/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2007 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #ifndef _SYS_ERI_MAC_H #define _SYS_ERI_MAC_H #pragma ident "%Z%%M% %I% %E% SMI" #ifdef __cplusplus extern "C" { #endif /* * HOST MEMORY DATA STRUCTURES * Transmit and Receive Descriptor Rings */ /* The Descriptor Ring base Addresses must be 2K-byte aligned */ #define ERI_GMDALIGN (2048) /* * The transmit and receiver Descriptor Rings are organized as "wrap-around * descriptors and are of programmable size. * Each descriptor consists of two double-word entries: a control/status entry * and a pointer to a data buffer. * The no. of entries is programmable in binary increments, from 32 to 8192. * TBD: Even though the Receive Desriptor ring size is 8k, provide for a user * configurable variable to specify the max.no. of Rx buffers posted. */ #define ERI_TMDMAX (4096) /* Transmit descriptor ring size */ #define ERI_RMDMAX (4096) /* Receive descriptor ring size */ /* * ----------------------------- * Transmit descriptor structure * ----------------------------- */ struct eri_tmd { uint64_t tmd_flags; /* INTME, SOP, EOP, cksum, bufsize */ uint64_t tmd_addr; /* buffer address */ }; /* fields in the tmd_flags */ #define ERI_TMD_BUFSIZE (0x7fff << 0) /* 0-14 : Tx Data buffer size */ /* valid values in range 0 - 17k */ #define ERI_TMD_CSSTART (0x3f << 15) /* 15-20 : Checksum start offset */ /* value must be even */ #define ERI_TMD_CSSTUFF (0xff << 21) /* 21-28 : Checksum stuff offset */ /* value must be even */ #define ERI_TMD_CSENABL (1 << 29) /* 29 : Enable checksum computation */ #define ERI_TMD_EOP (1 << 30) /* 30 : End Of Packet flag */ #define ERI_TMD_SOP ((uint64_t)1 << 31) /* 31 : Packet Start flag */ #define ERI_TMD_INTME ((uint64_t)1 << 32) /* 32 : Interrupt me now */ #define ERI_TMD_NOCRC ((uint64_t)1 << 33) /* 33 : Do not insert CRC */ #define ERI_TMD_CSSTART_SHIFT 15 /* checksum start bit position */ #define ERI_TMD_CSSTUFF_SHIFT 21 /* checksum stuff bit position */ /* * TCP Header offset within Ethernet Packet: * 14 Bytes Ethernet Header + 20 IP Header. */ #define ERI_TCPHDR_OFFSET 34 #define ERI_IPHDR_OFFSET 20 /* * TCP Checksum stuff offset within Ethernet packet: * 34 Bytes up to TCP Header + 16 Bytes within TCP header */ #define ERI_TCPCSUM_OFFSET 50 #define ERI_TMDCSUM_CTL (ERI_TMD_CSENABL | \ (ERI_TCPHDR_OFFSET << ERI_TMD_CSSTART_SHIFT) | \ (ERI_TCPCSUM_OFFSET << ERI_TMD_CSSTUFF_SHIFT)) /* * Programming Notes: * * 1. TX Kick Register is used to hand over TX descriptors to the hardware. * TX Completion Register is used by hardware to handover TX descriptors * back to the software. * * 2. ERI never writes back TX descriptors. * * 2. If a packet resides in more than one buffer, the Checksum_Enable, * Checksum_Stuff_Offset, Checksum_Start_Offset and Int_me fields need to * be set only in the first descriptor for the packet. * * 3. The hardware implementation relies on the fact that if a buffer * starts at an "odd" boundary, the DMA state machine can "rewind" * to the nearest burst boundary and execute a full DVMA burst Read. * * There is no other alignment restriction for the transmit data buffer. */ /* * ----------------------------- * Receive Descriptor structure * ---------------------------- */ struct rmd { uint64_t rmd_flags; /* hash_val, hash_pass, bad, OWN, buf/data size, cksum */ uint64_t rmd_addr; /* 8-byte aligned buffer address */ }; /* * fields in the rmd_flags */ #define ERI_RMD_CKSUM (0xffff << 0) /* 0-15 : checksum computed */ #define ERI_RMD_BUFSIZE (0x7fff << 16) /* 16-30 : buffer/frame size */ #define ERI_RMD_OWN ((uint64_t)1 << 31) /* 31 : Ownership flag */ /* 0 - owned by software */ /* 1 - owned by hardware */ #define ERI_RMD_RESERVED1 ((uint64_t)0xfff << 32) /* 32-43 : Reserved */ #define ERI_RMD_HASHVAL ((uint64_t)0xffff << 44) /* 44-59 : hash value */ #define ERI_RMD_HASHPASS ((uint64_t)1 << 60) /* 60 : pass hash filter */ #define ERI_RMD_ALTERNATE ((uint64_t)1 << 61) /* 61 : matched alternate MAC adrs */ #define ERI_RMD_BAD ((uint64_t)1 << 62) /* 62 : bad CRC frame */ #define ERI_RMD_RESERVED2 ((uint64_t)1 << 63) /* 63 : Reserved */ #define ERI_RMD_BUFSIZE_SHIFT 16 /* buffer/data size bit position */ #define ERI__RMD_BUFALIGN 8 /* * ERI REGISTER SPACE * The comments are in the following format: * Addres_Offset R/W Default Actual_size(bits) Description */ /* * Global Register Space : Paritally Modified for ERI */ struct global { uint32_t seb_state; /* 0x0000 RO 0x00000000 03 SEB State Register */ uint32_t config; /* 0x0004 RW 0x00000000 17 Configuration Register */ uint32_t reserved2; /* 0x0008 */ uint32_t status; /* 0x000C R-AC 0x00000000 25 Int. Status Register */ uint32_t intmask; /* 0x0010 RW 0xFFFFFFFF 12 Interrupt Mask Reg */ uint32_t intack; /* 0x0014 WO 0x00000000 06 Interrupt Ack Register */ uint32_t reserved3; /* 0x0018 */ uint32_t status_alias; /* 0x001C RO 0x00000000 25 Int. Stat Reg Alias */ uint32_t reserved4[1016]; /* To skip to 0x1000 */ uint32_t err_status; /* 0x1000 R-AC 0x00000000 03 PCI Error Status Reg. */ uint32_t reset; /* 0x1010 RW-AC 0x00 3 Software Reset Reg */ }; /* * * SBus IO configuration (RW) * To configure parameters that define the DMA burst and internal arbitration. */ #define ERI_SIOCFG_BSIZE32 (0x1 << 0) /* 32 byte burst sizeb state */ #define ERI_SIOCFG_BSIZE64 (0x1 << 1) /* 64 byte burst sizeb state */ #define ERI_SIOCFG_BSIZE128 (0x1 << 2) /* 128 byte burst sizeb state */ #define ERI_SIOCFG_BMODE64 (0x1 << 3) /* Sbus 64 bit mode */ #define ERI_SIOCFG_PARITY (0x1 << 9) /* Sbus Parity enabled. */ /* * SEB State Register (RO) * Reflects the internal state of the arbitration between TX and RX * DMA Channels. Used for diagnostics only */ #define ERI_SEB_ARBSTS (0x2 << 0) /* Arbiter state */ #define ERI_SEB_RXWON (1 << 2) /* RX won the arbitration */ /* * Global Configuration Register (RW) * To configure parameters that define the DMA burst and internal arbitration. * TX/RX_DMA_LIMIT: No. of data transfers in 64-byte multiples * 0 - peririty changes at