ameba_ws2812b/component/soc/realtek/8195a/fwlib/rtl8195a/rtl8195a_mii.h

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2015-11-17 02:30:14 +00:00
/*
* Routines to access hardware
*
* Copyright (c) 2013 Realtek Semiconductor Corp.
*
* This module is a confidential and proprietary property of RealTek and
* possession or use of this module requires written permission of RealTek.
*/
#ifndef _RTL8195A_MII_H_
#define _RTL8195A_MII_H_
#include "basic_types.h"
#include "hal_api.h"
#define ETHERNET_REG_BASE 0x40050000
#define ETHERNET_MODULE_BASE ETHERNET_REG_BASE + 0x0000
#define CPU_INTERFACE_BASE ETHERNET_REG_BASE + 0x1300
/* Ethernet Module registers */
#define REG_RTL_MII_IDR0 0x0000 // Table 2 IDR0 (Offset 0000h-0003h, R/W)
#define REG_RTL_MII_IDR4 0x0004 // Table 3 IDR4 (Offset 0004h-0007h, R/W)
#define REG_RTL_MII_MAR0 0x0008 // Table 4 MAR0 (Offset 0008h-000bh, R/W)
#define REG_RTL_MII_MAR4 0x000C // Table 5 MAR4 (Offset 000ch-000fh, R/W)
#define REG_RTL_MII_CR 0x0038 // Table 21 Command Register (COM_REG, Offset 0038-003Bh, R/W)
#define REG_RTL_MII_IMRISR 0x003C // Table 22 + Table 23
#define REG_RTL_MII_TCR 0x0040 // Table 24 Transmit Configuration Register (TC_REG, Offset 0040h-0043h, R/W)
#define REG_RTL_MII_RCR 0x0044 // Table 25 Receive Configuration Register (RC_REG, Offset 0044h-0047h, R/W)
#define REG_RTL_MII_CTCR 0x0048 // Table 26 CPU Tag Control Register (CPUTAG_REG, Offset 0048h-004bh, R/W)
#define REG_RTL_MII_CONFIG 0x004C // Table 27 Configuration Register (CONFIG_REG, Offset 004ch-004fh, R/W)
#define REG_RTL_MII_CTCR1 0x0050 // Table 28 CPUTAG1 Register (CPUTAG1_REG, Offset 0050h-0053h, R/W)
#define REG_RTL_MII_MSR 0x0058 // Table 29 Media Status Register (MS_reg: Offset 0058h 005bh, R/W)
#define REG_RTL_MII_MIIAR 0x005C // Table 30 MII Access Register (MIIA_REG, Offset 005c-005fh, R/W)
#define REG_RTL_MII_VR 0x0064 // Table 32 VLAN Register (VLAN_REG, Offset 0064-0067h, R/W)
#define REG_RTL_MII_IMR0 0x00D0 // Table 50 IMR0_REG (IMR0_REG, Offset D0h-D3h)
#define REG_RTL_MII_IMR1 0x00D4 // Table 51 IMR1_REG (IMR1_REG, Offset d4h-d7h)
#define REG_RTL_MII_ISR1 0x00D8 // Table 52 ISR1 Register (ISR1_REG, Offset D8h-DBh)
#define REG_RTL_MII_INTR 0x00DC // Table 53 Interrupt routing register (INTR_REG, Offset DCh-DFh)
#define REG_RTL_MII_CCR 0x00E4 // Table xx Clock Control Register (CLKCTL_REG, Offset E4h-E7h)
/* CPU Interface registers */
#define REG_RTL_MII_TXFDP1 0x1300 // Table 55 TxFDP1 register (TXFDP1_REG, offset 1300h-1303h)
