/** @file | |
Definitions for network adapter card. | |
Copyright (c) 2006 - 2007, Intel Corporation. All rights reserved.<BR> | |
This program and the accompanying materials | |
are licensed and made available under the terms and conditions of the BSD License | |
which accompanies this distribution. The full text of the license may be found at | |
http://opensource.org/licenses/bsd-license.php | |
THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, | |
WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. | |
**/ | |
#ifndef _E100B_H_ | |
#define _E100B_H_ | |
// pci config offsets: | |
#define RX_BUFFER_COUNT 32 | |
#define TX_BUFFER_COUNT 32 | |
#define PCI_VENDOR_ID_INTEL 0x8086 | |
#define PCI_DEVICE_ID_INTEL_82557 0x1229 | |
#define D100_VENDOR_ID 0x8086 | |
#define D100_DEVICE_ID 0x1229 | |
#define D102_DEVICE_ID 0x2449 | |
#define ICH3_DEVICE_ID_1 0x1031 | |
#define ICH3_DEVICE_ID_2 0x1032 | |
#define ICH3_DEVICE_ID_3 0x1033 | |
#define ICH3_DEVICE_ID_4 0x1034 | |
#define ICH3_DEVICE_ID_5 0x1035 | |
#define ICH3_DEVICE_ID_6 0x1036 | |
#define ICH3_DEVICE_ID_7 0x1037 | |
#define ICH3_DEVICE_ID_8 0x1038 | |
#define SPEEDO_DEVICE_ID 0x1227 | |
#define SPLASH1_DEVICE_ID 0x1226 | |
// bit fields for the command | |
#define PCI_COMMAND_MASTER 0x04 // bit 2 | |
#define PCI_COMMAND_IO 0x01 // bit 0 | |
#define PCI_COMMAND 0x04 | |
#define PCI_LATENCY_TIMER 0x0D | |
#define ETHER_MAC_ADDR_LEN 6 | |
#ifdef AVL_XXX | |
#define ETHER_HEADER_LEN 14 | |
// media interface type | |
// #define INTERFACE_TYPE " | |
// Hardware type values | |
#define HW_ETHER_TYPE 1 | |
#define HW_EXPERIMENTAL_ETHER_TYPE 2 | |
#define HW_IEEE_TYPE 6 | |
#define HW_ARCNET_TYPE 7 | |
#endif // AVL_XXX | |
#define MAX_ETHERNET_PKT_SIZE 1514 // including eth header | |
#define RX_BUFFER_SIZE 1536 // including crc and padding | |
#define TX_BUFFER_SIZE 64 | |
#define ETH_MTU 1500 // does not include ethernet header length | |
#define SPEEDO3_TOTAL_SIZE 0x20 | |
#pragma pack(1) | |
typedef struct eth { | |
UINT8 dest_addr[PXE_HWADDR_LEN_ETHER]; | |
UINT8 src_addr[PXE_HWADDR_LEN_ETHER]; | |
UINT16 type; | |
} EtherHeader; | |
#pragma pack(1) | |
typedef struct CONFIG_HEADER { | |
UINT16 VendorID; | |
UINT16 DeviceID; | |
UINT16 Command; | |
UINT16 Status; | |
UINT16 RevID; | |
UINT16 ClassID; | |
UINT8 CacheLineSize; | |
UINT8 LatencyTimer; | |
UINT8 HeaderType; // must be zero to impose this structure... | |
UINT8 BIST; // built-in self test | |
UINT32 BaseAddressReg_0; // memory mapped address | |
UINT32 BaseAddressReg_1; //io mapped address, Base IO address | |
UINT32 BaseAddressReg_2; // option rom address | |
UINT32 BaseAddressReg_3; | |
UINT32 BaseAddressReg_4; | |
UINT32 BaseAddressReg_5; | |
UINT32 CardBusCISPtr; | |
UINT16 SubVendorID; | |
UINT16 SubSystemID; | |
UINT32 ExpansionROMBaseAddr; | |
UINT8 CapabilitiesPtr; | |
UINT8 reserved1; | |
UINT16 Reserved2; | |
UINT32 Reserved3; | |
UINT8 int_line; | |
UINT8 int_pin; | |
UINT8 Min_gnt; | |
UINT8 Max_lat; | |
} PCI_CONFIG_HEADER; | |