packet boundaries * default: 0x042 */ #define ERI_G_CONFIG_BURST_SIZE (0x1 << 0) /* 0:infinite/64-byte burst */ #define ERI_G_CONFIG_TX_DMA_LIM (0x1f << 1) /* 5-1: TX_DMA_Limit */ #define ERI_G_CONFIG_RX_DMA_LIM (0x1f << 6) /* 10-6: RX_DMA_Limit */ #define ERI_G_CONFIG_BURST_64 0x0 /* max burst size 64 */ #define ERI_G_CONFIG_BURST_INF 0x1 /* infinite burst for whole pkt len */ #define ERI_G_CONFIG_TX_DMA_LIM_SHIFT 1 #define ERI_G_CONFIG_RX_DMA_LIM_SHIFT 6 /* * Global Interrupt Status Register (R-AC) * size: 32 bits: 0-31 * default: 0x00000000 * This is the top level register used to communicate to the software events * that were detected by the hardware. * Top level bits 0-6 are automatically cleared to 0 when the Status Register * is read. * Second level interrupts reported by bits 13-18 are cleared at the source. * The value of the TX Completion Register is replicated in bits 19-31. */ #define ERI_G_STATUS_TX_INT_ME (1 << 0) /* 0 - set when a frame with INT_ME bit set is transferred to FIFO */ #define ERI_G_STATUS_TX_ALL (1 << 1) /* 1 - TX desc. ring empty */ #define ERI_G_STATUS_TX_DONE (1 << 2) /* 2 - from host to TX FIFO */ #define ERI_G_STATUS_RES1 (1 << 3) /* 3 - reserved */ #define ERI_G_STATUS_RX_DONE (1 << 4) /* 4 - from RXFIFO to host */ #define ERI_G_STATUS_RX_NO_BUF (1 << 5) /* 5 - no RX buff available */ #define ERI_G_STATUS_RX_TAG_ERR (1 << 6) /* 6 - RX tag error */ #define ERI_G_STATUS_PERR_INT (1 << 7) /* 7 - Parity Err sts reg */ #define ERI_G_STATUS_RES2 (0x3f << 7) /* 7-12 : reserved */ #define ERI_G_STATUS_PCS_INT (1 << 13) /* 13 - PCS Interrupt */ #define ERI_G_STATUS_TX_MAC_INT (1 << 14) /* 14 - TX MAC stat reg set */ #define ERI_G_STATUS_RX_MAC_INT (1 << 15) /* 15 - RX MAC stat reg set */ #define ERI_G_STATUS_MAC_CTRL_INT (1 << 16) /* 16 - MAC control reg */ #define ERI_G_STATUS_MIF_INT (1 << 17) /* 17 - MIF status reg set */ #define ERI_G_STATUS_BUS_ERR_INT (1 << 18) /* 18 - BUS Err sts reg */ #define ERI_G_STATUS_TX_COMPL (0xfff80000) /* 19-31: TX Completion reg */ #define ERI_G_STATUS_INTR (0xffffffff & ~(ERI_G_STATUS_TX_DONE |\ ERI_G_STATUS_TX_ALL |\ ERI_G_STATUS_MAC_CTRL_INT | ERI_G_STATUS_TX_COMPL)) #define ERI_G_STATUS_TX_INT (ERI_G_STATUS_TX_DONE | ERI_G_STATUS_TX_ALL) #define ERI_G_STATUS_RX_INT (~ERI_G_STATUS_TX_COMPL & ~ERI_G_STATUS_TX_INT) #define ERI_G_STATUS_FATAL_ERR (ERI_G_STATUS_RX_TAG_ERR | \ ERI_G_STATUS_PERR_INT | \ ERI_G_STATUS_BUS_ERR_INT) #define ERI_G_STATUS_NONFATAL_ERR (ERI_G_STATUS_TX_MAC_INT | \ ERI_G_STATUS_RX_MAC_INT | \ ERI_G_STATUS_MAC_CTRL_INT) #define ERI_G_STATUS_TX_COMPL_SHIFT 19 #define ERI_G_STATUS_TX_COMPL_MASK 0x1fff /* * Global Interrupt Mask register (RW) * size: 32 bits * default: 0xFFFFFFFF * There is one-to-one correspondence between the bits in this register and * the Global Status register. * If a mask bit is 0, the corresponding event causes an interrupt. */ #define ERI_G_MASK_TX_INT_ME (1 << 0) /* 0 - set when a frame with INT_ME bit set is transferred to FIFO */ #define ERI_G_MASK_TX_ALL (1 << 1) /* 1 - TX desc. ring empty */ #define ERI_G_MASK_TX_DONE (1 << 2) /* 2 - from host to TX FIFO */ #define ERI_G_MASK_RES1 (1 << 3) /* 3 - reserved */ #define ERI_G_MASK_RX_DONE (1 << 4) /* 4 - from RXFIFO to host */ #define ERI_G_MASK_RX_NO_BUF (1 << 5) /* 5 - no RX bufer available */ #define ERI_G_MASK_RX_TAG_ERR (1 << 6) /* 6 - RX tag error */ #define ERI_G_MASK_RES2 (0x3f << 7) /* 7-13 : reserved */ #define ERI_G_MASK_PCS_INT (1 << 13) /* 13 - PCS Interrupt */ #define ERI_G_MASK_TX_MAC_INT (1 << 14) /* 14 - TX MAC status reg set */ #define ERI_G_MASK_RX_MAC_INT (1 << 15) /* 15 - RX MAC status reg set */ #define ERI_G_MASK_MAC_CTRL_INT (1 << 16) /* 16 - MAC control reg set */ #define ERI_G_MASK_MIF_INT (1 << 17) /* 17 - MIF status reg set */ #define ERI_G_MASK_BUS_ERR_INT (1 << 18) /* 18 - BUS Error sts reg set */ #define ERI_G_MASK_INTR (~ERI_G_STATUS_INTR | ERI_G_MASK_PCS_INT) #define ERI_G_MASK_ALL (0xffffffffu) /* * Interrupt Ack Register (WO) * Its layout corresponds to the layout of the top level bits of the Interrupt * Status register. * Bit positions written high will be cleared, while bit positions written low * have no effect on the Interrupt Status Register. */ /* * Status Register Alias (RO) * This location presents the same view as the Interrupt Status Register, except * that reading from this location does not automatically clear any of the * register bits. */ /* * PCI Error Status Register (R-AC) * Other PCI bus errors : The specific error may be read from * the PCI Status Register in PCI Configuration space */ #define ERI_G_STS_BADACK (1 << 0) /* no ACK64# during ABS64 */ #define ERI_G_STS_DTRTO (1 << 1) /* Delayed trans timeout */ #define ERI_G_STS_OTHERS (1 << 2) /* * PCI Error Mask Register (RW) * size: 32 bits * default: 0xffffffff * Same layout as the PCI Error Status Register */ #define ERI_G_PCI_ERROR_MASK 0x00 /* * BIF Configuration Register * default: 0x0 * Used to configure specific system information for the BIF block to optimize. * Default values indicate no special knowledge is assumed by BIF. * M66EN is RO bit. * 66 MHz operation (RO) May be used by the driver to sense * whether ERI is operating in a 66MHz or 33 MHz PCI segment */ #define ERI_G_BIFCFG_SLOWCLK (1 << 0) /* for parity error timing */ #define ERI_G_BIFCFG_HOST_64 (1 << 1) /* 64-bit host */ #define ERI_G_BIFCFG_B64D_DIS (1 << 2) /* no 64-bit wide data */ #define ERI_G_BIFCFG_M66EN (1 << 3) /* * BIF Diagnostic register (RW) * TBD */ /* * Global Software Reset Register - RW-AC * The lower 2bits are used to perform an individual Software Reset to the * TX or RX functions (when the corresponding bit is set), or * a Global Software Reset to the ERI (when both bits are set). * These bits become "self cleared" after the corresponding reset command * has been executed. After a reset, the software must poll this register * till both the bits are read as 0's. * The third bit (RSTOUT) is not self clearing and is used to activate * the RSTOUT# pin, when set. When clear, RSTOUT# follows