/* * 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 2008 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #ifndef _SYS_NXGE_NXGE_PHY_HW_H #define _SYS_NXGE_NXGE_PHY_HW_H #ifdef __cplusplus extern "C" { #endif #include /* * Clause 45 and Clause 22 port/phy addresses 0 through 5 are reserved * for on-chip serdes. So here the starting port is 6. */ #define NXGE_MAX_PHY_PORTS 32 #define NXGE_EXT_PHY_PORT_ST 6 #define NXGE_PMA_PMD_DEV_ADDR 1 #define NXGE_PCS_DEV_ADDR 3 #define NXGE_DEV_ID_REG_1 2 #define NXGE_DEV_ID_REG_2 3 #define NXGE_PHY_ID_REG_1 2 #define NXGE_PHY_ID_REG_2 3 #define BCM8704_CHIP_ID 0x8704 #define BCM8706_CHIP_ID 0x8706 #define MRVL88X201X_CHIP_ID 0x5043 /* * Description of BCM_PHY_ID_MASK: * The first nibble (bits 0 through 3) is changed with every revision * of the silicon. So these bits are masked out to support future revisions * of the same chip. The third nibble (bits 8 through 11) is changed for * different chips of the same family. So these bits are masked out to * support chips of the same family. */ #define BCM_PHY_ID_MASK 0xfffff0f0 #define BCM8704_DEV_ID 0x206033 #define BCM5464R_PHY_ID 0x2060b1 #define BCM8706_DEV_ID 0x206035 #define BCM5482_PHY_ID 0x143bcb1 #define MARVELL_88X_201X_DEV_ID 0x1410d24 #define MARVELL_88X201X_PHY_ID (MARVELL_88X_201X_DEV_ID & BCM_PHY_ID_MASK) #define PHY_BCM8704_FAMILY (BCM8704_DEV_ID & BCM_PHY_ID_MASK) #define PHY_BCM5464R_FAMILY (BCM5464R_PHY_ID & BCM_PHY_ID_MASK) #define PHY_BCM5482_FAMILY (BCM5482_PHY_ID & BCM_PHY_ID_MASK) /* * The default value is 0xa19410, after masking out model and revision * (bits[9:0]) use 0xa19400 for any model or revision of the TN1010 */ #define TN1010_DEV_ID 0xa19400 /* * Description of TN1010_DEV_ID_MASK: * The device ID assigned to Teranetics is stored in TN1010 register * 1.2 and register 1.3 except bits[9:4] of register 1.3 for model number * and bits[3:0] of register 1.3 for revision numbers. Use mask 0xfffffc00 * to mask off model number and revision number and keep TN1010's device * identifier */ #define TN1010_DEV_ID_MASK 0xfffffc00 #define CLAUSE_45_TYPE 1 #define CLAUSE_22_TYPE 2 /* IEEE802.3 Clause45 and Clause22 MDIO port addresses */ #define NEPTUNE_CLAUSE22_PORT_ADDR_BASE 10 #define NEPTUNE_CLAUSE45_PORT_ADDR_BASE 8 #define N2_CLAUSE45_PORT_ADDR_BASE 16 #define MRVL88X2011_NEPTUNE_PORT_ADDR_BASE 8 /* * Phy address for the second NIU port on Goa NEM card can be either * 20 or 17 */ #define GOA_CLAUSE45_PORT_ADDR_BASE 16 #define ALT_GOA_CLAUSE45_PORT1_ADDR 20 /* * Phy addresses for Maramba support. Support for P0 will eventually * be removed. */ #define MARAMBA_P0_CLAUSE22_PORT_ADDR_BASE 10 #define MARAMBA_P1_CLAUSE22_PORT_ADDR_BASE 26 #define MARAMBA_CLAUSE45_PORT_ADDR_BASE 16 #define BCM8704_PMA_PMD_DEV_ADDR 1 #define BCM8704_PCS_DEV_ADDR 3 #define BCM8704_USER_DEV3_ADDR 