#pragma pack() | |
//------------------------------------------------------------------------- | |
// Offsets to the various registers. | |
// All accesses need not be longword aligned. | |
//------------------------------------------------------------------------- | |
enum speedo_offsets { | |
SCBStatus = 0, SCBCmd = 2, // Rx/Command Unit command and status. | |
SCBPointer = 4, // General purpose pointer. | |
SCBPort = 8, // Misc. commands and operands. | |
SCBflash = 12, SCBeeprom = 14, // EEPROM and flash memory control. | |
SCBCtrlMDI = 16, // MDI interface control. | |
SCBEarlyRx = 20, // Early receive byte count. | |
SCBEarlyRxInt = 24, SCBFlowCtrlReg = 25, SCBPmdr = 27, | |
// offsets for general control registers (GCRs) | |
SCBGenCtrl = 28, SCBGenStatus = 29, SCBGenCtrl2 = 30, SCBRsvd = 31 | |
}; | |
#define GCR2_EEPROM_ACCESS_SEMAPHORE 0x80 // bit offset into the gcr2 | |
//------------------------------------------------------------------------- | |
// Action commands - Commands that can be put in a command list entry. | |
//------------------------------------------------------------------------- | |
enum commands { | |
CmdNOp = 0, CmdIASetup = 1, CmdConfigure = 2, CmdMulticastList = 3, | |
CmdTx = 4, CmdTDR = 5, CmdDump = 6, CmdDiagnose = 7, | |
CmdSuspend = 0x4000, /* Suspend after completion. */ | |
CmdIntr = 0x2000, /* Interrupt after completion. */ | |
CmdTxFlex = 0x0008 /* Use "Flexible mode" for CmdTx command. */ | |
}; | |
//------------------------------------------------------------------------- | |
// port commands | |
//------------------------------------------------------------------------- | |
#define PORT_RESET 0 | |
#define PORT_SELF_TEST 1 | |
#define POR_SELECTIVE_RESET 2 | |
#define PORT_DUMP_POINTER 2 | |
//------------------------------------------------------------------------- | |
// SCB Command Word bit definitions | |
//------------------------------------------------------------------------- | |
//- CUC fields | |
#define CU_START 0x0010 | |
#define CU_RESUME 0x0020 | |
#define CU_STATSADDR 0x0040 | |
#define CU_SHOWSTATS 0x0050 /* Dump statistics counters. */ | |
#define CU_CMD_BASE 0x0060 /* Base address to add to add CU commands. */ | |
#define CU_DUMPSTATS 0x0070 /* Dump then reset stats counters. */ | |
//- RUC fields | |
#define RX_START 0x0001 | |
#define RX_RESUME 0x0002 | |
#define RX_ABORT 0x0004 | |
#define RX_ADDR_LOAD 0x0006 /* load ru_base_reg */ | |
#define RX_RESUMENR 0x0007 | |
// Interrupt fields (assuming byte addressing) | |
#define INT_MASK 0x0100 | |
#define DRVR_INT 0x0200 /* Driver generated interrupt. */ | |
//- CB Status Word | |
#define CMD_STATUS_COMPLETE 0x8000 | |
#define RX_STATUS_COMPLETE 0x8000 | |
#define CMD_STATUS_MASK 0xF000 | |
//------------------------------------------------------------------------- | |
//- SCB Status bits: | |
// Interrupts are ACKed by writing to the upper 6 interrupt bits | |
//------------------------------------------------------------------------- | |