#define REG_RTL_MII_TXCDO1 0x1304 // Table 56 TxCDO1 register (TXCDO1_REG, offset 1304h-1305h)
#define REG_RTL_MII_TXFDP2 0x1310 // Table 57 TxFDP2 register (TXFDP2_REG, offset 1310h-1313h)
#define REG_RTL_MII_TXCDO2 0x1314 // Table 58 TxCDO2 register (TXCDO2_REG, offset 1314h-1315h)
#define REG_RTL_MII_TXFDP3 0x1320 // Table 59 TxFDP3 register (TXFDP3_REG, offset 1320h-1323h)
#define REG_RTL_MII_TXCDO3 0x1324 // Table 60 TxCDO3 register (TXCDO3_REG, offset 1324h-1325h)
#define REG_RTL_MII_TXFDP4 0x1330 // Table 61 TxFDP4 register (TXFDP4_REG, offset 1330h-1333h)
#define REG_RTL_MII_TXCDO4 0x1334 // Table 62 TxCDO4 register (TXCDO4_REG, offset 1334h-1335h)
#define REG_RTL_MII_TXFDP5 0x1340 // Table 63 TxFDP5 register (TXFDP5_REG, offset 1340h-1343h)
#define REG_RTL_MII_TXCDO5 0x1344 // Table 64 TxCDO5 register (TXCDO5_REG, offset 1344h-1345h)
#define REG_RTL_MII_RXFDP2 0x1390 // Table 66 RxFDP2 register (RXFDP#_REG, offset 1390h-1393h)
#define REG_RTL_MII_RXFDP1 0x13F0 // Table 71 RxFDP1 register (RXFDP1_REG, offset 13F0h-13F3h)
#define REG_RTL_MII_RXRS1 0x13F6 // Table 73 Rx Ring Size1 register (RX_RS1_REG, offset 13F6h-13F7h)
#define REG_RTL_MII_RX_PSE1 0x142C // Table 77 Rx_Pse_Des_Thres_1_h (RX_PSE1_REG, Offset 142ch)
#define REG_RTL_MII_ETNRXCPU1 0x1430 // Table 79 EhtrntRxCPU_Des_Num1 (ETNRXCPU1_REG, Offset 1430h-1433h)
#define REG_RTL_MII_IOCMD 0x1434 // Table 80 Ethernet_IO_CMD (ETN_IO_CMD_REG, Offset 1434h-1437h)
#define REG_RTL_MII_IOCMD1 0x1438 // Table 81 Ethernet_IO_CMD1 (IO_CMD1_REG: Offset 1438h-143bh)
#define HAL_MII_READ32(addr) \
HAL_READ32(ETHERNET_REG_BASE, addr)
#define HAL_MII_WRITE32(addr, value) \
HAL_WRITE32(ETHERNET_REG_BASE, addr, value)
#define HAL_MII_READ16(addr) \
HAL_READ16(ETHERNET_REG_BASE, addr)
#define HAL_MII_WRITE16(addr, value) \
HAL_WRITE16(ETHERNET_REG_BASE, addr, value)
#define HAL_MII_READ8(addr) \
HAL_READ8(ETHERNET_REG_BASE, addr)
#define HAL_MII_WRITE8(addr, value) \
HAL_WRITE8(ETHERNET_REG_BASE, addr, value)
#define CMD_CONFIG 0x00081000
//2014-04-29 yclin (disable [27] r_en_precise_dma)
// #define CMD1_CONFIG 0x39000000
#define CMD1_CONFIG 0x31000000
// #define MAX_RX_DESC_SIZE 6
#define MAX_RX_DESC_SIZE 1
#define MAX_TX_DESC_SIZE 5
// 0058h
#define BIT_SHIFT_MSR_FORCE_SPEED_SELECT 16
#define BIT_MASK_MSR_FORCE_SPEED_SELECT 0x3
#define BIT_MSR_FORCE_SPEED_SELECT(x)(((x) & BIT_MASK_MSR_FORCE_SPEED_SELECT) << BIT_SHIFT_MSR_FORCE_SPEED_SELECT)
#define BIT_INVC_MSR_FORCE_SPEED_SELECT (~(BIT_MASK_MSR_FORCE_SPEED_SELECT << BIT_SHIFT_MSR_FORCE_SPEED_SELECT))
