 ) {
+ eno = ( CALLBACK->phy_disable )( self->arg );
+ }
+
+ if ( eno == 0 ) {
+ /* Disable the MAC Rx/Tx */
+ dwmac_core_set_mac( self, false );
+
+ eno = CALLBACK->nic_disable( self->arg );
+ }
+
+ if ( eno == 0 ) {
+ eno = dwmac_destroy_dma_desc_rings( self );
+ }
+
+ if ( eno == 0 ) {
+ /* Reset counters to be printed */
+ memset( &self->stats, 0, sizeof( dwmac_common_stats ) );
+
+ /* Change state */
+ self->state = DWMAC_COMMON_STATE_DOWN;
+ }
+ }
+
+ return eno;
+}
+
+/* Get commands executed by the driver. This method gets called
+ * automatically from the network stack */
+static int dwmac_if_interface_ioctl(
+ struct ifnet *ifp,
+ ioctl_command_t cmd,
+ caddr_t data )
+{
+ dwmac_common_context *self = ifp->if_softc;
+ int eno = 0;
+
+
+ switch ( cmd ) {
+ case SIOCGIFMEDIA:
+ case SIOCSIFMEDIA:
+ rtems_mii_ioctl( &self->mdio, self, cmd, (int *) data );
+ break;
+ case SIOCGIFADDR:
+ case SIOCSIFADDR:
+ ether_ioctl( ifp, cmd, data );
+ break;
+ case SIOCSIFFLAGS:
+ eno = dwmac_if_up_or_down( self, ( ifp->if_flags & IFF_UP ) != 0 );
+
+ if ( eno == 0 && ( ifp->if_flags & IFF_UP ) != 0 ) {
+ dwmac_if_set_promiscous_mode( self, ( ifp->if_flags & IFF_PROMISC )
+ != 0 );
+ } else {
+ assert( eno == 0 );
+ }
+
+ break;
+ case SIOCADDMULTI:
+ case SIOCDELMULTI:
+#ifndef COMMENTED_OUT
+ eno = ENOTSUP;
+#else /* COMMENTED_OUT */
+ {
+ struct ifreq *ifr = (struct ifreq *) data;
+ const dwmac_common_core_ops *CORE_OPS =
+ (const dwmac_common_core_ops *) self->CFG->MAC_OPS->core;
+ ( CORE_OPS->set_hash_filter )( self, cmd == SIOCADDMULTI, ifr );
+ }
+#endif /* COMMENTED_OUT */
+ break;
+ case SIO_RTEMS_SHOW_STATS:
+ eno = dwmac_if_interface_stats( self );
+ break;
+ default:
+ eno = EINVAL;
+ break;
+ }
+
+ return eno;
+}
+
+/* Method called by the network stack if there are frames to be transmitted */
+static void dwmac_if_interface_start( struct ifnet *ifp )
+{
+ rtems_status_code sc;
+ dwmac_common_context *self = ifp->if_softc;
+
+
+ /* Mark that we are transmitting */
+ ifp->if_flags |= IFF_OACTIVE;
+
+ if ( self->state == DWMAC_COMMON_STATE_UP ) {
+ /* Wake up our task */
+ sc = rtems_bsdnet_event_send( self->task_id_tx,
+ DWMAC_COMMON_EVENT_TX_TRANSMIT_FRAME );
+ assert( sc == RTEMS_SUCCESSFUL );
+ }
+}
+
+static int dwmac_if_clk_csr_set(
+ const uint32_t gmii_clk_rate,
+ dwmac_common_context *self )
+{
+ int eno = 0;
+
+
+ if ( gmii_clk_rate < DWCGNAC3504_CSR_F_35M ) {
+ self->csr_clock = DWCGNAC3504_CSR_20_35M;
+ } else if ( ( gmii_clk_rate >= DWCGNAC3504_CSR_F_35M )
+ && ( gmii_clk_rate < DWCGNAC3504_CSR_F_60M ) ) {
+ self->csr_clock = DWCGNAC3504_CSR_35_60M;
+ } else if ( ( gmii_clk_rate >= DWCGNAC3504_CSR_F_60M )
+ && ( gmii_clk_rate < DWCGNAC3504_CSR_F_100M ) ) {
+ self->csr_clock = DWCGNAC3504_CSR_60_100M;
+ } else if ( ( gmii_clk_rate >= DWCGNAC3504_CSR_F_100M )
+ && ( gmii_clk_rate < DWCGNAC3504_CSR_F_150M ) ) {
+ self->csr_clock = DWCGNAC3504_CSR_100_150M;
+ } else if ( ( gmii_clk_rate >= DWCGNAC3504_CSR_F_150M )
+ && ( gmii_clk_rate < DWCGNAC3504_CSR_F_250M ) ) {
+ self->csr_clock = DWCGNAC3504_CSR_150_250M;
+ } else if ( ( gmii_clk_rate >= DWCGNAC3504_CSR_F_250M )
+ && ( gmii_clk_rate < DWCGNAC3504_CSR_F_300M ) ) {
+ self->csr_clock = DWCGNAC3504_CSR_250_300M;
+ } else {
+ eno = EINVAL;
+ }
+
+ return eno;
+}
+
+static int dwmac_fixup_unit_count(
+ const dwmac_common_context *self,
+ const int count,
+ const int default_value,
+ const int max )
+{
+ int ret = count;
+
+
+ if ( ret <= 0 ) {
+ ret = DWMAC_ALIGN( default_value, self->CFG->L1_CACHE_LINE_SIZE );
+ } else if ( ret > max ) {
+ ret = DWMAC_ALIGN( max, self->CFG->L1_CACHE_LINE_SIZE );
+ }
+
+ return ret;
+}
+
+/* Called during initial setup */
+static int dwmac_if_attach(
+ dwmac_common_context *self,
+ struct rtems_bsdnet_ifconfig *bsd_config,
+ const dwmac_cfg *driver_config,
+ void *arg )
+{
+ int eno = 0;
+ struct ifnet *ifp = &self->arpcom.ac_if;
+ char *unit_name = NULL;
+ int unit_number = rtems_bsdnet_parse_driver_name(
+ bsd_config,
+ &unit_name );
+ const dwmac_callback_cfg *CALLBACK = &driver_config->CALLBACK;
+ const dwmac_common_desc_ops *DESC_OPS =
+ (const dwmac_common_desc_ops *) driver_config->DESC_OPS->ops;
+
+
+ assert( self != NULL );
+ assert( bsd_config != NULL );
+ assert( driver_config != NULL );
+ assert( CALLBACK != NULL );
+
+ if ( self == NULL
+ || bsd_config == NULL
+ || driver_config == NULL
+ || CALLBACK == NULL
+ ) {
+ eno = EINVAL;
+ } else {
+ assert( CALLBACK->nic_enable != NULL );
+ assert( CALLBACK->nic_disable != NULL );
+ assert( CALLBACK->phy_enable != NULL );
+ assert( CALLBACK->phy_disable != NULL );
+ assert( CALLBACK->phy_event_enable != NULL );
+ assert( CALLBACK->phy_event_clear != NULL );
+ assert( CALLBACK->phy_events_get != NULL );
+ assert( CALLBACK->phy_start != NULL );
+ assert( CALLBACK->phy_stop != NULL );
