diff options
Diffstat (limited to 'target/linux/mediatek/files-5.4/drivers/net/phy/rtk/rtl8367c/rtk_switch.c')
| -rw-r--r-- | target/linux/mediatek/files-5.4/drivers/net/phy/rtk/rtl8367c/rtk_switch.c | 1796 |
1 files changed, 0 insertions, 1796 deletions
diff --git a/target/linux/mediatek/files-5.4/drivers/net/phy/rtk/rtl8367c/rtk_switch.c b/target/linux/mediatek/files-5.4/drivers/net/phy/rtk/rtl8367c/rtk_switch.c deleted file mode 100644 index 0bb0db0776..0000000000 --- a/target/linux/mediatek/files-5.4/drivers/net/phy/rtk/rtl8367c/rtk_switch.c +++ /dev/null @@ -1,1796 +0,0 @@ -/* - * Copyright (C) 2013 Realtek Semiconductor Corp. - * All Rights Reserved. - * - * Unless you and Realtek execute a separate written software license - * agreement governing use of this software, this software is licensed - * to you under the terms of the GNU General Public License version 2, - * available at https://www.gnu.org/licenses/old-licenses/gpl-2.0.txt - * - * $Revision: 76336 $ - * $Date: 2017-03-09 10:41:21 +0800 (ι±ε, 09 δΈζ 2017) $ - * - * Purpose : RTK switch high-level API - * Feature : Here is a list of all functions and variables in this module. - * - */ -#include <rtk_switch.h> -#include <rtk_error.h> -#include <string.h> - -#include <rate.h> -#include <rtl8367c_asicdrv.h> -#include <rtl8367c_asicdrv_misc.h> -#include <rtl8367c_asicdrv_green.h> -#include <rtl8367c_asicdrv_lut.h> -#include <rtl8367c_asicdrv_rma.h> -#include <rtl8367c_asicdrv_mirror.h> - -#if defined(FORCE_PROBE_RTL8367C) -static init_state_t init_state = INIT_COMPLETED; -#elif defined(FORCE_PROBE_RTL8370B) -static init_state_t init_state = INIT_COMPLETED; -#elif defined(FORCE_PROBE_RTL8364B) -static init_state_t init_state = INIT_COMPLETED; -#elif defined(FORCE_PROBE_RTL8363SC_VB) -static init_state_t init_state = INIT_COMPLETED; -#else -static init_state_t init_state = INIT_NOT_COMPLETED; -#endif - -#define AUTO_PROBE (!defined(FORCE_PROBE_RTL8367C) && !defined(FORCE_PROBE_RTL8370B) && !defined(FORCE_PROBE_RTL8364B) && !defined(FORCE_PROBE_RTL8363SC_VB)) - -#if (AUTO_PROBE || defined(FORCE_PROBE_RTL8367C)) -static rtk_switch_halCtrl_t rtl8367c_hal_Ctrl = -{ - /* Switch Chip */ - CHIP_RTL8367C, - - /* Logical to Physical */ - {0, 1, 2, 3, 4, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, - 6, 7, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF }, - - /* Physical to Logical */ - {UTP_PORT0, UTP_PORT1, UTP_PORT2, UTP_PORT3, UTP_PORT4, UNDEFINE_PORT, EXT_PORT0, EXT_PORT1, - UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, - UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, - UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT}, - - /* Port Type */ - {UTP_PORT, UTP_PORT, UTP_PORT, UTP_PORT, UTP_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, - UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, - EXT_PORT, EXT_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, - UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT}, - - /* PTP port */ - {1, 1, 1, 1, 1, 0, 0, 0, - 0, 0, 0, 0, 0, 0, 0, 0, - 0, 0, 0, 0, 0, 0, 0, 0, - 0, 0, 0, 0, 0, 0, 0, 0 }, - - /* Valid port mask */ - ( (0x1 << UTP_PORT0) | (0x1 << UTP_PORT1) | (0x1 << UTP_PORT2) | (0x1 << UTP_PORT3) | (0x1 << UTP_PORT4) | (0x1 << EXT_PORT0) | (0x1 << EXT_PORT1) ), - - /* Valid UTP port mask */ - ( (0x1 << UTP_PORT0) | (0x1 << UTP_PORT1) | (0x1 << UTP_PORT2) | (0x1 << UTP_PORT3) | (0x1 << UTP_PORT4) ), - - /* Valid EXT port mask */ - ( (0x1 << EXT_PORT0) | (0x1 << EXT_PORT1) ), - - /* Valid CPU port mask */ - 0x00, - - /* Minimum physical port number */ - 0, - - /* Maxmum physical port number */ - 7, - - /* Physical port mask */ - 0xDF, - - /* Combo Logical port ID */ - 4, - - /* HSG Logical port ID */ - EXT_PORT0, - - /* SGMII Logical portmask */ - (0x1 << EXT_PORT0), - - /* Max Meter ID */ - 31, - - /* MAX LUT Address Number */ - 2112, - - /* Trunk Group Mask */ - 0x03 -}; -#endif - -#if (AUTO_PROBE || defined(FORCE_PROBE_RTL8370B)) -static rtk_switch_halCtrl_t rtl8370b_hal_Ctrl = -{ - /* Switch Chip */ - CHIP_RTL8370B, - - /* Logical to Physical */ - {0, 1, 2, 3, 4, 5, 6, 7, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, - 8, 9, 10, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF }, - - /* Physical to Logical */ - {UTP_PORT0, UTP_PORT1, UTP_PORT2, UTP_PORT3, UTP_PORT4, UTP_PORT5, UTP_PORT6, UTP_PORT7, - EXT_PORT0, EXT_PORT1, EXT_PORT2, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, - UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, - UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT}, - - /* Port Type */ - {UTP_PORT, UTP_PORT, UTP_PORT, UTP_PORT, UTP_PORT, UTP_PORT, UTP_PORT, UTP_PORT, - UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, - EXT_PORT, EXT_PORT, EXT_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, - UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT}, - - /* PTP port */ - {1, 1, 1, 1, 1, 1, 1, 1, - 0, 0, 0, 0, 0, 0, 0, 0, - 1, 1, 0, 0, 0, 0, 0, 0, - 0, 0, 0, 0, 0, 0, 0, 0 }, - - /* Valid port mask */ - ( (0x1 << UTP_PORT0) | (0x1 << UTP_PORT1) | (0x1 << UTP_PORT2) | (0x1 << UTP_PORT3) | (0x1 << UTP_PORT4) | (0x1 << UTP_PORT5) | (0x1 << UTP_PORT6) | (0x1 << UTP_PORT7) | (0x1 << EXT_PORT0) | (0x1 << EXT_PORT1) | (0x1 << EXT_PORT2) ), - - /* Valid UTP port mask */ - ( (0x1 << UTP_PORT0) | (0x1 << UTP_PORT1) | (0x1 << UTP_PORT2) | (0x1 << UTP_PORT3) | (0x1 << UTP_PORT4) | (0x1 << UTP_PORT5) | (0x1 << UTP_PORT6) | (0x1 << UTP_PORT7) ), - - /* Valid EXT port mask */ - ( (0x1 << EXT_PORT0) | (0x1 << EXT_PORT1) | (0x1 << EXT_PORT2) ), - - /* Valid CPU port mask */ - (0x1 << EXT_PORT2), - - /* Minimum physical port number */ - 0, - - /* Maxmum physical port number */ - 10, - - /* Physical port mask */ - 0x7FF, - - /* Combo Logical port ID */ - 7, - - /* HSG Logical port ID */ - EXT_PORT1, - - /* SGMII Logical portmask */ - ( (0x1 << EXT_PORT0) | (0x1 << EXT_PORT1) ), - - /* Max Meter ID */ - 63, - - /* MAX LUT Address