#define SCB_STATUS_MASK 0xFC00 // bits 2-7 - STATUS/ACK Mask | |
#define SCB_STATUS_CX_TNO 0x8000 // BIT_15 - CX or TNO Interrupt | |
#define SCB_STATUS_FR 0x4000 // BIT_14 - FR Interrupt | |
#define SCB_STATUS_CNA 0x2000 // BIT_13 - CNA Interrupt | |
#define SCB_STATUS_RNR 0x1000 // BIT_12 - RNR Interrupt | |
#define SCB_STATUS_MDI 0x0800 // BIT_11 - MDI R/W Done Interrupt | |
#define SCB_STATUS_SWI 0x0400 // BIT_10 - SWI Interrupt | |
// CU STATUS: bits 6 & 7 | |
#define SCB_STATUS_CU_MASK 0x00C0 // bits 6 & 7 | |
#define SCB_STATUS_CU_IDLE 0x0000 // 00 | |
#define SCB_STATUS_CU_SUSPEND 0x0040 // 01 | |
#define SCB_STATUS_CU_ACTIVE 0x0080 // 10 | |
// RU STATUS: bits 2-5 | |
#define SCB_RUS_IDLE 0x0000 | |
#define SCB_RUS_SUSPENDED 0x0004 // bit 2 | |
#define SCB_RUS_NO_RESOURCES 0x0008 // bit 3 | |
#define SCB_RUS_READY 0x0010 // bit 4 | |
//------------------------------------------------------------------------- | |
// Bit Mask definitions | |
//------------------------------------------------------------------------- | |
#define BIT_0 0x0001 | |
#define BIT_1 0x0002 | |
#define BIT_2 0x0004 | |
#define BIT_3 0x0008 | |
#define BIT_4 0x0010 | |
#define BIT_5 0x0020 | |
#define BIT_6 0x0040 | |
#define BIT_7 0x0080 | |
#define BIT_8 0x0100 | |
#define BIT_9 0x0200 | |
#define BIT_10 0x0400 | |
#define BIT_11 0x0800 | |
#define BIT_12 0x1000 | |
#define BIT_13 0x2000 | |
#define BIT_14 0x4000 | |
#define BIT_15 0x8000 | |
#define BIT_24 0x01000000 | |
#define BIT_28 0x10000000 | |
//------------------------------------------------------------------------- | |
// MDI Control register bit definitions | |
//------------------------------------------------------------------------- | |
#define MDI_DATA_MASK BIT_0_15 // MDI Data port | |
#define MDI_REG_ADDR BIT_16_20 // which MDI register to read/write | |
#define MDI_PHY_ADDR BIT_21_25 // which PHY to read/write | |
#define MDI_PHY_OPCODE BIT_26_27 // which PHY to read/write | |
#define MDI_PHY_READY BIT_28 // PHY is ready for another MDI cycle | |
#define MDI_PHY_INT_ENABLE BIT_29 // Assert INT at MDI cycle completion | |
#define BIT_0_2 0x0007 | |
#define BIT_0_3 0x000F | |
#define BIT_0_4 0x001F | |
#define BIT_0_5 0x003F | |
#define BIT_0_6 0x007F | |
#define BIT_0_7 0x00FF | |
#define BIT_0_8 0x01FF | |
#define BIT_0_13 0x3FFF | |
#define BIT_0_15 0xFFFF | |
#define BIT_1_2 0x0006 | |
#define BIT_1_3 0x000E | |
#define BIT_2_5 0x003C | |
#define BIT_3_4 0x0018 | |
#define BIT_4_5 0x0030 | |
#define BIT_4_6 0x0070 | |
#define BIT_4_7 0x00F0 | |
#define BIT_5_7 0x00E0 | |
#define BIT_5_9 0x03E0 | |
#define BIT_5_12 0x1FE0 | |
#define BIT_5_15 0xFFE0 | |
#define BIT_6_7 0x00c0 | |
#define BIT_7_11 0x0F80 | |
#define BIT_8_10 0x0700 | |
#define BIT_9_13 0x3E00 | |
#define BIT_12_15 0xF000 | |
#define BIT_16_20 0x001F0000 | |
#define BIT_21_25 0x03E00000 | |
#define BIT_26_27 0x0C000000 | |
//------------------------------------------------------------------------- | |
// MDI Control register opcode definitions | |
//------------------------------------------------------------------------- | |
