--- /dev/null
+/*
+ * 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: 76306 $
+ * $Date: 2017-03-08 15:13:58 +0800 (週三, 08 三月 2017) $
+ *
+ * Purpose : RTL8367C switch high-level API for RTL8367C
+ * Feature : ACL related function drivers
+ *
+ */
+#include <rtl8367c_asicdrv_acl.h>
+
+#include <string.h>
+
+#if defined(CONFIG_RTL8367C_ASICDRV_TEST)
+rtl8367c_aclrulesmi Rtl8370sVirtualAclRuleTable[RTL8367C_ACLRULENO];
+rtk_uint16 Rtl8370sVirtualAclActTable[RTL8367C_ACLRULENO][RTL8367C_ACL_ACT_TABLE_LEN];
+#endif
+
+/*
+ Exchange structure type define with MMI and SMI
+*/
+static void _rtl8367c_aclRuleStSmi2User( rtl8367c_aclrule *pAclUser, rtl8367c_aclrulesmi *pAclSmi)
+{
+ rtk_uint8 *care_ptr, *data_ptr;
+ rtk_uint8 care_tmp, data_tmp;
+ rtk_uint32 i;
+
+ pAclUser->data_bits.active_portmsk = (((pAclSmi->data_bits_ext.rule_info >> 1) & 0x0007) << 8) | ((pAclSmi->data_bits.rule_info >> 8) & 0x00FF);
+ pAclUser->data_bits.type = (pAclSmi->data_bits.rule_info & 0x0007);
+ pAclUser->data_bits.tag_exist = (pAclSmi->data_bits.rule_info & 0x00F8) >> 3;
+
+ care_ptr = (rtk_uint8*)&pAclSmi->care_bits;
+ data_ptr = (rtk_uint8*)&pAclSmi->data_bits;
+
+ for ( i = 0; i < sizeof(struct acl_rule_smi_st); i++)
+ {
+ care_tmp = *(care_ptr + i) ^ (*(data_ptr + i));
+ data_tmp = *(data_ptr + i);
+
+ *(care_ptr + i) = care_tmp;
+ *(data_ptr + i) = data_tmp;
+ }
+
+ care_ptr = (rtk_uint8*)&pAclSmi->care_bits_ext;
+ data_ptr = (rtk_uint8*)&pAclSmi->data_bits_ext;
+ care_tmp = (*care_ptr) ^ (*data_ptr);
+ data_tmp = (*data_ptr);
+ *care_ptr = care_tmp;
+ *data_ptr = data_tmp;
+
+ for(i = 0; i < RTL8367C_ACLRULEFIELDNO; i++)
+ pAclUser->data_bits.field[i] = pAclSmi->data_bits.field[i];
+
+ pAclUser->valid = pAclSmi->valid;
+
+ pAclUser->care_bits.active_portmsk = (((pAclSmi->care_bits_ext.rule_info >> 1) & 0x0007) << 8) | ((pAclSmi->care_bits.rule_info >> 8) & 0x00FF);
+ pAclUser->care_bits.type = (pAclSmi->care_bits.rule_info & 0x0007);
+ pAclUser->care_bits.tag_exist = (pAclSmi->care_bits.rule_info & 0x00F8) >> 3;
+
+ for(i = 0; i < RTL8367C_ACLRULEFIELDNO; i++)
+ pAclUser->care_bits.field[i] = pAclSmi->care_bits.field[i];
+}
+
+/*
+ Exchange structure type define with MMI and SMI
+*/
+static void _rtl8367c_aclRuleStUser2Smi(rtl8367c_aclrule *pAclUser, rtl8367c_aclrulesmi *pAclSmi)
+{
+ rtk_uint8 *care_ptr, *data_ptr;
+ rtk_uint8 care_tmp, data_tmp;
+ rtk_uint32 i;
+
+ pAclSmi->data_bits_ext.rule_info = ((pAclUser->data_bits.active_portmsk >> 8) & 0x7) << 1;
+ pAclSmi->data_bits.rule_info = ((pAclUser->data_bits.active_portmsk & 0xff) << 8) | ((pAclUser->data_bits.tag_exist & 0x1F) << 3) | (pAclUser->data_bits.type & 0x07);
+
+ for(i = 0;i < RTL8367C_ACLRULEFIELDNO; i++)
+ pAclSmi->data_bits.field[i] = pAclUser->data_bits.field[i];
+
+ pAclSmi->valid = pAclUser->valid;
+
+ pAclSmi->care_bits_ext.rule_info = ((pAclUser->care_bits.active_portmsk >> 8) & 0x7) << 1;
+ pAclSmi->care_bits.rule_info = ((pAclUser->care_bits.active_portmsk & 0xff) << 8) | ((pAclUser->care_bits.tag_exist & 0x1F) << 3) | (pAclUser->care_bits.type & 0x07);
+
+ for(i = 0; i < RTL8367C_ACLRULEFIELDNO; i++)
+ pAclSmi->care_bits.field[i] = pAclUser->care_bits.field[i];
+
+ care_ptr = (rtk_uint8*)&pAclSmi->care_bits;
+ data_ptr = (rtk_uint8*)&pAclSmi->data_bits;
+
+ for ( i = 0; i < sizeof(struct acl_rule_smi_st); i++)
+ {
+ care_tmp = *(care_ptr + i) & ~(*(data_ptr + i));
+ data_tmp = *(care_ptr + i) & *(data_ptr + i);
+
+ *(care_ptr + i) = care_tmp;
+ *(data_ptr + i) = data_tmp;
+ }
+
+ care_ptr = (rtk_uint8*)&pAclSmi->care_bits_ext;
+ data_ptr = (rtk_uint8*)&pAclSmi->data_bits_ext;
+ care_tmp = *care_ptr & ~(*data_ptr);
+ data_tmp = *care_ptr & *data_ptr;
+
+ *care_ptr = care_tmp;
+ *data_ptr = data_tmp;
+}
+
+/*
+ Exchange structure type define with MMI and SMI
+*/
+static void _rtl8367c_aclActStSmi2User(rtl8367c_acl_act_t *pAclUser, rtk_uint16 *pAclSmi)
+{
+ pAclUser->cact = (pAclSmi[0] & 0x00C0) >> 6;
+ pAclUser->cvidx_cact = (pAclSmi[0] & 0x003F) | (((pAclSmi[3] & 0x0008) >> 3) << 6);
+
+ pAclUser->sact = (pAclSmi[0] & 0xC000) >> 14;
+ pAclUser->svidx_sact = ((pAclSmi[0] & 0x3F00) >> 8) | (((pAclSmi[3] & 0x0010) >> 4) << 6);
+
+ pAclUser->aclmeteridx = (pAclSmi[1] & 0x003F) | (((pAclSmi[3] & 0x0020) >> 5) << 6);
+
+ pAclUser->fwdact = (pAclSmi[1] & 0xC000) >> 14;
+ pAclUser->fwdpmask = ((pAclSmi[1] & 0x3FC0) >> 6) | (((pAclSmi[3] & 0x01C0) >> 6) << 8);
+