the level of the * PCI reset input pin. */ #define ERI_G_RESET_ETX (1 << 0) /* Reset ETX */ #define ERI_G_RESET_ERX (1 << 1) /* Reset ERX */ #define ERI_G_RESET_RSTOUT (1 << 2) /* force the RSTOUT# pin active */ #define ERI_G_CACHE_BIT 16 #define ERI_G_CACHE_LINE_SIZE_16 16 /* cache line size of 64 bytes */ #define ERI_G_CACHE_LINE_SIZE_32 32 /* cache line size of 128 bytes */ #define ERI_G_CACHE_16 (ERI_G_CACHE_LINE_SIZE_16 << ERI_G_CACHE_BIT) #define ERI_G_CACHE_32 (ERI_G_CACHE_LINE_SIZE_32 << ERI_G_CACHE_BIT) #define ERI_G_RESET_GLOBAL (ERI_G_RESET_ETX | ERI_G_RESET_ERX) /* * Transmit DMA Register set * tx_kick and tx_completion registers are set to 0 when ETX is reset. */ struct etx { uint32_t tx_kick; /* 0x2000 RW Transmit Kick Register */ uint32_t config; /* 0x2004 RW ETX Configuration Register */ uint32_t txring_lo; /* 0x2008 RW Transmit Descriptor Base Low */ uint32_t txring_hi; /* 0x200C RW Transmit Descriptor Base Low */ uint32_t reserved1; /* 0x2010 */ uint32_t txfifo_wr_ptr; /* 0x2014 RW TxFIFO Write Pointer */ uint32_t txfifo_sdwr_ptr; /* 0x2018 RW TxFIFO Shadow Write Pointer */ uint32_t txfifo_rd_ptr; /* 0x201C RW TxFIFO Read Pointer */ uint32_t txfifo_sdrd_ptr; /* 0x2020 RW TxFIFO Shadow Read Pointer */ uint32_t txfifo_pkt_cnt; /* 0x2024 RO TxFIFO Packet Counter */ uint32_t state_mach; /* 0x2028 RO ETX State Machine Reg */ uint32_t reserved2; /* 0x202C */ uint32_t txdata_ptr_lo; /* 0x2030 RO ETX State Machine Register */ uint32_t txdata_ptr_hi; /* 0x2034 RO ETX State Machine Register */ uint32_t reserved3[50]; /* 0x2038 - 0x20FC */ uint32_t tx_completion; /* 0x2100 RO ETX Completion Register */ uint32_t txfifo_adrs; /* 0x2104 RW ETX FIFO address */ uint32_t txfifo_tag; /* 0x2108 RO ETX FIFO tag */ uint32_t txfifo_data_lo; /* 0x210C RW ETX FIFO data low */ uint32_t txfifo_data_hi_T1; /* 0x2110 RW ETX FIFO data high T1 */ uint32_t txfifo_data_hi_T0; /* 0x2114 RW ETX FIFO data high T0 */ uint32_t txfifo_size; /* 0x2118 RO ETX FIFO size */ uint32_t reserved4[964]; /* 0x211C - 0x3024 */ uint32_t txdebug; /* 0x3028 RW ETX Debug Register */ }; /* * TX Kick Register (RW) * size: 13-bits * default: 0x0 * Written by the host CPU with the descriptor value that follows the last * valid Transmit descriptor. */ /* * TX Completion Register * size: 13-bits * default: 0x0 * This register stores the descriptor value that follows the last descriptor * already processed by ERI. * */ #define ETX_COMPLETION_MASK 0x1fff /* * ETX Configuration Register * default: 0x118010 * This register stores parameters that control the operation of the transmit * DMA channel. * If the desire is to buffer an entire standard Ethernet frame before its * transmission is enabled, the Tx-FIFO-Threshold field has to be programmed * to a value = > 0xC8. (CHECK). Default value is 0x460. * Matewos: Changed the above to 0x400. Getting FIFO Underflow in the * case if Giga bit speed. * Bit 21 is used to modify the functionality of the Tx_All interrupt. * If it is 0, Tx_All interrupt is generated after processing the last * transmit descriptor. * If it is 1, Tx_All interrupt is generated only after the entire * Transmit FIFO has been drained. */ #define GET_CONFIG_TXDMA_EN (1 << 0) /* 0 - Enable Tx DMA */ #define GET_CONFIG_TXRING_SZ (0xf << 1) /* 1-4:Tx desc ring size */ #define GET_CONFIG_RESERVED (0x1f << 5) /* 5-9: Reserved */ #define GET_CONFIG_TXFIFOTH (0x7ff << 10) /* 10-20 :TX FIFO Threshold */ /* * RIO specific value: TXFIFO threshold needs to be set to 1518/8. * It was set to (0x4FF << 10) for GEM. * set it back to 0x4ff. * set it to 190 receive TXMAC underrun and hang * try 0x100 * try 0x4ff * try 0x100 */ #define ETX_ERI_THRESHOLD 0x100 #define ETX_CONFIG_THRESHOLD (ETX_ERI_THRESHOLD << 10) #define GET_CONFIG_PACED_MODE (1 << 21) /* 21 - TX_all_int mod */ #define GET_CONFIG_THRESHOLD (0x400 << 10) /* For Ethernet Packets */ #define GET_CONFIG_RINGSZ (ERI_TMDMAX << 1) /* for 2048 descriptors */ /* * ETX TX ring size * This is a 4-bit value to determine the no. of descriptor entries in the * TX-ring. The number of entries can vary from 32 through 8192 in multiples * of 2. */ #define ERI_TX_RINGSZ_SHIFT 1 #define ETX_RINGSZ_32 0 #define ETX_RINGSZ_64 1 #define ETX_RINGSZ_128 2 #define ETX_RINGSZ_256 3 #define ETX_RINGSZ_512 4 #define ETX_RINGSZ_1024 5 #define ETX_RINGSZ_2048 6 #define ETX_RINGSZ_4096 7 #define ETX_RINGSZ_8192 8 /* values 9-15 are reserved. */ /* * Transmit Descriptor Base Low and High (RW) * The 53 most significant bits are used as the base address for the TX * descriptor ring. The 11 least significant bits are not stored and assumed * to be 0. * This register should be initialized to a 2KByte-aligned value after power-on * or Software Reset. */ /* * TX FIFO size (RO) * This 11-bit RO register indicates the size, in 64 byte multiples, of the * TX FIFO. * The value of this register is 0x90, indicating a 9Kbyte TX FIFO. */ /* * ERX Register Set */ struct erx { uint32_t config; /* 0x4000 RW ERX Configuration Register */ uint32_t rxring_lo; /* 0x4004 RW Receive Descriptor Base low */ uint32_t rxring_hi; /* 0x4008 RW Receive Descriptor Base high */ uint32_t rxfifo_wr_ptr; /* 0x400C RW RxFIFO Write Pointer */ uint32_t rxfifo_sdwr_ptr; /* 0x4010 RW RxFIFO Shadow Write Pointer */ uint32_t rxfifo_rd_ptr; /* 0x4014 RW RxFIFO Read pointer */ uint32_t rxfifo_pkt_cnt; /* 0x4018 RO RxFIFO Packet Counter */ uint32_t state_mach; /* 0x401C RO ERX State Machine Register */ uint32_t rx_pause_threshold; /* 0x4020 RW ERX Pause thresholds */ uint32_t rxdata_ptr_lo; /* 0x4024 RO ERX Data Pointer low */ uint32_t rxdata_ptr_hi; /* 0x4028 RO ERX Data Pointer high */ uint32_t reserved1[53]; /* 0x402C - 0x40FC */ uint32_t rx_kick; /* 0x4100 RW ERX Kick Register */ uint32_t rx_completion; /* 0x4104 RO ERX Completion Register */ uint32_t rx_blanking; /* 0x4108 RO ERX Blanking Register */ uint32_t rxfifo_adrs; /* 0x410C RW ERX FIFO address */ uint32_t rxfifo_tag; /* 0x4110 RO ERX FIFO tag */ uint32_t rxfifo_data_lo; /* 0x4114 RW ERX FIFO data low */ uint32_t