#define BIT_SHIFT_MSR_FORCE_SPEED_MODE_ENABLE 10
#define BIT_MASK_MSR_FORCE_SPEED_MODE_ENABLE 0x1
#define BIT_MSR_FORCE_SPEED_MODE_ENABLE(x)(((x) & BIT_MASK_MSR_FORCE_SPEED_MODE_ENABLE) << BIT_SHIFT_MSR_FORCE_SPEED_MODE_ENABLE)
#define BIT_INVC_MSR_FORCE_SPEED_MODE_ENABLE (~(BIT_MASK_MSR_FORCE_SPEED_MODE_ENABLE << BIT_SHIFT_MSR_FORCE_SPEED_MODE_ENABLE))
// 1434h
#define BIT_SHIFT_IOCMD_RXENABLE 5
#define BIT_MASK_IOCMD_RXENABLE 0x1
#define BIT_IOCMD_RXENABLE(x)(((x) & BIT_MASK_IOCMD_RXENABLE) << BIT_SHIFT_IOCMD_RXENABLE)
#define BIT_INVC_IOCMD_RXENABLE (~(BIT_MASK_IOCMD_RXENABLE << BIT_SHIFT_IOCMD_RXENABLE))
#define BIT_SHIFT_IOCMD_TXENABLE 4
#define BIT_MASK_IOCMD_TXENABLE 0x1
#define BIT_IOCMD_TXENABLE(x)(((x) & BIT_MASK_IOCMD_TXENABLE) << BIT_SHIFT_IOCMD_TXENABLE)
#define BIT_INVC_IOCMD_TXENABLE (~(BIT_MASK_IOCMD_TXENABLE << BIT_SHIFT_IOCMD_TXENABLE))
#define BIT_SHIFT_IOCMD_FIRST_DMATX_ENABLE 0
#define BIT_MASK_IOCMD_FIRST_DMATX_ENABLE 0x1
#define BIT_IOCMD_FIRST_DMATX_ENABLE(x)(((x) & BIT_MASK_IOCMD_FIRST_DMATX_ENABLE) << BIT_SHIFT_IOCMD_FIRST_DMATX_ENABLE)
#define BIT_INVC_IOCMD_FIRST_DMATX_ENABLE (~(BIT_MASK_IOCMD_FIRST_DMATX_ENABLE << BIT_SHIFT_IOCMD_FIRST_DMATX_ENABLE))
// 1438h
#define BIT_SHIFT_IOCMD1_FIRST_DMARX_ENABLE 16
#define BIT_MASK_IOCMD1_FIRST_DMARX_ENABLE 0x1
#define BIT_IOCMD1_FIRST_DMARX_ENABLE(x)(((x) & BIT_MASK_IOCMD1_FIRST_DMARX_ENABLE) << BIT_SHIFT_IOCMD1_FIRST_DMARX_ENABLE)
#define BIT_INVC_IOCMD1_FIRST_DMARX_ENABLE (~(BIT_MASK_IOCMD1_FIRST_DMARX_ENABLE << BIT_SHIFT_IOCMD1_FIRST_DMARX_ENABLE))
/**
* 1.4.1.7 Tx command descriptor used in RL6266
* 5 dobule words
*/
typedef struct _TX_INFO_ {
union {
struct {
u32 own:1; //31
u32 eor:1; //30
u32 fs:1; //29
u32 ls:1; //28
u32 ipcs:1; //27
u32 l4cs:1; //26
u32 keep:1; //25
u32 blu:1; //24
u32 crc:1; //23
u32 vsel:1; //22
u32 dislrn:1; //21
u32 cputag_ipcs:1; //20
u32 cputag_l4cs:1; //19
u32 cputag_psel:1; //18
u32 rsvd:1; //17
u32 data_length:17; //0~16
} bit;
u32 dw; //double word
} opts1;
u32 addr;
union {
struct {
u32 cputag:1; //31
u32 aspri:1; //30
u32 cputag_pri:3; //27~29
u32 tx_vlan_action:2; //25~26
u32 tx_pppoe_action:2; //23~24
u32 tx_pppoe_idx:3; //20~22
u32 efid:1; //19
u32 enhance_fid:3; //16~18
u32 vidl:8; // 8~15
u32 prio:3; // 5~7
u32 cfi:1; // 4
u32 vidh:4; // 0~3
} bit;
u32 dw; //double word
} opts2;
union {
struct {
u32 extspa:3; //29~31
u32 tx_portmask:6; //23~28
u32 tx_dst_stream_id:7; //16~22
u32 rsvd:14; // 2~15