+ pAclUser->priact = (pAclSmi[2] & 0x00C0) >> 6;
+ pAclUser->pridx = (pAclSmi[2] & 0x003F) | (((pAclSmi[3] & 0x0200) >> 9) << 6);
+
+ pAclUser->aclint = (pAclSmi[2] & 0x2000) >> 13;
+ pAclUser->gpio_en = (pAclSmi[2] & 0x1000) >> 12;
+ pAclUser->gpio_pin = (pAclSmi[2] & 0x0F00) >> 8;
+
+ pAclUser->cact_ext = (pAclSmi[2] & 0xC000) >> 14;
+ pAclUser->tag_fmt = (pAclSmi[3] & 0x0003);
+ pAclUser->fwdact_ext = (pAclSmi[3] & 0x0004) >> 2;
+}
+
+/*
+ Exchange structure type define with MMI and SMI
+*/
+static void _rtl8367c_aclActStUser2Smi(rtl8367c_acl_act_t *pAclUser, rtk_uint16 *pAclSmi)
+{
+ pAclSmi[0] |= (pAclUser->cvidx_cact & 0x003F);
+ pAclSmi[0] |= (pAclUser->cact & 0x0003) << 6;
+ pAclSmi[0] |= (pAclUser->svidx_sact & 0x003F) << 8;
+ pAclSmi[0] |= (pAclUser->sact & 0x0003) << 14;
+
+ pAclSmi[1] |= (pAclUser->aclmeteridx & 0x003F);
+ pAclSmi[1] |= (pAclUser->fwdpmask & 0x00FF) << 6;
+ pAclSmi[1] |= (pAclUser->fwdact & 0x0003) << 14;
+
+ pAclSmi[2] |= (pAclUser->pridx & 0x003F);
+ pAclSmi[2] |= (pAclUser->priact & 0x0003) << 6;
+ pAclSmi[2] |= (pAclUser->gpio_pin & 0x000F) << 8;
+ pAclSmi[2] |= (pAclUser->gpio_en & 0x0001) << 12;
+ pAclSmi[2] |= (pAclUser->aclint & 0x0001) << 13;
+ pAclSmi[2] |= (pAclUser->cact_ext & 0x0003) << 14;
+
+ pAclSmi[3] |= (pAclUser->tag_fmt & 0x0003);
+ pAclSmi[3] |= (pAclUser->fwdact_ext & 0x0001) << 2;
+ pAclSmi[3] |= ((pAclUser->cvidx_cact & 0x0040) >> 6) << 3;
+ pAclSmi[3] |= ((pAclUser->svidx_sact & 0x0040) >> 6) << 4;
+ pAclSmi[3] |= ((pAclUser->aclmeteridx & 0x0040) >> 6) << 5;
+ pAclSmi[3] |= ((pAclUser->fwdpmask & 0x0700) >> 8) << 6;
+ pAclSmi[3] |= ((pAclUser->pridx & 0x0040) >> 6) << 9;
+}
+
+/* Function Name:
+ * rtl8367c_setAsicAcl
+ * Description:
+ * Set port acl function enable/disable
+ * Input:
+ * port - Physical port number (0~10)
+ * enabled - 1: enabled, 0: disabled
+ * Output:
+ * None
+ * Return:
+ * RT_ERR_OK - Success
+ * RT_ERR_SMI - SMI access error
+ * RT_ERR_PORT_ID - Invalid port number
+ * Note:
+ * None
+ */
+ret_t rtl8367c_setAsicAcl(rtk_uint32 port, rtk_uint32 enabled)
+{
+ if(port > RTL8367C_PORTIDMAX)
+ return RT_ERR_PORT_ID;
+
+ return rtl8367c_setAsicRegBit(RTL8367C_ACL_ENABLE_REG, port, enabled);
+}
+/* Function Name:
+ * rtl8367c_getAsicAcl
+ * Description:
+ * Get port acl function enable/disable
+ * Input:
+ * port - Physical port number (0~10)
+ * enabled - 1: enabled, 0: disabled
+ * Output:
+ * None
+ * Return:
+ * RT_ERR_OK - Success
+ * RT_ERR_SMI - SMI access error
+ * RT_ERR_PORT_ID - Invalid port number
+ * Note:
+ * None
+ */
+ret_t rtl8367c_getAsicAcl(rtk_uint32 port, rtk_uint32* pEnabled)
+{
+ if(port > RTL8367C_PORTIDMAX)
+ return RT_ERR_PORT_ID;
+
+ return rtl8367c_getAsicRegBit(RTL8367C_ACL_ENABLE_REG, port, pEnabled);
+}
+/* Function Name:
+ * rtl8367c_setAsicAclUnmatchedPermit
+ * Description:
+ * Set port acl function unmatched permit action
+ * Input:
+ * port - Physical port number (0~10)
+ * enabled - 1: enabled, 0: disabled
+ * Output:
+ * None
+ * Return:
+ * RT_ERR_OK - Success
+ * RT_ERR_SMI - SMI access error
+ * RT_ERR_PORT_ID - Invalid port number
+ * Note:
+ * None
+ */
+ret_t rtl8367c_setAsicAclUnmatchedPermit(rtk_uint32 port, rtk_uint32 enabled)
+{
+ if(port > RTL8367C_PORTIDMAX)
+ return RT_ERR_PORT_ID;
+
+ return rtl8367c_setAsicRegBit(RTL8367C_ACL_UNMATCH_PERMIT_REG, port, enabled);
+}
+/* Function Name:
+ * rtl8367c_getAsicAclUnmatchedPermit
+ * Description:
+ * Get port acl function unmatched permit action
+ * Input:
+ * port - Physical port number (0~10)
+ * enabled - 1: enabled, 0: disabled
+ * Output:
+ * None
+ * Return:
+ * RT_ERR_OK - Success
+ * RT_ERR_SMI - SMI access error
+ * RT_ERR_PORT_ID - Invalid port number
+ * Note:
+ * None
+ */
+ret_t rtl8367c_getAsicAclUnmatchedPermit(rtk_uint32 port, rtk_uint32* pEnabled)
+{
+ if(port > RTL8367C_PORTIDMAX)
+ return RT_ERR_PORT_ID;
+
+ return rtl8367c_getAsicRegBit(RTL8367C_ACL_UNMATCH_PERMIT_REG, port, pEnabled);
+}
+
+/* Function Name:
+ * rtl8367c_setAsicAclRule
+ * Description:
+ * Set acl rule content
+ * Input:
+ * index - ACL rule index (0-95) of 96 ACL rules
+ * pAclRule - ACL rule stucture for setting
+ * Output:
+ * None
+ * Return:
+ * RT_ERR_OK - Success
+ * RT_ERR_SMI - SMI access error
+ * RT_ERR_OUT_OF_RANGE - Invalid ACL rule index (0-95)
+ * Note:
+ * System supported 95 shared 289-bit ACL ingress rule. Index was available at range 0-95 only.