+ assert( CALLBACK->mem_alloc_nocache != NULL );
+ assert( CALLBACK->mem_free_nocache != NULL );
+ assert( CALLBACK->bus_setup != NULL );
+
+ if ( CALLBACK->nic_enable == NULL
+ || CALLBACK->nic_disable == NULL
+ || CALLBACK->phy_enable == NULL
+ || CALLBACK->phy_disable == NULL
+ || CALLBACK->phy_event_enable == NULL
+ || CALLBACK->phy_event_clear == NULL
+ || CALLBACK->phy_events_get == NULL
+ || CALLBACK->phy_start == NULL
+ || CALLBACK->phy_stop == NULL
+ || CALLBACK->mem_alloc_nocache == NULL
+ || CALLBACK->mem_free_nocache == NULL
+ || CALLBACK->bus_setup == NULL
+ ) {
+ eno = EINVAL;
+ }
+ }
+
+ if ( eno == 0 ) {
+ self->dma_threshold_control = DWMAC_DMA_THRESHOLD_CONTROL_DEFAULT;
+
+ if ( driver_config->addr_gmac_regs != NULL ) {
+ self->macgrp = driver_config->addr_gmac_regs;
+
+ if ( driver_config->addr_dma_regs != NULL ) {
+ self->dmagrp = driver_config->addr_dma_regs;
+ } else {
+ eno = EINVAL;
+ }
+ } else {
+ eno = EINVAL;
+ }
+ }
+
+ if ( eno == 0 ) {
+ eno = dwmac_if_clk_csr_set(
+ driver_config->GMII_CLK_RATE,
+ self
+ );
+ }
+
+ if ( eno == 0 ) {
+ assert( 32 >= driver_config->MDIO_BUS_ADDR );
+
+ if ( 32 < driver_config->MDIO_BUS_ADDR ) {
+ eno = EINVAL;
+ }
+ }
+
+ if ( eno == 0 ) {
+ self->arg = arg; /* Optional argument from upper layer */
+ self->state = DWMAC_COMMON_STATE_DOWN;
+ self->bsd_config = bsd_config; /* BSD-Net configuration.
+ Exists for ll BSD based network divers */
+
+ /* Device control */
+ bsd_config->drv_ctrl = NULL;
+
+ /* MDIO */
+ self->mdio.mdio_r = dwmac_if_mdio_read; /* read from phy
+ registers */
+ self->mdio.mdio_w = dwmac_if_mdio_write; /* write to phy
+ registers */
+
+ if ( driver_config->MAC_OPS == &DWMAC_1000_ETHERNET_MAC_OPS ) {
+ self->mdio.has_gmii = 1;
+ } else {
+ self->mdio.has_gmii = 0;
+
+ /* dwmac_dma_ops_100 and dwmac_core_ops_100 is not yet implemented! */
+ assert( driver_config->MAC_OPS == &DWMAC_1000_ETHERNET_MAC_OPS );
+ eno = ENOTSUP;
+ }
+
+ if ( eno == 0 ) {
+ self->CFG = driver_config;
+ ifp->if_ioctl = dwmac_if_interface_ioctl; /* Execute commands
+ at runtime */
+ ifp->if_init = dwmac_if_interface_init; /* Initialization
+ (called once) */
+
+ /* Receive unit count */
+ bsd_config->rbuf_count = dwmac_fixup_unit_count(
+ self,
+ bsd_config->rbuf_count,
+ DWMAC_CONFIG_RX_UNIT_COUNT_DEFAULT,
+ DWMAC_CONFIG_RX_UNIT_COUNT_MAX
+ );
+
+ /* Transmit unit count */
+ bsd_config->xbuf_count = dwmac_fixup_unit_count(
+ self,
+ bsd_config->xbuf_count,
+ DWMAC_CONFIG_TX_UNIT_COUNT_DEFAULT,
+ DWMAC_CONFIG_TX_UNIT_COUNT_MAX
+ );
+
+ /* Copy MAC address */
+ memcpy(
+ self->arpcom.ac_enaddr,
+ bsd_config->hardware_address,
+ ETHER_ADDR_LEN
+ );
+
+ /* Set interface data */
+ ifp->if_softc = self;
+ ifp->if_unit = (short) unit_number;
+ ifp->if_name = unit_name;
+
+ ifp->if_start = dwmac_if_interface_start; /* Start transmitting
+ frames */
+ ifp->if_output = ether_output;
+ ifp->if_watchdog = NULL;
+ ifp->if_flags = IFF_BROADCAST | IFF_SIMPLEX;
+ ifp->if_snd.ifq_maxlen = ifqmaxlen;
+ ifp->if_timer = 0;
+ ifp->if_mtu =
+ bsd_config->mtu > 0 ? (u_long) bsd_config->mtu : ETHERMTU;
+
+ eno = DESC_OPS->validate( self );
+ assert( eno == 0 );
+ }
+
+ if ( eno == 0 ) {
+ /* Create and start the receive task for our driver */
+ assert( self->task_id_rx == RTEMS_ID_NONE );
+ self->task_id_rx = rtems_bsdnet_newproc(
+ "ntrx",
+ 4096,
+ dwmac_task_rx,
+ self
+ );
+ assert( self->task_id_rx != RTEMS_ID_NONE );
+
+ if ( self->task_id_rx == RTEMS_ID_NONE ) {
+ eno = ENOMEM;
+ }
+ }
+
+ if ( eno == 0 ) {
+ /* Create and start the transmit task for our driver */
+ assert( self->task_id_tx == RTEMS_ID_NONE );
+ self->task_id_tx = rtems_bsdnet_newproc(
+ "nttx",
+ 4096,
+ dwmac_task_tx,
+ self
+ );
+ assert( self->task_id_tx != RTEMS_ID_NONE );
+
+ if ( self->task_id_tx == RTEMS_ID_NONE ) {
+ eno = ENOMEM;
+ }
+ }
+ }
+
+ if ( eno == 0 ) {
+ /* Change status */
+ ifp->if_flags |= IFF_RUNNING;
+
+ /* Attach the interface */
+ if_attach( ifp );
+ ether_ifattach( ifp );
+ }
+
+ return eno;
+}
+
+/* Initial setup method. Part of the driver API
+ * Returns the address of the driver context on success and NULL on failure */
+void *dwmac_network_if_attach_detach(
+ struct rtems_bsdnet_ifconfig *bsd_config,
+ const dwmac_cfg *driver_config,
+ void *arg,
+ int attaching )
+{
+ int eno = 0;
+ dwmac_common_context *context = NULL;
+
+
+ if ( attaching ) {
+ context = calloc( 1, sizeof( dwmac_common_context ) );
+ assert( context != NULL );
+
+ if ( context != NULL ) {
+ eno = dwmac_if_attach(
+ context,
+ bsd_config,
+ driver_config,
+ arg
+ );
+
+ if ( eno != 0 ) {
+ free( context, 0 );
+ context = NULL;
+ }
+ }
+ } else {
+ /* Detaching is not supported */
+ assert( attaching != false );
+ }
+
+ return context;
+}
+
+int dwmac_if_read_from_phy(
+ void *arg,
+ const unsigned phy_reg,
+ uint16_t *val )
+{
+ int eno = EINVAL;