3 #define BCM8704_PHYXS_ADDR 4 #define BCM8704_USER_DEV4_ADDR 4 /* Definitions for BCM 5464R PHY chip */ #define BCM5464R_PHY_ECR 16 #define BCM5464R_PHY_ESR 17 #define BCM5464R_RXERR_CNT 18 #define BCM5464R_FALSECS_CNT 19 #define BCM5464R_RX_NOTOK_CNT 20 #define BCM5464R_ER_DATA 21 #define BCM5464R_RES 22 #define BCM5464R_ER_ACC 23 #define BCM5464R_AUX_CTL 24 #define BCM5464R_AUX_S 25 #define BCM5464R_INTR_S 26 #define BCM5464R_INTR_M 27 #define BCM5464R_MISC 28 #define BCM5464R_MISC1 29 #define BCM5464R_TESTR1 30 #define PHY_BCM_5464R_OUI 0x001018 #define PHY_BCM_5464R_MODEL 0x0B /* MARVELL PHY Definitions */ /* REG Offsets */ #define MRVL_88X2011_USER_DEV1_ADDR 1 #define MRVL_88X2011_USER_DEV2_ADDR 2 #define MRVL_88X2011_USER_DEV3_ADDR 3 #define MRVL_88X2011_USER_DEV4_ADDR 4 #define MRVL_88X2011_PMA_PMD_CTL_1 0x0000 #define MRVL_88X2011_PMA_PMD_STAT_1 0x0001 #define MRVL_88X2011_10G_PMD_STAT_2 0x0008 #define MRVL_88X2011_10G_PMD_TX_DIS 0x0009 #define MRVL_88X2011_10G_XGXS_LANE_STAT 0x0018 #define MRVL_88X2011_GEN_CTL 0x8300 #define MRVL_88X2011_LED_BLINK_CTL 0x8303 #define MRVL_88X2011_LED_8_TO_11_CTL 0x8306 /* MRVL88X2011 register control */ #define MRVL_88X2011_ENA_PMDTX 0x0000 #define MRVL_88X2011_ENA_XFPREFCLK 0x0001 #define MRVL_88X2011_LOOPBACK 0x1 #define MRVL_88X2011_LED_ACT 0x1 #define MRVL_88X2011_LNK_STATUS_OK 0x4 #define MRVL_88X2011_LED_BLK_MASK 0x70 #define MRVL_88X2011_LED_BLK_SHIFT 4 #define MRVL_88X2011_LED_BLK34MS 0x0 #define MRVL_88X2011_LED_BLK67MS 0x1 #define MRVL_88X2011_LED_BLK134MS 0x2 #define MRVL_88X2011_LED_BLK269MS 0x3 #define MRVL_88X2011_LED_BLK538MS 0x4 #define MRVL_88X2011_LED_CTL_OFF 0x0 #define MRVL_88X2011_LED_CTL_PCS_ERR 0x2 #define MRVL_88X2011_LED_CTL_PCS_ACT 0x5 #define MRVL_88X2011_LED_CTL_MASK 0x7 #define MRVL_88X2011_LED(n, v) ((v)<<((n)*4)) #define MRVL_88X2011_LED_STAT(n, v) ((v)>>((n)*4)) /* * MII Register 16: PHY Extended Control Register */ typedef union _mii_phy_ecr_t { uint16_t value; struct { #ifdef _BIT_FIELDS_HTOL uint16_t mac_phy_if_mode : 1; uint16_t dis_automdicross : 1; uint16_t tx_dis : 1; uint16_t intr_dis : 1; uint16_t force_intr : 1; uint16_t bypass_encdec : 1; uint16_t bypass_scrdes : 1; uint16_t bypass_mlt3 : 1; uint16_t bypass_rx_sym : 1; uint16_t reset_scr : 1; uint16_t en_led_traffic : 1; uint16_t force_leds_on : 1; uint16_t force_leds_off : 1; uint16_t res : 2; uint16_t gmii_fifo_elas : 1; #else uint16_t gmii_fifo_elas : 1; uint16_t res : 2; uint16_t force_leds_off : 1; uint16_t force_leds_on : 1; uint16_t en_led_traffic : 1; uint16_t reset_scr : 1; uint16_t bypass_rx_sym : 1; uint16_t bypass_mlt3 : 1; uint16_t bypass_scrdes : 1; uint16_t bypass_encdec : 1; uint16_t force_intr : 1; uint16_t intr_dis : 1; uint16_t tx_dis : 1; uint16_t dis_automdicross : 1; uint16_t mac_phy_if_mode : 1; #endif } bits; } mii_phy_ecr_t, *p_mii_phy_ecr_t; /* * MII Register 17: PHY Extended Status Register */ typedef union _mii_phy_esr_t { uint16_t value; struct { #ifdef _BIT_FIELDS_HTOL uint16_t anbpsfm : 1; uint16_t wsdwngr : 1; uint16_t mdi_crst : 1; uint16_t intr_s : 1; uint16_t rmt_rx_s : 1; uint16_t loc_rx_s : 1; uint16_t locked : 1; uint16_t link_s : 1; uint16_t crc_err : 1; uint16_t cext_err : 1; uint16_t bad_ssd : 1; uint16_t bad_esd : 1; uint16_t rx_err : 1; uint16_t tx_err : 1; uint16_t lock_err : 1; uint16_t mlt3_cerr : 1; #else uint16_t mlt3_cerr : 1; uint16_t lock_err : 1; uint16_t tx_err : 1; uint16_t rx_err : 1; uint16_t bad_esd : 1; uint16_t bad_ssd : 1; uint16_t cext_err : 1; uint16_t crc_err : 1; uint16_t link_s : 1; uint16_t locked : 1; uint16_t loc_rx_s : 1; uint16_t rmt_rx_s : 1; uint16_t intr_s : 1; uint16_t mdi_crst : 1; uint16_t wsdwngr : 1; uint16_t anbpsfm : 1; #endif } bits; } mii_phy_esr_t, *p_mii_phy_esr_t; /* * MII Register 18: Receive Error Counter Register */ typedef union _mii_rxerr_cnt_t { uint16_t value; struct { uint16_t rx_err_cnt : 16; } bits; } mii_rxerr_cnt_t, *p_mii_rxerr_cnt_t; /* * MII Register 19: False Carrier Sense Counter Register */ typedef union _mii_falsecs_cnt_t { uint16_t value; struct { #ifdef _BIT_FIELDS_HTOL uint16_t res : 8; uint16_t false_cs_cnt : 8; #else uint16_t false_cs_cnt : 8; uint16_t res : 8; #endif } bits; } mii_falsecs_cnt_t, *p_mii_falsecs_cnt_t; /* * MII Register 20: Receiver NOT_OK Counter Register */ typedef union _mii_rx_notok_cnt_t { uint16_t value; struct { #ifdef _BIT_FIELDS_HTOL uint16_t l_rx_notok_cnt : 8; uint16_t r_rx_notok_cnt : 8; #else uint16_t r_rx_notok_cnt : 8; uint16_t l_rx_notok_cnt : 8; #endif } bits; } mii_rx_notok_cnt_t, *p_mii_rx_notok_t; /* * MII Register 21: Expansion Register Data Register */ typedef union _mii_er_data_t { uint16_t value; struct { uint16_t reg_data; } bits; } mii_er_data_t, *p_mii_er_data_t; /* * MII Register 23: Expansion Register Access Register */ typedef union _mii_er_acc_t { struct { #ifdef _BIT_FIELDS_HTOL uint16_t res : 4; uint16_t er_sel : 4; uint16_t er_acc : 8; #else uint16_t er_acc : 8; uint16_t er_sel : 4; uint16_t res : 4; #endif } bits; } mii_er_acc_t, *p_mii_er_acc_t; #define EXP_RXTX_PKT_CNT 0x0 #define EXP_INTR_STAT 0x1 #define MULTICOL_LED_SEL 0x4 #define MULTICOL_LED_FLASH_RATE_CTL 0x5 #define MULTICOL_LED_BLINK_CTL 0x6 #define CABLE_DIAG_CTL 0x10 #define CABLE_DIAG_RES 0x11 #define CABLE_DIAG_LEN_CH_2_1 0x12 #define CABLE_DIAG_LEN_CH_4_3 0x13 /* * MII Register 24: Auxiliary Control Register */ typedef union _mii_aux_ctl_t { uint16_t value; struct { #ifdef _BIT_FIELDS_HTOL uint16_t ext_lb : 1; uint16_t ext_pkt_len : 1; uint16_t edge_rate_ctl_1000 : 2; uint16_t res : 1; uint16_t write_1 : 1; uint16_t res1 : 2; uint16_t dis_partial_resp : 1; uint16_t res2 : 