#define MDI_WRITE 1 // Phy Write | |
#define MDI_READ 2 // Phy read | |
//------------------------------------------------------------------------- | |
// PHY 100 MDI Register/Bit Definitions | |
//------------------------------------------------------------------------- | |
// MDI register set | |
#define MDI_CONTROL_REG 0x00 // MDI control register | |
#define MDI_STATUS_REG 0x01 // MDI Status regiser | |
#define PHY_ID_REG_1 0x02 // Phy indentification reg (word 1) | |
#define PHY_ID_REG_2 0x03 // Phy indentification reg (word 2) | |
#define AUTO_NEG_ADVERTISE_REG 0x04 // Auto-negotiation advertisement | |
#define AUTO_NEG_LINK_PARTNER_REG 0x05 // Auto-negotiation link partner ability | |
#define AUTO_NEG_EXPANSION_REG 0x06 // Auto-negotiation expansion | |
#define AUTO_NEG_NEXT_PAGE_REG 0x07 // Auto-negotiation next page transmit | |
#define EXTENDED_REG_0 0x10 // Extended reg 0 (Phy 100 modes) | |
#define EXTENDED_REG_1 0x14 // Extended reg 1 (Phy 100 error indications) | |
#define NSC_CONG_CONTROL_REG 0x17 // National (TX) congestion control | |
#define NSC_SPEED_IND_REG 0x19 // National (TX) speed indication | |
// MDI Control register bit definitions | |
#define MDI_CR_COLL_TEST_ENABLE BIT_7 // Collision test enable | |
#define MDI_CR_FULL_HALF BIT_8 // FDX =1, half duplex =0 | |
#define MDI_CR_RESTART_AUTO_NEG BIT_9 // Restart auto negotiation | |
#define MDI_CR_ISOLATE BIT_10 // Isolate PHY from MII | |
#define MDI_CR_POWER_DOWN BIT_11 // Power down | |
#define MDI_CR_AUTO_SELECT BIT_12 // Auto speed select enable | |
#define MDI_CR_10_100 BIT_13 // 0 = 10Mbs, 1 = 100Mbs | |
#define MDI_CR_LOOPBACK BIT_14 // 0 = normal, 1 = loopback | |
#define MDI_CR_RESET BIT_15 // 0 = normal, 1 = PHY reset | |
// MDI Status register bit definitions | |
#define MDI_SR_EXT_REG_CAPABLE BIT_0 // Extended register capabilities | |
#define MDI_SR_JABBER_DETECT BIT_1 // Jabber detected | |
#define MDI_SR_LINK_STATUS BIT_2 // Link Status -- 1 = link | |
#define MDI_SR_AUTO_SELECT_CAPABLE BIT_3 // Auto speed select capable | |
#define MDI_SR_REMOTE_FAULT_DETECT BIT_4 // Remote fault detect | |
#define MDI_SR_AUTO_NEG_COMPLETE BIT_5 // Auto negotiation complete | |
#define MDI_SR_10T_HALF_DPX BIT_11 // 10BaseT Half Duplex capable | |
#define MDI_SR_10T_FULL_DPX BIT_12 // 10BaseT full duplex capable | |
#define MDI_SR_TX_HALF_DPX BIT_13 // TX Half Duplex capable | |
#define MDI_SR_TX_FULL_DPX BIT_14 // TX full duplex capable | |
#define MDI_SR_T4_CAPABLE BIT_15 // T4 capable | |
// Auto-Negotiation advertisement register bit definitions | |
#define NWAY_AD_SELCTOR_FIELD BIT_0_4 // identifies supported protocol | |
#define NWAY_AD_ABILITY BIT_5_12 // technologies that are supported | |
#define NWAY_AD_10T_HALF_DPX BIT_5 // 10BaseT Half Duplex capable | |
#define NWAY_AD_10T_FULL_DPX BIT_6 // 10BaseT full duplex capable | |
#define NWAY_AD_TX_HALF_DPX BIT_7 // TX Half Duplex capable | |
#define NWAY_AD_TX_FULL_DPX BIT_8 // TX full duplex capable | |