+ dwmac_common_context *self = (dwmac_common_context *) arg;
+ uint32_t value;
+
+
+ if ( arg != NULL ) {
+ eno = dwmac_if_mdio_read(
+ self->CFG->MDIO_BUS_ADDR,
+ self,
+ phy_reg,
+ &value );
+ }
+
+ if ( eno == 0 ) {
+ *val = (uint16_t) value;
+ }
+
+ return eno;
+}
+
+int dwmac_if_write_to_phy(
+ void *arg,
+ const unsigned phy_reg,
+ const uint16_t val )
+{
+ int eno = EINVAL;
+ dwmac_common_context *self = (dwmac_common_context *) arg;
+
+
+ if ( arg != NULL ) {
+ eno = dwmac_if_mdio_write(
+ self->CFG->MDIO_BUS_ADDR,
+ self,
+ phy_reg,
+ val );
+ }
+
+ return eno;
+}
+
+int dwmac_if_handle_phy_event( void *arg )
+{
+ int eno;
+ rtems_status_code sc;
+ dwmac_common_context *self = (dwmac_common_context *) arg;
+
+
+ sc = rtems_bsdnet_event_send(
+ self->task_id_tx,
+ DWMAC_COMMON_EVENT_TX_PHY_STATUS_CHANGE
+ );
+ eno = rtems_status_code_to_errno( sc );
+
+ return eno;
+}
diff --git a/c/src/libchip/network/dwmac.h b/c/src/libchip/network/dwmac.h
new file mode 100644
index 0000000000..9ccf75af44
--- /dev/null
+++ b/c/src/libchip/network/dwmac.h
@@ -0,0 +1,878 @@
+/**
+ * @file
+ *
+ * @brief API header for the DWMAC 10/100/1000 Network Interface Controllers
+ *
+ * DWMAC 10/100/1000 on-chip Ethernet controllers are a Synopsys IP Core.
+ */
+
+/*
+ * Copyright (c) 2013 embedded brains GmbH. All rights reserved.
+ *
+ * embedded brains GmbH
+ * Dornierstr. 4
+ * 82178 Puchheim
+ * Germany
+ * <rtems@embedded-brains.de>
+ *
+ * The license and distribution terms for this file may be
+ * found in the file LICENSE in this distribution or at
+ * http://www.rtems.org/license/LICENSE.
+ */
+
+#ifndef DWMAC_H_
+#define DWMAC_H_
+
+#include <stddef.h>
+#include <stdint.h>
+#include <rtems/rtems_bsdnet.h>
+
+#ifdef __cplusplus
+extern "C" {
+#endif /* __cplusplus */
+
+/** @brief PHY event.
+ *
+ * Data type to be used for PHY events and event sets.
+ */
+typedef uint8_t dwmac_phy_event;
+
+/** @brief PHY event Jabber. */
+extern const dwmac_phy_event PHY_EVENT_JABBER;
+
+/** @brief PHY event Receive Error. */
+extern const dwmac_phy_event PHY_EVENT_RECEIVE_ERROR;
+
+/** @brief PHY event Page Receive. */
+extern const dwmac_phy_event PHY_EVENT_PAGE_RECEIVE;
+
+/** @brief PHY event Parallel Detect Fault. */
+extern const dwmac_phy_event PHY_EVENT_PARALLEL_DETECT_FAULT;
+
+/** @brief PHY event Link Partner Acknowledge. */
+extern const dwmac_phy_event PHY_EVENT_LINK_PARTNER_ACK;
+
+/** @brief PHY event Link Down. */
+extern const dwmac_phy_event PHY_EVENT_LINK_DOWN;
+
+/** @brief PHY event Remote Fault. */
+extern const dwmac_phy_event PHY_EVENT_REMOTE_FAULT;
+
+/** @brief PHY event Link Up. */
+extern const dwmac_phy_event PHY_EVENT_LINK_UP;
+
+/** @brief NIC enable
+ *
+ * Enables (e.g. powers up) the network interface card.
+ * @param[in,out] arg The void pointer argument passed to the attach_detach
+ * method.
+ * @returns 0 on success, error code from errno.h on failure.
+ * @see dwmac_network_if_attach_detach for the attach_detach method.
+ */
+typedef int
+(*dwmac_if_nic_enable)( void *arg );
+
+/** @brief NIC disable.
+ *
+ * Disables (e.g. powers down) the network interface card.
+ * @param[in,out] arg The void pointer argument passed to the attach_detach
+ * method
+ * @returns 0 on success, error code from errno.h on failure.
+ * @see dwmac_network_if_attach_detach for the attach_detach method.
+ */
+typedef int
+(*dwmac_if_nic_disable)( void *arg );
+
+/** @brief PHY enable.
+ *
+ * Enables (e.g. powers up) the network PHY.
+ * @param[in,out] arg The void pointer argument passed to the attach_detach
+ * method.
+ * @returns 0 on success, error code from errno.h on failure.
+ * @see dwmac_network_if_attach_detach for the attach_detach method.
+ */
+typedef int
+(*dwmac_if_phy_enable)( void *arg );
+
+/** @brief PHY disable.
+ *
+ * Disables (e.g. powers down) the network PHY.
+ * @param[in,out] arg The void pointer argument passed to the attach_detach
+ * method.
+ * @returns 0 on success, error code from errno.h on failure.
+ * @see dwmac_network_if_attach_detach for the attach_detach method.
+ */
+typedef int
+(*dwmac_if_phy_disable)( void *arg );
+
+/** @brief PHY event enable.
+ *
+ * Enables generation of events for an event set.
+ * @param[in,out] arg The void pointer argument passed to the attach_detach
+ * method.
+ * @param[in] event_set Set of events. For these events shall get generated
+ * upon PHY status change.
+ * @returns 0 on success, error code from errno.h on failure.
+ * @see dwmac_network_if_attach_detach for the attach_detach method.
+ */
+typedef int
+(*dwmac_if_phy_event_enable)(
+ void *arg,
+ const dwmac_phy_event event_set );
+
+/** @brief Clear phy event status.
+ *
+ * Clears all PHY event statuses.
+ * @param[in,out] arg The void pointer argument passed to the attach_detach
+ * method.
+ * @returns 0 on success, error code from errno.h on failure.