rxfifo_data_hi_T0; /* 0x4118 RW ERX FIFO data high T0 */ uint32_t rxfifo_data_hi_T1; /* 0x411C RW ERX FIFO data high T1 */ uint32_t rxfifo_size; /* 0x4120 RW ERX FIFO size */ }; /* * ERX Configuration Register - RW * This 27-bit register determines the ERX-specific parameters that control the * operation of the receive DMA channel. * Default : 0x1000010 */ #define GET_CONFIG_RXDMA_EN (1 << 0) /* 0 : Enable Rx DMA */ #define ERI_RX_CONFIG_RXRING_SZ (0xf << 1) /* 1-4 : RX ring size */ #define ERI_RX_CONFIG_BATDIS (1 << 5) /* Disable RX desc batching */ #define ERI_RX_CONFIG_RES1 (0xf << 6) /* 6-9 : reserverd */ #define ERI_RX_CONFIG_FBOFFSET (0x7 << 10) /* 10-12 : 1st Byte Offset */ #define ERI_RX_CONFIG_RX_CSSTART (0x7f << 13) /* 13-19:cksum start offset */ #define ERI_RX_CONFIG_RES2 (0xf << 20) /* 20-23 : reserve */ #define ERI_RX_CONFIG_RXFIFOTH (0x7 << 24) /* 24-26:RX DMA threshold */ #define ERI_RX_RINGSZ_SHIFT 1 #define ERI_RX_CONFIG_FBO_SHIFT 10 #define ERI_RX_CONFIG_RX_CSSTART_SHIFT 13 #define ERI_RX_CONFIG_RXFIFOTH_SHIFT 24 #define ERX_RINGSZ_32 0 #define ERX_RINGSZ_64 1 #define ERX_RINGSZ_128 2 #define ERX_RINGSZ_256 3 #define ERX_RINGSZ_512 4 #define ERX_RINGSZ_1024 5 #define ERX_RINGSZ_2048 6 #define ERX_RINGSZ_4096 7 #define ERX_RINGSZ_8192 8 /* values 9-15 are reserved. */ #define ERI_RX_FIFOTH_64 0 #define ERI_RX_FIFOTH_128 1 #define ERI_RX_FIFOTH_256 2 #define ERI_RX_FIFOTH_512 3 #define ERI_RX_FIFOTH_1024 4 #define ERI_RX_FIFOTH_2048 5 /* 6 & 7 are reserved values */ /* * Receive Descriptor Base Low and High (RW) * The 53 most significant bits are used as the base address for the RX * descriptor ring. The 11 least significant bits are not stored and assumed * to be 0. * This register should be initialized to a 2KByte-aligned value after power-on * or Software Reset. */ /* * Pause Thresholds Register (RW) * default: 0x000f8 * Two PAUSE thresholds are used to define when PAUSE flow control frames are * emitted by ERI. The granularity of these thresholds is in 64 byte increments. * XOFF PAUSE frames use the pause_time value pre-programmed in the * Send PAUSE MAC Register. * XON PAUSE frames use a pause_time of 0. */ #define ERI_RX_PTH_OFFTH (0x1ff << 0) /* * 0-8: XOFF PAUSE emitted when RX FIFO * occupancy rises above this value (times 64 bytes) */ #define ERI_RX_PTH_RES (0x7 << 9) /* 9-11: reserved */ #define ERI_RX_PTH_ONTH (0x1ff << 12) /* * 12-20: XON PAUSE emitted when RX FIFO * occupancy falls below this value (times 64 bytes) */ #define ERI_RX_PTH_ONTH_SHIFT 12 /* * ------------------------------------------------------------------------ * RX Kick Register (RW) * This is a 13-bit register written by the host CPU. * The last valid RX descriptor is the one right before the value of the * register. * Initially set to 0 on reset. * RX descriptors must be posted in multiples of 4. * The first descriptor should be cache-line aligned for best performance. * ------------------------------------------------------------------------- */ /* * RX Completion Register (RO) * This 13-bit register indicates which descriptors are already used by ERI * for receive frames. * All descriptors upto but excluding the register value are ready to be * processed by the host. */ /* * RX Blanking Register (RW) * Defines the values used for receive interrupt blanking. * For INTR_TIME field, every count is 2048 PCI clock time. For 66 Mhz, each * count is about 16 us. */ #define ERI_RX_BLNK_INTR_PACKETS (0x1ff << 0) /* * 0-8:no.of pkts to be recvd since the last RX_DONE * interrupt, before a new interrupt */ #define ERI_RX_BLNK_RESERVED (0x7 << 9) /* 9-11 : reserved */ #define ERI_RX_BLNK_INTR_TIME (0xff << 12) /* * 12-19 : no. of clocks to be counted since the last * RX_DONE interrupt, before a new interrupt */ #define ERI_RX_BLNK_INTR_TIME_SHIFT 12 /* * RX FIFO Size (RO) * This 11-bit RO register indicates the size, in 64-bit multiples, of the * RX FIFO. Software should use it to properly configure the PAUSE thresholds. * The value read is 0x140, indicating a 20kbyte RX FIFO. */ /* * Declarations and definitions specific to the ERI MAC functional block. * * The ERI MAC block will provide the MAC functons for 10 or 100 Mbps or * 1 Gbps CSMA/CD-protocol-based or full-duplex interface. */ /* * ERI MAC Register Set. * ERI MAC addresses map on a word boundry. So all registers are * declared for a size of 32 bits. Registers that use fewer than 32 * bits will return 0 in the bits not used. * TBD: Define the constant values which should be used for initializing * these registers. */ struct bmac { uint32_t txrst; /* 0x6000 tx software reset (RW) */ uint32_t rxrst; /* 0x6004 rx software reset Reg (RW) */ uint32_t spcmd; /* 0x6008 Send Pause Command Reg (RW) */ uint32_t res1; /* 0x600C reserved */ uint32_t txsts; /* 0x6010 tx MAC status reg (R-AC) */ uint32_t rxsts; /* 0x6014 rx MAC status reg (R-AC) */ uint32_t macctl_sts; /* 0x6018 MAC Control Stat Reg (R-AC) */ uint32_t res2; /* 0x601C reserved */ uint32_t txmask; /* 0x6020 tx MAC Mask Register (RW) */ uint32_t rxmask; /* 0x6024 rx MAC Mask register (RW) */ uint32_t macctl_mask; /* 0x6028 MAC Control Mask Reg (RW) */ uint32_t res3; /* 0x602C reserved */ uint32_t txcfg; /* 0x6030 tx config reg [8-0] (RW) */ uint32_t rxcfg; /* 0x6034 rx config reg [7-0] (RW) */ uint32_t macctl_cfg; /* 0x6038 MAC Control Config Reg (RW) */ uint32_t xifc; /* 0x603C XIF Config. reg [7-0] (RW) */ uint32_t ipg0; /* 0x6040 Inter pkt Gap 0 [7-0] (RW) */ uint32_t ipg1; /* 0x6044 Inter pkt Gap 1 [7-0] (RW) */ uint32_t ipg2; /* 0x6048 Inter pkt Gap 2 [7-0] (RW) */ uint32_t slot; /* 0x604C slot time reg [7-0] (RW) */ uint32_t macmin; /* 0x6050 MAC min frame sze [9-0](RW) */ uint32_t macmax; /* 0x6054 MAC max pkt sze [14-0] (RW) */ uint32_t palen; /* 0x6058 preamble len reg [9-0] (RW) */ uint32_t jam; /* 0x605C jam size reg [3-0] (RW) */ uint32_t alimit; /* 0x6060 attempt limit reg [7-0](RW) */ uint32_t macctl_type; /* 0x6064 MAC Control Type Reg (RW) */ uint32_t res4[6]; /* reserved 0x6068 - 0x607C */ uint32_t madd0; /* 