#define NWAY_AD_T4_CAPABLE BIT_9 // T4 capable | |
#define NWAY_AD_REMOTE_FAULT BIT_13 // indicates local remote fault | |
#define NWAY_AD_RESERVED BIT_14 // reserved | |
#define NWAY_AD_NEXT_PAGE BIT_15 // Next page (not supported) | |
// Auto-Negotiation link partner ability register bit definitions | |
#define NWAY_LP_SELCTOR_FIELD BIT_0_4 // identifies supported protocol | |
#define NWAY_LP_ABILITY BIT_5_9 // technologies that are supported | |
#define NWAY_LP_REMOTE_FAULT BIT_13 // indicates partner remote fault | |
#define NWAY_LP_ACKNOWLEDGE BIT_14 // acknowledge | |
#define NWAY_LP_NEXT_PAGE BIT_15 // Next page (not supported) | |
// Auto-Negotiation expansion register bit definitions | |
#define NWAY_EX_LP_NWAY BIT_0 // link partner is NWAY | |
#define NWAY_EX_PAGE_RECEIVED BIT_1 // link code word received | |
#define NWAY_EX_NEXT_PAGE_ABLE BIT_2 // local is next page able | |
#define NWAY_EX_LP_NEXT_PAGE_ABLE BIT_3 // partner is next page able | |
#define NWAY_EX_PARALLEL_DET_FLT BIT_4 // parallel detection fault | |
#define NWAY_EX_RESERVED BIT_5_15 // reserved | |
// PHY 100 Extended Register 0 bit definitions | |
#define PHY_100_ER0_FDX_INDIC BIT_0 // 1 = FDX, 0 = half duplex | |
#define PHY_100_ER0_SPEED_INDIC BIT_1 // 1 = 100mbs, 0= 10mbs | |
#define PHY_100_ER0_WAKE_UP BIT_2 // Wake up DAC | |
#define PHY_100_ER0_RESERVED BIT_3_4 // Reserved | |
#define PHY_100_ER0_REV_CNTRL BIT_5_7 // Revsion control (A step = 000) | |
#define PHY_100_ER0_FORCE_FAIL BIT_8 // Force Fail is enabled | |
#define PHY_100_ER0_TEST BIT_9_13 // Revsion control (A step = 000) | |
#define PHY_100_ER0_LINKDIS BIT_14 // Link integrity test is disabled | |
#define PHY_100_ER0_JABDIS BIT_15 // Jabber function is disabled | |
// PHY 100 Extended Register 1 bit definitions | |
#define PHY_100_ER1_RESERVED BIT_0_8 // Reserved | |
#define PHY_100_ER1_CH2_DET_ERR BIT_9 // Channel 2 EOF detection error | |
#define PHY_100_ER1_MANCH_CODE_ERR BIT_10 // Manchester code error | |
#define PHY_100_ER1_EOP_ERR BIT_11 // EOP error | |
#define PHY_100_ER1_BAD_CODE_ERR BIT_12 // bad code error | |
#define PHY_100_ER1_INV_CODE_ERR BIT_13 // invalid code error | |
#define PHY_100_ER1_DC_BAL_ERR BIT_14 // DC balance error | |
#define PHY_100_ER1_PAIR_SKEW_ERR BIT_15 // Pair skew error | |
// National Semiconductor TX phy congestion control register bit definitions | |
#define NSC_TX_CONG_TXREADY BIT_10 // Makes TxReady an input | |
#define NSC_TX_CONG_ENABLE BIT_8 // Enables congestion control | |
#define NSC_TX_CONG_F_CONNECT BIT_5 // Enables congestion control | |
// National Semiconductor TX phy speed indication register bit definitions | |
#define NSC_TX_SPD_INDC_SPEED BIT_6 // 0 = 100mb, 1=10mb | |
//------------------------------------------------------------------------- | |
// Phy related constants | |
//------------------------------------------------------------------------- | |
#define PHY_503 0 | |
#define PHY_100_A 0x000003E0 | |
#define PHY_100_C 0x035002A8 | |
#define PHY_TX_ID 0x015002A8 | |