+ * @see dwmac_network_if_attach_detach for the attach_detach method.
+ */
+typedef int
+(*dwmac_if_phy_event_status_clear)( void *arg );
+
+/**
+ * @brief Get the PHY event status.
+ *
+ * Reports status on PHY events (e.g. PHY interrupts).
+ * @param[in,out] arg The void pointer argument passed to the
+ * attach_detach method.
+ * @param[out] event_set Pointer to a buffer for a set of events for which a
+ * PHY status change was detected.
+ * @returns 0 on success, error code from errno.h on failure.
+ * @see dwmac_network_if_attach_detach for the attach_detach method.
+ * @see dwmac_phy_event for events.
+ */
+typedef int
+(*dwmac_if_phy_events_status_get)(
+ void *arg,
+ dwmac_phy_event *event_set );
+
+/**
+ * @brief Start the network PHY.
+ *
+ * Do anything necessary to start the network PHY (start generating
+ * events, ...).
+ * @param[in,out] arg The void pointer argument passed to the attach_detach
+ * method.
+ * @returns 0 on success, error code from errno.h on failure.
+ * @see dwmac_network_if_attach_detach for the attach_detach method.
+ */
+typedef int
+(*dwcmac_if_phy_start)( void *arg );
+
+/**
+ * @brief Stop the network PHY.
+ *
+ * Do anything necessary to stop the network PHY (stop generating events, ...).
+ * @param[in,out] arg The void pointer argument passed to the attach_detach
+ * method.
+ * @returns 0 on success, error code from errno.h on failure.
+ * @see dwmac_network_if_attach_detach for the attach_detach method.
+ */
+typedef int
+(*dwcmac_if_phy_stop)( void *arg );
+
+/**
+ * @brief Allocate nocache RAM.
+ *
+ * Allocate uncached RAM.
+ * @param[in,out] arg The void pointer argument passed to the attach_detach
+ * method.
+ * @param[out] memory Pointer of a buffer to write the address of the
+ * allocated memory to.
+ * @param[in] size Number of bytes to be allocated
+ * @returns 0 on success, error code from errno.h on failure.
+ * @see dwmac_network_if_attach_detach for the attach_detach method.
+ */
+typedef int
+(*dwmac_if_mem_alloc_nocache)(
+ void *arg,
+ void **memory,
+ const size_t size );
+
+/**
+ * @brief Free nocache RAM.
+ *
+ * Release uncached RAM.
+ * @param[in,out] arg The void pointer argument passed to the attach_detach
+ * method.
+ * @param[in] memory Pointer to the memory to be freed.
+ * @returns 0 on success, error code from errno.h on failure.
+ * @see dwmac_network_if_attach_detach for the attach_detach method.
+ */
+typedef int
+(*dwmac_if_mem_free_nocache)(
+ void *arg,
+ void *memory );
+
+/**
+ * @brief Bus setup.
+ *
+ * Callback method for setting up the system bus for the network driver.
+ * @param[in,out] arg The void pointer argument passed to the attach_detach
+ * method.
+ * @returns 0 on success, error code from errno.h on failure.
+ * @see dwmac_network_if_attach_detach for the attach_detach method.
+ */
+typedef int
+(*dwmac_if_bus_setup)( void *arg );
+
+/**
+ * @brief Callback methods.
+ *
+ * The address of an instance of such a callback struct must get passed
+ * to the attach_detach method of the network driver.
+ * Via these callback methods, those parts of the network driver which
+ * are micro controller specific or PCB specific will get handled.
+ * @see dwmac_network_if_attach_detach() for the drivers attach_detach method.
+ */
+typedef struct {
+ /** @brief Enable the network interface controller. */
+ dwmac_if_nic_enable nic_enable;
+
+ /** @brief Disable the network interface controller. */
+ dwmac_if_nic_disable nic_disable;
+
+ /** @brief Enable (power up, ... ) the network PHY. */
+ dwmac_if_phy_enable phy_enable;
+
+ /** @brief Disable (power down, ... ) the network PHY. */
+ dwmac_if_phy_disable phy_disable;
+
+ /** @brief Enable a set of PHY events for generation upon status change. */
+ dwmac_if_phy_event_enable phy_event_enable;
+
+ /** @brief Clear the event status (e.g. interrupt staus) of the PHY. */
+ dwmac_if_phy_event_status_clear phy_event_clear;
+
+ /** @brief Get set of tripped events from PHY. */
+ dwmac_if_phy_events_status_get phy_events_get;
+
+ /** @brief Start the phy (start generating events, ...). */
+ dwcmac_if_phy_start phy_start;
+
+ /** @brief Stop the phy (stop generating events, ...). */
+ dwcmac_if_phy_stop phy_stop;
+
+ /** @brief Allocate uncached memory. */
+ dwmac_if_mem_alloc_nocache mem_alloc_nocache;
+
+ /** @brief Free uncached memory. */
+ dwmac_if_mem_free_nocache mem_free_nocache;
+
+ /** @brief Setup handling for bus upon device startup. */
+ dwmac_if_bus_setup bus_setup;
+} dwmac_callback_cfg;
+
+/** @brief Initializer for callback methods.
+ *
+ * Initializes a struct which contains pointers to the callback methods
+ * required by the driver.
+ * @see dwmac_callback_cfg for the struct.
+ * @param[in] nic_enable Callback method for for enabling the
+ * network interface controller.
+ * @param[in] nic_disable Callback method for disabling the
+ * network interface controller.
+ * @param[in] phy_enable Callback method for enabling the
+ * network PHY.
+ * @param[in] phy_disable Callback method for disabling the
+ * network PHY.
+ * @param[in] phy_event_enable Callback method for enabling PHY status
+ * changes for event generation.
+ * @param[in] phy_event_clear Callback method for
+ * clearing/acknowledging PHY events.
+ * @param[in] phy_events_get Callback method for reading the status of
+ * PHY events.
+ * @param[in] phy_start Callback method for starting event
+ * generation by the network PHY.
+ * @param[in] phy_stop Callback method for stoping event
+ * generation by the network PHY.
+ * @param[in] mem_alloc_nocache Callback method for allocating uncached
+ * RAM.
+ * @param[in] mem_free_nocache Callback method for releasing uncached
+ * RAM.
+ * @param[in] bus_setup Callback method for setting up the system
+ * bus.
+ * @returns An initialized struct of pointers to callback methods.
+ * @see dwmac_if_nic_enable for the NIC enable methods.
+ * @see dwmac_if_nic_disable for NIC disable methods.
+ * @see dwmac_if_phy_enable for PHY enable methods.
+ * @see dwmac_if_phy_disable for PHY disable methods.
+ * @see dwmac_if_phy_event_enable for PHY envent enable methods.
+ * @see dwmac_if_phy_event_status_clear for PHY event status clear methods.
+ * @see dwmac_if_phy_events_status_get for PHY event status get methods.
+ * @see dwcmac_if_phy_start for PHY start methods.