u32 l34keep:1; // 1
u32 ptp:1; // 0
} bit;
u32 dw; //double word
} opts3;
union {
struct {
u32 lgsen:1; //31
u32 lgmss:11; //20~30
u32 rsvd:20; // 0~19
} bit;
u32 dw; //double word
} opts4;
} TX_INFO, *PTX_INFO;
typedef struct _RX_INFO_ {
union{
struct{
u32 own:1; //31
u32 eor:1; //30
u32 fs:1; //29
u32 ls:1; //28
u32 crcerr:1; //27
u32 ipv4csf:1; //26
u32 l4csf:1; //25
u32 rcdf:1; //24
u32 ipfrag:1; //23
u32 pppoetag:1; //22
u32 rwt:1; //21
u32 pkttype:4; //20-17
u32 l3routing:1; //16
u32 origformat:1; //15
u32 pctrl:1; //14
#ifdef CONFIG_RG_JUMBO_FRAME
u32 data_length:14; //13~0
#else
u32 rsvd:2; //13~12
u32 data_length:12; //11~0
#endif
}bit;
u32 dw; //double word
}opts1;
u32 addr;
union{
struct{
u32 cputag:1; //31
u32 ptp_in_cpu_tag_exist:1; //30
u32 svlan_tag_exist:1; //29
u32 rsvd_2:2; //27~28
u32 pon_stream_id:7; //20~26
u32 rsvd_1:3; //17~19
u32 ctagva:1; //16
u32 cvlan_tag:16; //15~0
}bit;
u32 dw; //double word
}opts2;
union{
struct{
u32 src_port_num:5; //27~31
u32 dst_port_mask:6; //21~26
u32 reason:8; //13~20
u32 internal_priority:3; //10~12
u32 ext_port_ttl_1:5; //5~9
u32 rsvd:5; //4~0
}bit;
u32 dw; //double word
}opts3;
} RX_INFO, *PRX_INFO;
/**
* GMAC_STATUS_REGS
*/
// TX/RX Descriptor Common
#define BIT_SHIFT_GMAC_DESCOWN 31
#define BIT_MASK_GMAC_DESCOWN 0x1
#define BIT_GMAC_DESCOWN(x)(((x) & BIT_MASK_GMAC_DESCOWN) << BIT_SHIFT_GMAC_DESCOWN)
#define BIT_INVC_GMAC_DESCOWN (~(BIT_MASK_GMAC_DESCOWN << BIT_SHIFT_GMAC_DESCOWN))
#define BIT_SHIFT_GMAC_RINGEND 30
#define BIT_MASK_GMAC_RINGEND 0x1
#define BIT_GMAC_RINGEND(x)(((x) & BIT_MASK_GMAC_RINGEND) << BIT_SHIFT_GMAC_RINGEND)
#define BIT_INVC_GMAC_RINGEND (~(BIT_MASK_GMAC_RINGEND << BIT_SHIFT_GMAC_RINGEND))
#define BIT_SHIFT_GMAC_FIRSTFRAG 29
#define BIT_MASK_GMAC_FIRSTFRAG 0x1
#define BIT_GMAC_FIRSTFRAG(x)(((x) & BIT_MASK_GMAC_FIRSTFRAG) << BIT_SHIFT_GMAC_FIRSTFRAG)
#define BIT_INVC_GMAC_FIRSTFRAG (~(BIT_MASK_GMAC_FIRSTFRAG << BIT_SHIFT_GMAC_FIRSTFRAG))
#define BIT_SHIFT_GMAC_LASTFRAG 28
#define BIT_MASK_GMAC_LASTFRAG 0x1
#define BIT_GMAC_LASTFRAG(x)(((x) & BIT_MASK_GMAC_LASTFRAG) << BIT_SHIFT_GMAC_LASTFRAG)
#define BIT_INVC_GMAC_LASTFRAG (~(BIT_MASK_GMAC_LASTFRAG << BIT_SHIFT_GMAC_LASTFRAG))
// TX Descriptor opts1
#define BIT_SHIFT_GMAC_IPCS 27
#define BIT_MASK_GMAC_IPCS 0x1
#define BIT_GMAC_IPCS(x)(((x) & BIT_MASK_GMAC_IPCS) << BIT_SHIFT_GMAC_IPCS)
#define BIT_INVC_GMAC_IPCS (~(BIT_MASK_GMAC_IPCS << BIT_SHIFT_GMAC_IPCS))
#define BIT_SHIFT_GMAC_L4CS 26
#define BIT_MASK_GMAC_L4CS 0x1