+ * If software want to modify ACL rule, the ACL function should be disable at first or unspecify
+ * acl action will be executed.
+ * One ACL rule structure has three parts setting:
+ * Bit 0-147 Data Bits of this Rule
+ * Bit 148 Valid Bit
+ * Bit 149-296 Care Bits of this Rule
+ * There are four kinds of field in Data Bits and Care Bits: Active Portmask, Type, Tag Exist, and 8 fields
+ */
+ret_t rtl8367c_setAsicAclRule(rtk_uint32 index, rtl8367c_aclrule* pAclRule)
+{
+ rtl8367c_aclrulesmi aclRuleSmi;
+ rtk_uint16* tableAddr;
+ rtk_uint32 regAddr;
+ rtk_uint32 regData;
+ rtk_uint32 i;
+ ret_t retVal;
+
+ if(index > RTL8367C_ACLRULEMAX)
+ return RT_ERR_OUT_OF_RANGE;
+
+ memset(&aclRuleSmi, 0x00, sizeof(rtl8367c_aclrulesmi));
+
+ _rtl8367c_aclRuleStUser2Smi(pAclRule, &aclRuleSmi);
+
+ /* Write valid bit = 0 */
+ regAddr = RTL8367C_TABLE_ACCESS_ADDR_REG;
+ if(index >= 64)
+ regData = RTL8367C_ACLRULETBADDR2(DATABITS, index);
+ else
+ regData = RTL8367C_ACLRULETBADDR(DATABITS, index);
+ retVal = rtl8367c_setAsicReg(regAddr,regData);
+ if(retVal !=RT_ERR_OK)
+ return retVal;
+
+ retVal = rtl8367c_setAsicRegBits(RTL8367C_TABLE_ACCESS_WRDATA_REG(RTL8367C_ACLRULETBLEN), 0x1, 0);
+ if(retVal !=RT_ERR_OK)
+ return retVal;
+
+ regAddr = RTL8367C_TABLE_ACCESS_CTRL_REG;
+ regData = RTL8367C_TABLE_ACCESS_REG_DATA(TB_OP_WRITE, TB_TARGET_ACLRULE);
+ retVal = rtl8367c_setAsicReg(regAddr, regData);
+ if(retVal !=RT_ERR_OK)
+ return retVal;
+
+
+
+ /* Write ACS_ADR register */
+ regAddr = RTL8367C_TABLE_ACCESS_ADDR_REG;
+ if(index >= 64)
+ regData = RTL8367C_ACLRULETBADDR2(CAREBITS, index);
+ else
+ regData = RTL8367C_ACLRULETBADDR(CAREBITS, index);
+ retVal = rtl8367c_setAsicReg(regAddr, regData);
+ if(retVal != RT_ERR_OK)
+ return retVal;
+
+ /* Write Care Bits to ACS_DATA registers */
+ tableAddr = (rtk_uint16*)&aclRuleSmi.care_bits;
+ regAddr = RTL8367C_TABLE_ACCESS_WRDATA_BASE;
+
+ for(i = 0; i < RTL8367C_ACLRULETBLEN; i++)
+ {
+ regData = *tableAddr;
+ retVal = rtl8367c_setAsicReg(regAddr, regData);
+ if(retVal != RT_ERR_OK)
+ return retVal;
+
+ regAddr++;
+ tableAddr++;
+ }
+ retVal = rtl8367c_setAsicRegBits(RTL8367C_TABLE_ACCESS_WRDATA_REG(RTL8367C_ACLRULETBLEN), (0x0007 << 1), (aclRuleSmi.care_bits_ext.rule_info >> 1) & 0x0007);
+ if(retVal != RT_ERR_OK)
+ return retVal;
+
+ /* Write ACS_CMD register */
+ regAddr = RTL8367C_TABLE_ACCESS_CTRL_REG;
+ regData = RTL8367C_TABLE_ACCESS_REG_DATA(TB_OP_WRITE, TB_TARGET_ACLRULE);
+ retVal = rtl8367c_setAsicRegBits(regAddr, RTL8367C_TABLE_TYPE_MASK | RTL8367C_COMMAND_TYPE_MASK,regData);
+ if(retVal != RT_ERR_OK)
+ return retVal;
+
+
+
+ /* Write ACS_ADR register for data bits */
+ regAddr = RTL8367C_TABLE_ACCESS_ADDR_REG;
+ if(index >= 64)
+ regData = RTL8367C_ACLRULETBADDR2(DATABITS, index);
+ else
+ regData = RTL8367C_ACLRULETBADDR(DATABITS, index);
+
+ retVal = rtl8367c_setAsicReg(regAddr, regData);
+ if(retVal != RT_ERR_OK)
+ return retVal;
+
+ /* Write Data Bits to ACS_DATA registers */
+ tableAddr = (rtk_uint16*)&aclRuleSmi.data_bits;
+ regAddr = RTL8367C_TABLE_ACCESS_WRDATA_BASE;
+
+ for(i = 0; i < RTL8367C_ACLRULETBLEN; i++)
+ {
+ regData = *tableAddr;
+ retVal = rtl8367c_setAsicReg(regAddr, regData);
+ if(retVal != RT_ERR_OK)
+ return retVal;
+
+ regAddr++;
+ tableAddr++;
+ }
+
+ retVal = rtl8367c_setAsicRegBit(RTL8367C_TABLE_ACCESS_WRDATA_REG(RTL8367C_ACLRULETBLEN), 0, aclRuleSmi.valid);
+ if(retVal != RT_ERR_OK)
+ return retVal;
+ retVal = rtl8367c_setAsicRegBits(RTL8367C_TABLE_ACCESS_WRDATA_REG(RTL8367C_ACLRULETBLEN), (0x0007 << 1), (aclRuleSmi.data_bits_ext.rule_info >> 1) & 0x0007);
+ if(retVal != RT_ERR_OK)
+ return retVal;
+
+ /* Write ACS_CMD register for care bits*/
+ regAddr = RTL8367C_TABLE_ACCESS_CTRL_REG;
+ regData = RTL8367C_TABLE_ACCESS_REG_DATA(TB_OP_WRITE, TB_TARGET_ACLRULE);
+ retVal = rtl8367c_setAsicRegBits(regAddr, RTL8367C_TABLE_TYPE_MASK | RTL8367C_COMMAND_TYPE_MASK, regData);
+ if(retVal != RT_ERR_OK)
+ return retVal;
+
+#ifdef CONFIG_RTL8367C_ASICDRV_TEST
+ memcpy(&Rtl8370sVirtualAclRuleTable[index], &aclRuleSmi, sizeof(rtl8367c_aclrulesmi));
+#endif
+
+ return RT_ERR_OK;
+}
+/* Function Name:
+ * rtl8367c_getAsicAclRule
+ * Description:
+ * Get acl rule content
+ * Input:
+ * index - ACL rule index (0-63) of 64 ACL rules
+ * pAclRule - ACL rule stucture for setting
+ * Output:
+ * None
+ * Return:
+ * RT_ERR_OK - Success
+ * RT_ERR_SMI - SMI access error
+ * RT_ERR_OUT_OF_RANGE - Invalid ACL rule index (0-63)
+ * Note:
+ * None
+ */
+ret_t rtl8367c_getAsicAclRule(rtk_uint32 index, rtl8367c_aclrule *pAclRule)
+{
+ rtl8367c_aclrulesmi aclRuleSmi;
+ rtk_uint32 regAddr, regData;
+ ret_t retVal;
+ rtk_uint16* tableAddr;
+ rtk_uint32 i;
+
+ if(index > RTL8367C_ACLRULEMAX)
+ return RT_ERR_OUT_OF_RANGE;
+
+ memset(&aclRuleSmi, 0x00, sizeof(rtl8367c_aclrulesmi));
+
+ /* Write ACS_ADR register for data bits */
+ regAddr = RTL8367C_TABLE_ACCESS_ADDR_REG;
+ if(index >= 64)
+ regData = RTL8367C_ACLRULETBADDR2(DATABITS, index);
+ else
+ regData = RTL8367C_ACLRULETBADDR(DATABITS, index);
+
+ retVal = rtl8367c_setAsicReg(regAddr, regData);
+ if(retVal != RT_ERR_OK)
+ return retVal;
+
+
+ /* Write ACS_CMD register */
+ regAddr = RTL8367C_TABLE_ACCESS_CTRL_REG;
+ regData = RTL8367C_TABLE_ACCESS_REG_DATA(TB_OP_READ, TB_TARGET_ACLRULE);
+ retVal = rtl8367c_setAsicRegBits(regAddr, RTL8367C_TABLE_TYPE_MASK | RTL8367C_COMMAND_TYPE_MASK, regData);
+ if(retVal != RT_ERR_OK)
+ return retVal;
+
+ /* Read Data Bits */
+ regAddr = RTL8367C_TABLE_ACCESS_RDDATA_BASE;
+ tableAddr = (rtk_uint16*)&aclRuleSmi.data_bits;
+ for(i = 0; i < RTL8367C_ACLRULETBLEN; i++)
+ {
+ retVal = rtl8367c_getAsicReg(regAddr, ®Data);
+ if(retVal != RT_ERR_OK)
+ return retVal;
+
+ *tableAddr = regData;
+
+ regAddr ++;
+ tableAddr ++;
+ }
+
+ /* Read Valid Bit */
+ retVal = rtl8367c_getAsicRegBit(RTL8367C_TABLE_ACCESS_RDDATA_REG(RTL8367C_ACLRULETBLEN), 0, ®Data);
+ if(retVal != RT_ERR_OK)
+ return retVal;
+ aclRuleSmi.valid = regData & 0x1;
+ /* Read active_portmsk_ext Bits */
+ retVal = rtl8367c_getAsicRegBits(RTL8367C_TABLE_ACCESS_RDDATA_REG(RTL8367C_ACLRULETBLEN), 0x7<<1, ®Data);
+ if(retVal != RT_ERR_OK)
+ return retVal;
+ aclRuleSmi.data_bits_ext.rule_info = (regData % 0x0007) << 1;
+
+
+ /* Write ACS_ADR register for carebits*/
+ regAddr = RTL8367C_TABLE_ACCESS_ADDR_REG;
+ if(index >= 64)
+ regData = RTL8367C_ACLRULETBADDR2(CAREBITS, index);
+ else
+ regData = RTL8367C_ACLRULETBADDR(CAREBITS, index);
+
+ retVal = rtl8367c_setAsicReg(regAddr, regData);
+ if(retVal != RT_ERR_OK)
+ return retVal;
+
+ /* Write ACS_CMD register */
+ regAddr = RTL8367C_TABLE_ACCESS_CTRL_REG;
+ regData = RTL8367C_TABLE_ACCESS_REG_DATA(TB_OP_READ, TB_TARGET_ACLRULE);
+ retVal = rtl8367c_setAsicRegBits(regAddr, RTL8367C_TABLE_TYPE_MASK | RTL8367C_COMMAND_TYPE_MASK, regData);
+ if(retVal != RT_ERR_OK)
+ return retVal;
+
+ /* Read Care Bits */
+ regAddr = RTL8367C_TABLE_ACCESS_RDDATA_BASE;
+ tableAddr = (rtk_uint16*)&aclRuleSmi.care_bits;
+ for(i = 0; i < RTL8367C_ACLRULETBLEN; i++)
+ {
+ retVal = rtl8367c_getAsicReg(regAddr, ®Data);
+ if(retVal != RT_ERR_OK)
+ return retVal;
+
+ *tableAddr = regData;
+
+ regAddr ++;
+ tableAddr ++;
+ }
+ /* Read active_portmsk_ext care Bits */
+ retVal = rtl8367c_getAsicRegBits(RTL8367C_TABLE_ACCESS_RDDATA_REG(RTL8367C_ACLRULETBLEN), 0x7<<1, ®Data);
+ if(retVal != RT_ERR_OK)
+ return retVal;
+ aclRuleSmi.care_bits_ext.rule_info = (regData & 0x0007) << 1;
+
+#ifdef CONFIG_RTL8367C_ASICDRV_TEST
+ memcpy(&aclRuleSmi,&Rtl8370sVirtualAclRuleTable[index], sizeof(rtl8367c_aclrulesmi));
+#endif
+
+ _rtl8367c_aclRuleStSmi2User(pAclRule, &aclRuleSmi);
+
+ return RT_ERR_OK;
+}
+/* Function Name:
+ * rtl8367c_setAsicAclNot
+ * Description:
+ * Set rule comparison result inversion / no inversion
+ * Input:
+ * index - ACL rule index (0-95) of 96 ACL rules
+ * not - 1: inverse, 0: don't inverse
+ * Output:
+ * None
+ * Return:
+ * RT_ERR_OK - Success
+ * RT_ERR_SMI - SMI access error
+ * RT_ERR_OUT_OF_RANGE - Invalid ACL rule index (0-95)
+ * Note:
+ * None
+ */
+ret_t rtl8367c_setAsicAclNot(rtk_uint32 index, rtk_uint32 not)
+{
+ if(index > RTL8367C_ACLRULEMAX)
+ return RT_ERR_OUT_OF_RANGE;
+
+ if(index < 64)
+ return rtl8367c_setAsicRegBit(RTL8367C_ACL_ACTION_CTRL_REG(index), RTL8367C_ACL_OP_NOT_OFFSET(index), not);
+ else
+ return rtl8367c_setAsicRegBit(RTL8367C_ACL_ACTION_CTRL2_REG(index), RTL8367C_ACL_OP_NOT_OFFSET(index), not);
+
+}
+/* Function Name:
+ * rtl8367c_getAsicAcl
+ * Description:
+ * Get rule comparison result inversion / no inversion
+ * Input:
+ * index - ACL rule index (0-95) of 95 ACL rules
+ * pNot - 1: inverse, 0: don't inverse
+ * Output:
+ * None
+ * Return:
+ * RT_ERR_OK - Success
+ * RT_ERR_SMI - SMI access error
+ * RT_ERR_OUT_OF_RANGE - Invalid ACL rule index (0-95)
+ * Note:
+ * None
+ */
+ret_t rtl8367c_getAsicAclNot(rtk_uint32 index, rtk_uint32* pNot)
+{
+ if(index > RTL8367C_ACLRULEMAX)
+ return RT_ERR_OUT_OF_RANGE;
+
+ if(index < 64)
+ return rtl8367c_getAsicRegBit(RTL8367C_ACL_ACTION_CTRL_REG(index), RTL8367C_ACL_OP_NOT_OFFSET(index), pNot);
+ else
+ return rtl8367c_getAsicRegBit(RTL8367C_ACL_ACTION_CTRL2_REG(index), RTL8367C_ACL_OP_NOT_OFFSET(index), pNot);
+
+}
+/* Function Name:
+ * rtl8367c_setAsicAclTemplate
+ * Description:
+ * Set fields of a ACL Template
+ * Input:
+ * index - ACL template index(0~4)
+ * pAclType - ACL type stucture for setting
+ * Output:
+ * None
+ * Return:
+ * RT_ERR_OK - Success
+ * RT_ERR_SMI - SMI access error
+ * RT_ERR_OUT_OF_RANGE - Invalid ACL template index(0~4)
+ * Note:
+ * The API can set type field of the 5 ACL rule templates.
+ * Each type has 8 fields. One field means what data in one field of a ACL rule means
+ * 8 fields of ACL rule 0~95 is descripted by one type in ACL group
+ */
+ret_t rtl8367c_setAsicAclTemplate(rtk_uint32 index, rtl8367c_acltemplate_t* pAclType)
+{
+ ret_t retVal;
+ rtk_uint32 i;
+ rtk_uint32 regAddr, regData;
+
+ if(index >= RTL8367C_ACLTEMPLATENO)
+ return RT_ERR_OUT_OF_RANGE;
+
+ regAddr = RTL8367C_ACL_RULE_TEMPLATE_CTRL_REG(index);
+
+ for(i = 0; i < (RTL8367C_ACLRULEFIELDNO/2); i++)
+ {
+ regData = pAclType->field[i*2+1];
+ regData = regData << 8 | pAclType->field[i*2];
+
+ retVal = rtl8367c_setAsicReg(regAddr + i, regData);
+
+ if(retVal != RT_ERR_OK)
+ return retVal;
+ }
+
+ return retVal;
+}
+/* Function Name:
+ * rtl8367c_getAsicAclTemplate
+ * Description:
+ * Get fields of a ACL Template
+ * Input:
+ * index - ACL template index(0~4)
+ * pAclType - ACL type stucture for setting
+ * Output:
+ * None
+ * Return:
+ * RT_ERR_OK - Success
+ * RT_ERR_SMI - SMI access error
+ * RT_ERR_OUT_OF_RANGE - Invalid ACL template index(0~4)
+ * Note:
+ * None
+ */
+ret_t rtl8367c_getAsicAclTemplate(rtk_uint32 index, rtl8367c_acltemplate_t *pAclType)
+{
+ ret_t retVal;
+ rtk_uint32 i;
+ rtk_uint32 regData, regAddr;
+
+ if(index >= RTL8367C_ACLTEMPLATENO)
+ return RT_ERR_OUT_OF_RANGE;
+
+ regAddr = RTL8367C_ACL_RULE_TEMPLATE_CTRL_REG(index);
+
+ for(i = 0; i < (RTL8367C_ACLRULEFIELDNO/2); i++)
+ {
+ retVal = rtl8367c_getAsicReg(regAddr + i,®Data);
+ if(retVal != RT_ERR_OK)
+ return retVal;
+
+ pAclType->field[i*2] = regData & 0xFF;
+ pAclType->field[i*2 + 1] = (regData >> 8) & 0xFF;
+ }
+
+ return RT_ERR_OK;
+}
+/* Function Name:
+ * rtl8367c_setAsicAclAct
+ * Description:
+ * Set ACL rule matched Action
+ * Input:
+ * index - ACL rule index (0-95) of 96 ACL rules
+ * pAclAct - ACL action stucture for setting
+ * Output:
+ * None
+ * Return:
+ * RT_ERR_OK - Success
+ * RT_ERR_SMI - SMI access error
+ * RT_ERR_OUT_OF_RANGE - Invalid ACL rule index (0-95)
+ * Note:
+ * None
+ */
+ret_t rtl8367c_setAsicAclAct(rtk_uint32 index, rtl8367c_acl_act_t* pAclAct)
+{
+ rtk_uint16 aclActSmi[RTL8367C_ACL_ACT_TABLE_LEN];
+ ret_t retVal;
+ rtk_uint32 regAddr, regData;
+ rtk_uint16* tableAddr;
+ rtk_uint32 i;
+
+ if(index > RTL8367C_ACLRULEMAX)
+ return RT_ERR_OUT_OF_RANGE;
+
+ memset(aclActSmi, 0x00, sizeof(rtk_uint16) * RTL8367C_ACL_ACT_TABLE_LEN);
+ _rtl8367c_aclActStUser2Smi(pAclAct, aclActSmi);
+
+ /* Write ACS_ADR register for data bits */
+ regAddr = RTL8367C_TABLE_ACCESS_ADDR_REG;
+ regData = index;
+ retVal = rtl8367c_setAsicReg(regAddr, regData);
+ if(retVal != RT_ERR_OK)
+ return retVal;
+
+ /* Write Data Bits to ACS_DATA registers */
+ tableAddr = aclActSmi;
+ regAddr = RTL8367C_TABLE_ACCESS_WRDATA_BASE;
+
+ for(i = 0; i < RTL8367C_ACLACTTBLEN; i++)
+ {
+ regData = *tableAddr;
+ retVal = rtl8367c_setAsicReg(regAddr, regData);
+ if(retVal != RT_ERR_OK)
+ return retVal;
+
+ regAddr++;
+ tableAddr++;
+ }
+
+ /* Write ACS_CMD register for care bits*/
+ regAddr = RTL8367C_TABLE_ACCESS_CTRL_REG;
+ regData = RTL8367C_TABLE_ACCESS_REG_DATA(TB_OP_WRITE, TB_TARGET_ACLACT);