+ * @see dwcmac_if_phy_stop for PHY stop methods.
+ * @see dwmac_if_mem_alloc_nocache for nocache mem alloc methods.
+ * @see dwmac_if_mem_free_nocache for nocache mem free methods.
+ * @see dwmac_if_bus_setup for bus setup methods.
+ */
+#define DWMAC_CALLBACK_CFG_INITIALIZER( \
+ nic_enable, \
+ nic_disable, \
+ phy_enable, \
+ phy_disable, \
+ phy_event_enable, \
+ phy_event_clear, \
+ phy_events_get, \
+ phy_start, \
+ phy_stop, \
+ mem_alloc_nocache, \
+ mem_free_nocache, \
+ bus_setup \
+ ) \
+ { \
+ nic_enable, \
+ nic_disable, \
+ phy_enable, \
+ phy_disable, \
+ phy_event_enable, \
+ phy_event_clear, \
+ phy_events_get, \
+ phy_start, \
+ phy_stop, \
+ mem_alloc_nocache, \
+ mem_free_nocache, \
+ bus_setup \
+ }
+
+/** @brief Ethernet MAC operations.
+ *
+ * Actually this is a mere wrapper which contains void ponters to the core
+ * operations and DMA operations to be used by the driver (void pointer
+ * for the purpose of information hiding).
+ * There will be two instances of such a struct:
+ * One for DWMAC 10/100 ethernet operations and one for DWMAC 1000 ethernet
+ * operations.
+ * The address of either of these must get passed to the initializer of the
+ * driver configuration for configuring the driver.
+ * @see DWMAC_100_ETHERNET_MAC_OPS for DWMAC 10/100 ethernet operations.
+ * @see DWMAC_1000_ETHERNET_MAC_OPS for DWMAC 1000 ethernet operations.
+ * @see DWMAC_CFG_INITIALIZER driver configuration initializer.
+ * @see DWMAC_ETHERNET_MAC_OPS_INITIALIZER for an initializer for the MAC
+ * operations
+ */
+typedef struct {
+ const void *core;
+ const void *dma;
+} dwmac_ethernet_mac_ops;
+
+/** @brief Ethernet MAC operations initializer.
+ *
+ * Initializes a structure of ethernet MAC operations.
+ * @see dwmac_ethernet_mac_ops for the struct.
+ * @param[in] core_ops_addr Address of the core operations to be used by the
+ * driver.
+ * @param[in] dma_ops_addr Address of the DMA operations to be used by the
+ * driver.
+ * @returns An initialized struct of ethernet mac operations.
+ */
+#define DWMAC_ETHERNET_MAC_OPS_INITIALIZER( \
+ core_ops_addr, \
+ dma_ops_addr \
+ ) \
+ { \
+ core_ops_addr, \
+ dma_ops_addr \
+ }
+
+/** @brief Descriptor operations.
+ *
+ * Actually this is a mere wrapper which contains a void pointer to a
+ * descriptor operations struct which can be used by the driver (void pointer
+ * for the purpose of information hiding).
+ * There will be two instances of such a struct:
+ * One for normal DMA descriptors and one for enhanced DMA descriptors.
+ * The address of either of these must get passed to the configuration
+ * initializer for configuring the driver.
+ * @see DWMAC_DESCRIPTOR_OPS_NORMAL for normal DMA descriptor operations.
+ * @see DWMAC_DESCRIPTOR_OPS_ENHANCED for enhanced DMA descriptor operations.
+ * @see DWMAC_CFG_INITIALIZER for the configuration initializer.
+ * @see DWMAC_DESCRIPTOR_OPS_INITIALIZER for an initializer an initializer
+ * for descriptor operations.
+ */
+typedef struct {
+ /** @brief Address of the descriptor operations to be used by the driver */
+ const void *ops;
+} dwmac_descriptor_ops;
+
+/** @brief Initializer for descriptor operations.
+ *
+ * Initializes a struct which simply makes up a wrapper for DMA descriptor
+ * operations.
+ * @param[in] desc_ops_addr Address of the descriptor operations.
+ * @returns an initialized descriptor operations struct.
+ * @see dwmac_descriptor_ops for the struct.
+ */
+#define DWMAC_DESCRIPTOR_OPS_INITIALIZER( \
+ desc_ops_addr \
+ ) \
+ { \
+ desc_ops_addr \
+ }
+
+/** @brief Ethernet MAC operations for DWMAC 1000.
+ *
+ * Pass the address of DWMAC_1000_ETHERNET_MAC_OPS to the configuration
+ * initializer if the driver is supposed to control a DWMAC 1000.
+ * @see DWMAC_CFG_INITIALIZER for the configuration initializer.
+ */
+extern const dwmac_ethernet_mac_ops DWMAC_1000_ETHERNET_MAC_OPS;
+
+/** @brief Ethernet MAC operations for DWMAC 10/100.
+ *
+ * Pass the address of DWMAC_100_ETHERNET_MAC_OPS to the configuration
+ * initializer if the driver is supposed to control a DWMAC 10/100.
+ * NOTE: Currently the DWMAC_100_ETHERNET_MAC_OPS are not yet implemented.
+ * @see DWMAC_CFG_INITIALIZER for the configuration initializer.
+ */
+extern const dwmac_ethernet_mac_ops DWMAC_100_ETHERNET_MAC_OPS;
+
+/** @brief DMA descriptor operations for normal descriptors.
+ *
+ * Pass the address of DWMAC_DESCRIPTOR_OPS_NORMAL to the configuration
+ * initializer if you intend to use the normal DMA descriptors.
+ * NOTE: Currently the DWMAC_DESCRIPTOR_OPS_NORMAL are not yet implmented.
+ * @see DWMAC_CFG_INITIALIZER for the configuration initializer.
+ */
+extern const dwmac_descriptor_ops DWMAC_DESCRIPTOR_OPS_NORMAL;
+
+/** @brief DMA descriptor operations for enhanced descriptors.
+ *
+ * Pass the address of DWMAC_DESCRIPTOR_OPS_ENHANCED to the configuration
+ * initializer if you intend to use the enhanced DMA descriptors.
+ * @see DWMAC_CFG_INITIALIZER for the configuration initializer.