#define BIT_GMAC_L4CS(x)(((x) & BIT_MASK_GMAC_L4CS) << BIT_SHIFT_GMAC_L4CS)
#define BIT_INVC_GMAC_L4CS (~(BIT_MASK_GMAC_L4CS << BIT_SHIFT_GMAC_L4CS))
#define BIT_SHIFT_GMAC_KEEP 25
#define BIT_MASK_GMAC_KEEP 0x1
#define BIT_GMAC_KEEP(x)(((x) & BIT_MASK_GMAC_KEEP) << BIT_SHIFT_GMAC_KEEP)
#define BIT_INVC_GMAC_KEEP (~(BIT_MASK_GMAC_KEEP << BIT_SHIFT_GMAC_KEEP))
#define BIT_SHIFT_GMAC_BLU 24
#define BIT_MASK_GMAC_BLU 0x1
#define BIT_GMAC_BLU(x)(((x) & BIT_MASK_GMAC_BLU) << BIT_SHIFT_GMAC_BLU)
#define BIT_INVC_GMAC_BLU (~(BIT_MASK_GMAC_BLU << BIT_SHIFT_GMAC_BLU))
#define BIT_SHIFT_GMAC_TXCRC 23
#define BIT_MASK_GMAC_TXCRC 0x1
#define BIT_GMAC_TXCRC(x)(((x) & BIT_MASK_GMAC_TXCRC) << BIT_SHIFT_GMAC_TXCRC)
#define BIT_INVC_GMAC_TXCRC (~(BIT_MASK_GMAC_TXCRC << BIT_SHIFT_GMAC_TXCRC))
#define BIT_SHIFT_GMAC_VSEL 22
#define BIT_MASK_GMAC_VSEL 0x1
#define BIT_GMAC_VSEL(x)(((x) & BIT_MASK_GMAC_VSEL) << BIT_SHIFT_GMAC_VSEL)
#define BIT_INVC_GMAC_VSEL (~(BIT_MASK_GMAC_VSEL << BIT_SHIFT_GMAC_VSEL))
#define BIT_SHIFT_GMAC_DISLRN 21
#define BIT_MASK_GMAC_DISLRN 0x1
#define BIT_GMAC_DISLRN(x)(((x) & BIT_MASK_GMAC_DISLRN) << BIT_SHIFT_GMAC_DISLRN)
#define BIT_INVC_GMAC_DISLRN (~(BIT_MASK_GMAC_DISLRN << BIT_SHIFT_GMAC_DISLRN))
#define BIT_SHIFT_GMAC_CPUTAG_IPCS 20
#define BIT_MASK_GMAC_CPUTAG_IPCS 0x1
#define BIT_GMAC_CPUTAG_IPCS(x)(((x) & BIT_MASK_GMAC_CPUTAG_IPCS) << BIT_SHIFT_GMAC_CPUTAG_IPCS)
#define BIT_INVC_GMAC_CPUTAG_IPCS (~(BIT_MASK_GMAC_CPUTAG_IPCS << BIT_SHIFT_GMAC_CPUTAG_IPCS))
#define BIT_SHIFT_GMAC_CPUTAG_L4CS 19
#define BIT_MASK_GMAC_CPUTAG_L4CS 0x1
#define BIT_GMAC_CPUTAG_L4CS(x)(((x) & BIT_MASK_GMAC_CPUTAG_L4CS) << BIT_SHIFT_GMAC_CPUTAG_L4CS)
#define BIT_INVC_GMAC_CPUTAG_L4CS (~(BIT_MASK_GMAC_CPUTAG_L4CS << BIT_SHIFT_GMAC_CPUTAG_L4CS))
#define BIT_SHIFT_GMAC_CPUTAG_PSEL 18
#define BIT_MASK_GMAC_CPUTAG_PSEL 0x1
#define BIT_GMAC_CPUTAG_PSEL(x)(((x) & BIT_MASK_GMAC_CPUTAG_PSEL) << BIT_SHIFT_GMAC_CPUTAG_PSEL)
#define BIT_INVC_GMAC_CPUTAG_PSEL (~(BIT_MASK_GMAC_CPUTAG_PSEL << BIT_SHIFT_GMAC_CPUTAG_PSEL))
#if 0
enum RE8670_STATUS_REGS
{
/*TX/RX share */
DescOwn = (1 << 31), /* Descriptor is owned by NIC */
RingEnd = (1 << 30), /* End of descriptor ring */
FirstFrag = (1 << 29), /* First segment of a packet */
LastFrag = (1 << 28), /* Final segment of a packet */
/*Tx descriptor opt1*/
IPCS = (1 << 27),
L4CS = (1 << 26),
KEEP = (1 << 25),
BLU = (1 << 24),
TxCRC = (1 << 23),
VSEL = (1 << 22),
DisLrn = (1 << 21),
CPUTag_ipcs = (1 << 20),
CPUTag_l4cs = (1 << 19),