Number 4096 + 64*/ - 4160, - - /* Trunk Group Mask */ - 0x07 -}; -#endif - -#if (AUTO_PROBE || defined(FORCE_PROBE_RTL8364B)) -static rtk_switch_halCtrl_t rtl8364b_hal_Ctrl = -{ - /* Switch Chip */ - CHIP_RTL8364B, - - /* Logical to Physical */ - {0xFF, 1, 0xFF, 3, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, - 6, 7, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF }, - - /* Physical to Logical */ - {UNDEFINE_PORT, UTP_PORT1, UNDEFINE_PORT, UTP_PORT3, UNDEFINE_PORT, UNDEFINE_PORT, EXT_PORT0, EXT_PORT1, - UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, - UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, - UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT}, - - /* Port Type */ - {UNKNOWN_PORT, UTP_PORT, UNKNOWN_PORT, UTP_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, - UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, - EXT_PORT, EXT_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, - UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT}, - - /* PTP port */ - {0, 0, 0, 0, 0, 0, 0, 0, - 0, 0, 0, 0, 0, 0, 0, 0, - 0, 0, 0, 0, 0, 0, 0, 0, - 0, 0, 0, 0, 0, 0, 0, 0 }, - - /* Valid port mask */ - ( (0x1 << UTP_PORT1) | (0x1 << UTP_PORT3) | (0x1 << EXT_PORT0) | (0x1 << EXT_PORT1) ), - - /* Valid UTP port mask */ - ( (0x1 << UTP_PORT1) | (0x1 << UTP_PORT3) ), - - /* Valid EXT port mask */ - ( (0x1 << EXT_PORT0) | (0x1 << EXT_PORT1) ), - - /* Valid CPU port mask */ - 0x00, - - /* Minimum physical port number */ - 0, - - /* Maxmum physical port number */ - 7, - - /* Physical port mask */ - 0xCA, - - /* Combo Logical port ID */ - 4, - - /* HSG Logical port ID */ - EXT_PORT0, - - /* SGMII Logical portmask */ - ( (0x1 << EXT_PORT0) | (0x1 << EXT_PORT1) ), - - /* Max Meter ID */ - 32, - - /* MAX LUT Address Number */ - 2112, - - /* Trunk Group Mask */ - 0x01 -}; -#endif - -#if (AUTO_PROBE || defined(FORCE_PROBE_RTL8363SC_VB)) -static rtk_switch_halCtrl_t rtl8363sc_vb_hal_Ctrl = -{ - /* Switch Chip */ - CHIP_RTL8363SC_VB, - - /* Logical to Physical */ - {0xFF, 0xFF, 1, 3, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, - 6, 7, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF }, - - /* Physical to Logical */ - {UNDEFINE_PORT, UTP_PORT2, UNDEFINE_PORT, UTP_PORT3, UNDEFINE_PORT, UNDEFINE_PORT, EXT_PORT0, EXT_PORT1, - UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, - UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, - UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT, UNDEFINE_PORT}, - - /* Port Type */ - {UNKNOWN_PORT, UNKNOWN_PORT, UTP_PORT, UTP_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, - UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, - EXT_PORT, EXT_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, - UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT, UNKNOWN_PORT}, - - /* PTP port */ - {0, 0, 0, 0, 0, 0, 0, 0, - 0, 0, 0, 0, 0, 0, 0, 0, - 0, 0, 0, 0, 0, 0, 0, 0, - 0, 0, 0, 0, 0, 0, 0, 0 }, - - /* Valid port mask */ - ( (0x1 << UTP_PORT2) | (0x1 << UTP_PORT3) | (0x1 << EXT_PORT0) | (0x1 << EXT_PORT1) ), - - /* Valid UTP port mask */ - ( (0x1 << UTP_PORT2) | (0x1 << UTP_PORT3) ), - - /* Valid EXT port mask */ - ( (0x1 << EXT_PORT0) | (0x1 << EXT_PORT1) ), - - /* Valid CPU port mask */ - 0x00, - - /* Minimum physical port number */ - 0, - - /* Maxmum physical port number */ - 7, - - /* Physical port mask */ - 0xCA, - - /* Combo Logical port ID */ - 4, - - /* HSG Logical port ID */ - EXT_PORT0, - - /* SGMII Logical portmask */ - ( (0x1 << EXT_PORT0) | (0x1 << EXT_PORT1) ), - - /* Max Meter ID */ - 32, - - /* MAX LUT Address Number */ - 2112, - - /* Trunk Group Mask */ - 0x01 -}; -#endif - -#if defined(FORCE_PROBE_RTL8367C) -static rtk_switch_halCtrl_t *halCtrl = &rtl8367c_hal_Ctrl; -#elif defined(FORCE_PROBE_RTL8370B) -static rtk_switch_halCtrl_t *halCtrl = &rtl8370b_hal_Ctrl; -#elif defined(FORCE_PROBE_RTL8364B) -static rtk_switch_halCtrl_t *halCtrl = &rtl8364b_hal_Ctrl; -#elif defined(FORCE_PROBE_RTL8363SC_VB) -static rtk_switch_halCtrl_t *halCtrl = &rtl8363sc_vb_hal_Ctrl; -#else -static rtk_switch_halCtrl_t *halCtrl = NULL; -#endif - -static rtk_uint32 PatchChipData[210][2] = -{ - {0xa436, 0x8028}, {0xa438, 0x6800}, {0xb82e, 0x0001}, {0xa436, 0xb820}, {0xa438, 0x0090}, {0xa436, 0xa012}, {0xa438, 0x0000}, {0xa436, 0xa014}, {0xa438, 0x2c04}, {0xa438, 0x2c6c}, - {0xa438, 0x2c75}, {0xa438, 0x2c77}, {0xa438, 0x1414}, {0xa438, 0x1579}, {0xa438, 0x1536}, {0xa438, 0xc432}, {0xa438, 0x32c0}, {0xa438, 0x42d6}, {0xa438, 0x32b5}, {0xa438, 0x003e}, - {0xa438, 0x614c}, {0xa438, 0x1569}, {0xa438, 0xd705}, {0xa438, 0x318c}, {0xa438, 0x42d6}, {0xa438, 0xd702}, {0xa438, 0x31ef}, {0xa438, 0x42d6}, {0xa438, 0x629c}, {0xa438, 0x2c04}, - {0xa438, 0x653c}, {0xa438, 0x422a}, {0xa438, 0x5d83}, {0xa438, 0xd06a}, {0xa438, 0xd1b0}, {0xa438, 0x1536}, {0xa438, 0xc43a}, {0xa438, 0x32c0}, {0xa438, 0x42d6}, {0xa438, 0x32b5}, - {0xa438, 0x003e}, {0xa438, 0x314a}, {0xa438, 0x42fe}, {0xa438, 0x337b}, {0xa438, 0x02d6}, {0xa438, 0x3063}, {0xa438, 0x0c1b}, {0xa438, 0x22fe}, {0xa438, 0xc435}, {0xa438, 0xd0be}, - {0xa438, 0xd1f7}, {0xa438, 0xe0f0}, {0xa438, 0x1a40}, {0xa438, 0xa320}, {0xa438, 0xd702}, {0xa438, 0x154a}, {0xa438, 0xc434}, {0xa438, 0x32c0}, {0xa438, 0x42d6}, {0xa438, 0x32b5}, - {0xa438, 0x003e}, {0xa438, 0x60ec}, {0xa438, 0x1569}, {0xa438, 0xd705}, {0xa438, 0x619f}, {0xa438, 0xd702}, {0xa438, 0x414f}, {0xa438, 0x2c2e}, {0xa438, 0x610a}, {0xa438, 0xd705}, - {0xa438, 0x5e1f}, {0xa438, 0xc43f}, {0xa438, 0xc88b}, {0xa438, 0xd702}, {0xa438, 0x7fe0}, {0xa438, 0x22f3}, {0xa438, 0xd0a0}, {0xa438, 0xd1b2}, {0xa438, 0xd0c3}, {0xa438, 0xd1c3}, - {0xa438, 0x8d01}, {0xa438, 0x1536}, {0xa438, 0xc438}, {0xa438, 0xe0f0}, {0xa438, 0x1a80}, {0xa438, 0xd706}, {0xa438, 0x60c0}, {0xa438, 0xd710}, {0xa438, 0x409e}, {0xa438, 0xa804}, - {0xa438, 0xad01}, {0xa438, 0x8804}, {0xa438, 0xd702}, {0xa438, 0x32c0}, {0xa438, 0x42d6}, {0xa438, 0x32b5}, {0xa438, 0x003e}, {0xa438, 