1; uint16_t edge_rate_ctl_100 : 2; uint16_t diag_mode : 1; uint16_t shadow_reg_sel : 3; #else uint16_t shadow_reg_sel : 3; uint16_t diag_mode : 1; uint16_t edge_rate_ctl_100 : 2; uint16_t res2 : 1; uint16_t dis_partial_resp : 1; uint16_t res1 : 2; uint16_t write_1 : 1; uint16_t res : 1; uint16_t edge_rate_ctl_1000 : 2; uint16_t ext_pkt_len : 1; uint16_t ext_lb : 1; #endif } bits; } mii_aux_ctl_t, *p_mii_aux_ctl_t; #define AUX_REG 0x0 #define AUX_10BASET 0x1 #define AUX_PWR_CTL 0x2 #define AUX_MISC_TEST 0x4 #define AUX_MISC_CTL 0x7 /* * MII Register 25: Auxiliary Status Summary Register */ typedef union _mii_aux_s_t { uint16_t value; struct { #ifdef _BIT_FIELDS_HTOL uint16_t an_complete : 1; uint16_t an_complete_ack : 1; uint16_t an_ack_detect : 1; uint16_t an_ability_detect : 1; uint16_t an_np_wait : 1; uint16_t an_hcd : 3; uint16_t pd_fault : 1; uint16_t rmt_fault : 1; uint16_t an_page_rx : 1; uint16_t lp_an_ability : 1; uint16_t lp_np_ability : 1; uint16_t link_s : 1; uint16_t pause_res_rx_dir : 1; uint16_t pause_res_tx_dir : 1; #else uint16_t pause_res_tx_dir : 1; uint16_t pause_res_rx_dir : 1; uint16_t link_s : 1; uint16_t lp_np_ability : 1; uint16_t lp_an_ability : 1; uint16_t an_page_rx : 1; uint16_t rmt_fault : 1; uint16_t pd_fault : 1; uint16_t an_hcd : 3; uint16_t an_np_wait : 1; uint16_t an_ability_detect : 1; uint16_t an_ack_detect : 1; uint16_t an_complete_ack : 1; uint16_t an_complete : 1; #endif } bits; } mii_aux_s_t, *p_mii_aux_s_t; /* * MII Register 26, 27: Interrupt Status and Mask Registers */ typedef union _mii_intr_t { uint16_t value; struct { #ifdef _BIT_FIELDS_HTOL uint16_t res : 1; uint16_t illegal_pair_swap : 1; uint16_t mdix_status_change : 1; uint16_t exceed_hicnt_thres : 1; uint16_t exceed_locnt_thres : 1; uint16_t an_page_rx : 1; uint16_t hcd_nolink : 1; uint16_t no_hcd : 1; uint16_t neg_unsupported_hcd : 1; uint16_t scr_sync_err : 1; uint16_t rmt_rx_status_change : 1; uint16_t loc_rx_status_change : 1; uint16_t duplex_mode_change : 1; uint16_t link_speed_change : 1; uint16_t link_status_change : 1; uint16_t crc_err : 1; #else uint16_t crc_err : 1; uint16_t link_status_change : 1; uint16_t link_speed_change : 1; uint16_t duplex_mode_change : 1; uint16_t loc_rx_status_change : 1; uint16_t rmt_rx_status_change : 1; uint16_t scr_sync_err : 1; uint16_t neg_unsupported_hcd : 1; uint16_t no_hcd : 1; uint16_t hcd_nolink : 1; uint16_t an_page_rx : 1; uint16_t exceed_locnt_thres : 1; uint16_t exceed_hicnt_thres : 1; uint16_t mdix_status_change : 1; uint16_t illegal_pair_swap : 1; uint16_t res : 1; #endif } bits; } mii_intr_t, *p_mii_intr_t; /* * MII Register 28: Register 1C Access Register */ typedef union _mii_misc_t { uint16_t value; struct { #ifdef _BIT_FIELDS_HTOL uint16_t w_en : 1; uint16_t shadow_reg_sel : 5; uint16_t data : 10; #else uint16_t data : 