/*Tx descriptor opt2*/
CPUTag = (1 << 31),
aspri = (1 << 30),
CPRI = (1 << 27),
TxVLAN_int = (0 << 25), //intact
TxVLAN_ins = (1 << 25), //insert
TxVLAN_rm = (2 << 25), //remove
TxVLAN_re = (3 << 25), //remark
//TxPPPoEAct = (1 << 23),
TxPPPoEAct = 23,
//TxPPPoEIdx = (1 << 20),
TxPPPoEIdx = 20,
Efid = (1 << 19),
//Enhan_Fid = (1 << 16),
Enhan_Fid = 16,
/*Tx descriptor opt3*/
SrcExtPort = 29,
TxDesPortM = 23,
TxDesStrID = 16,
TxDesVCM = 0,
/*Tx descriptor opt4*/
/*Rx descriptor opt1*/
CRCErr = (1 << 27),
IPV4CSF = (1 << 26),
L4CSF = (1 << 25),
RCDF = (1 << 24),
IP_FRAG = (1 << 23),
PPPoE_tag = (1 << 22),
RWT = (1 << 21),
PktType = (1 << 17),
RxProtoIP = 1,
RxProtoPPTP = 2,
RxProtoICMP = 3,
RxProtoIGMP = 4,
RxProtoTCP = 5,
RxProtoUDP = 6,
RxProtoIPv6 = 7,
RxProtoICMPv6 = 8,
RxProtoTCPv6 = 9,
RxProtoUDPv6 = 10,
L3route = (1 << 16),
OrigFormat = (1 << 15),
PCTRL = (1 << 14),
/*Rx descriptor opt2*/
PTPinCPU = (1 << 30),
SVlanTag = (1 << 29),
/*Rx descriptor opt3*/
SrcPort = (1 << 27),
DesPortM = (1 << 21),
Reason = (1 << 13),
IntPriority = (1 << 10),
ExtPortTTL = (1 << 5),
};
enum _DescStatusBit {
DescOwn = (1 << 31), /* Descriptor is owned by NIC */
RingEnd = (1 << 30), /* End of descriptor ring */
FirstFrag = (1 << 29), /* First segment of a packet */
LastFrag = (1 << 28), /* Final segment of a packet */
/* Tx private */
LargeSend = (1 << 27), /* TCP Large Send Offload (TSO) */
MSSShift = 16, /* MSS value position */
MSSMask = 0xfff, /* MSS value + LargeSend bit: 12 bits */
IPCS = (1 << 18), /* Calculate IP checksum */
UDPCS = (1 << 17), /* Calculate UDP/IP checksum */
TCPCS = (1 << 16), /* Calculate TCP/IP checksum */
TxVlanTag = (1 << 17), /* Add VLAN tag */
/* Rx private */
PID1 = (1 << 18), /* Protocol ID bit 1/2 */
PID0 = (1 << 17), /* Protocol ID bit 2/2 */
#define RxProtoUDP (PID1)
#define RxProtoTCP (PID0)
#define RxProtoIP (PID1 | PID0)
#define RxProtoMask RxProtoIP
IPFail = (1 << 16), /* IP checksum failed */
UDPFail = (1 << 15), /* UDP/IP checksum failed */
TCPFail = (1 << 14), /* TCP/IP checksum failed */
RxVlanTag = (1 << 16), /* VLAN tag available */
};
#endif
typedef struct _PHY_MODE_INFO_ {
u8 PhyAddress;
u8 PhyMode;
u8 PhyInterface;
} PHY_MODE_INFO, *PPHY_MODE_INFO;
typedef enum _PHY_MODE_SWITCH_ {
PHY_MODE_DISABLE = 0,
PHY_MODE_ENABLE = 1
} PHY_MODE_SWITCH, *PPHY_MODE_SWITCH;
typedef enum _PHY_INTERFACE_SELECT_ {
PHY_INTERFACE_ONE_WORKS = 0,
PHY_INTERFACE_ZERO_WORKS = 1
} PHY_INTERFACE_SELECT, *PPHY_INTERFACE_SELECT;
typedef enum _GMAC_MSR_FORCE_SPEED_ {