+ */
+extern const dwmac_descriptor_ops DWMAC_DESCRIPTOR_OPS_ENHANCED;
+
+/** @brief Burst size. */
+typedef enum {
+ /** @brief Burst size = 1. */
+ DWMAC_DMA_CFG_BUS_MODE_BURST_LENGTH_1 = 0,
+
+ /** @brief Burst size = 2. */
+ DWMAC_DMA_CFG_BUS_MODE_BURST_LENGTH_2 = 1,
+
+ /** @brief Burst size = 4. */
+ DWMAC_DMA_CFG_BUS_MODE_BURST_LENGTH_4 = 3,
+
+ /** @brief Burst size = 8. */
+ DWMAC_DMA_CFG_BUS_MODE_BURST_LENGTH_8 = 7,
+
+ /** @brief Burst size = 16. */
+ DWMAC_DMA_CFG_BUS_MODE_BURST_LENGTH_16 = 15,
+
+ /** @brief Burst size = 32. */
+ DWMAC_DMA_CFG_BUS_MODE_BURST_LENGTH_32 = 31,
+
+ /** @brief Burst size = 64. */
+ DWMAC_DMA_CFG_BUS_MODE_BURST_LENGTH_64 = 63,
+
+ /** @brief Burst size = 128. */
+ DWMAC_DMA_CFG_BUS_MODE_BURST_LENGTH_128 = 127,
+
+ /** @brief Burst size = 256. */
+ DWMAC_DMA_CFG_BUS_MODE_BURST_LENGTH_256 = 255
+} dwmac_dma_cfg_bus_mode_burst_length;
+
+/** @brief Burst mode. */
+typedef enum {
+ /** @brief Single burst or incrment bursts. */
+ DWMAC_DMA_CFG_BUS_MODE_BURST_MODE_SINGLE_OR_INCR,
+
+ /** @brief Fixed burst size. */
+ DWMAC_DMA_CFG_BUS_MODE_BURST_MODE_FIXED
+} dwmac_dma_cfg_bus_mode_burst_mode;
+
+/** @brief Mixed burst mode support. */
+typedef enum {
+ /** @brief Mixed burst mode is not supported. */
+ DWMAC_DMA_CFG_BUS_MODE_BURST_NOT_MIXED,
+ /** @brief Mixed burst mode is supported. */
+ DWMAC_DMA_CFG_BUS_MODE_BURST_MIXED
+} dwmac_dma_cfg_bus_mode_burst_mixed;
+
+/** @brief Burst length 4 support. */
+typedef enum {
+ /** @brief Bursts of length 4 are not supported. */
+ DWMAC_DMA_CFG_AXI_BURST_LENGTH_4_NOT_SUPPORTED,
+
+ /** @brief Bursts of length 4 are supported. */
+ DWMAC_DMA_CFG_AXI_BURST_LENGTH_4_SUPPORTED
+} dwmac_dma_cfg_axi_burst_length_4_support;
+
+/** @brief Burst length 8 support. */
+typedef enum {
+ /** @brief Bursts of length 8 are not supported. */
+ DWMAC_DMA_CFG_AXI_BURST_LENGTH_8_NOT_SUPPORTED,
+
+ /** @brief Bursts of length 8 are supported. */
+ DWMAC_DMA_CFG_AXI_BURST_LENGTH_8_SUPPORTED
+} dwmac_dma_cfg_axi_burst_length_8_support;
+
+/** @brief Burst length 16 support. */
+typedef enum {
+ /** @brief Bursts of length 16 are not supported. */
+ DWMAC_DMA_CFG_AXI_BURST_LENGTH_16_NOT_SUPPORTED,
+
+ /** @brief Bursts of length 16 are supported. */
+ DWMAC_DMA_CFG_AXI_BURST_LENGTH_16_SUPPORTED
+} dwmac_dma_cfg_axi_burst_length_16_support;
+
+/** @brief DMA Burst Boundary parameters. */
+typedef enum {
+ /** @brief Transfers do not cross 4 kB boundary. */
+ DWMAC_DMA_CFG_AXI_BURST_BOUNDARY_4_KB,
+
+ /** @brief Transfers do not cross 1 kB boundary. */
+ DWMAC_DMA_CFG_AXI_BURST_BOUNDARY_1_KB
+} dwmac_dma_cfg_axi_burst_boundary;
+
+/**
+ * @brief DMA configuration.
+ *
+ * Configuration data for the DMA of the network driver.
+ * @see DWMAC_DMA_CFG_INITIALIZER for an inititializer.
+ */
+typedef union {
+ uint16_t raw;
+ struct {
+ /** @brief Maximum number of beats to be transferred in one DMA transaction.
+ *
+ * This is the maximum value that is used in a single block Read or Write.
+ * The DMA always attempts to burst as specified in bus_mode_burst_length
+ * each time it starts a Burst transfer on the host bus.
+ * Any non-permissible value results in undefined behavior.
+ * The bus_mode_burst_length values have the following limitation:
+ * The maximum number of possible beats (bus_mode_burst_length) is limited
+ * by the size of the Tx FIFO and Rx FIFO in the MTL layer and the data bus
+ * width on the DMA.
+ * The FIFO has a constraint that the maximum beat supported is half the
+ * depth of the FIFO, except when specified.
+ * @see dwmac_dma_cfg_bus_mode_burst_length for permissible values */
+ uint16_t bus_mode_burst_length : 6;
+
+ /** @brief Controls whether the AXI Master performs fixed bursts or not.
+ *
+ * When set to DWMAC_DMA_CFG_BUS_MODE_BURST_MODE_FIXED, the AXI interface
+ * uses FIXED bursts during the start of the normal burst transfers.
+ * When set to DWMAC_DMA_CFG_BUS_MODE_BURST_MODE_SINGLE_OR_INCR, the AXI
+ * interface uses SINGLE and INCR burst transfer operations.
+ * @see dwmac_dma_cfg_bus_mode_burst_mode for valid parameters. */
+ uint16_t bus_mode_burst_mode : 1;
+
+ /** @brief Controls whether mixed bursts will be used or not.
+ *
+ * Mixed burst has no effect when if DWMAC_DMA_CFG_BUS_MODE_BURST_MODE_FIXED is set.
+ * @see dwmac_dma_cfg_bus_mode_burst_mixed for valid parameters. */
+ uint16_t bus_mode_burst_mixed : 1;
+
+ /** @brief Controls support of burst length 4.
+ *
+ * When set to DWMAC_DMA_CFG_AXI_BURST_LENGTH_4_SUPPORTED, the GMAC-AXI is
+ * allowed to select a burst length of 4 on the AXI Master interface.
+ * @see dwmac_dma_cfg_axi_burst_length_4_support for valid parameters see. */
+ uint16_t axi_burst_length_4_support : 1;
+
+ /** @brief Controls support of burst length 8.
+ *
+ * When set to DWMAC_DMA_CFG_AXI_BURST_LENGTH_8_SUPPORTED, the GMAC-AXI is
+ * allowed to select a burst length of 8 on the AXI Master interface.
+ * @see dwmac_dma_cfg_axi_burst_length_8_support For valid parameters. */
+ uint16_t axi_burst_length_8_support : 1;
+
+ /** @brief Controls support of burst length 16.
+ *
+ * When set to DWMAC_DMA_CFG_AXI_BURST_LENGTH_16_SUPPORTED fixed bust is
+ * not selected, the GMAC-AXI is allowed to select a burst length of 16 on
+ * the AXI Master interface.
+ * @see dwmac_dma_cfg_axi_burst_length_16_support for valid parameters see. */
+ uint16_t axi_burst_length_16_support : 1;
+
+ /** @brief Select Burst Boundary.