0x6080 Norm MAC adrs 0 [15-0] (RW) */ uint32_t madd1; /* 0x6084 Norm MAC adrs 1 [31-16](RW) */ uint32_t madd2; /* 0x6088 Norm MAC adrs 2 [47-32](RW) */ uint32_t madd3; /* 0x608C Alt. MAC adrs 0 [15-0](RW) */ uint32_t madd4; /* 0x6090 Alt. MAC adrs 1 [31-16](RW) */ uint32_t madd5; /* 0x6094 Alt. MAC adrs 2 [47-32](RW) */ uint32_t madd6; /* 0x6098 Control MAC adrs 0 [15-0](RW) */ uint32_t madd7; /* 0x609C Control MAC adrs 1 [31-16](RW) */ uint32_t madd8; /* 0x60A0 Control MAC adrs 2 [47-32](RW) */ uint32_t afr0; /* 0x60A4 addr filt reg 0_0 [15-0](RW) */ uint32_t afr1; /* 0x60A8 addr filt reg 0_1 [15-0](RW) */ uint32_t afr2; /* 0x60AC addr filt reg 0_2 [15-0](RW) */ uint32_t afmr1_2; /* 0x60B0 addr filt msk reg 1,2 [8-0](RW) */ uint32_t afmr0; /* 0x60B4 addr filt msk reg 0 [15-0](RW) */ uint32_t res5[2]; /* 0x60B8 - 0x60BC Reserved */ uint32_t hash0; /* 0x60C0 h-table 0 [15-0] (RW) */ uint32_t hash1; /* 0x60C4 h-table 1 [31-16] (RW) */ uint32_t hash2; /* 0x60C8 h-table 2 [47-32] (RW) */ uint32_t hash3; /* 0x60CC h-table 3 [63-48] (RW) */ uint32_t hash4; /* 0x60D0 h-table 4 [79-64] (RW) */ uint32_t hash5; /* 0x60D4 h-table 5 [95-80] (RW) */ uint32_t hash6; /* 0x60D8 h-table 6 [111-96] (RW) */ uint32_t hash7; /* 0x60DC h-table 7 [127-112] (RW) */ uint32_t hash8; /* 0x60E0 h-table 8 [143-128] (RW) */ uint32_t hash9; /* 0x60E4 h-table 9 [159-144] (RW) */ uint32_t hash10; /* 0x60E8 h-table 10 [175-160] (RW) */ uint32_t hash11; /* 0x60EC h-table 11 [191-176] (RW) */ uint32_t hash12; /* 0x60F0 h-table 12 [207-192] (RW) */ uint32_t hash13; /* 0x60F4 h-table 13 [223-208] (RW) */ uint32_t hash14; /* 0x60F8 h-table 14 [239-224] (RW) */ uint32_t hash15; /* 0x60FC h-table 15 [255-240] (RW) */ uint32_t nccnt; /* 0x6100 normal coll cnt [15-0] (RW) */ uint32_t fccnt; /* 0x6104 1st succes coll [15-0] (RW) */ uint32_t excnt; /* 0x6108 excess coll cnt[15-0] (RW) */ uint32_t ltcnt; /* 0x610C late coll cnt [15-0] (RW) */ uint32_t dcnt; /* 0x6110 defer timer cnt [15-0] (RW) */ uint32_t pattempts; /* 0x6114 peak attempt reg [7-0] (RW) */ uint32_t frcnt; /* 0x6118 rcv frame cnt [15-0] (RW) */ uint32_t lecnt; /* 0x611C rx len err cnt [15-0] (RW) */ uint32_t aecnt; /* 0x6120 rx align err cnt[15-0] (RW) */ uint32_t fecnt; /* 0x6124 rcv crc err cnt [15-0] (RW) */ uint32_t rxcv; /* 0x6128 rx code viol reg [15-0](RW) */ uint32_t res6; /* 0x612C Reserved */ uint32_t rseed; /* 0x6130 random num seed [9-0] (RW) */ uint32_t macsm; /* 0x6134 MAC state mach reg [7-0](R) */ }; #define BMAC_OVERFLOW_STATE 0x03800000 /* * Constants used for initializing the MAC registers */ #define BMAC_SEND_PAUSE_CMD 0x1BF0 #define BMAC_IPG0 0x00 #define BMAC_IPG1 0x08 #define BMAC_IPG2 0x04 #define BMAC_SLOT_TIME 0x40 #define BMAC_EXT_SLOT_TIME 0x200 #define BMAC_MIN_FRAME_SIZE 0x40 #define BMAC_MAX_FRAME_SIZE (ETHERMTU + 18 + 4) /* enet + vlan */ /* * Hardware bug: set MAC_FRAME_SIZE to 0x7fff to * get around the problem of tag errors */ #ifdef ERI_RX_TAG_ERROR_WORKAROUND #define BMAC_MAX_FRAME_SIZE_TAG 0x7fff #endif #define BMAC_MAX_BURST (0x2000 << 16) #define BMAC_PREAMBLE_SIZE 0x07 #define BMAC_JAM_SIZE 0x04 #define BMAC_ATTEMPT_LIMIT 0x10 #define BMAC_CONTROL_TYPE 0x8808 #define BMAC_ADDRESS_3 0x0000 #define BMAC_ADDRESS_4 0x0000 #define BMAC_ADDRESS_5 0x0000 #define BMAC_ADDRESS_6 0x0001 #define BMAC_ADDRESS_7 0xC200 #define BMAC_ADDRESS_8 0x0180 #define BMAC_AF_0 0x0000 #define BMAC_AF_1 0x0000 #define BMAC_AF_2 0x0000 #define BMAC_AF21_MASK 0x00 #define BMAC_AF0_MASK 0x0000 #define BMAC_COUNTER 0x0000 /* for all MAC Counters */ /* * ERI MAC Register Bit Masks. */ /* * TX_MAC Software Reset Command Register (RW) * This bit is set to 1 when a PIO write is done. This bit becomes self-cleared. * after the command has been executed. */ #define BMAC_TX_RESET (1 << 0) /* TX_MAC Reset Command */ /* * RX_MAC Software Reset Command Register (RW) * This bit is set to 1 when a PIO write is done. This bit becomes self-cleared. * after the command has been executed. */ #define BMAC_RX_RESET (1 << 0) /* RX_MAC Reset Command */ /* * Send Pause Command Register (RW) * This command register executes a Pause Flow Control frame transmission. * Pause_Time_Sent field indicates to the MAC the value of the pause_time * operand that should be sent on the network using either the Send_Pause * Command bit or the flow control handshake on the RxDMA < - > MAC interface. * The pause-time is interpreted in terms of Slot times. */ /* * 0-15: value of pause_time operand * in terms of slot time */ #define ERI_MCTLSP_TIME (0xffff << 0) #define ERI_MCTLSP_SEND (1 << 16) /* send Pause flow control frame */ /* * TX_MAC Status Register (R-AC) */ #define BMAC_TXSTS_XMIT_DONE (1 << 0) /* Frame transmitted */ #define BMAC_TXSTS_TX_URUN (1 << 1) /* TX MAC Underrun */ #define BMAC_TXSTS_MAXPKT_ERR (1 << 2) /* packet len exceeds max len */ #define BMAC_TXSTS_NCC_EXP (1 << 3) /* Normal Collision cnt exp */ #define BMAC_TXSTS_ECC_EXP (1 << 4) /* Excess Collision cnt exp */ #define BMAC_TXSTS_LCC_EXP (1 << 5) /* Late Collision cnt exp */ #define BMAC_TXSTS_FCC_EXP (1 << 6) /* First Collision cnt exp */ #define BMAC_TXSTS_DEFER_EXP (1 << 7) /* Defer Timer exp */ #define BMAC_TXSTS_PEAK_EXP (1 << 8) /* Peak attempts cnt exp */ /* * TX_MAC Mask Register (RW) */ #define BMAC_TXMASK_XMIT_DONE (1 << 0) /* Frame transmitted */ #define BMAC_TXMASK_TX_URUN (1 << 1) /* TX MAC Underrun */ #define BMAC_TXMASK_MAXPKT_ERR (1 << 2) /* packet len exceeds max len */ #define BMAC_TXMASK_NCC_EXP (1 << 3) /* Normal Collision cnt exp */ #define BMAC_TXMASK_ECC_EXP (1 << 4) /* Excess Collision cnt exp */ #define BMAC_TXMASK_LCC_EXP (1 << 5) /* Late Collision cnt exp */ #define BMAC_TXMASK_FCC_EXP (1 << 6) /* First Collision cnt exp */ #define BMAC_TXMASK_DEFER_EXP (1 << 7) /* Defer Timer exp */ #define BMAC_TXMASK_PEAK_EXP (1 << 8) /* Peak attempts cnt exp */ /* Matewos added defer counter */ #define BMAC_TXINTR_MASK (BMAC_TXMASK_XMIT_DONE | BMAC_TXMASK_DEFER_EXP) /* * RX_MAC Status Register (R-AC) */ #define BMAC_RXSTS_RX_DONE (1 << 