FORCE_SPD_100M = 0,
FORCE_SPD_10M = 1,
FORCE_SPD_GIGA = 2,
NO_FORCE_SPD = 3
}GMAC_MSR_FORCE_SPEED, *PGMAC_MSR_FORCE_SPEED;
// typedef enum _GMAC_INTERRUPT_MASK_ {
// GMAC_IMR_ROK = BIT0,
// GMAC_IMR_CNT_WRAP = BIT1,
// GMAC_IMR_RER_RUNT = BIT2,
// // BIT3 Reserved
// GMAC_IMR_RER_OVF = BIT4,
// GMAC_IMR_RDU = BIT5,
// GMAC_IMR_TOK_TI = BIT6,
// GMAC_IMR_TER = BIT7,
// GMAC_IMR_LINKCHG = BIT8,
// GMAC_IMR_TDU = BIT9,
// GMAC_IMR_SWINT = BIT10,
// GMAC_IMR_RDU2 = BIT11,
// GMAC_IMR_RDU3 = BIT12,
// GMAC_IMR_RDU4 = BIT13,
// GMAC_IMR_RDU5 = BIT14,
// GMAC_IMR_RDU6 = BIT15,
// } GMAC_INTERRUPT_MASK, *PGMAC_INTERRUPT_MASK;
typedef enum _GMAC_INTERRUPT_MASK_ {
GMAC_IMR_ROK = BIT16,
GMAC_IMR_CNT_WRAP = BIT17,
GMAC_IMR_RER_RUNT = BIT18,
// BIT19 Reserved
GMAC_IMR_RER_OVF = BIT20,
GMAC_IMR_RDU = BIT21,
GMAC_IMR_TOK_TI = BIT22,
GMAC_IMR_TER = BIT23,
GMAC_IMR_LINKCHG = BIT24,
GMAC_IMR_TDU = BIT25,
GMAC_IMR_SWINT = BIT26,
GMAC_IMR_RDU2 = BIT27,
GMAC_IMR_RDU3 = BIT28,
GMAC_IMR_RDU4 = BIT29,
GMAC_IMR_RDU5 = BIT30,
GMAC_IMR_RDU6 = BIT31,
} GMAC_INTERRUPT_MASK, *PGMAC_INTERRUPT_MASK;
typedef enum _GMAC_INTERRUPT_STATUS_ {
GMAC_ISR_ROK = BIT0,
GMAC_ISR_CNT_WRAP = BIT1,
GMAC_ISR_RER_RUNT = BIT2,
// BIT3 Reserved
GMAC_ISR_RER_OVF = BIT4,
GMAC_ISR_RDU = BIT5,
GMAC_ISR_TOK_TI = BIT6,
GMAC_ISR_TER = BIT7,
GMAC_ISR_LINKCHG = BIT8,
GMAC_ISR_TDU = BIT9,
GMAC_ISR_SWINT = BIT10,
GMAC_ISR_RDU2 = BIT11,
GMAC_ISR_RDU3 = BIT12,
GMAC_ISR_RDU4 = BIT13,
GMAC_ISR_RDU5 = BIT14,
GMAC_ISR_RDU6 = BIT15,
} GMAC_INTERRUPT_STATUS, *PGMAC_INTERRUPT_STATUS;
typedef enum _GMAC_TX_VLAN_ACTION_ {
INTACT = 0,
INSERT_VLAN_HDR = 1,
REMOVE_VLAN_HDR = 2,
REMARKING_VID = 3
}GMAC_TX_VLAN_ACTION, *PGMAC_TX_VLAN_ACTION;
typedef enum _GMAC_RX_PACKET_TYPE_ {
TYPE_ETHERNET = 0,
TYPE_IPV4 = 1,
TYPE_IPV4_PPTP = 2,
TYPE_IPV4_ICMP = 3,
TYPE_IPV4_IGMP = 4,
TYPE_IPV4_TCP = 5,
TYPE_IPV4_UDP = 6,
TYPE_IPV6 = 7,
TYPE_ICMPV6 = 8,
TYPE_IPV6_TCP = 9,
TYPE_IPV6_UDP = 10
}GMAC_RX_PACKET_TYPE, *PGMAC_RX_PACKET_TYPE;
/*
// Memory Map of DW_apb_ssi
#define REG_DW_SSI_CTRLR0 0x00 // 16 bits
#define REG_DW_SSI_CTRLR1 0x04 // 16 bits
#define REG_DW_SSI_SSIENR 0x08 // 1 bit
#define REG_DW_SSI_RX_SAMPLE_DLY 0xF0 // 8 bits
#define REG_DW_SSI_RSVD_0 0xF4 // 32 bits
#define REG_DW_SSI_RSVD_1 0xF8 // 32 bits
#define REG_DW_SSI_RSVD_2 0xFC // 32 bits
// CTRLR0 0x00 // 16 bits, 6.2.1
// DFS Reset Value: 0x7
#define BIT_SHIFT_CTRLR0_DFS 0
#define BIT_MASK_CTRLR0_DFS 0xF
#define BIT_CTRLR0_DFS(x)(((x) & BIT_MASK_CTRLR0_DFS) << BIT_SHIFT_CTRLR0_DFS)