#define PHY_NSC_TX 0x5c002000 | |
#define PHY_OTHER 0xFFFF | |
#define PHY_MODEL_REV_ID_MASK 0xFFF0FFFF | |
#define PARALLEL_DETECT 0 | |
#define N_WAY 1 | |
#define RENEGOTIATE_TIME 35 // (3.5 Seconds) | |
#define CONNECTOR_AUTO 0 | |
#define CONNECTOR_TPE 1 | |
#define CONNECTOR_MII 2 | |
//------------------------------------------------------------------------- | |
/* The Speedo3 Rx and Tx frame/buffer descriptors. */ | |
#pragma pack(1) | |
struct CB_Header { /* A generic descriptor. */ | |
UINT16 status; /* Offset 0. */ | |
UINT16 command; /* Offset 2. */ | |
UINT32 link; /* struct descriptor * */ | |
}; | |
/* transmit command block structure */ | |
#pragma pack(1) | |
typedef struct s_TxCB { | |
struct CB_Header cb_header; | |
UINT32 PhysTBDArrayAddres; /* address of an array that contains | |
physical TBD pointers */ | |
UINT16 ByteCount; /* immediate data count = 0 always */ | |
UINT8 Threshold; | |
UINT8 TBDCount; | |
UINT8 ImmediateData[TX_BUFFER_SIZE]; | |
/* following fields are not seen by the 82557 */ | |
struct TBD { | |
UINT32 phys_buf_addr; | |
UINT32 buf_len; | |
} TBDArray[MAX_XMIT_FRAGMENTS]; | |
UINT32 PhysArrayAddr; /* in case the one in the header is lost */ | |
UINT32 PhysTCBAddress; /* for this TCB */ | |
struct s_TxCB *NextTCBVirtualLinkPtr; | |
struct s_TxCB *PrevTCBVirtualLinkPtr; | |
UINT64 free_data_ptr; // to be given to the upper layer when this xmit completes1 | |
}TxCB; | |
/* The Speedo3 Rx and Tx buffer descriptors. */ | |
#pragma pack(1) | |
typedef struct s_RxFD { /* Receive frame descriptor. */ | |
struct CB_Header cb_header; | |
UINT32 rx_buf_addr; /* VOID * */ | |
UINT16 ActualCount; | |
UINT16 RFDSize; | |
UINT8 RFDBuffer[RX_BUFFER_SIZE]; | |
UINT8 forwarded; | |
UINT8 junk[3]; | |
}RxFD; | |
/* Elements of the RxFD.status word. */ | |
#define RX_COMPLETE 0x8000 | |
#define RX_FRAME_OK 0x2000 | |
/* Elements of the dump_statistics block. This block must be lword aligned. */ | |
#pragma pack(1) | |
struct speedo_stats { | |
UINT32 tx_good_frames; | |
UINT32 tx_coll16_errs; | |
UINT32 tx_late_colls; | |
UINT32 tx_underruns; | |
UINT32 tx_lost_carrier; | |
UINT32 tx_deferred; | |
UINT32 tx_one_colls; | |
UINT32 tx_multi_colls; | |
UINT32 tx_total_colls; | |
UINT32 rx_good_frames; | |
UINT32 rx_crc_errs; | |
UINT32 rx_align_errs; | |
UINT32 rx_resource_errs; | |
UINT32 rx_overrun_errs; | |
UINT32 rx_colls_errs; | |
UINT32 rx_runt_errs; | |
UINT32 done_marker; | |
}; | |
#pragma pack() | |
struct Krn_Mem{ | |
RxFD rx_ring[RX_BUFFER_COUNT]; | |
TxCB tx_ring[TX_BUFFER_COUNT]; | |
struct speedo_stats statistics; | |
}; | |
#define MEMORY_NEEDED sizeof(struct Krn_Mem) | |
/* The parameters for a CmdConfigure operation. | |
There are so many options that it would be difficult to document each bit. | |
We mostly use the default or recommended settings. | |
*/ | |
/* | |
*-------------------------------------------------------------------------- | |
* Configuration CB Parameter Bit Definitions | |
*-------------------------------------------------------------------------- | |