+ retVal = rtl8367c_setAsicRegBits(regAddr, RTL8367C_TABLE_TYPE_MASK | RTL8367C_COMMAND_TYPE_MASK, regData);
+ if(retVal != RT_ERR_OK)
+ return retVal;
+
+#ifdef CONFIG_RTL8367C_ASICDRV_TEST
+ memcpy(&Rtl8370sVirtualAclActTable[index][0], aclActSmi, sizeof(rtk_uint16) * RTL8367C_ACL_ACT_TABLE_LEN);
+#endif
+
+ return RT_ERR_OK;
+}
+/* Function Name:
+ * rtl8367c_getAsicAclAct
+ * Description:
+ * Get ACL rule matched Action
+ * Input:
+ * index - ACL rule index (0-95) of 96 ACL rules
+ * pAclAct - ACL action stucture for setting
+ * Output:
+ * None
+ * Return:
+ * RT_ERR_OK - Success
+ * RT_ERR_SMI - SMI access error
+ * RT_ERR_OUT_OF_RANGE - Invalid ACL rule index (0-95)
+ * Note:
+ * None
+ */
+ret_t rtl8367c_getAsicAclAct(rtk_uint32 index, rtl8367c_acl_act_t *pAclAct)
+{
+ rtk_uint16 aclActSmi[RTL8367C_ACL_ACT_TABLE_LEN];
+ ret_t retVal;
+ rtk_uint32 regAddr, regData;
+ rtk_uint16 *tableAddr;
+ rtk_uint32 i;
+
+ if(index > RTL8367C_ACLRULEMAX)
+ return RT_ERR_OUT_OF_RANGE;
+
+ memset(aclActSmi, 0x00, sizeof(rtk_uint16) * RTL8367C_ACL_ACT_TABLE_LEN);
+
+ /* Write ACS_ADR register for data bits */
+ regAddr = RTL8367C_TABLE_ACCESS_ADDR_REG;
+ regData = index;
+ retVal = rtl8367c_setAsicReg(regAddr, regData);
+ if(retVal != RT_ERR_OK)
+ return retVal;
+
+ /* Write ACS_CMD register */
+ regAddr = RTL8367C_TABLE_ACCESS_CTRL_REG;
+ regData = RTL8367C_TABLE_ACCESS_REG_DATA(TB_OP_READ, TB_TARGET_ACLACT);
+ retVal = rtl8367c_setAsicRegBits(regAddr, RTL8367C_TABLE_TYPE_MASK | RTL8367C_COMMAND_TYPE_MASK, regData);
+ if(retVal != RT_ERR_OK)
+ return retVal;
+
+ /* Read Data Bits */
+ regAddr = RTL8367C_TABLE_ACCESS_RDDATA_BASE;
+ tableAddr = aclActSmi;
+ for(i = 0; i < RTL8367C_ACLACTTBLEN; i++)
+ {
+ retVal = rtl8367c_getAsicReg(regAddr, ®Data);
+ if(retVal != RT_ERR_OK)
+ return retVal;
+
+ *tableAddr = regData;
+
+ regAddr ++;
+ tableAddr ++;
+ }
+
+#ifdef CONFIG_RTL8367C_ASICDRV_TEST
+ memcpy(aclActSmi, &Rtl8370sVirtualAclActTable[index][0], sizeof(rtk_uint16) * RTL8367C_ACL_ACT_TABLE_LEN);
+#endif
+
+ _rtl8367c_aclActStSmi2User(pAclAct, aclActSmi);
+
+ return RT_ERR_OK;
+}
+/* Function Name:
+ * rtl8367c_setAsicAclActCtrl
+ * Description:
+ * Set ACL rule matched Action Control Bits
+ * Input:
+ * index - ACL rule index (0-95) of 96 ACL rules
+ * aclActCtrl - 6 ACL Control Bits
+ * Output:
+ * None
+ * Return:
+ * RT_ERR_OK - Success
+ * RT_ERR_SMI - SMI access error
+ * RT_ERR_OUT_OF_RANGE - Invalid ACL rule index (0-95)
+ * Note:
+ * ACL Action Control Bits Indicate which actions will be take when a rule matches
+ */
+ret_t rtl8367c_setAsicAclActCtrl(rtk_uint32 index, rtk_uint32 aclActCtrl)
+{
+ ret_t retVal;
+
+ if(index > RTL8367C_ACLRULEMAX)
+ return RT_ERR_OUT_OF_RANGE;
+
+ if(index >= 64)
+ retVal = rtl8367c_setAsicRegBits(RTL8367C_ACL_ACTION_CTRL2_REG(index), RTL8367C_ACL_OP_ACTION_MASK(index), aclActCtrl);
+ else
+ retVal = rtl8367c_setAsicRegBits(RTL8367C_ACL_ACTION_CTRL_REG(index), RTL8367C_ACL_OP_ACTION_MASK(index), aclActCtrl);
+
+ return retVal;
+}
+/* Function Name:
+ * rtl8367c_getAsicAclActCtrl
+ * Description:
+ * Get ACL rule matched Action Control Bits
+ * Input:
+ * index - ACL rule index (0-95) of 96 ACL rules
+ * pAclActCtrl - 6 ACL Control Bits
+ * Output:
+ * None
+ * Return:
+ * RT_ERR_OK - Success
+ * RT_ERR_SMI - SMI access error
+ * RT_ERR_OUT_OF_RANGE - Invalid ACL rule index (0-95)
+ * Note:
+ * None
+ */
+ret_t rtl8367c_getAsicAclActCtrl(rtk_uint32 index, rtk_uint32 *pAclActCtrl)
+{
+ ret_t retVal;
+ rtk_uint32 regData;
+
+ if(index > RTL8367C_ACLRULEMAX)
+ return RT_ERR_OUT_OF_RANGE;
+
+ if(index >= 64)
+ retVal = rtl8367c_getAsicRegBits(RTL8367C_ACL_ACTION_CTRL2_REG(index), RTL8367C_ACL_OP_ACTION_MASK(index), ®Data);
+ else
+ retVal = rtl8367c_getAsicRegBits(RTL8367C_ACL_ACTION_CTRL_REG(index), RTL8367C_ACL_OP_ACTION_MASK(index), ®Data);
+
+ if(retVal != RT_ERR_OK)
+ return retVal;
+
+ *pAclActCtrl = regData;
+
+ return RT_ERR_OK;
+}
+/* Function Name:
+ * rtl8367c_setAsicAclPortRange
+ * Description:
+ * Set ACL TCP/UDP range check
+ * Input:
+ * index - TCP/UDP port range check table index
+ * type - Range check type
+ * upperPort - TCP/UDP port range upper bound
+ * lowerPort - TCP/UDP port range lower bound
+ * Output:
+ * None
+ * Return:
+ * RT_ERR_OK - Success
+ * RT_ERR_SMI - SMI access error
+ * RT_ERR_OUT_OF_RANGE - Invalid TCP/UDP port range check table index
+ * Note:
+ * None
+ */
+ret_t rtl8367c_setAsicAclPortRange(rtk_uint32 index, rtk_uint32 type, rtk_uint32 upperPort, rtk_uint32 lowerPort)
+{
+ ret_t retVal;
+
+ if(index > RTL8367C_ACLRANGEMAX)
+ return RT_ERR_OUT_OF_RANGE;
+
+ retVal = rtl8367c_setAsicRegBits(RTL8367C_REG_ACL_SDPORT_RANGE_ENTRY0_CTRL2 + index*3, RTL8367C_ACL_SDPORT_RANGE_ENTRY0_CTRL2_MASK, type);
+ if(retVal != RT_ERR_OK)
+ return retVal;
+
+ retVal = rtl8367c_setAsicReg(RTL8367C_REG_ACL_SDPORT_RANGE_ENTRY0_CTRL1 + index*3, upperPort);
+ if(retVal != RT_ERR_OK)
+ return retVal;
+
+ retVal = rtl8367c_setAsicReg(RTL8367C_REG_ACL_SDPORT_RANGE_ENTRY0_CTRL0 + index*3, lowerPort);
+ if(retVal != RT_ERR_OK)
+ return retVal;
+
+ return RT_ERR_OK;
+}
+/* Function Name:
+ * rtl8367c_getAsicAclPortRange
+ * Description:
+ * Get ACL TCP/UDP range check
+ * Input:
+ * index - TCP/UDP port range check table index
+ * pType - Range check type
+ * pUpperPort - TCP/UDP port range upper bound
+ * pLowerPort - TCP/UDP port range lower bound
+ * Output:
+ * None
+ * Return:
+ * RT_ERR_OK - Success
+ * RT_ERR_SMI - SMI access error
+ * RT_ERR_OUT_OF_RANGE - Invalid TCP/UDP port range check table index
+ * Note:
+ * None
+ */
+ret_t rtl8367c_getAsicAclPortRange(rtk_uint32 index, rtk_uint32* pType, rtk_uint32* pUpperPort, rtk_uint32* pLowerPort)
+{
+ ret_t retVal;
+
+ if(index > RTL8367C_ACLRANGEMAX)
+ return RT_ERR_OUT_OF_RANGE;
+
+ retVal = rtl8367c_getAsicRegBits(RTL8367C_REG_ACL_SDPORT_RANGE_ENTRY0_CTRL2 + index*3, RTL8367C_ACL_SDPORT_RANGE_ENTRY0_CTRL2_MASK, pType);
+ if(retVal != RT_ERR_OK)
+ return retVal;
+
+ retVal = rtl8367c_getAsicReg(RTL8367C_REG_ACL_SDPORT_RANGE_ENTRY0_CTRL1 + index*3, pUpperPort);
+ if(retVal != RT_ERR_OK)
+ return retVal;
+
+ retVal = rtl8367c_getAsicReg(RTL8367C_REG_ACL_SDPORT_RANGE_ENTRY0_CTRL0 + index*3, pLowerPort);
+ if(retVal != RT_ERR_OK)
+ return retVal;
+
+ return RT_ERR_OK;
+}
+/* Function Name:
+ * rtl8367c_setAsicAclVidRange
+ * Description:
+ * Set ACL VID range check
+ * Input:
+ * index - ACL VID range check index(0~15)
+ * type - Range check type
+ * upperVid - VID range upper bound
+ * lowerVid - VID range lower bound
+ * Output:
+ * None
+ * Return:
+ * RT_ERR_OK - Success
+ * RT_ERR_SMI - SMI access error
+ * RT_ERR_OUT_OF_RANGE - Invalid ACL VID range check index(0~15)
+ * Note:
+ * None
+ */
+ret_t rtl8367c_setAsicAclVidRange(rtk_uint32 index, rtk_uint32 type, rtk_uint32 upperVid, rtk_uint32 lowerVid)
+{
+ ret_t retVal;
+ rtk_uint32 regData;
+
+ if(index > RTL8367C_ACLRANGEMAX)
+ return RT_ERR_OUT_OF_RANGE;
+
+ regData = ((type << RTL8367C_ACL_VID_RANGE_ENTRY0_CTRL1_CHECK0_TYPE_OFFSET) & RTL8367C_ACL_VID_RANGE_ENTRY0_CTRL1_CHECK0_TYPE_MASK) |
+ (upperVid & RTL8367C_ACL_VID_RANGE_ENTRY0_CTRL1_CHECK0_HIGH_MASK);
+
+ retVal = rtl8367c_setAsicReg(RTL8367C_REG_ACL_VID_RANGE_ENTRY0_CTRL1 + index*2, regData);
+ if(retVal != RT_ERR_OK)
+ return retVal;
+
+ retVal = rtl8367c_setAsicReg(RTL8367C_REG_ACL_VID_RANGE_ENTRY0_CTRL0 + index*2, lowerVid);
+ if(retVal != RT_ERR_OK)
+ return retVal;
+
+ return RT_ERR_OK;
+}
+/* Function Name:
+ * rtl8367c_getAsicAclVidRange
+ * Description:
+ * Get ACL VID range check
+ * Input:
+ * index - ACL VID range check index(0~15)
+ * pType - Range check type
+ * pUpperVid - VID range upper bound
+ * pLowerVid - VID range lower bound
+ * Output:
+ * None
+ * Return:
+ * RT_ERR_OK - Success
+ * RT_ERR_SMI - SMI access error
+ * RT_ERR_OUT_OF_RANGE - Invalid ACL VID range check index(0~15)
+ * Note:
+ * None
+ */
+ret_t rtl8367c_getAsicAclVidRange(rtk_uint32 index, rtk_uint32* pType, rtk_uint32* pUpperVid, rtk_uint32* pLowerVid)
+{
+ ret_t retVal;
+ rtk_uint32 regData;
+
+ if(index > RTL8367C_ACLRANGEMAX)
+ return RT_ERR_OUT_OF_RANGE;
+
+ retVal = rtl8367c_getAsicReg(RTL8367C_REG_ACL_VID_RANGE_ENTRY0_CTRL1 + index*2, ®Data);
+ if(retVal != RT_ERR_OK)
+ return retVal;
+
+ *pType = (regData & RTL8367C_ACL_VID_RANGE_ENTRY0_CTRL1_CHECK0_TYPE_MASK) >> RTL8367C_ACL_VID_RANGE_ENTRY0_CTRL1_CHECK0_TYPE_OFFSET;
+ *pUpperVid = regData & RTL8367C_ACL_VID_RANGE_ENTRY0_CTRL1_CHECK0_HIGH_MASK;
+