#define BIT_INVC_CTRLR0_DFS (~(BIT_MASK_CTRLR0_DFS << BIT_SHIFT_CTRLR0_DFS))
#define BIT_SHIFT_CTRLR0_FRF 4
#define BIT_MASK_CTRLR0_FRF 0x3
#define BIT_CTRLR0_FRF(x)(((x) & BIT_MASK_CTRLR0_FRF) << BIT_SHIFT_CTRLR0_FRF)
#define BIT_INVC_CTRLR0_FRF (~(BIT_MASK_CTRLR0_FRF << BIT_SHIFT_CTRLR0_FRF))
#define BIT_SHIFT_CTRLR0_SCPH 6
#define BIT_MASK_CTRLR0_SCPH 0x1
#define BIT_CTRLR0_SCPH(x)(((x) & BIT_MASK_CTRLR0_SCPH) << BIT_SHIFT_CTRLR0_SCPH)
#define BIT_INVC_CTRLR0_SCPH (~(BIT_MASK_CTRLR0_SCPH << BIT_SHIFT_CTRLR0_SCPH))
// CTRLR1 0x04 // 16 bits
#define BIT_SHIFT_CTRLR1_NDF 0
#define BIT_MASK_CTRLR1_NDF 0xFFFF
#define BIT_CTRLR1_NDF(x)(((x) & BIT_MASK_CTRLR1_NDF) << BIT_SHIFT_CTRLR1_NDF)
#define BIT_INVC_CTRLR1_NDF (~(BIT_MASK_CTRLR1_NDF << BIT_SHIFT_CTRLR1_NDF))
// TXFLTR 0x18 // Variable Length
#define BIT_SHIFT_TXFTLR_TFT 0
#define BIT_MASK_TXFTLR_TFT 0x3F // (TX_ABW-1):0
#define BIT_TXFTLR_TFT(x)(((x) & BIT_MASK_TXFTLR_TFT) << BIT_SHIFT_TXFTLR_TFT)
#define BIT_INVC_TXFTLR_TFT (~(BIT_MASK_TXFTLR_TFT << BIT_SHIFT_TXFTLR_TFT))
// TXFLR 0x20 // see [READ ONLY]
#define BIT_MASK_TXFLR_TXTFL 0x7F // (TX_ABW):0
// RXFLR 0x24 // see [READ ONLY]
#define BIT_MASK_RXFLR_RXTFL 0x7F // (RX_ABW):0
// SR 0x28 // 7 bits [READ ONLY]
#define BIT_SR_BUSY BIT0
#define BIT_SR_TFNF BIT1
#define BIT_SR_TFE BIT2
#define BIT_SR_RFNE BIT3
#define BIT_SR_RFF BIT4
#define BIT_SR_TXE BIT5
#define BIT_SR_DCOL BIT6
#define BIT_IMR_TXEIM BIT0
#define BIT_IMR_TXOIM BIT1
#define BIT_IMR_RXUIM BIT2
#define BIT_IMR_RXOIM BIT3
#define BIT_IMR_RXFIM BIT4
#define BIT_IMR_MSTIM BIT5
// ISR 0x30 // 6 bits [READ ONLY]
#define BIT_ISR_TXEIS BIT0
#define BIT_ISR_TXOIS BIT1
#define BIT_ISR_RXUIS BIT2
#define BIT_ISR_RXOIS BIT3
#define BIT_ISR_RXFIS BIT4
#define BIT_ISR_MSTIS BIT5
*/
BOOL
HalMiiGmacInitRtl8195a(
IN VOID *Data
);
BOOL
HalMiiInitRtl8195a(
IN VOID *Data
);
BOOL
HalMiiGmacResetRtl8195a(
IN VOID *Data
);
BOOL
HalMiiGmacEnablePhyModeRtl8195a(
IN VOID *Data
);
u32
HalMiiGmacXmitRtl8195a(
IN VOID *Data
);
VOID
HalMiiGmacCleanTxRingRtl8195a(
IN VOID *Data
);
VOID
HalMiiGmacFillTxInfoRtl8195a(
IN VOID *Data
);
VOID
HalMiiGmacFillRxInfoRtl8195a(
IN VOID *Data
);
VOID
HalMiiGmacTxRtl8195a(
IN VOID *Data
);
VOID
HalMiiGmacRxRtl8195a(
IN VOID *Data
);
VOID
HalMiiGmacSetDefaultEthIoCmdRtl8195a(
IN VOID *Data
);
VOID
HalMiiGmacInitIrqRtl8195a(
IN VOID *Data
);
u32
HalMiiGmacGetInterruptStatusRtl8195a(
VOID
);
VOID
HalMiiGmacClearInterruptStatusRtl8195a(
u32 IsrStatus
);
#endif