+ *
+ * When set to DWMAC_DMA_CFG_AXI_BURST_BOUNDARY_1_KB, the GMAC-AXI Master
+ * performs burst transfers that do not cross 1 KB boundary.
+ * When set to DWMAC_DMA_CFG_AXI_BURST_BOUNDARY_4_KB, the GMAC-AXI Master
+ * performs burst transfers that do not cross 4 KB boundary.
+ * @see dwmac_dma_cfg_axi_burst_boundary for valid parameters see. */
+ uint16_t axi_burst_boundary : 1;
+
+ uint16_t unused : 4;
+ };
+} dwmac_dma_cfg;
+
+/** @brief DMA Configuration initializer.
+ *
+ * Initializer for a DMA configuration struct.
+ *
+ * @param[in] bus_mode_burst_length Number of bytes to be sent in one
+ * burst within a DMA transfer on the
+ * bus .
+ * @param[in] bus_mode_burst_mode Mode to be used for burst transfers.
+ * @param[in] bus_mode_burst_mixed Use mixed bursts or not. Fixed bursts
+ * have priority over mixed bursts.
+ * @param[in] axi_burst_length_4_support Support or don't support burst
+ * lengths of 4.
+ * @param[in] axi_burst_length_8_support Support or don't support burst
+ * lengths of 8.
+ * @param[in] axi_burst_length_16_support Support or don't support burst
+ * lengths of 16.
+ * @param[in] axi_burst_boundary Select the burst boundary.
+ * @returns An initialized struct of DMA configuration parameters.
+ * @see dwmac_dma_cfg_bus_mode_burst_length for burst lengths.
+ * @see dwmac_dma_cfg_bus_mode_burst_mode for burst modes
+ * @see dwmac_dma_cfg_bus_mode_burst_mixed for burst mixing.
+ * @see dwmac_dma_cfg_axi_burst_length_4_support for burst length 4 support.
+ * @see dwmac_dma_cfg_axi_burst_length_8_support for burst length 8 support.
+ * @see dwmac_dma_cfg_axi_burst_length_16_support for burst length 16 support.
+ * @see dwmac_dma_cfg_axi_burst_boundary for burst boundaries.
+ */
+#define DWMAC_DMA_CFG_INITIALIZER( \
+ bus_mode_burst_length, \
+ bus_mode_burst_mode, \
+ bus_mode_burst_mixed, \
+ axi_burst_length_4_support, \
+ axi_burst_length_8_support, \
+ axi_burst_length_16_support, \
+ axi_burst_boundary \
+ ) \
+ { \
+ BSP_FLD16( bus_mode_burst_length, 0, 5 ) \
+ | BSP_FLD16( bus_mode_burst_mode, 6, 6 ) \
+ | BSP_FLD16( bus_mode_burst_mixed, 7, 7 ) \
+ | BSP_FLD16( axi_burst_length_4_support, 8, 8 ) \
+ | BSP_FLD16( axi_burst_length_8_support, 9, 9 ) \
+ | BSP_FLD16( axi_burst_length_16_support, 10, 10 ) \
+ | BSP_FLD16( axi_burst_boundary, 11, 11 ) \
+ }
+
+/**
+ * @brief Driver configuration.
+ *
+ * Configuration data for the network driver.
+ * See @see DWMAC_CFG_INITIALIZER for an initializer.
+ */
+typedef struct {
+ /** @brief The clock to be used for the gmii interface in Hz. */
+ const uint32_t GMII_CLK_RATE;
+
+ /** @brief Start address of the MAC group registers. */
+ volatile void *addr_gmac_regs;
+
+ /** @brief Start address of the DMA group registers. */
+ volatile void *addr_dma_regs;
+
+ /** @brief Address of the PHY on the mdio bus (5 bit). */
+ const uint8_t MDIO_BUS_ADDR;
+
+ /** @brief Bytes per L1 cache line. */
+ const uint8_t L1_CACHE_LINE_SIZE;
+
+ /** @brief Interrupt vector number for EMAC IRQs. */
+ const rtems_vector_number IRQ_EMAC;
+
+ /** @brief Optional configuration for bus mode and axi bus mode. */
+ const dwmac_dma_cfg *DMA_CFG;
+
+ /** @brief Methods which must get provided to the by the micro controller. */
+ const dwmac_callback_cfg CALLBACK;
+
+ /** @brief Operations which are specific to the ethernet MAC. */
+ const dwmac_ethernet_mac_ops *MAC_OPS;
+
+ /** @brief DMA descriptor operations. */
+ const dwmac_descriptor_ops *DESC_OPS;
+} dwmac_cfg;
+
+/**
+ * @brief Configuration initializer.
+ *
+ * Initializes the configuration data to be passed to
+ * the initialization method.
+ * @see dwmac_network_if_attach_detach().
+ *
+ * @param[in] mdio_clk_rate The clock to be used for the gmii
+ * interface in Hz.
+ * @param[in] macgrp_regs_addr Base address of the MAC group registers.
+ * @param[in] dmagrp_regs_addr Base address of the DMA group registers.
+ * @param[in] mdio_bus_addr Address of the network PHY on the
+ * mdio bus.
+ * @param[in] l1_cache_line_size Size of a cache line in the level 1 cache.
+ * @param[in] irq_emac Number of the EMAC interrupt.
+ * @param[in] arch_has_prefetch True if architecture supports.
+ * prefetching, false if not.
+ * @param[in] dma_cfg_addr Address of the optional DMA configuration.
+ * Set to NULL for defaults.
+ * @param[in] nic_enable Callback method for for enabling the
+ * network interface controller.
+ * @param[in] nic_disable Callback method for disabling the
+ * network interface controller.
+ * @param[in] phy_enable Callback method for enabling the
+ * network PHY.
+ * @param[in] phy_disable Callback method for disabling the
+ * network PHY.
+ * @param[in] phy_event_enable Callback method for enabling PHY status
+ * changes for event generation.
+ * @param[in] phy_event_clear Callback method for
+ * clearing/acknowledging PHY events.
+ * @param[in] phy_events_get Callback method for reading the status of
+ * PHY events.
+ * @param[in] phy_start Callback method for starting event
+ * generation by the network PHY.
+ * @param[in] phy_stop Callback method for stoping event
+ * generation by the network PHY.
+ * @param[in] mem_alloc_nocache Callback method for allocating uncached
+ * RAM.
+ * @param[in] mem_free_nocache Callback method for releasing uncached
+ * RAM.
+ * @param[in] bus_setup Callback method for setting up the system
+ * bus.
+ * @param[in] ethernet_mac_ops_addr Address of a struct encapsulating
+ * ethernet MAC operations for DWMAC 1000 or
+ * DWMAC 10/100.
+ * @param[in] descriptor_ops_addr Address of a struct encasulating DMA
+ * descriptor operations for either normal
+ * descriptors or enhanced descriptors.