0) /* Frame Received */ #define BMAC_RXSTS_RX_OVF (1 << 1) /* RX MAC data path overflow */ #define BMAC_RXSTS_FRMCNT_EXP (1 << 2) /* RX Frame counter exp */ #define BMAC_RXSTS_ALE_EXP (1 << 3) /* RX Alignment error cnt exp */ #define BMAC_RXSTS_CRC_EXP (1 << 4) /* RX CRC error cnt exp */ #define BMAC_RXSTS_LEN_EXP (1 << 5) /* RX Length error cnt exp */ #define BMAC_RXSTS_CVI_EXP (1 << 6) /* RX Code violate err cnt exp */ /* * RX_MAC Mask Register (R-AC) */ #define BMAC_RXMASK_RX_DONE (1 << 0) /* Frame Received */ #define BMAC_RXMASK_RX_OVF (1 << 1) /* RX MAC data path overflow */ #define BMAC_RXMASK_FRMCNT_EXP (1 << 2) /* RX Frame counter exp */ #define BMAC_RXMASK_ALE_EXP (1 << 3) /* RX Alignment error cnt exp */ #define BMAC_RXMASK_CRC_EXP (1 << 4) /* RX CRC error cnt exp */ #define BMAC_RXMASK_LEN_EXP (1 << 5) /* RX Length error cnt exp */ #define BMAC_RXMASK_CVI_EXP (1 << 6) /* RX Code violate err cnt exp */ #define BMAC_RXINTR_MASK (BMAC_RXMASK_RX_DONE | BMAC_RXMASK_FRMCNT_EXP) /* * MAC Control Status Register (R-AC) */ #define ERI_MCTLSTS_PAUSE_RCVD (1 << 0) /* PAUSE received */ #define ERI_MCTLSTS_PAUSE_STATE (1 << 1) /* transition to PAUSE state */ #define ERI_MCTLSTS_NONPAUSE (1 << 2) /* change to non-PAUSE state */ #define ERI_MCTLSTS_RESERVED (0x1fff << 3) /* 3-15: reserved */ #define ERI_MCTLSTS_PAUSE_TIME (0xffff0000) /* 16-31: Pause time recvd */ #define ERI_MCTLSTS_PAUSE_TIME_SHIFT 16 /* * MAC Control Mask Register (RW) * pause time is in slot-time units. */ #define ERI_MCTLMASK_PAUSE_RCVD (1 << 0) /* PAUSE received */ #define ERI_MCTLMASK_PAUSE_STATE (1 << 1) /* transition to PAUSE state */ #define ERI_MCTLMASK_NONPAUSE (1 << 2) /* change to non-PAUSE state */ #define ERI_MCTLMASK_RESERVED (0x1fff << 3) /* 3-15: reserved */ #define ERI_MCTLMASK_PAUSE_TIME (0xffff << 16) /* 16-31: Pause time recvd */ #define ERI_MACCTL_INTR_MASK 0x00000000 /* * XIF Configuration Register * This register determines the parameters that control the operation of the * transceiver interface. * The Disable-echo bit should be 0 for full-duplex mode. * Default: 0x00 */ #define BMAC_XIFC_TX_MII_OE (1 << 0) /* Enable XIF output drivers */ #define BMAC_XIFC_MIILPBK (1 << 1) /* Enable MII Loopback mode */ #define BMAC_XIFC_DIS_ECHO (1 << 2) /* Disable echo */ #define BMAC_XIFC_MII_MODE (1 << 3) /* Selects GMII/MII mode */ #define BMAC_XIFC_MIIBUF_OE (1 << 4) /* Enable MII Recv Buffers */ #define BMAC_XIFC_LINK_LED (1 << 5) /* force LINKLED# active */ #define BMAC_XIFC_FDPLX_LED (1 << 6) /* force FDPLXLED# active */ /* * TX_MAC Configuration Register * Ignore_Carrier_Sense should be set to 1 for full-duplex operation and * cleared to 0 for half-duplex operation.. * Ignore_collisions should be set to 1 for full-duplex operation and cleared * to 0 for half-duplex operation.. * To Ensure proper operation of the TX_MAC, the TX_MAC_Enable bit must always * be cleared to 0 and a delay imposed before a PIO write to any of the other * bits in the TX_MAC Configuration register or any of the MAC parameter * registers is done. * The amount of delay required depends on the time required to transmit a max. * size frame. * Default: TBD */ #define BMACTXRSTDELAY (125) /* 125 us wait period */ /* CHECK */ #define BMAC_TXCFG_ENAB (1 << 0) /* tx enable */ #define BMAC_TXCFG_IGNCS (1 << 1) /* Ignore carrier sense */ #define BMAC_TXCFG_IGCOLL (1 << 2) /* Ignore collisions */ #define BMAC_TXCFG_ENIPG0 (1 << 3) /* Extend Rx-to-Tx IPG */ #define BMAC_TXCFG_NGU (1 << 4) /* Never Give Up */ #define BMAC_TXCFG_NGU_LIMIT (1 << 5) /* Never Give Up limit */ #define BMAC_TXCFG_NBKOFF (1 << 6) /* No Backoff */ #define BMAC_TXCFG_SLOWDOWN (1 << 7) /* Slow down */ #define BMAC_TXCFG_NFCS (1 << 8) /* no FCS will be generated */ #define BMAC_TXCFG_CARR_EXT (1 << 9) /* * Enable TX Carrier Extension Carrier Extension is * required for half-duplex operation at Gbps */ #define BMAC_TXCFG_FDX (BMAC_TXCFG_IGNCS | BMAC_TXCFG_IGCOLL) /* * RX_MAC Configuration Register * A delay of 3.2 ms should be allowed after clearing Rx_MAC_Enable or * Hash_Filter_enable or Address_Filter_Enable bits. * Default: TBD */ /* CHECK 3ms or us */ /* GEM specification: 3.2msec (3200 usec) */ #define BMACRXRSTDELAY (3200) /* 3.2 ms wait period */ #define BMAC_RXCFG_ENAB (1 << 0) /* rx enable */ #define BMAC_RXCFG_STRIP_PAD (1 << 1) /* rx strip pad bytes */ #define BMAC_RXCFG_STRIP_CRC (1 << 2) /* rx enable CRC stripping */ #define BMAC_RXCFG_PROMIS (1 << 3) /* rx enable promiscous */ #define BMAC_RXCFG_GRPROM (1 << 4) /* rx promiscuous group mode */ #define BMAC_RXCFG_HASH (1 << 5) /* rx enable hash filter */ #define BMAC_RXCFG_ADDR (1 << 6) /* rx enable address filter */ #define BMAC_RXCFG_ERR (1 << 7) /* rx disable error checking */ #define BMAC_RXCFG_CARR_EXT (1 << 8) /* * Enable RX Carrier Extension. * Enables the reception of packet bursts * generated by Carrier Extension with * packet bursting senders */ /* * MAC Control Configuration Register (RW) * Default: 0x00 */ #define ERI_MCTLCFG_TXPAUSE (1 << 0) /* Send_PAUSE Enable */ #define ERI_MCTLCFG_RXPAUSE (1 << 1) /* Receive_PAUSE Enable */ #define ERI_MCTLCFG_PASSPAUSE (1 << 2) /* Pass PAUSE up */ /* * MAC Control Type Register (RW) * This 16-bit register specifies the "type" field for the MAC Control frame. * Default: 0x8808 */ /* * MAC Address Registers 0, 1, 2 * Station's Normal peririty MAC address which must be a unicast address. * 0 - [15:0], 1 - [31:16], 2 - [47:32] */ /* * MAC Address Registers 3, 4, 5 * Station's Alternate MAC address which may be a unicast or multicast address. * 3 - [15:0], 4 - [31:16], 5 - [47:32] */ /* * MAC Address Registers 6, 7, 8 * Station's Control MAC address which must be the reserved multicast * address for MAC Control frames. * 6 - [15:0], 7 - [31:16], 8 - [47:32] */ /* * MII Transceiver Interface * * The Management Interface (MIF) allows the host to program and collect status * from two transceivers connected to the MII. MIF supports three modes of * operation: * 1. Bit-Bang Mode * This mode is imlemented using