10; uint16_t shadow_reg_sel : 5; uint16_t w_en : 1; #endif } bits; } mii_misc_t, *p_mii_misc_t; #define LINK_LED_MODE 0x2 #define CLK_ALIGN_CTL 0x3 #define WIRE_SP_RETRY 0x4 #define CLK125 0x5 #define LED_STATUS 0x8 #define LED_CONTROL 0x9 #define AUTO_PWR_DOWN 0xA #define LED_SEL1 0xD #define LED_SEL2 0xE /* * MII Register 29: Master/Slave Seed / HCD Status Register */ typedef union _mii_misc1_t { uint16_t value; struct { #ifdef _BIT_FIELDS_HTOL uint16_t en_shadow_reg : 1; uint16_t data : 15; #else uint16_t data : 15; uint16_t en_shadow_reg : 1; #endif } bits; } mii_misc1_t, *p_mii_misc1_t; /* * MII Register 30: Test Register 1 */ typedef union _mii_test1_t { uint16_t value; struct { #ifdef _BIT_FIELDS_HTOL uint16_t crc_err_cnt_sel : 1; uint16_t res : 7; uint16_t manual_swap_mdi_st : 1; uint16_t res1 : 7; #else uint16_t res1 : 7; uint16_t manual_swap_mdi_st : 1; uint16_t res : 7; uint16_t crc_err_cnt_sel : 1; #endif } bits; } mii_test1_t, *p_mii_test1_t; /* Definitions of BCM8704 */ #define BCM8704_PMD_CONTROL_REG 0 #define BCM8704_PMD_STATUS_REG 0x1 #define BCM8704_PMD_ID_0_REG 0x2 #define BCM8704_PMD_ID_1_REG 0x3 #define BCM8704_PMD_SPEED_ABIL_REG 0x4 #define BCM8704_PMD_DEV_IN_PKG1_REG 0x5 #define BCM8704_PMD_DEV_IN_PKG2_REG 0x6 #define BCM8704_PMD_CONTROL2_REG 0x7 #define BCM8704_PMD_STATUS2_REG 0x8 #define BCM8704_PMD_TRANSMIT_DIS_REG 0x9 #define BCM8704_PMD_RECEIVE_SIG_DETECT 0xa #define BCM8704_PMD_ORG_UNIQUE_ID_0_REG 0xe #define BCM8704_PMD_ORG_UNIQUE_ID_1_REG 0xf #define BCM8704_PCS_CONTROL_REG 0 #define BCM8704_PCS_STATUS1_REG 0x1 #define BCM8704_PCS_ID_0_REG 0x2 #define BCM8704_PCS_ID_1_REG 0x3 #define BCM8704_PCS_SPEED_ABILITY_REG 0x4 #define BCM8704_PCS_DEV_IN_PKG1_REG 0x5 #define BCM8704_PCS_DEV_IN_PKG2_REG 0x6 #define BCM8704_PCS_CONTROL2_REG 0x7 #define BCM8704_PCS_STATUS2_REG 0x8 #define BCM8704_PCS_ORG_UNIQUE_ID_0_REG 0xe #define BCM8704_PCS_ORG_UNIQUE_ID_1_REG 0xf #define BCM8704_PCS_STATUS_REG 0x18 #define BCM8704_10GBASE_R_PCS_STATUS_REG 0x20 #define BCM8704_10GBASE_R_PCS_STATUS2_REG 0x21 #define BCM8704_PHYXS_CONTROL_REG 0 #define BCM8704_PHYXS_STATUS_REG 0x1 #define BCM8704_PHY_ID_0_REG 0x2 #define BCM8704_PHY_ID_1_REG 0x3 #define BCM8704_PHYXS_SPEED_ABILITY_REG 0x4 #define BCM8704_PHYXS_DEV_IN_PKG2_REG 0x5 #define BCM8704_PHYXS_DEV_IN_PKG1_REG 0x6 #define BCM8704_PHYXS_STATUS2_REG 0x8 #define BCM8704_PHYXS_ORG_UNIQUE_ID_0_REG 0xe #define BCM8704_PHYXS_ORG_UNIQUE_ID_1_REG 0xf #define BCM8704_PHYXS_XGXS_LANE_STATUS_REG 0x18 #define BCM8704_PHYXS_XGXS_TEST_CONTROL_REG 0x19 #define BCM8704_USER_CONTROL_REG 0xC800 #define BCM8704_USER_ANALOG_CLK_REG 0xC801 #define BCM8704_USER_PMD_RX_CONTROL_REG 0xC802 #define BCM8704_USER_PMD_TX_CONTROL_REG 0xC803 #define BCM8704_USER_ANALOG_STATUS0_REG 0xC804 #define BCM8704_CHIP_ID_REG 0xC807 #define