0x405b}, {0xa438, 0x1576}, {0xa438, 0x7c9c}, - {0xa438, 0x60ec}, {0xa438, 0x1569}, {0xa438, 0xd702}, {0xa438, 0x5d43}, {0xa438, 0x31ef}, {0xa438, 0x02fe}, {0xa438, 0x22d6}, {0xa438, 0x590a}, {0xa438, 0xd706}, {0xa438, 0x5c80}, - {0xa438, 0xd702}, {0xa438, 0x5c44}, {0xa438, 0x3063}, {0xa438, 0x02d6}, {0xa438, 0x5be2}, {0xa438, 0x22fb}, {0xa438, 0xa240}, {0xa438, 0xa104}, {0xa438, 0x8c03}, {0xa438, 0x8178}, - {0xa438, 0xd701}, {0xa438, 0x31ad}, {0xa438, 0x4917}, {0xa438, 0x8102}, {0xa438, 0x2917}, {0xa438, 0xc302}, {0xa438, 0x268a}, {0xa436, 0xA01A}, {0xa438, 0x0000}, {0xa436, 0xA006}, - {0xa438, 0x0fff}, {0xa436, 0xA004}, {0xa438, 0x0689}, {0xa436, 0xA002}, {0xa438, 0x0911}, {0xa436, 0xA000}, {0xa438, 0x7302}, {0xa436, 0xB820}, {0xa438, 0x0010}, {0xa436, 0x8412}, - {0xa438, 0xaf84}, {0xa438, 0x1eaf}, {0xa438, 0x8427}, {0xa438, 0xaf84}, {0xa438, 0x27af}, {0xa438, 0x8427}, {0xa438, 0x0251}, {0xa438, 0x6802}, {0xa438, 0x8427}, {0xa438, 0xaf04}, - {0xa438, 0x0af8}, {0xa438, 0xf9bf}, {0xa438, 0x5581}, {0xa438, 0x0255}, {0xa438, 0x27ef}, {0xa438, 0x310d}, {0xa438, 0x345b}, {0xa438, 0x0fa3}, {0xa438, 0x032a}, {0xa438, 0xe087}, - {0xa438, 0xffac}, {0xa438, 0x2040}, {0xa438, 0xbf56}, {0xa438, 0x7402}, {0xa438, 0x5527}, {0xa438, 0xef31}, {0xa438, 0xef20}, {0xa438, 0xe787}, {0xa438, 0xfee6}, {0xa438, 0x87fd}, - {0xa438, 0xd488}, {0xa438, 0x88bf}, {0xa438, 0x5674}, {0xa438, 0x0254}, {0xa438, 0xe3e0}, {0xa438, 0x87ff}, {0xa438, 0xf720}, {0xa438, 0xe487}, {0xa438, 0xffaf}, {0xa438, 0x847e}, - {0xa438, 0xe087}, {0xa438, 0xffad}, {0xa438, 0x2016}, {0xa438, 0xe387}, {0xa438, 0xfee2}, {0xa438, 0x87fd}, {0xa438, 0xef45}, {0xa438, 0xbf56}, {0xa438, 0x7402}, {0xa438, 0x54e3}, - {0xa438, 0xe087}, {0xa438, 0xfff6}, {0xa438, 0x20e4}, {0xa438, 0x87ff}, {0xa438, 0xfdfc}, {0xa438, 0x0400}, {0xa436, 0xb818}, {0xa438, 0x0407}, {0xa436, 0xb81a}, {0xa438, 0xfffd}, - {0xa436, 0xb81c}, {0xa438, 0xfffd}, {0xa436, 0xb81e}, {0xa438, 0xfffd}, {0xa436, 0xb832}, {0xa438, 0x0001}, {0xb820, 0x0000}, {0xb82e, 0x0000}, {0xa436, 0x8028}, {0xa438, 0x0000} -}; - -static rtk_api_ret_t _rtk_switch_init_8367c(void) -{ - rtk_port_t port; - rtk_uint32 retVal; - rtk_uint32 regData; - rtk_uint32 regValue; - - if( (retVal = rtl8367c_setAsicReg(0x13c2, 0x0249)) != RT_ERR_OK) - return retVal; - - if( (retVal = rtl8367c_getAsicReg(0x1301, ®Value)) != RT_ERR_OK) - return retVal; - - if( (retVal = rtl8367c_setAsicReg(0x13c2, 0x0000)) != RT_ERR_OK) - return retVal; - - RTK_SCAN_ALL_LOG_PORT(port) - { - if(rtk_switch_isUtpPort(port) == RT_ERR_OK) - { - if((retVal = rtl8367c_setAsicRegBit(RTL8367C_REG_PORT0_EEECFG + (0x20 * port), RTL8367C_PORT0_EEECFG_EEE_100M_OFFSET, 1)) != RT_ERR_OK) - return retVal; - - if((retVal = rtl8367c_setAsicRegBit(RTL8367C_REG_PORT0_EEECFG + (0x20 * port), RTL8367C_PORT0_EEECFG_EEE_GIGA_500M_OFFSET, 1)) != RT_ERR_OK) - return retVal; - - if((retVal = rtl8367c_setAsicRegBit(RTL8367C_REG_PORT0_EEECFG + (0x20 * port), RTL8367C_PORT0_EEECFG_EEE_TX_OFFSET, 1)) != RT_ERR_OK) - return retVal; - - if((retVal = rtl8367c_setAsicRegBit(RTL8367C_REG_PORT0_EEECFG + (0x20 * port), RTL8367C_PORT0_EEECFG_EEE_RX_OFFSET, 1)) != RT_ERR_OK) - return retVal; - - if((retVal = rtl8367c_getAsicPHYOCPReg(port, 0xA428, ®Data)) != RT_ERR_OK) - return retVal; - - regData &= ~(0x0200); - if((retVal = rtl8367c_setAsicPHYOCPReg(port, 0xA428, regData)) != RT_ERR_OK) - return retVal; - - if((regValue & 0x00F0) == 0x00A0) - { - if((retVal = rtl8367c_getAsicPHYOCPReg(port, 0xA5D0, ®Data)) != RT_ERR_OK) - return retVal; - - regData |= 0x0006; - if((retVal = rtl8367c_setAsicPHYOCPReg(port, 0xA5D0, regData)) != RT_ERR_OK) - return retVal; - } - } - } - - if((retVal = rtl8367c_setAsicReg(RTL8367C_REG_UTP_FIB_DET, 0x15BB)) != RT_ERR_OK) - return retVal; - - if((retVal = rtl8367c_setAsicReg(0x1303, 0x06D6)) != RT_ERR_OK) - return retVal; - - if((retVal = rtl8367c_setAsicReg(0x1304, 0x0700)) != RT_ERR_OK) - return retVal; - - if((retVal = rtl8367c_setAsicReg(0x13E2, 0x003F)) != RT_ERR_OK) - return retVal; - - if((retVal = rtl8367c_setAsicReg(0x13F9, 0x0090)) != RT_ERR_OK) - return retVal; - - if((retVal = rtl8367c_setAsicReg(0x121e, 0x03CA)) != RT_ERR_OK) - return retVal; - - if((retVal = rtl8367c_setAsicReg(0x1233, 0x0352)) != RT_ERR_OK) - return retVal; - - if((retVal = rtl8367c_setAsicReg(0x1237, 0x00a0)) != RT_ERR_OK) - return retVal; - - if((retVal = rtl8367c_setAsicReg(0x123a, 0x0030)) != RT_ERR_OK) - return retVal; - - if((retVal = rtl8367c_setAsicReg(0x1239, 0x0084)) != RT_ERR_OK) - return retVal; - - if((retVal = rtl8367c_setAsicReg(0x0301, 0x1000)) != RT_ERR_OK) - return retVal; - - if((retVal = rtl8367c_setAsicReg(0x1349, 0x001F)) != RT_ERR_OK) - return retVal; - - if((retVal = rtl8367c_setAsicRegBit(0x18e0, 0, 0)) != RT_ERR_OK) - return retVal; - - if((retVal = rtl8367c_setAsicRegBit(0x122b, 14, 1)) != RT_ERR_OK) - return retVal; - - if((retVal = rtl8367c_setAsicRegBits(0x1305, 0xC000, 3)) != RT_ERR_OK) - return retVal; - - return RT_ERR_OK; -} - -static rtk_api_ret_t _rtk_switch_init_8370b(void) -{ - ret_t retVal; - rtk_uint32 regData, tmp = 0; - rtk_uint32 i, prf, counter; - rtk_uint32 long_link[8] = {0x0210, 0x03e8, 0x0218, 0x03f0, 0x0220, 0x03f8, 0x0208, 0x03e0 }; - - if((retVal = rtl8367c_setAsicRegBits(0x1205, 0x0300, 3)) != RT_ERR_OK) - return retVal; - - - for(i=0; i<8; i++) - { - if ((retVal = rtl8367c_getAsicPHYOCPReg(i, 0xa420, ®Data)) != RT_ERR_OK) - return retVal; - tmp = regData & 0x7 ; - if(tmp == 0x3) - { - prf = 1; - if((retVal = rtl8367c_setAsicPHYOCPReg(i, 0xb83e, 0x6fa9)) != RT_ERR_OK) - return retVal; - if((retVal = rtl8367c_setAsicPHYOCPReg(i, 0xb840, 0xa9)) != RT_ERR_OK) - return retVal; - for(counter = 0; counter < 10000; counter++); //delay - - if ((retVal = rtl8367c_getAsicPHYOCPReg(i, 0xb820, ®Data)) != RT_ERR_OK) - return retVal; - tmp = regData | 0x10; - if ((retVal = rtl8367c_setAsicPHYOCPReg(i, 0xb820, tmp)) != RT_ERR_OK) - return retVal; - for(counter = 0; counter < 10000; counter++); //delay - counter = 0; - do{ - counter = counter + 1; - if ((retVal = rtl8367c_getAsicPHYOCPReg(i, 0xb800, ®Data)) != RT_ERR_OK) - return retVal; - tmp = regData & 0x40; - if(tmp != 0) - break; - } while (counter < 20); //Wait for patch ready = 1... - } - } - if ((retVal = rtl8367c_getAsicReg(0x1d01, ®Data)) != RT_ERR_OK) - return retVal; - tmp = regData; - tmp = tmp | 0x3BE0; /*Broadcast port enable*/ - tmp = tmp & 0xFFE0; /*Phy_id = 0 */ - if((retVal = rtl8367c_setAsicReg(0x1d01, tmp)) != RT_ERR_OK) - return retVal; - - for(i=0;i < 210; i++) - { - if((retVal = rtl8367c_setAsicPHYOCPReg(0, PatchChipData[i][0], PatchChipData[i][1])) != RT_ERR_OK) - return retVal; - } - - if((retVal = rtl8367c_setAsicReg(0x1d01, regData)) != RT_ERR_OK) - return retVal; - - for(i=0; i < 8; i++) - { - if((retVal = rtl8367c_setAsicPHYOCPReg(i, 0xa4b4, long_link[i])) != RT_ERR_OK) - return retVal; - } - - if (prf == 0x1) - { - for(i=0; i<8; i++) - { - if ((retVal = rtl8367c_getAsicPHYOCPReg(i, 0xb820, ®Data)) != RT_ERR_OK) - return retVal; - tmp = regData & 0xFFEF; - if ((retVal = rtl8367c_setAsicPHYOCPReg(i, 0xb820, tmp)) != RT_ERR_OK) - return retVal; - - for(counter = 0; counter < 10000; counter++); //delay - - counter = 0; - do{ - counter = counter + 1; - if ((retVal = rtl8367c_getAsicPHYOCPReg(i, 0xb800, ®Data)) != RT_ERR_OK) - return retVal; - tmp = regData & 0x40; - if( tmp == 0 ) - break; - } while (counter < 20); //Wait for patch ready = 1... - if ((retVal = rtl8367c_setAsicPHYOCPReg(i, 0xb83e, 0x6f48)) != RT_ERR_OK) - return retVal; - if ((retVal = rtl8367c_setAsicPHYOCPReg(i, 0xb840, 0xfa)) != RT_ERR_OK) - return retVal; - } - } - - /*Check phy link status*/ - for(i=0; i<8; i++) - { - if ((retVal = rtl8367c_getAsicPHYOCPReg(i, 0xa400, ®Data)) != RT_ERR_OK) - return retVal; - tmp = regData & 0x800; - if(tmp == 0x0) - { - tmp = regData | 0x200; - if ((retVal = rtl8367c_setAsicPHYOCPReg(i, 0xa400, tmp)) != RT_ERR_OK) - return retVal; - } - } - - for(counter = 0; counter < 10000; counter++); //delay - - return RT_ERR_OK; -} - -static rtk_api_ret_t _rtk_switch_init_8364b(void) -{ - ret_t retVal; - rtk_uint32 regData; - - /*enable EEE, include mac & phy*/ - - if ((retVal = rtl8367c_setAsicRegBits(0x38, 0x300, 3)) != RT_ERR_OK) - return retVal; - if ((retVal = rtl8367c_setAsicRegBits(0x78, 0x300, 3)) != RT_ERR_OK) - return retVal; - if ((retVal = rtl8367c_setAsicRegBits(0xd8, 0x300, 0)) != RT_ERR_OK) - return retVal; - if ((retVal = rtl8367c_setAsicRegBits(0xf8, 0x300, 0)) != RT_ERR_OK) - return retVal; - - if ((retVal = rtl8367c_setAsicPHYOCPReg(1, 0xa5d0, 6)) != RT_ERR_OK) - return retVal; - if ((retVal = rtl8367c_setAsicPHYOCPReg(3, 0xa5d0, 6)) != RT_ERR_OK) - return retVal; - - /*PAD para*/ - - /*EXT1 PAD Para*/ - if ((retVal = rtl8367c_getAsicReg(0x1303, ®Data)) != RT_ERR_OK) - return retVal; - regData &= 0xFFFFFFFE; - regData |= 0x250; - if((retVal = rtl8367c_setAsicReg(0x1303, regData)) != RT_ERR_OK) - return retVal; - - if ((retVal = rtl8367c_setAsicRegBits(0x1304, 0x7000, 0)) != RT_ERR_OK) - return retVal; - if ((retVal = rtl8367c_setAsicRegBits(0x1304, 0x700, 7)) != RT_ERR_OK) - return retVal; - if ((retVal = rtl8367c_setAsicRegBits(0x13f9, 0x38, 0)) != RT_ERR_OK) - return retVal; - - /*EXT2 PAD Para*/ - if ((retVal = rtl8367c_setAsicRegBit(0x1303, 10, 1)) != RT_ERR_OK) - return retVal; - if ((retVal = rtl8367c_setAsicRegBits(0x13E2, 0x1ff, 0x26)) != RT_ERR_OK) - return retVal; - if ((retVal = rtl8367c_setAsicRegBits(0x13f9, 0x1c0, 0)) != RT_ERR_OK) - return retVal; - - - /*SDS PATCH*/ - /*SP_CFG_EN_LINK_FIB1G*/ - if((retVal = rtl8367c_getAsicSdsReg(0, 4, 0, ®Data)) != RT_ERR_OK) - return retVal; - regData |= 0x4; - if((retVal = rtl8367c_setAsicSdsReg(0,4,0, regData)) != RT_ERR_OK) - return retVal; - - /*FIB100 Down-speed*/ - if((retVal = rtl8367c_getAsicSdsReg(0, 1, 0, ®Data)) != RT_ERR_OK) - return retVal; - regData |= 0x20; - if((retVal = rtl8367c_setAsicSdsReg(0,1,0, regData)) != RT_ERR_OK) - return retVal; - - return RT_ERR_OK; -} - -static rtk_api_ret_t _rtk_switch_init_8363sc_vb(void) -{ - - ret_t retVal; - rtk_uint32 regData; - - /*enable EEE, include mac & phy*/ - - if ((retVal = rtl8367c_setAsicRegBits(0x38, 0x300, 3)) != RT_ERR_OK) - return retVal; - if ((retVal = rtl8367c_setAsicRegBits(0x78, 0x300, 3)) != RT_ERR_OK) - return retVal; - if ((retVal = rtl8367c_setAsicRegBits(0xd8, 0x300, 0)) != RT_ERR_OK) - return retVal; - if ((retVal = rtl8367c_setAsicRegBits(0xf8, 0x300, 0)) != RT_ERR_OK) - return retVal; - - if ((retVal = rtl8367c_setAsicPHYOCPReg(1, 0xa5d0, 6)) != RT_ERR_OK) - return retVal; - if ((retVal = rtl8367c_setAsicPHYOCPReg(3, 0xa5d0, 6)) != RT_ERR_OK) - return retVal; - - /*PAD para*/ - - /*EXT1 PAD Para*/ - if ((retVal = rtl8367c_getAsicReg(0x1303, ®Data)) != RT_ERR_OK) - return retVal; - regData &= 0xFFFFFFFE; - regData |= 0x250; - if((retVal = rtl8367c_setAsicReg(0x1303, regData)) != RT_ERR_OK) - return retVal; - - if ((retVal = rtl8367c_setAsicRegBits(0x1304, 0x7000, 0)) != RT_ERR_OK) - return retVal; - if ((retVal = rtl8367c_setAsicRegBits(0x1304, 0x700, 7)) != RT_ERR_OK) - return retVal; - if ((retVal = rtl8367c_setAsicRegBits(0x13f9, 0x38, 0)) != RT_ERR_OK) - return retVal; - - /*EXT2 PAD Para*/ - if ((retVal = rtl8367c_setAsicRegBit(0x1303, 10, 1)) != RT_ERR_OK) - return retVal; - if ((retVal = rtl8367c_setAsicRegBits(0x13E2, 0x1ff, 0x26)) != RT_ERR_OK) - return retVal; - if ((retVal = rtl8367c_setAsicRegBits(0x13f9, 0x1c0, 0)) != RT_ERR_OK) - return retVal; - - - /*SDS PATCH*/ - /*SP_CFG_EN_LINK_FIB1G*/ - if((retVal = rtl8367c_getAsicSdsReg(0, 4, 0, ®Data)) != RT_ERR_OK) - return retVal; - regData |= 0x4; - if((retVal = rtl8367c_setAsicSdsReg(0,4,0, regData)) != RT_ERR_OK) - return retVal; - - /*FIB100 Down-speed*/ - if((retVal = rtl8367c_getAsicSdsReg(0, 1, 0, ®Data)) != RT_ERR_OK) - return retVal; - regData |= 0x20; - if((retVal = rtl8367c_setAsicSdsReg(0,1,0, regData)) != RT_ERR_OK) - return