+ retVal = rtl8367c_getAsicReg(RTL8367C_REG_ACL_VID_RANGE_ENTRY0_CTRL0 + index*2, pLowerVid);
+ if(retVal != RT_ERR_OK)
+ return retVal;
+
+ return RT_ERR_OK;
+}
+/* Function Name:
+ * rtl8367c_setAsicAclIpRange
+ * Description:
+ * Set ACL IP range check
+ * Input:
+ * index - ACL IP range check index(0~15)
+ * type - Range check type
+ * upperIp - IP range upper bound
+ * lowerIp - IP range lower bound
+ * Output:
+ * None
+ * Return:
+ * RT_ERR_OK - Success
+ * RT_ERR_SMI - SMI access error
+ * RT_ERR_OUT_OF_RANGE - Invalid ACL IP range check index(0~15)
+ * Note:
+ * None
+ */
+ret_t rtl8367c_setAsicAclIpRange(rtk_uint32 index, rtk_uint32 type, ipaddr_t upperIp, ipaddr_t lowerIp)
+{
+ ret_t retVal;
+ rtk_uint32 regData;
+ ipaddr_t ipData;
+
+ if(index > RTL8367C_ACLRANGEMAX)
+ return RT_ERR_OUT_OF_RANGE;
+
+ retVal = rtl8367c_setAsicRegBits(RTL8367C_REG_ACL_IP_RANGE_ENTRY0_CTRL4 + index*5, RTL8367C_ACL_IP_RANGE_ENTRY0_CTRL4_MASK, type);
+ if(retVal != RT_ERR_OK)
+ return retVal;
+
+ ipData = upperIp;
+
+ regData = ipData & 0xFFFF;
+ retVal = rtl8367c_setAsicReg(RTL8367C_REG_ACL_IP_RANGE_ENTRY0_CTRL2 + index*5, regData);
+ if(retVal != RT_ERR_OK)
+ return retVal;
+
+ regData = (ipData>>16) & 0xFFFF;
+ retVal = rtl8367c_setAsicReg(RTL8367C_REG_ACL_IP_RANGE_ENTRY0_CTRL3 + index*5, regData);
+ if(retVal != RT_ERR_OK)
+ return retVal;
+
+ ipData = lowerIp;
+
+ regData = ipData & 0xFFFF;
+ retVal = rtl8367c_setAsicReg(RTL8367C_REG_ACL_IP_RANGE_ENTRY0_CTRL0 + index*5, regData);
+ if(retVal != RT_ERR_OK)
+ return retVal;
+
+ regData = (ipData>>16) & 0xFFFF;
+ retVal = rtl8367c_setAsicReg(RTL8367C_REG_ACL_IP_RANGE_ENTRY0_CTRL1 + index*5, regData);
+ if(retVal != RT_ERR_OK)
+ return retVal;
+
+ return RT_ERR_OK;
+}
+/* Function Name:
+ * rtl8367c_getAsicAclIpRange
+ * Description:
+ * Get ACL IP range check
+ * Input:
+ * index - ACL IP range check index(0~15)
+ * pType - Range check type
+ * pUpperIp - IP range upper bound
+ * pLowerIp - IP range lower bound
+ * Output:
+ * None
+ * Return:
+ * RT_ERR_OK - Success
+ * RT_ERR_SMI - SMI access error
+ * RT_ERR_OUT_OF_RANGE - Invalid ACL IP range check index(0~15)
+ * Note:
+ * None
+ */
+ret_t rtl8367c_getAsicAclIpRange(rtk_uint32 index, rtk_uint32* pType, ipaddr_t* pUpperIp, ipaddr_t* pLowerIp)
+{
+ ret_t retVal;
+ rtk_uint32 regData;
+ ipaddr_t ipData;
+
+ if(index > RTL8367C_ACLRANGEMAX)
+ return RT_ERR_OUT_OF_RANGE;
+
+ retVal = rtl8367c_getAsicRegBits(RTL8367C_REG_ACL_IP_RANGE_ENTRY0_CTRL4 + index*5, RTL8367C_ACL_IP_RANGE_ENTRY0_CTRL4_MASK, pType);
+ if(retVal != RT_ERR_OK)
+ return retVal;
+
+ retVal = rtl8367c_getAsicReg(RTL8367C_REG_ACL_IP_RANGE_ENTRY0_CTRL2 + index*5, ®Data);
+ if(retVal != RT_ERR_OK)
+ return retVal;
+ ipData = regData;
+
+
+ retVal = rtl8367c_getAsicReg(RTL8367C_REG_ACL_IP_RANGE_ENTRY0_CTRL3 + index*5, ®Data);
+ if(retVal != RT_ERR_OK)
+ return retVal;
+
+ ipData = (regData <<16) | ipData;
+ *pUpperIp = ipData;
+
+
+ retVal = rtl8367c_getAsicReg(RTL8367C_REG_ACL_IP_RANGE_ENTRY0_CTRL0 + index*5, ®Data);
+ if(retVal != RT_ERR_OK)
+ return retVal;
+ ipData = regData;
+
+
+ retVal = rtl8367c_getAsicReg(RTL8367C_REG_ACL_IP_RANGE_ENTRY0_CTRL1 + index*5, ®Data);
+ if(retVal != RT_ERR_OK)
+ return retVal;
+
+ ipData = (regData << 16) | ipData;
+ *pLowerIp = ipData;
+
+ return RT_ERR_OK;
+}
+
+/* Function Name:
+ * rtl8367c_setAsicAclGpioPolarity
+ * Description:
+ * Set ACL Goip control palarity
+ * Input:
+ * polarity - 1: High, 0: Low
+ * Output:
+ * None
+ * Return:
+ * RT_ERR_OK - Success
+ * RT_ERR_SMI - SMI access error
+ * Note:
+ * none
+ */
+ret_t rtl8367c_setAsicAclGpioPolarity(rtk_uint32 polarity)
+{
+ return rtl8367c_setAsicRegBit(RTL8367C_REG_ACL_GPIO_POLARITY, RTL8367C_ACL_GPIO_POLARITY_OFFSET, polarity);
+}
+/* Function Name:
+ * rtl8367c_getAsicAclGpioPolarity
+ * Description:
+ * Get ACL Goip control palarity
+ * Input:
+ * pPolarity - 1: High, 0: Low
+ * Output:
+ * None
+ * Return:
+ * RT_ERR_OK - Success
+ * RT_ERR_SMI - SMI access error
+ * Note:
+ * none
+ */
+ret_t rtl8367c_getAsicAclGpioPolarity(rtk_uint32* pPolarity)
+{
+ return rtl8367c_getAsicRegBit(RTL8367C_REG_ACL_GPIO_POLARITY, RTL8367C_ACL_GPIO_POLARITY_OFFSET, pPolarity);
+}
+
projects / openwrt / openwrt.git / blobdiff