three 1-bit registers: data, clock, * and output_enable. * * 2. Frame Mode * This mode is supported using one 32-bit register: Frame register. * The software loads the Frame Register with avalid instaruction * ("frame"), and polls the Valid Bit for completion. * * 3. Polling Mode * The Polling mechanism is used for detecting a status change in the * transceiver. When this mode is enabled, the MIF will continuously * poll a specified transceiver register and generate a maskable * interrupt when a status change is detected. This mode of operation * can only be used when the MIF is in the "Frame mode". * */ struct mif { uint32_t mif_bbclk; /* 0x6200 (RW) MIF Bit Bang Clock */ uint32_t mif_bbdata; /* 0x6204 (RW) MIF Bit Bang Data */ uint32_t mif_bbopenb; /* 0x6208 (RW) MIF Bit Bang Output Enable */ uint32_t mif_frame; /* 0x620C (RW) MIF Frame - ctl and data */ uint32_t mif_cfg; /* 0x6210 (RW) MIF Configuration */ uint32_t mif_imask; /* 0x6214 (RW) MIF Interrupt mask */ uint32_t mif_bsts; /* 0x6218 (R-AC) MIF Basic/Status register */ uint32_t mif_fsm; /* 0x621C (RO) MIF State machine register */ }; /* * mif_bbclk - Bit Bang Clock register */ #define ERI_MIF_BBCLK (1 << 0); /* Bit Babg Clock */ #define ERI_BBCLK_LOW 0 #define ERI_BBCLK_HIGH 1 /* mif_bbdata - bit Bang Data register */ #define ERI_MIF_BBDATA (1 << 0); /* Bit Bang Data */ /* mif_bbopenb - Bit Bang oOutput Enable register */ #define ERI_MIF_BBOPENB (1 << 0); /* Bit Bang output Enable */ /* * Management Frame Structure: * * READ: <01><10> * WRITE: <01><01><10> */ /* * mif_frame - MIF control and data register */ #define ERI_MIF_FRDATA (0xffff << 0) /* 0-15 : data bits */ #define ERI_MIF_FRTA0 (0x1 << 16) /* 16 : TA bit, 1 for completion */ #define ERI_MIF_FRTA1 (0x1 << 17) /* 16-17 : TA bits */ #define ERI_MIF_FRREGAD (0x1f << 18) /* 18-22 : register address bits */ #define ERI_MIF_FRPHYAD (0x1f << 23) /* 23-27 : PHY ad, should be 0 */ #define ERI_MIF_FROP (0x3 << 28) /* 28-29 : Operation - Write/Read */ #define ERI_MIF_FRST (0xc0000000) /* 30-31 : START bits */ #define ERI_MIF_FRREGAD_SHIFT 18 #define ERI_MIF_FRPHYAD_SHIFT 23 #define ERI_MIF_FRREAD 0x60020000 #define ERI_MIF_FRWRITE 0x50020000 /* * maximum delay for MIF Register Read/Write operation */ #define ERI_MAX_MIF_DELAY (100) /* * maximum delay for Transceiver Reset */ #define ERI_PHYRST_MAXDELAY (500) #define ERI_PCS_PHYRST_MAXDELAY (500) /* * mif_cfg - MIF Configuration Register */ #define ERI_MIF_CFGPS (1 << 0) /* PHY Select */ #define ERI_MIF_CFGPE (1 << 1) /* Poll Enable */ #define ERI_MIF_CFGBB (1 << 2) /* Bit Bang Enable */ #define ERI_MIF_CFGPR (0x1f << 3) /* Poll Register address */ #define ERI_MIF_CFGM0 (1 << 8) /* MDIO_0 Data / MDIO_0 attached */ #define ERI_MIF_CFGM1 (1 << 9) /* MDIO_1 Data / MDIO_1 attached */ #define ERI_MIF_CFGPD (0x1f << 10) /* Poll Device PHY address */ #define ERI_MIF_CFGPR_SHIFT 3 #define ERI_MIF_CFGPD_SHIFT 10 #define ERI_MIF_POLL_DELAY 200 /* * MDIO_0 corresponds to the On Board Transceiver. * MDIO_1 corresponds to the External Transceiver. * The PHYAD for both is 0. */ #define ERI_INTERNAL_PHYAD 1 /* PHY address for int. transceiver */ #define ERI_EXTERNAL_PHYAD 0 /* PHY address for ext. transceiver */ #define ERI_NOXCVR_PHYAD 99 /* PHY address for no transceiver */ /* mif_imask - MIF Interrupt Mask Register */ /* * This register is bit-to-bit same as Basic/Status Register */ #define ERI_MIF_INTMASK (0xffff << 0) /* 0-15 : Interrupt mask */ /* mif_bassts - MIF Basic - Status register */ /* * The Basic portion of this register indicates the last value of the register * read indicated in the POLL REG field of the Configuration Register. * The Status portion indicates bit(s) that have changed. * The MIF Mask register is corresponding to this register in terms of the * bit(s) that need to be masked for generating interrupt on the MIF Interrupt * Bit of the Global Status Rgister. */ #define ERI_MIF_STATUS (0xffff << 0) /* 0-15 : Status */ #define ERI_MIF_BASIC (0xffff << 16) /* 16-31 : Basic register */ /* mif_fsm - MIF State Machine register */ #define ERI_MIF_FSM (0x3ff << 0) /* 0-9 : MIF state */ /* * ERI PCS/Serial-Link */ struct pcslink { uint32_t pcs_ctl; /* 0x9000 (RW) PCS MII Control Reg */ uint32_t pcs_sts; /* 0x9004 (RO) PCS MII Status Register */ uint32_t pcs_anar; /* 0x9008 (RW) PCS MII Avertisement Reg */ uint32_t pcs_anlpar; /* 0x900C (RW) PCS MII LP Ability Reg */ uint32_t pcs_cfg; /* 0x9010 (RW) PCS Configuration Register */ uint32_t pcs_smr; /* 0x9014 (RW) PCS State Machine Reg */ uint32_t pcs_intsts; /* 0x9018 (R-AC) PCS Interrupt Status Reg */ uint32_t res1[13]; /* 0x901C - 0x904C Reserved */ uint32_t pcs_dmode; /* 0x9050 (RW) Datapath mode register */ uint32_t slink_ctl; /* 0x9054 (RW) Serial Link Control register */ uint32_t pcs_opsel; /* 0x9058 (RW) Shared Output Select register */ uint32_t slink_sts; /* 0x905C (RO) Serial Link Status register */ }; /* * PCS MII Basic Mode Control Register * Auto-Negotiation should always be used for 802.3z 8B/10B * link configuration. May be cleared for diagnostic purposes, or * as a workaround for possible early product interoperability problems. */ #define PCS_BMCR_RESET (1 << 15) /* Resets the PCS when set */ #define PCS_BMCR_LPBK (1 << 14) /* Loopback of the 10-bit i/f */ #define PCS_BMCR_1000M (1 << 13) /* Speed selection, always 0 */ #define PCS_BMCR_ANE (1 << 12) /* Auto Negotiation Enabled when set */ #define PCS_BMCR_PWRDN (1 << 11) /* Power down, always 0 */ #define PCS_BMCR_ISOLATE (1 << 10) /* Isolate PHY from MII, always 0 */ #define PCS_BMCR_RAN (1 << 9) /* Set to Restart Auto Negotiation */ #define PCS_BMCR_FDX (1 << 8) /* Full Duplex, always 0 */ #define PCS_BMCR_COLTST (1 << 7) /* Collision Test */ #define PCS_BMCR_RES1 (0x7f << 0) /* 0-6 Reserved */ #define PCS_AUTONEG_DISABLE 0 /* * ------------------------------------------------------------------------ * PCS MII Basic Mode Status Register * ------------------------------------------------------------------------- */ #define PCS_BMSR_RES2 (0x1f << 