*/ | |
// - Byte 0 (Default Value = 16h) | |
#define CFIG_BYTE_COUNT 0x16 // 22 Configuration Bytes | |
//- Byte 1 (Default Value = 88h) | |
#define CFIG_TXRX_FIFO_LIMIT 0x88 | |
//- Byte 2 (Default Value = 0) | |
#define CFIG_ADAPTIVE_IFS 0 | |
//- Byte 3 (Default Value = 0, ALWAYS. This byte is RESERVED) | |
#define CFIG_RESERVED 0 | |
//- Byte 4 (Default Value = 0. Default implies that Rx DMA cannot be | |
//- preempted). | |
#define CFIG_RXDMA_BYTE_COUNT 0 | |
//- Byte 5 (Default Value = 80h. Default implies that Tx DMA cannot be | |
//- preempted. However, setting these counters is enabled.) | |
#define CFIG_DMBC_ENABLE 0x80 | |
//- Byte 6 (Default Value = 33h. Late SCB enabled, No TNO interrupts, | |
//- CNA interrupts and do not save bad frames.) | |
#define CFIG_LATE_SCB 1 // BIT 0 | |
#define CFIG_TNO_INTERRUPT 0x4 // BIT 2 | |
#define CFIG_CI_INTERRUPT 0x8 // BIT 3 | |
#define CFIG_SAVE_BAD_FRAMES 0x80 // BIT_7 | |
//- Byte 7 (Default Value = 7h. Discard short frames automatically and | |
//- attempt upto 3 retries on transmit.) | |
#define CFIG_DISCARD_SHORTRX 0x00001 | |
#define CFIG_URUN_RETRY BIT_1 OR BIT_2 | |
//- Byte 8 (Default Value = 1. Enable MII mode.) | |
#define CFIG_503_MII BIT_0 | |
//- Byte 9 (Default Value = 0, ALWAYS) | |
//- Byte 10 (Default Value = 2Eh) | |
#define CFIG_NSAI BIT_3 | |
#define CFIG_PREAMBLE_LENGTH BIT_5 ;- Bit 5-4 = 1-0 | |
#define CFIG_NO_LOOPBACK 0 | |
#define CFIG_INTERNAL_LOOPBACK BIT_6 | |
#define CFIG_EXT_LOOPBACK BIT_7 | |
#define CFIG_EXT_PIN_LOOPBACK BIT_6 OR BIT_7 | |
//- Byte 11 (Default Value = 0) | |
#define CFIG_LINEAR_PRIORITY 0 | |
//- Byte 12 (Default Value = 60h) | |
#define CFIG_LPRIORITY_MODE 0 | |
#define CFIG_IFS 6 ;- 6 * 16 = 96 | |
//- Byte 13 (Default Value = 0, ALWAYS) | |
//- Byte 14 (Default Value = 0F2h, ALWAYS) | |
//- Byte 15 (Default Value = E8h) | |
#define CFIG_PROMISCUOUS_MODE BIT_0 | |
#define CFIG_BROADCAST_DISABLE BIT_1 | |
#define CFIG_CRS_CDT BIT_7 | |
//- Byte 16 (Default Value = 0, ALWAYS) | |
//- Byte 17 (Default Value = 40h, ALWAYS) | |
//- Byte 18 (Default Value = F2h) | |
#define CFIG_STRIPPING BIT_0 | |
#define CFIG_PADDING BIT_1 | |
#define CFIG_RX_CRC_TRANSFER BIT_2 | |
//- Byte 19 (Default Value = 80h) | |
#define CFIG_FORCE_FDX BIT_6 | |
#define CFIG_FDX_PIN_ENABLE BIT_7 | |
//- Byte 20 (Default Value = 3Fh) | |
#define CFIG_MULTI_IA BIT_6 | |
//- Byte 21 (Default Value = 05) | |
#define CFIG_MC_ALL BIT_3 | |
/*-----------------------------------------------------------------------*/ | |
#define D102_REVID 0x0b | |
#define HALF_DUPLEX 1 | |
#define FULL_DUPLEX 2 | |
typedef struct s_data_instance { | |
UINT16 State; // stopped, started or initialized | |
UINT16 Bus; | |
UINT8 Device; | |
UINT8 Function; | |
UINT16 VendorID; | |
UINT16 DeviceID; | |
UINT16 RevID; | |
UINT16 SubVendorID; | |
UINT16 SubSystemID; | |
UINT8 PermNodeAddress[PXE_MAC_LENGTH]; | |
UINT8 CurrentNodeAddress[PXE_MAC_LENGTH]; | |
UINT8 BroadcastNodeAddress[PXE_MAC_LENGTH]; | |