retVal; - - return RT_ERR_OK; -} - -/* Function Name: - * rtk_switch_probe - * Description: - * Probe switch - * Input: - * None - * Output: - * None - * Return: - * RT_ERR_OK - Switch probed - * RT_ERR_FAILED - Switch Unprobed. - * Note: - * - */ -rtk_api_ret_t rtk_switch_probe(switch_chip_t *pSwitchChip) -{ -#if defined(FORCE_PROBE_RTL8367C) - - *pSwitchChip = CHIP_RTL8367C; - halCtrl = &rtl8367c_hal_Ctrl; - -#elif defined(FORCE_PROBE_RTL8370B) - - *pSwitchChip = CHIP_RTL8370B; - halCtrl = &rtl8370b_hal_Ctrl; - -#elif defined(FORCE_PROBE_RTL8364B) - - *pSwitchChip = CHIP_RTL8364B; - halCtrl = &rtl8364b_hal_Ctrl; - -#elif defined(FORCE_PROBE_RTL8363SC_VB) - - *pSwitchChip = CHIP_RTL8363SC_VB; - halCtrl = &rtl8363sc_vb_hal_Ctrl; - -#else - rtk_uint32 retVal; - rtk_uint32 data, regValue; - - if((retVal = rtl8367c_setAsicReg(0x13C2, 0x0249)) != RT_ERR_OK) - return retVal; - - if((retVal = rtl8367c_getAsicReg(0x1300, &data)) != RT_ERR_OK) - return retVal; - - if((retVal = rtl8367c_getAsicReg(0x1301, ®Value)) != RT_ERR_OK) - return retVal; - - if((retVal = rtl8367c_setAsicReg(0x13C2, 0x0000)) != RT_ERR_OK) - return retVal; - - switch (data) - { - case 0x0276: - case 0x0597: - case 0x6367: - *pSwitchChip = CHIP_RTL8367C; - halCtrl = &rtl8367c_hal_Ctrl; - break; - case 0x0652: - case 0x6368: - *pSwitchChip = CHIP_RTL8370B; - halCtrl = &rtl8370b_hal_Ctrl; - break; - case 0x0801: - case 0x6511: - if( (regValue & 0x00F0) == 0x0080) - { - *pSwitchChip = CHIP_RTL8363SC_VB; - halCtrl = &rtl8363sc_vb_hal_Ctrl; - } - else - { - *pSwitchChip = CHIP_RTL8364B; - halCtrl = &rtl8364b_hal_Ctrl; - } - break; - default: - return RT_ERR_FAILED; - } -#endif - - return RT_ERR_OK; -} - -/* Function Name: - * rtk_switch_initialState_set - * Description: - * Set initial status - * Input: - * state - Initial state; - * Output: - * None - * Return: - * RT_ERR_OK - Initialized - * RT_ERR_FAILED - Uninitialized - * Note: - * - */ -rtk_api_ret_t rtk_switch_initialState_set(init_state_t state) -{ - if(state >= INIT_STATE_END) - return RT_ERR_FAILED; - - init_state = state; - return RT_ERR_OK; -} - -/* Function Name: - * rtk_switch_initialState_get - * Description: - * Get initial status - * Input: - * None - * Output: - * None - * Return: - * INIT_COMPLETED - Initialized - * INIT_NOT_COMPLETED - Uninitialized - * Note: - * - */ -init_state_t rtk_switch_initialState_get(void) -{ - return init_state; -} - -/* Function Name: - * rtk_switch_logicalPortCheck - * Description: - * Check logical port ID. - * Input: - * logicalPort - logical port ID - * Output: - * None - * Return: - * RT_ERR_OK - Port ID is correct - * RT_ERR_FAILED - Port ID is not correct - * RT_ERR_NOT_INIT - Not Initialize - * Note: - * - */ -rtk_api_ret_t rtk_switch_logicalPortCheck(rtk_port_t logicalPort) -{ - if(init_state != INIT_COMPLETED) - return RT_ERR_NOT_INIT; - - if(logicalPort >= RTK_SWITCH_PORT_NUM) - return RT_ERR_FAILED; - - if(halCtrl->l2p_port[logicalPort] == 0xFF) - return RT_ERR_FAILED; - - return RT_ERR_OK; -} - -/* Function Name: - * rtk_switch_isUtpPort - * Description: - * Check is logical port a UTP port - * Input: - * logicalPort - logical port ID - * Output: - * None - * Return: - * RT_ERR_OK - Port ID is a UTP port - * RT_ERR_FAILED - Port ID is not a UTP port - * RT_ERR_NOT_INIT - Not Initialize - * Note: - * - */ -rtk_api_ret_t rtk_switch_isUtpPort(rtk_port_t logicalPort) -{ - if(init_state != INIT_COMPLETED) - return RT_ERR_NOT_INIT; - - if(logicalPort >= RTK_SWITCH_PORT_NUM) - return RT_ERR_FAILED; - - if(halCtrl->log_port_type[logicalPort] == UTP_PORT) - return RT_ERR_OK; - else - return RT_ERR_FAILED; -} - -/* Function Name: - * rtk_switch_isExtPort - * Description: - * Check is logical port a Extension port - * Input: - * logicalPort - logical port ID - * Output: - * None - * Return: - * RT_ERR_OK - Port ID is a EXT port - * RT_ERR_FAILED - Port ID is not a EXT port - * RT_ERR_NOT_INIT - Not Initialize - * Note: - * - */ -rtk_api_ret_t rtk_switch_isExtPort(rtk_port_t logicalPort) -{ - if(init_state != INIT_COMPLETED) - return RT_ERR_NOT_INIT; - - if(logicalPort >= RTK_SWITCH_PORT_NUM) - return RT_ERR_FAILED; - - if(halCtrl->log_port_type[logicalPort] == EXT_PORT) - return RT_ERR_OK; - else - return RT_ERR_FAILED; -} - - -/* Function Name: - * rtk_switch_isHsgPort - * Description: - * Check is logical port a HSG port - * Input: - * logicalPort - logical port ID - * Output: - * None - * Return: - * RT_ERR_OK - Port ID is a HSG port - * RT_ERR_FAILED - Port ID is not a HSG port - * RT_ERR_NOT_INIT - Not Initialize - * Note: - * - */ -rtk_api_ret_t rtk_switch_isHsgPort(rtk_port_t logicalPort) -{ - if(init_state != INIT_COMPLETED) - return RT_ERR_NOT_INIT; - - if(logicalPort >= RTK_SWITCH_PORT_NUM) - return RT_ERR_FAILED; - - if(logicalPort == halCtrl->hsg_logical_port) - return RT_ERR_OK; - else - return RT_ERR_FAILED; -} - -/* Function Name: - * rtk_switch_isSgmiiPort - * Description: - * Check is logical port a SGMII port - * Input: - * logicalPort - logical port ID - * Output: - * None - * Return: - * RT_ERR_OK - Port ID is a SGMII port - * RT_ERR_FAILED - Port ID is not a SGMII port - * RT_ERR_NOT_INIT - Not Initialize - * Note: - * - */ -rtk_api_ret_t rtk_switch_isSgmiiPort(rtk_port_t logicalPort) -{ - if(init_state != INIT_COMPLETED) - return RT_ERR_NOT_INIT; - - if(logicalPort >= RTK_SWITCH_PORT_NUM) - return RT_ERR_FAILED; - - if( ((0x01 << logicalPort) & halCtrl->sg_logical_portmask) != 0) - return RT_ERR_OK; - else - return RT_ERR_FAILED; -} - -/* Function Name: - * rtk_switch_isCPUPort - * Description: - * Check is logical port a CPU port - * Input: - * logicalPort - logical port ID - * Output: - * None - * Return: - * RT_ERR_OK - Port ID is a CPU port - * RT_ERR_FAILED - Port ID is not a CPU port - * RT_ERR_NOT_INIT - Not Initialize - * Note: - * - */ -rtk_api_ret_t rtk_switch_isCPUPort(rtk_port_t logicalPort) -{ - if(init_state != INIT_COMPLETED) - return RT_ERR_NOT_INIT; - - if(logicalPort >= RTK_SWITCH_PORT_NUM) - return RT_ERR_FAILED; - - if( ((0x01 << logicalPort) & halCtrl->valid_cpu_portmask) != 0) - return RT_ERR_OK; - else - return RT_ERR_FAILED; -} - -/* Function Name: - * rtk_switch_isComboPort - * Description: - * Check is logical port a Combo port - * Input: - * logicalPort - logical port ID - * Output: - * None - * Return: - * RT_ERR_OK - Port ID is a combo port - * RT_ERR_FAILED - Port ID is not a combo port - * RT_ERR_NOT_INIT - Not Initialize - * Note: - * - */ -rtk_api_ret_t rtk_switch_isComboPort(rtk_port_t logicalPort) -{ - if(init_state != INIT_COMPLETED) - return RT_ERR_NOT_INIT; - - if(logicalPort >= RTK_SWITCH_PORT_NUM) - return RT_ERR_FAILED; - - if(halCtrl->combo_logical_port == logicalPort) - return RT_ERR_OK; - else - return RT_ERR_FAILED; -} - -/* Function Name: - * rtk_switch_ComboPort_get - * Description: - * Get Combo port ID - * Input: - * None - * Output: - * None - * Return: - * Port ID of combo port - * Note: - * - */ -rtk_uint32 rtk_switch_ComboPort_get(void) -{ - return halCtrl->combo_logical_port; -} - -/* Function Name: - * rtk_switch_isPtpPort - * Description: - * Check is logical port a PTP port - * Input: - * logicalPort - logical port ID - * Output: - * None - * Return: - * RT_ERR_OK - Port ID is a PTP port - * RT_ERR_FAILED - Port ID is not a PTP port - * RT_ERR_NOT_INIT - Not Initialize - * Note: - * - */ -rtk_api_ret_t rtk_switch_isPtpPort(rtk_port_t logicalPort) -{ - if(init_state != INIT_COMPLETED) - return RT_ERR_NOT_INIT; - - if(logicalPort >= RTK_SWITCH_PORT_NUM) - return RT_ERR_FAILED; - - if(halCtrl->ptp_port[logicalPort] == 1) - return RT_ERR_OK; - else - return RT_ERR_FAILED; -} - -/* Function Name: - * rtk_switch_port_L2P_get - * Description: - * Get physical port ID - * Input: - * logicalPort - logical port ID - * Output: - * None - * Return: - * Physical port ID - * Note: - * - */ -rtk_uint32 rtk_switch_port_L2P_get(rtk_port_t logicalPort) -{ - if(init_state != INIT_COMPLETED) - return UNDEFINE_PHY_PORT; - - if(logicalPort >= RTK_SWITCH_PORT_NUM) - return UNDEFINE_PHY_PORT; - - return (halCtrl->l2p_port[logicalPort]); -} - -/* Function Name: - * rtk_switch_port_P2L_get - * Description: - * Get logical port ID - * Input: - * physicalPort - physical port ID - * Output: - * None - * Return: - * logical port ID - * Note: - * - */ -rtk_port_t rtk_switch_port_P2L_get(rtk_uint32 physicalPort) -{ - if(init_state != INIT_COMPLETED) - return UNDEFINE_PORT; - - if(physicalPort >= RTK_SWITCH_PORT_NUM) - return UNDEFINE_PORT; - - return (halCtrl->p2l_port[physicalPort]); -} - -/* Function Name: - * rtk_switch_isPortMaskValid - * Description: - * Check portmask is valid or not - * Input: - * pPmask - logical port mask - * Output: - * None - * Return: - * RT_ERR_OK - port mask is valid - * RT_ERR_FAILED - port mask is not valid - * RT_ERR_NOT_INIT - Not Initialize - * RT_ERR_NULL_POINTER - Null pointer - * Note: - * - */ -rtk_api_ret_t rtk_switch_isPortMaskValid(rtk_portmask_t *pPmask) -{ - if(init_state != INIT_COMPLETED) - return RT_ERR_NOT_INIT; - - if(NULL == pPmask) - return RT_ERR_NULL_POINTER; - - if( (pPmask->bits[0] | halCtrl->valid_portmask) != halCtrl->valid_portmask ) - return RT_ERR_FAILED; - else - return RT_ERR_OK; -} - -/* Function Name: - * rtk_switch_isPortMaskUtp - * Description: - * Check all ports in portmask are only UTP port - * Input: - * pPmask - logical port mask - * Output: - * None - * Return: - * RT_ERR_OK - Only UTP port in port mask - * RT_ERR_FAILED - Not only UTP port in port mask - * RT_ERR_NOT_INIT - Not Initialize - * RT_ERR_NULL_POINTER - Null pointer - * Note: - * - */ -rtk_api_ret_t rtk_switch_isPortMaskUtp(rtk_portmask_t *pPmask) -{ - if(init_state != INIT_COMPLETED) - return RT_ERR_NOT_INIT; - - if(NULL == pPmask) - return RT_ERR_NULL_POINTER; - - if( (pPmask->bits[0] | halCtrl->valid_utp_portmask) != halCtrl->valid_utp_portmask ) - return RT_ERR_FAILED; - else - return RT_ERR_OK; -} - -/* Function Name: - * rtk_switch_isPortMaskExt - * Description: - * Check all ports in portmask are only EXT port - * Input: - * pPmask - logical port mask - * Output: - * None - * Return: - * RT_ERR_OK - Only EXT port in port mask - * RT_ERR_FAILED - Not only EXT port in port mask - * RT_ERR_NOT_INIT - Not Initialize - * RT_ERR_NULL_POINTER - Null pointer - * Note: - * - */ -rtk_api_ret_t rtk_switch_isPortMaskExt(rtk_portmask_t *pPmask) -{ - if(init_state != INIT_COMPLETED) - return RT_ERR_NOT_INIT; - - if(NULL == pPmask) - return RT_ERR_NULL_POINTER; - - if( (pPmask->bits[0] | halCtrl->valid_ext_portmask) != halCtrl->valid_ext_portmask ) - return RT_ERR_FAILED; - else - return RT_ERR_OK; -} - -/* Function Name: - * rtk_switch_portmask_L2P_get - * Description: - * Get physicl portmask from logical portmask - * Input: - * pLogicalPmask - logical port mask - * Output: - * pPhysicalPortmask - physical port mask - * Return: - * RT_ERR_OK - OK - * RT_ERR_NOT_INIT - Not Initialize - * RT_ERR_NULL_POINTER - Null pointer - * RT_ERR_PORT_MASK - Error port mask - * Note: - * - */ -rtk_api_ret_t rtk_switch_portmask_L2P_get(rtk_portmask_t *pLogicalPmask, rtk_uint32 *pPhysicalPortmask) -{ - rtk_uint32 log_port, phy_port; - - if(init_state != INIT_COMPLETED) - return RT_ERR_NOT_INIT; - - if(NULL == pLogicalPmask) - return RT_ERR_NULL_POINTER; - - if(NULL == pPhysicalPortmask) - return RT_ERR_NULL_POINTER; - - if(rtk_switch_isPortMaskValid(pLogicalPmask) != RT_ERR_OK) - return RT_ERR_PORT_MASK; - - /* reset physical port mask */ - *pPhysicalPortmask = 0; - - RTK_PORTMASK_SCAN((*pLogicalPmask), log_port) - { - phy_port = rtk_switch_port_L2P_get((rtk_port_t)log_port); - *pPhysicalPortmask |= (0x0001 << phy_port); - } - - return RT_ERR_OK; -} - -/* Function Name: - * rtk_switch_portmask_P2L_get - * Description: - * Get logical portmask from physical portmask - * Input: - * physicalPortmask - physical port mask - * Output: - * pLogicalPmask - logical port mask - * Return: - * RT_ERR_OK - OK - * RT_ERR_NOT_INIT - Not Initialize - * RT_ERR_NULL_POINTER - Null pointer - * RT_ERR_PORT_MASK - Error port mask - * Note: - * - */ -rtk_api_ret_t rtk_switch_portmask_P2L_get(rtk_uint32 physicalPortmask, rtk_portmask_t *pLogicalPmask) -{ - rtk_uint32 log_port, phy_port; - - if(init_state != INIT_COMPLETED) - return RT_ERR_NOT_INIT; - - if(NULL == pLogicalPmask) - return RT_ERR_NULL_POINTER; - - RTK_PORTMASK_CLEAR(*pLogicalPmask); - - for(phy_port = halCtrl->min_phy_port; phy_port <= halCtrl->max_phy_port; phy_port++) - { - if(physicalPortmask & (0x0001 << phy_port)) - { - log_port = rtk_switch_port_P2L_get(phy_port); - if(log_port != UNDEFINE_PORT) - { - RTK_PORTMASK_PORT_SET(*pLogicalPmask, log_port); - } - } - } - - return RT_ERR_OK; -} - -/* Function Name: - * rtk_switch_phyPortMask_get - * Description: - * Get physical portmask - * Input: - * None - * Output: - * None - * Return: - * 0x00 - Not Initialize - * Other value - Physical port mask - * Note: - * - */ -rtk_uint32 rtk_switch_phyPortMask_get(void) -{ - if(init_state != INIT_COMPLETED) - return 0x00; /* No port in portmask */ - - return (halCtrl->phy_portmask); -} - -/* Function Name: - * rtk_switch_logPortMask_get - * Description: - * Get Logical portmask - * Input: - * None - * Output: - * None - * Return: - * RT_ERR_OK - OK - * RT_ERR_NOT_INIT - Not Initialize - * RT_ERR_NULL_POINTER - Null pointer - * Note: - * - */ -rtk_api_ret_t rtk_switch_logPortMask_get(rtk_portmask_t *pPortmask) -{ - if(init_state != INIT_COMPLETED) - return RT_ERR_FAILED; - - if(NULL == pPortmask) - return RT_ERR_NULL_POINTER; - - pPortmask->bits[0] = halCtrl->valid_portmask; - return RT_ERR_OK; -} - -/* Function Name: - * rtk_switch_init - * Description: - * Set chip to default configuration enviroment - * Input: - * None - * Output: - * None - * Return: - * RT_ERR_OK - OK - * RT_ERR_FAILED - Failed - * RT_ERR_SMI - SMI access error - * Note: - * The API can set chip registers to default configuration for different release chip model. - */ -rtk_api_ret_t rtk_switch_init(void) -{ - rtk_uint32 retVal; - rtl8367c_rma_t rmaCfg; - switch_chip_t switchChip; - - /* probe switch */ - if((retVal = rtk_switch_probe(&switchChip)) != RT_ERR_OK) - return retVal; - - /* Set initial state */ - - if((retVal = rtk_switch_initialState_set(INIT_COMPLETED)) != RT_ERR_OK) - return retVal; - - /* Initial */ - switch(switchChip) - { - case CHIP_RTL8367C: - if((retVal = _rtk_switch_init_8367c()) != RT_ERR_OK) - return retVal; - break; - case CHIP_RTL8370B: - if((retVal = _rtk_switch_init_8370b()) != RT_ERR_OK) - return retVal; - break; - case CHIP_RTL8364B: - if((retVal = _rtk_switch_init_8364b()) != RT_ERR_OK) - return retVal; - break; - case CHIP_RTL8363SC_VB: - if((retVal = _rtk_switch_init_8363sc_vb()) != RT_ERR_OK) - return retVal; - break; - default: - return RT_ERR_CHIP_NOT_FOUND; - } - - /* Set Old max packet length to 16K */ - if((retVal = rtl8367c_setAsicRegBits(RTL8367C_REG_MAX_LENGTH_LIMINT_IPG, RTL8367C_MAX_LENTH_CTRL_MASK, 3)) != RT_ERR_OK) - return retVal; - - if((retVal = rtl8367c_setAsicRegBits(RTL8367C_REG_MAX_LEN_RX_TX, RTL8367C_MAX_LEN_RX_TX_MASK, 3)) != RT_ERR_OK) - return retVal; - - /* ACL Mode */ - if((retVal = rtl8367c_setAsicRegBits(RTL8367C_REG_ACL_ACCESS_MODE, RTL8367C_ACL_ACCESS_MODE_MASK, 1)) != RT_ERR_OK) - return retVal; - - /* Max rate */ - if((retVal = rtk_rate_igrBandwidthCtrlRate_set(halCtrl->hsg_logical_port, RTL8367C_QOS_RATE_INPUT_MAX_HSG, DISABLED, ENABLED)) != RT_ERR_OK) - return retVal; - - if((retVal = rtk_rate_egrBandwidthCtrlRate_set(halCtrl->hsg_logical_port, RTL8367C_QOS_RATE_INPUT_MAX_HSG, ENABLED)) != RT_ERR_OK) - return retVal; - - if((retVal = rtl8367c_setAsicReg(0x03fa, 0x0007)) != RT_ERR_OK) - return retVal; - - /* Change unknown DA to per port setting */ - if((retVal = rtl8367c_setAsicRegBits(RTL8367C_PORT_SECURIT_CTRL_REG, RTL8367C_UNKNOWN_UNICAST_DA_BEHAVE_MASK, 3)) != RT_ERR_OK) - return retVal; - - /* LUT lookup OP = 1 */ - if ((retVal = rtl8367c_setAsicLutIpLookupMethod(1))!=RT_ERR_OK) - return retVal; - - /* Set RMA */ - rmaCfg.portiso_leaky = 0; - rmaCfg.vlan_leaky = 0; - rmaCfg.keep_format = 0; - rmaCfg.trap_priority = 0; - rmaCfg.discard_storm_filter = 0; - rmaCfg.operation = 0; - if ((retVal = rtl8367c_setAsicRma(2, &rmaCfg))!=RT_ERR_OK) - return retVal; - - /* Enable TX Mirror isolation leaky */ - if ((retVal = rtl8367c_setAsicPortMirrorIsolationTxLeaky(ENABLED)) != RT_ERR_OK) - return retVal; - - /* INT EN */ - if((retVal = rtl8367c_setAsicRegBit(RTL8367C_REG_IO_MISC_FUNC, RTL8367C_INT_EN_OFFSET, 1)) != RT_ERR_OK) - return retVal; - - return RT_ERR_OK; -} - -/* Function Name: - * rtk_switch_portMaxPktLen_set - * Description: - * Set Max packet length - * Input: - * port - Port ID - * speed - Speed - * cfgId - Configuration ID - * Output: - * None. - * Return: - * RT_ERR_OK - OK - * RT_ERR_FAILED - Failed - * RT_ERR_SMI - SMI access error - * RT_ERR_INPUT - Error Input - * Note: - */ -rtk_api_ret_t rtk_switch_portMaxPktLen_set(rtk_port_t port, rtk_switch_maxPktLen_linkSpeed_t speed, rtk_uint32 cfgId) -{ - rtk_api_ret_t retVal; - - /* Check initialization state */ - RTK_CHK_INIT_STATE(); - - /* Check Port Valid */ - RTK_CHK_PORT_VALID(port); - - if(speed >= MAXPKTLEN_LINK_SPEED_END) - return RT_ERR_INPUT; - - if(cfgId > MAXPKTLEN_CFG_ID_MAX) - return RT_ERR_INPUT; - - if((retVal = rtl8367c_setAsicMaxLength(rtk_switch_port_L2P_get(port), (rtk_uint32)speed, cfgId)) != RT_ERR_OK) - return retVal; - - return RT_ERR_OK; -} - -/* Function Name: - * rtk_switch_portMaxPktLen_get - * Description: - * Get Max packet length - * Input: - * port - Port ID - * speed - Speed - * Output: - * pCfgId - Configuration ID - * Return: - * RT_ERR_OK - OK - * RT_ERR_FAILED - Failed - * RT_ERR_SMI - SMI access error - * RT_ERR_INPUT - Error Input - * Note: - */ -rtk_api_ret_t