11) /* 11-15 reserved, always 0 */ #define PCS_BMSR_GBFDX (1 << 10) /* PCS able to perform GBit FDX */ #define PCS_BMSR_GBHDX (1 << 9) /* PCS able to perform Gbit HDX */ #define PCS_BMSR_RES1 (0x7 << 6) /* 6-8 reserved */ #define PCS_BMSR_ANC (1 << 5) /* Auto Negotiation Completed */ #define PCS_BMSR_REMFLT (1 << 4) /* Remote Fault detected */ #define PCS_BMSR_ACFG (1 << 3) /* Able to do Auto Link Negotiation,1 */ #define PCS_BMSR_LNKSTS (1 << 2) /* Link Status */ #define PCS_BMSR_JABDET (1 << 1) /* Jabber Condition Detected, 0 */ #define PCS_BMSR_EXTCAP (1 << 0) /* Extended Register Capability, 0 */ #define PCS_CAPABILITY_MASK (PCS_BMSR_GBFDX | PCS_BMSR_GBHDX) /* * ------------------------------------------------------------------------ * PCS MII Auto-Negotiation Advertisement Register (nway1Reg) * This register will hold the different modes of operation to be advertised to * the far-end PHY. * ------------------------------------------------------------------------- */ #define PCS_ANAR_NP (1 << 15) /* Next Page bit, RO, always 0 */ #define PCS_ANAR_ACK (1 << 14) /* Acks reception of Link Partner */ /* Capability word */ #define PCS_ANAR_RF (0x2 << 12) /* Advertise Remote Fault det. cap. */ #define PCS_ANAR_RES1 (0x7 << 9) /* 9-11 reserved */ #define PCS_ANAR_PTX (1 << 8) /* Pause TX */ #define PCS_ANAR_PRX (1 << 7) /* Pause RX */ #define PCS_ANAR_PAUSE (1 << 7) /* Pause */ #define PCS_ANAR_ASM_DIR (1 << 8) /* Asymetric Direction */ #define PCS_ANAR_GBFDX (1 << 5) /* Advertise Gbit FDX Capability */ #define PCS_ANAR_GBHDX (1 << 6) /* Advertise Gbit HDX Capability */ #define PCS_ANAR_RES (0x1f << 0) /* 0-5 Reserved */ /* ************************************************************************ */ /* * PCS MII Auto-Negotiation Link Partner Ability Reg * This register contains the Link Partners capabilities after NWay * Auto-Negotiation is complete. */ #define PCS_ANLPAR_NP (1 << 15) /* Next Page bit, RO, always 0 */ #define PCS_ANLPAR_ACK (1 << 14) /* Acks reception of Link Partner */ /* Capability word */ #define PCS_ANLPAR_RF (0x2 << 12) /* Advertise Remote Fault det. cap. */ #define PCS_ANLPAR_RES1 (0x7 << 9) /* 9-11 reserved */ #define PCS_ANLPAR_PTX (1 << 8) /* Pause TX */ #define PCS_ANLPAR_PRX (1 << 7) /* Pause RX */ #define PCS_ANLPAR_GBFDX (1 << 5) /* Advertise Gbit FDX Capability */ #define PCS_ANLPAR_GBHDX (1 << 6) /* Advertise Gbit HDX Capability */ #define PCS_ANLPAR_RES (0x1f << 0) /* 0-5 Reserved */ /* * ------------------------------------------------------------------------ * PCS Configuration Register * Default = 0x8 * ------------------------------------------------------------------------- */ #define PCS_CFG_RES (0xfff << 4) /* 4-15 Reserved */ #define PCS_CFG_TIMER (0x7 << 1) /* Timer values used for the 802.3z Clause 36 Link Monitor s/m timers */ #define PCS_CFG_ENABLE (1 << 0) /* Enable PCS, when set to 1 */ /* * ------------------------------------------------------------------------ * PCS Interrupt State Register * Presently only one bit is implemented, reflecting transitions on the link * status. Note that there is no mask register at this level. * THe PCS_INT bit may be masked at the Interrupt Status Register level. * ------------------------------------------------------------------------- */ #define PCS_STS_LNKSTS 2 /* Link Status Change */ /* * ------------------------------------------------------------------------ * Datapath Mode Register (RW) * This register controls which network interface is used. * Only one bit should be set in this register. * Default: 0x1 * ------------------------------------------------------------------------- */ /* * Select MII/GMII and not PCS. * Selection between MII and GMII is * controlled by the XIF register */ #define ERI_PCS_MII (1 << 2) /* * Applicable only in Serial Mode * When set, makes the 10-bit Xmit data * visible at the GMII */ #define ERI_PCS_GMIIOUTEN (1 << 3) /* * ------------------------------------------------------------------------ * Serial Link Control register (RW) * This register controls the Serial link * Default: 0x000 * ------------------------------------------------------------------------- */ #define ERI_SLC_LOOPBACK (1 << 0) /* Enables loopback at the SL o/p */ #define ERI_SLC_ENSYNCDT (1 << 1) /* Enable Sync char detection */ #define ERI_SLC_LOCKREF (1 << 2) /* Lock to reference clock */ #define ERI_SLC_EMP (0x2 << 3) /* Control o/p driver emphasis */ #define ERI_SLC_RES (1 << 5) /* Reserved */ #define ERI_SLC_SELFTEST (0x7 << 6) /* To select built-in self tests */ #define ERI_SLC_SW_PDOWN (1 << 9) /* Power down Serial link block */ /* * ------------------------------------------------------------------------ * Shared Output Select Register (RW) * Default: 0x00 * ------------------------------------------------------------------------- */ /* * ------------------------------------------------------------------------ * Serial Link State Register (RO) * Indicates the progress of the Serial link boot up * 00 - Undergoing test * 01 - Waiting 500us while lockrefn is asserted * 10 - Waiting for comma detect * 11 - Receive Data is synchronized * ------------------------------------------------------------------------- */ #define ERI_SLS_STATE (0x2 << 0) /* state */ /* ************************************************************************ */ /* * Definition for the time required to wait after a software * reset has been issued. */ #define ERI_MAX_RST_DELAY (200) #define ERI_PERIOD (20) /* period to wait */ #define ERI_WAITPERIOD ERI_PERIOD #define ERI_DELAY(c, n) \ { \ register int N = n / ERI_WAITPERIOD; \ while (--N > 0) { \ if (c) \ break; \ drv_usecwait(ERI_WAITPERIOD); \ } \ } #define MIF_ERIDELAY(n, phyad, regad) \ { \ register int N = n / ERI_WAITPERIOD; \ PUT_MIFREG(mif_frame, \ (ERI_MIF_FRREAD | (phyad << ERI_MIF_FRPHYAD_SHIFT) | \ (regad << ERI_MIF_FRREGAD_SHIFT))); \ while (--N > 0) { \ if (GET_MIFREG(mif_frame) & ERI_MIF_FRTA0) \ break; \ drv_usecwait(ERI_WAITPERIOD); \ } \ } #ifdef __cplusplus } #endif #endif /* _SYS_ERI_MAC_H */