BCM8704_USER_OPTICS_DIGITAL_CTRL_REG 0xC808 #define BCM8704_USER_RX2_CONTROL1_REG 0x80C6 #define BCM8704_USER_RX1_CONTROL1_REG 0x80D6 #define BCM8704_USER_RX0_CONTROL1_REG 0x80E6 #define BCM8704_USER_TX_ALARM_STATUS_REG 0x9004 /* Rx Channel Control1 Register bits */ #define BCM8704_RXPOL_FLIP 0x20 typedef union _phyxs_control { uint16_t value; struct { #ifdef _BIT_FIELDS_HTOL uint16_t reset : 1; uint16_t loopback : 1; uint16_t speed_sel2 : 1; uint16_t res2 : 1; uint16_t low_power : 1; uint16_t res1 : 4; uint16_t speed_sel1 : 1; uint16_t speed_sel0 : 4; uint16_t res0 : 2; #else uint16_t res0 : 2; uint16_t speed_sel0 : 4; uint16_t speed_sel1 : 1; uint16_t res1 : 4; uint16_t low_power : 1; uint16_t res2 : 1; uint16_t speed_sel2 : 1; uint16_t loopback : 1; uint16_t reset : 1; #endif } bits; } phyxs_control_t, *p_phyxs_control_t, pcs_control_t, *p_pcs_control_t; /* PMD/Optics Digital Control Register (Dev=3 Addr=0xc800) */ typedef union _control { uint16_t value; struct { #ifdef _BIT_FIELDS_HTOL uint16_t optxenb_lvl : 1; uint16_t optxrst_lvl : 1; uint16_t opbiasflt_lvl : 1; uint16_t obtmpflt_lvl : 1; uint16_t opprflt_lvl : 1; uint16_t optxflt_lvl : 1; uint16_t optrxlos_lvl : 1; uint16_t oprxflt_lvl : 1; uint16_t optxon_lvl : 1; uint16_t res1 : 7; #else uint16_t res1 : 7; uint16_t optxon_lvl : 1; uint16_t oprxflt_lvl : 1; uint16_t optrxlos_lvl : 1; uint16_t optxflt_lvl : 1; uint16_t opprflt_lvl : 1; uint16_t obtmpflt_lvl : 1; uint16_t opbiasflt_lvl : 1; uint16_t optxrst_lvl : 1; uint16_t optxenb_lvl : 1; #endif } bits; } control_t, *p_control_t; typedef union _pmd_tx_control { uint16_t value; struct { #ifdef _BIT_FIELDS_HTOL uint16_t res1 : 7; uint16_t xfp_clken : 1; uint16_t tx_dac_txd : 2; uint16_t tx_dac_txck : 2; uint16_t tsd_lpwren : 1; uint16_t tsck_lpwren : 1; uint16_t cmu_lpwren : 1; uint16_t sfiforst : 1; #else uint16_t sfiforst : 1; uint16_t cmu_lpwren : 1; uint16_t tsck_lpwren : 1; uint16_t tsd_lpwren : 1; uint16_t tx_dac_txck : 2; uint16_t tx_dac_txd : 2; uint16_t xfp_clken : 1; uint16_t res1 : 7; #endif } bits; } pmd_tx_control_t, *p_pmd_tx_control_t; /* PMD/Optics Digital Control Register (Dev=3 Addr=0xc808) */ typedef union _optics_dcntr { uint16_t value; struct { #ifdef _BIT_FIELDS_HTOL uint16_t fault_mode : 1; uint16_t tx_pwrdown : 1; uint16_t rx_pwrdown : 1; uint16_t ext_flt_en : 1; uint16_t opt_rst : 1; uint16_t pcs_tx_inv_b : 1; uint16_t pcs_rx_inv : 1; uint16_t res3 : 2; uint16_t gpio_sel : 2; uint16_t res2 : 1; uint16_t lpbk_err_dis : 1; uint16_t res1 : 2; uint16_t txonoff_pwdwn_dis : 1; #else uint16_t txonoff_pwdwn_dis : 1; uint16_t res1 : 2; uint16_t lpbk_err_dis : 1; uint16_t res2 : 1; uint16_t gpio_sel : 2; uint16_t res3 : 2; uint16_t pcs_rx_inv : 1; uint16_t pcs_tx_inv_b : 1; uint16_t opt_rst : 1; uint16_t ext_flt_en : 1; uint16_t rx_pwrdown : 1; uint16_t tx_pwrdown : 