rtk_switch_portMaxPktLen_get(rtk_port_t port, rtk_switch_maxPktLen_linkSpeed_t speed, rtk_uint32 *pCfgId) -{ - rtk_api_ret_t retVal; - - /* Check initialization state */ - RTK_CHK_INIT_STATE(); - - /* Check Port Valid */ - RTK_CHK_PORT_VALID(port); - - if(speed >= MAXPKTLEN_LINK_SPEED_END) - return RT_ERR_INPUT; - - if(NULL == pCfgId) - return RT_ERR_NULL_POINTER; - - if((retVal = rtl8367c_getAsicMaxLength(rtk_switch_port_L2P_get(port), (rtk_uint32)speed, pCfgId)) != RT_ERR_OK) - return retVal; - - return RT_ERR_OK; -} - -/* Function Name: - * rtk_switch_maxPktLenCfg_set - * Description: - * Set Max packet length configuration - * Input: - * cfgId - Configuration ID - * pktLen - Max packet length - * Output: - * None. - * Return: - * RT_ERR_OK - OK - * RT_ERR_FAILED - Failed - * RT_ERR_SMI - SMI access error - * RT_ERR_INPUT - Error Input - * Note: - */ -rtk_api_ret_t rtk_switch_maxPktLenCfg_set(rtk_uint32 cfgId, rtk_uint32 pktLen) -{ - rtk_api_ret_t retVal; - - /* Check initialization state */ - RTK_CHK_INIT_STATE(); - - if(cfgId > MAXPKTLEN_CFG_ID_MAX) - return RT_ERR_INPUT; - - if(pktLen > RTK_SWITCH_MAX_PKTLEN) - return RT_ERR_INPUT; - - if((retVal = rtl8367c_setAsicMaxLengthCfg(cfgId, pktLen)) != RT_ERR_OK) - return retVal; - - return RT_ERR_OK; -} - -/* Function Name: - * rtk_switch_maxPktLenCfg_get - * Description: - * Get Max packet length configuration - * Input: - * cfgId - Configuration ID - * pPktLen - Max packet length - * Output: - * None. - * Return: - * RT_ERR_OK - OK - * RT_ERR_FAILED - Failed - * RT_ERR_SMI - SMI access error - * RT_ERR_INPUT - Error Input - * Note: - */ -rtk_api_ret_t rtk_switch_maxPktLenCfg_get(rtk_uint32 cfgId, rtk_uint32 *pPktLen) -{ - rtk_api_ret_t retVal; - - /* Check initialization state */ - RTK_CHK_INIT_STATE(); - - if(cfgId > MAXPKTLEN_CFG_ID_MAX) - return RT_ERR_INPUT; - - if(NULL == pPktLen) - return RT_ERR_NULL_POINTER; - - if((retVal = rtl8367c_getAsicMaxLengthCfg(cfgId, pPktLen)) != RT_ERR_OK) - return retVal; - - return RT_ERR_OK; -} - -/* Function Name: - * rtk_switch_greenEthernet_set - * Description: - * Set all Ports Green Ethernet state. - * Input: - * enable - Green Ethernet state. - * Output: - * None - * Return: - * RT_ERR_OK - OK - * RT_ERR_FAILED - Failed - * RT_ERR_SMI - SMI access error - * RT_ERR_ENABLE - Invalid enable input. - * Note: - * This API can set all Ports Green Ethernet state. - * The configuration is as following: - * - DISABLE - * - ENABLE - */ -rtk_api_ret_t rtk_switch_greenEthernet_set(rtk_enable_t enable) -{ - rtk_api_ret_t retVal; - rtk_uint32 port; - - /* Check initialization state */ - RTK_CHK_INIT_STATE(); - - RTK_SCAN_ALL_LOG_PORT(port) - { - if(rtk_switch_isUtpPort(port) == RT_ERR_OK) - { - if ((retVal = rtl8367c_setAsicPowerSaving(rtk_switch_port_L2P_get(port),enable))!=RT_ERR_OK) - return retVal; - - if ((retVal = rtl8367c_setAsicGreenEthernet(rtk_switch_port_L2P_get(port), enable))!=RT_ERR_OK) - return retVal; - } - } - - return RT_ERR_OK; -} - -/* Function Name: - * rtk_switch_greenEthernet_get - * Description: - * Get all Ports Green Ethernet state. - * Input: - * None - * Output: - * pEnable - Green Ethernet state. - * Return: - * RT_ERR_OK - OK - * RT_ERR_FAILED - Failed - * RT_ERR_SMI - SMI access error - * Note: - * This API can get Green Ethernet state. - */ -rtk_api_ret_t rtk_switch_greenEthernet_get(rtk_enable_t *pEnable) -{ - rtk_api_ret_t retVal; - rtk_uint32 port; - rtk_uint32 state; - - /* Check initialization state */ - RTK_CHK_INIT_STATE(); - - RTK_SCAN_ALL_LOG_PORT(port) - { - if(rtk_switch_isUtpPort(port) == RT_ERR_OK) - { - if ((retVal = rtl8367c_getAsicPowerSaving(rtk_switch_port_L2P_get(port), &state))!=RT_ERR_OK) - return retVal; - - if(state == DISABLED) - { - *pEnable = DISABLED; - return RT_ERR_OK; - } - - if ((retVal = rtl8367c_getAsicGreenEthernet(rtk_switch_port_L2P_get(port), &state))!=RT_ERR_OK) - return retVal; - - if(state == DISABLED) - { - *pEnable = DISABLED; - return RT_ERR_OK; - } - } - } - - *pEnable = ENABLED; - return RT_ERR_OK; -} - -/* Function Name: - * rtk_switch_maxLogicalPort_get - * Description: - * Get Max logical port ID - * Input: - * None - * Output: - * None - * Return: - * Max logical port - * Note: - * This API can get max logical port - */ -rtk_port_t rtk_switch_maxLogicalPort_get(void) -{ - rtk_port_t port, maxLogicalPort = 0; - - /* Check initialization state */ - if(rtk_switch_initialState_get() != INIT_COMPLETED) - { - return UNDEFINE_PORT; - } - - for(port = 0; port < RTK_SWITCH_PORT_NUM; port++) - { - if( (halCtrl->log_port_type[port] == UTP_PORT) || (halCtrl->log_port_type[port] == EXT_PORT) ) - maxLogicalPort = port; - } - - return maxLogicalPort; -} - -/* Function Name: - * rtk_switch_maxMeterId_get - * Description: - * Get Max Meter ID - * Input: - * None - * Output: - * None - * Return: - * 0x00 - Not Initialize - * Other value - Max Meter ID - * Note: - * - */ -rtk_uint32 rtk_switch_maxMeterId_get(void) -{ - if(init_state != INIT_COMPLETED) - return 0x00; - - return (halCtrl->max_meter_id); -} - -/* Function Name: - * rtk_switch_maxLutAddrNumber_get - * Description: - * Get Max LUT Address number - * Input: - * None - * Output: - * None - * Return: - * 0x00 - Not Initialize - * Other value - Max LUT Address number - * Note: - * - */ -rtk_uint32 rtk_switch_maxLutAddrNumber_get(void) -{ - if(init_state != INIT_COMPLETED) - return 0x00; - - return (halCtrl->max_lut_addr_num); -} - -/* Function Name: - * rtk_switch_isValidTrunkGrpId - * Description: - * Check if trunk group is valid or not - * Input: - * grpId - Group ID - * Output: - * None - * Return: - * RT_ERR_OK - Trunk Group ID is valid - * RT_ERR_LA_TRUNK_ID - Trunk Group ID is not valid - * Note: - * - */ -rtk_uint32 rtk_switch_isValidTrunkGrpId(rtk_uint32 grpId) -{ - if(init_state != INIT_COMPLETED) - return 0x00; - - if( (halCtrl->trunk_group_mask & (0x01 << grpId) ) != 0) - return RT_ERR_OK; - else - return RT_ERR_LA_TRUNK_ID; - -} - |