+ * @returns An initialized struct of configuration parameters.
+ * @see dwmac_cfg for the struct returned.
+ * @see dwmac_dma_cfg for DMA configurations.
+ * @see dwmac_if_nic_enable for NIC enable methods.
+ * @see dwmac_if_nic_disable for NIC disable methods.
+ * @see dwmac_if_phy_enable for PHY enable methods.
+ * @see dwmac_if_phy_disable for PHY disable methods.
+ * @see dwmac_if_phy_event_enable for PHY event enble methods.
+ * @see dwmac_if_phy_event_status_clear for PHY status clear methods.
+ * @see dwmac_if_phy_events_status_get for PHY status get mehods.
+ * @see dwcmac_if_phy_start for PHY start methods.
+ * @see dwcmac_if_phy_stop for PHY stop methods.
+ * @see dwmac_if_mem_alloc_nocache for nocache memory allocate methods.
+ * @see dwmac_if_mem_free_nocache for nocache memory release methods.
+ * @see dwmac_if_bus_setup for bus setup methods.
+ * @see DWMAC_1000_ETHERNET_MAC_OPS for DWMAC 1000 MAC operations.
+ * @see DWMAC_100_ETHERNET_MAC_OPS for DWMAC 10/100 MAC operations.
+ * @see DWMAC_DESCRIPTOR_OPS_NORMAL for normal DMA descriptor operations.
+ * @see DWMAC_DESCRIPTOR_OPS_ENHANCED for enhanced DMA descriptor operations.
+ */
+#define DWMAC_CFG_INITIALIZER( \
+ mdio_clk_rate, \
+ macgrp_regs_addr, \
+ dmagrp_regs_addr, \
+ mdio_bus_addr, \
+ l1_cache_line_size, \
+ irq_emac, \
+ dma_cfg_addr, \
+ nic_enable, \
+ nic_disable, \
+ phy_enable, \
+ phy_disable, \
+ phy_event_enable, \
+ phy_event_clear, \
+ phy_events_get, \
+ phy_start, \
+ phy_stop, \
+ mem_alloc_nocache, \
+ mem_free_nocache, \
+ bus_setup, \
+ ethernet_mac_ops_addr, \
+ descriptor_ops_addr \
+ ) \
+ { \
+ mdio_clk_rate, \
+ macgrp_regs_addr, \
+ dmagrp_regs_addr, \
+ mdio_bus_addr, \
+ l1_cache_line_size, \
+ irq_emac, \
+ dma_cfg_addr, \
+ DWMAC_CALLBACK_CFG_INITIALIZER( \
+ nic_enable, \
+ nic_disable, \
+ phy_enable, \
+ phy_disable, \
+ phy_event_enable, \
+ phy_event_clear, \
+ phy_events_get, \
+ phy_start, \
+ phy_stop, \
+ mem_alloc_nocache, \
+ mem_free_nocache, \
+ bus_setup \
+ ), \
+ ethernet_mac_ops_addr, \
+ descriptor_ops_addr \
+ }
+
+/**
+ * @brief Initialization method.
+ *
+ * Initializes the network driver and "links" it to the network stack.
+ *
+ * @param[in] bsd_config The BSD configuation passed to all
+ * network_if_attach_detach() methods.
+ * @param[in] driver_config Address of of a struct containing driver
+ * specific configuration data.
+ * @param[in] arg An optional argument which will get passed to all
+ * callback methods.
+ * @param[in] attaching 1 for attching and 0 for detaching.
+ * NOTE: Detaching is not supported!
+ * @returns Address of the drivers context if successful or NULL if not
+ * successful.
+ * @see dwmac_cfg for the driver configuration struct
+ * @see DWMAC_CFG_INITIALIZER() for an initializer for the driver configuration
+ */
+void *dwmac_network_if_attach_detach(
+ struct rtems_bsdnet_ifconfig *bsd_config,
+ const dwmac_cfg *driver_config,
+ void *arg,
+ int attaching );
+
+/**
+ * @brief Read from PHY
+ *
+ * Read a value from a register of the network PHY.
+ *
+ * @param[in,out] arg Pointer returned from the attach_detach method.
+ * @param[in] phy_reg The PHY register to be read from.
+ * @param[out] val Buffer address for the value to be read.
+ * @returns 0 on success, error code from errno.h on failure.
+ * @see dwmac_network_if_attach_detach() for the attach detach method.
+ */
+int dwmac_if_read_from_phy(
+ void *arg,
+ const unsigned phy_reg,
+ uint16_t *val );
+
+/**
+ * @brief Write to PHY.
+ *
+ * Write a value to a register of the network PHY.
+ *
+ * @param[in,out] arg Pointer returned from the attach_detach method.
+ * @param[in] phy_reg The PHY register to be written to.
+ * @param[in] val The value to be written.
+ * @returns 0 on success, error code from errno.h on failure.
+ * @see dwmac_network_if_attach_detach() for the attach_detach method.
+ */
+int dwmac_if_write_to_phy(
+ void *arg,
+ const unsigned phy_reg,
+ const uint16_t val );
+
+/**
+ * @brief Handle PHY event.
+ *
+ * Handle an event from the network PHY.
+ *
+ * @param[in,out] arg Pointer returned from the attach_detach method.
+ * @returns 0 on success, error code from errno.h on failure.
+ * @see dwmac_network_if_attach_detach() for the attach_detach method.
+ */
+int dwmac_if_handle_phy_event( void *arg );
+
+#ifdef __cplusplus
+}
+#endif /* __cplusplus */
+
+#endif /* DWMAC_H_ */
diff --git a/c/src/libchip/preinstall.am b/c/src/libchip/preinstall.am
index 8b9a0bbf52..452818f843 100644
--- a/c/src/libchip/preinstall.am
+++ b/c/src/libchip/preinstall.am
@@ -97,6 +97,10 @@ PREINSTALL_FILES += $(PROJECT_INCLUDE)/libchip/smc91111.h
$(PROJECT_INCLUDE)/libchip/smc91111exp.h: network/smc91111exp.h $(PROJECT_INCLUDE)/libchip/$(dirstamp)
$(INSTALL_DATA) $< $(PROJECT_INCLUDE)/libchip/smc91111exp.h
PREINSTALL_FILES += $(PROJECT_INCLUDE)/libchip/smc91111exp.h
+
+$(PROJECT_INCLUDE)/libchip/dwmac.h: network/dwmac.h $(PROJECT_INCLUDE)/libchip/$(dirstamp)
+ $(INSTALL_DATA) $< $(PROJECT_INCLUDE)/libchip/dwmac.h
+PREINSTALL_FILES += $(PROJECT_INCLUDE)/libchip/dwmac.h
endif
$(PROJECT_INCLUDE)/libchip/rtc.h: rtc/rtc.h $(PROJECT_INCLUDE)/libchip/$(dirstamp)
$(INSTALL_DATA) $< $(PROJECT_INCLUDE)/libchip/rtc.h