1; uint16_t fault_mode : 1; #endif } bits; } optics_dcntr_t, *p_optics_dcntr_t; /* PMD Receive Signal Detect Register (Dev = 1 Register Address = 0x000A) */ #define PMD_RX_SIG_DET3 0x10 #define PMD_RX_SIG_DET2 0x08 #define PMD_RX_SIG_DET1 0x04 #define PMD_RX_SIG_DET0 0x02 #define GLOB_PMD_RX_SIG_OK 0x01 /* 10GBase-R PCS Status Register (Dev = 3, Register Address = 0x0020) */ #define PCS_10GBASE_RX_LINK_STATUS 0x1000 #define PCS_PRBS31_ABLE 0x0004 #define PCS_10GBASE_R_HI_BER 0x0002 #define PCS_10GBASE_R_PCS_BLK_LOCK 0x0001 /* XGXS Lane Status Register (Dev = 4, Register Address = 0x0018) */ #define XGXS_LANE_ALIGN_STATUS 0x1000 #define XGXS_PATTERN_TEST_ABILITY 0x0800 #define XGXS_LANE3_SYNC 0x0008 #define XGXS_LANE2_SYNC 0x0004 #define XGXS_LANE1_SYNC 0x0002 #define XGXS_LANE0_SYNC 0x0001 #define XGXS_LANE_STAT_MAGIC 0x0400 /* Teranetics TN1010 Definitions */ /* Teranetics TN1010 PHY MMD Addresses */ #define TN1010_PMA_PMD_DEV_ADDR 1 #define TN1010_PCS_DEV_ADDR 3 #define TN1010_PHYXS_DEV_ADDR 4 #define TN1010_AUTONEG_DEV_ADDR 7 #define TN1010_VENDOR_MMD1_DEV_ADDR 30 /* TN1010 PCS Control Register */ typedef union _tn1010_pcs_ctrl { uint16_t value; struct { #ifdef _BIT_FIELDS_HTOL uint16_t reset : 1; /* bit 15 */ uint16_t loopback : 1; /* bit 14 */ uint16_t speed_sel2 : 1; uint16_t res2 : 1; uint16_t low_power : 1; uint16_t res1 : 4; uint16_t speed_sel1 : 1; /* bit 6 */ uint16_t speed_sel0 : 4; /* bits[5:2] */ uint16_t res0 : 2; #else uint16_t res0 : 2; uint16_t speed_sel0 : 4; /* bits[5:2] */ uint16_t speed_sel1 : 1; /* bit 6 */ uint16_t res1 : 4; uint16_t low_power : 1; uint16_t res2 : 1; uint16_t speed_sel2 : 1; uint16_t loopback : 1; /* bit 14 */ uint16_t reset : 1; /* bit 15 */ #endif } bits; } tn1010_phyxs_ctrl_t, *p_tn1010_phyxs_ctrl_t; /* TN1010 PHY XS Control Register */ typedef union _tn1010_phyxs_ctrl { uint16_t value; struct { #ifdef _BIT_FIELDS_HTOL uint16_t reset : 1; /* bit 15 */ uint16_t loopback : 1; /* bit 14 */ uint16_t speed_sel2 : 1; uint16_t res2 : 1; uint16_t low_power : 1; uint16_t res1 : 4; uint16_t speed_sel1 : 1; /* bit 6 */ uint16_t speed_sel0 : 4; /* bits[5:2] */ uint16_t res0 : 2; #else uint16_t res0 : 2; uint16_t speed_sel0 : 4; /* bits[5:2] */ uint16_t speed_sel1 : 1; /* bit 6 */ uint16_t res1 : 4; uint16_t low_power : 1; uint16_t res2 : 1; uint16_t speed_sel2 : 1; uint16_t loopback : 1; /* bit 14 */ uint16_t reset : 1; /* bit 15 */ #endif } bits; } tn1010_pcs_ctrl_t, *p_tn1010_pcs_ctrl_t; /* TN1010 VENDOR MMD1 GPHY Control register 30.310 */ #define TN1010_SGMII_LOOPBACK 1 #define TN1010_DEEP_LOOPBACK 2 #define TN1010_PMD_CONTROL_REG 0 #define TN1010_PMD_STATUS_REG 1 #define TN1010_PMD_ID_HIGH_REG 2 #define TN1010_PMD_ID_LOW_REG 3 #define TN1010_PMD_SPEED_ABIL_REG 4 #define TN1010_PMD_DEV_IN_PKG1_REG 5 #define TN1010_PMD_DEV_IN_PKG2_REG 6 #define TN1010_PMD_CONTROL2_REG 7 #define TN1010_PMD_STATUS2_REG 8 #define TN1010_PMD_TRANSMIT_DIS_REG 9 #define TN1010_PMD_RECEIVE_SIG_DETECT 10 #define TN1010_PMD_ORG_UNIQUE_ID_0_REG 14 #define TN1010_PMD_ORG_UNIQUE_ID_1_REG 15 #define TN1010_PCS_CONTROL_REG 0 #define TN1010_PCS_STATUS1_REG 1 #define TN1010_PCS_ID_HIGH_REG 2 #define TN1010_PCS_ID_LOW_REG 3 #define TN1010_PCS_SPEED_ABILITY_REG 4 #define TN1010_PCS_DEV_IN_PKG1_REG 5 #define TN1010_PCS_DEV_IN_PKG2_REG 6 #define TN1010_PCS_CONTROL2_REG 7 #define TN1010_PCS_STATUS2_REG 8 #define TN1010_PCS_ORG_UNIQUE_ID_0_REG 14 #define TN1010_PCS_ORG_UNIQUE_ID_1_REG 15 #define TN1010_PCS_10GBASE_R_T_STATUS1_REG 32 #define TN1010_PCS_10GBASE_R_T_STATUS2_REG 33 #define TN1010_PHYXS_CONTROL_REG 0 #define TN1010_PHYXS_STATUS_REG 1 #define TN1010_PHY_ID_HIGH_REG 2 #define TN1010_PHY_ID_LOW_REG 3 #define TN1010_PHYXS_SPEED_ABILITY_REG 4 #define TN1010_PHYXS_DEV_IN_PKG2_REG 5 #define TN1010_PHYXS_DEV_IN_PKG1_REG 6 #define TN1010_PHYXS_STATUS2_REG 8 #define TN1010_PHYXS_ORG_UNIQUE_ID_0_REG 14 #define TN1010_PHYXS_ORG_UNIQUE_ID_1_REG 15 #define TN1010_PHYXS_XGXS_LANE_STATUS_REG 24 #define TN1010_PHYXS_XGXS_TEST_CONTROL_REG 25 #define TN1010_AUTONEG_CONTROL_REG 0 #define TN1010_AUTONEG_STATUS_REG 1 #define TN1010_AUTONEG_ID_HIGH_REG 2 #define TN1010_AUTONEG_ID_LOW_REG 3 #define TN1010_AUTONEG_DEV_IN_PKG1_REG 5 #define TN1010_AUTUNEG_DEV_IN_PKG2_REG 6 #define TN1010_AUTONEG_ORG_UNIQUE_ID_0_REG 14 #define TN1010_AUTONEG_ORG_UNIQUE_ID_1_REG 15 #define TN1010_AUTONEG_ADVERTISE_REG 16 #define TN1010_AUTONEG_PARTNER_ABILITY_REG 19 #define TN1010_VENDOR_MMD1_CONTROL_REG 0 #define TN1010_VENDOR_MMD1_STATUS_REG 1 #define TN1010_VENDOR_MMD1_ID_HIGH 2 #define TN1010_VENDOR_MMD1_ID_LOW 3 #define TN1010_VENDOR_MMD1_DEV_STATUS_REG 8 #define TN1010_VENDOR_MMD1_FNS_CONTROL_RER 9 #define TN1010_VENDOR_MMD1_PKG_ID_0_REG 14 #define TN1010_VENDOR_MMD1_PKG_ID_1_REG 15 #define TN1010_VENDOR_MMD1_GPHY_CTRL 310 /* Bits definitions of TN1010_AUTONEG_CONTROL_REG */ #define TN1010_AN_CTRL_RESET_BIT 0x8000 /* Reset */ #define TN1010_AN_CTRL_EN_BIT 0x1000 /* Enable autoneg */ #define TN1010_AN_CTRL_RESTART_BIT 0x200 /* Restart autoneg */ #define TN1010_AN_LINK_STAT_BIT 0x4 /* Link status */ /* Bits definitions of TN1010_PHYXS_CONTROL_REG */ #define TN1010_VENDOR_MMD1_AN_STAT_BITS 0xC0 /* * Shift right 6 bits so bits[7:6] becomes [1:0]. * Bits[7:6] of TN1010_VENDOR_MND1_STATUS_REG are for autoneg status * 00 in progress * 01 completed * 10 reserved * 11 failed */ #define TN1010_VENDOR_MMD1_AN_STAT_SHIFT 6 /* Bit 4 of TN1010_VENDOR_MMD1_STATUS_REG is speed. 0: 10G, 1: 1G */ #define TN1010_VENDOR_MMD1_AN_SPEED_BIT 0x10 /* Shift right 4 bits so bit4 becomes bit0 */ #define TN1010_VENDOR_MMD1_AN_SPEED_SHIFT 4 #ifdef __cplusplus } #endif #endif /* _SYS_NXGE_NXGE_PHY_HW_H */