UINT32 Config[MAX_PCI_CONFIG_LEN]; | |
UINT32 NVData[MAX_EEPROM_LEN]; | |
UINT32 ioaddr; | |
UINT32 flash_addr; | |
UINT16 LinkSpeed; // actual link speed setting | |
UINT16 LinkSpeedReq; // requested (forced) link speed | |
UINT8 DuplexReq; // requested duplex | |
UINT8 Duplex; // Duplex set | |
UINT8 CableDetect; // 1 to detect and 0 not to detect the cable | |
UINT8 LoopBack; | |
UINT16 TxBufCnt; | |
UINT16 TxBufSize; | |
UINT16 RxBufCnt; | |
UINT16 RxBufSize; | |
UINT32 RxTotals; | |
UINT32 TxTotals; | |
UINT16 int_mask; | |
UINT16 Int_Status; | |
UINT16 PhyRecord[2]; // primary and secondary PHY record registers from eeprom | |
UINT8 PhyAddress; | |
UINT8 int_num; | |
UINT16 NVData_Len; | |
UINT32 MemoryLength; | |
RxFD *rx_ring; // array of rx buffers | |
TxCB *tx_ring; // array of tx buffers | |
struct speedo_stats *statistics; | |
TxCB *FreeTxHeadPtr; | |
TxCB *FreeTxTailPtr; | |
RxFD *RFDTailPtr; | |
UINT64 rx_phy_addr; // physical addresses | |
UINT64 tx_phy_addr; | |
UINT64 stat_phy_addr; | |
UINT64 MemoryPtr; | |
UINT64 Mapped_MemoryPtr; | |
UINT64 xmit_done[TX_BUFFER_COUNT << 1]; // circular buffer | |
UINT16 xmit_done_head; // index into the xmit_done array | |
UINT16 xmit_done_tail; // where are we filling now (index into xmit_done) | |
UINT16 cur_rx_ind; // current RX Q head index | |
UINT16 FreeCBCount; | |
BOOLEAN in_interrupt; | |
BOOLEAN in_transmit; | |
BOOLEAN Receive_Started; | |
UINT8 Rx_Filter; | |
UINT8 VersionFlag; // UNDI30 or UNDI31?? | |
UINT8 rsvd[3]; | |
struct mc{ | |
UINT16 reserved [3]; // padding for this structure to make it 8 byte aligned | |
UINT16 list_len; | |
UINT8 mc_list[MAX_MCAST_ADDRESS_CNT][PXE_MAC_LENGTH]; // 8*32 is the size | |
} mcast_list; | |
UINT64 Unique_ID; | |
EFI_PCI_IO_PROTOCOL *Io_Function; | |
// | |
// Original PCI attributes | |
// | |
UINT64 OriginalPciAttributes; | |
VOID (*Delay_30)(UINTN); // call back routine | |
VOID (*Virt2Phys_30)(UINT64 virtual_addr, UINT64 physical_ptr); // call back routine | |
VOID (*Block_30)(UINT32 enable); // call back routine | |
VOID (*Mem_Io_30)(UINT8 read_write, UINT8 len, UINT64 port, UINT64 buf_addr); | |
VOID (*Delay)(UINT64, UINTN); // call back routine | |
VOID (*Virt2Phys)(UINT64 unq_id, UINT64 virtual_addr, UINT64 physical_ptr); // call back routine | |
VOID (*Block)(UINT64 unq_id, UINT32 enable); // call back routine | |
VOID (*Mem_Io)(UINT64 unq_id, UINT8 read_write, UINT8 len, UINT64 port, | |
UINT64 buf_addr); | |
VOID (*Map_Mem)(UINT64 unq_id, UINT64 virtual_addr, UINT32 size, | |
UINT32 Direction, UINT64 mapped_addr); | |
VOID (*UnMap_Mem)(UINT64 unq_id, UINT64 virtual_addr, UINT32 size, | |
UINT32 Direction, UINT64 mapped_addr); | |
VOID (*Sync_Mem)(UINT64 unq_id, UINT64 virtual_addr, | |
UINT32 size, UINT32 Direction, UINT64 mapped_addr); | |
} NIC_DATA_INSTANCE; | |
#pragma pack(1) | |
struct MC_CB_STRUCT{ | |
UINT16 count; | |
UINT8 m_list[MAX_MCAST_ADDRESS_CNT][ETHER_MAC_ADDR_LEN]; | |
}; | |
#pragma pack() | |
#define FOUR_GIGABYTE (UINT64)0x100000000ULL | |
#endif | |