| /******************************************************************************* |
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| * Redistributions of source code must retain the above copyright notice, |
| this list of conditions and the following disclaimer. |
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| THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND |
| ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED |
| WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE |
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| SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. |
| |
| *******************************************************************************/ |
| #include "mvPp2Cls4Hw.h" |
| |
| /*-------------------------------------------------------------------------------*/ |
| /* Classifier C4 engine Public APIs */ |
| /*-------------------------------------------------------------------------------*/ |
| |
| int mvPp2ClsC4HwPortToRulesSet(int port, int set, int rules) |
| { |
| unsigned int regVal; |
| |
| POS_RANGE_VALIDATE(port, MV_PP2_MAX_PORTS-1); |
| POS_RANGE_VALIDATE(set, MV_PP2_CLS_C4_GRPS_NUM-1); |
| RANGE_VALIDATE(rules, 1, MV_PP2_CLS_C4_GRP_SIZE); |
| |
| regVal = (set << MV_PP2_CLS4_PHY_TO_RL_GRP) | (rules << MV_PP2_CLS4_PHY_TO_RL_RULE_NUM); |
| mvPp2WrReg(MV_PP2_CLS4_PHY_TO_RL_REG(port), regVal); |
| |
| return MV_OK; |
| } |
| /*-------------------------------------------------------------------------------*/ |
| int mvPp2ClsC4HwUniToRulesSet(int uni, int set, int rules) |
| { |
| unsigned int regVal; |
| |
| POS_RANGE_VALIDATE(uni, UNI_MAX); |
| POS_RANGE_VALIDATE(set, MV_PP2_CLS_C4_GRPS_NUM-1); |
| RANGE_VALIDATE(rules, 1, MV_PP2_CLS_C4_GRP_SIZE); |
| |
| regVal = (set << MV_PP2_CLS4_PHY_TO_RL_GRP) | (rules << MV_PP2_CLS4_PHY_TO_RL_RULE_NUM); |
| mvPp2WrReg(MV_PP2_CLS4_UNI_TO_RL_REG(uni), regVal); |
| |
| return MV_OK; |
| } |
| /*-------------------------------------------------------------------------------*/ |
| int mvPp2ClsC4HwPortToRulesGet(int port, int *set, int *rules) |
| { |
| unsigned int regVal; |
| |
| PTR_VALIDATE(set); |
| PTR_VALIDATE(rules); |
| |
| regVal = mvPp2RdReg(MV_PP2_CLS4_PHY_TO_RL_REG(port)); |
| |
| *rules = (regVal & MV_PP2_CLS4_PHY_TO_RL_RULE_NUM_MASK) >> MV_PP2_CLS4_PHY_TO_RL_RULE_NUM; |
| *set = (regVal & MV_PP2_CLS4_PHY_TO_RL_GRP_MASK) >> MV_PP2_CLS4_PHY_TO_RL_GRP; |
| |
| return MV_OK; |
| } |
| |
| /*-------------------------------------------------------------------------------*/ |
| int mvPp2ClsC4HwUniToRulesGet(int uni, int *set, int *rules) |
| { |
| unsigned int regVal; |
| |
| PTR_VALIDATE(set); |
| PTR_VALIDATE(rules); |
| |
| |
| regVal = mvPp2RdReg(MV_PP2_CLS4_UNI_TO_RL_REG(uni)); |
| |
| *rules = (regVal & MV_PP2_CLS4_PHY_TO_RL_RULE_NUM_MASK) >> MV_PP2_CLS4_PHY_TO_RL_RULE_NUM; |
| *set = (regVal & MV_PP2_CLS4_PHY_TO_RL_GRP_MASK) >> MV_PP2_CLS4_PHY_TO_RL_GRP; |
| |
| return MV_OK; |
| } |
| /*-------------------------------------------------------------------------------*/ |
| int mvPp2ClsC4HwRead(MV_PP2_CLS_C4_ENTRY *C4, int rule, int set) |
| { |
| unsigned int regVal = 0; |
| int regInd; |
| |
| PTR_VALIDATE(C4); |
| |
| POS_RANGE_VALIDATE(rule, (MV_PP2_CLS_C4_GRP_SIZE-1)); |
| POS_RANGE_VALIDATE(set, (MV_PP2_CLS_C4_GRPS_NUM-1)); |
| |
| /* write index reg */ |
| regVal = (set << MV_PP2_CLS4_RL_INDEX_GRP) | (rule << MV_PP2_CLS4_RL_INDEX_RULE); |
| mvPp2WrReg(MV_PP2_CLS4_RL_INDEX_REG, regVal); |
| |
| C4->ruleIndex = rule; |
| C4->setIndex = set; |
| /* read entry rule fields*/ |
| C4->rules.regs.attr[0] = mvPp2RdReg(MV_PP2_CLS4_FATTR1_REG); |
| C4->rules.regs.attr[1] = mvPp2RdReg(MV_PP2_CLS4_FATTR2_REG); |
| |
| for (regInd = 0; regInd < MV_PP2_CLS_C4_TBL_DATA_WORDS; regInd++) |
| C4->rules.regs.fdataArr[regInd] = mvPp2RdReg(MV_PP2_CLS4_FDATA_REG(regInd)); |
| |
| /* read entry from action table */ |
| C4->sram.regs.actions = mvPp2RdReg(MV_PP2_CLS4_ACT_REG); |
| C4->sram.regs.qos_attr = mvPp2RdReg(MV_PP2_CLS4_ACT_QOS_ATTR_REG); |
| C4->sram.regs.dup_attr = mvPp2RdReg(MV_PP2_CLS4_ACT_DUP_ATTR_REG); |
| |
| return MV_OK; |
| } |
| /*-------------------------------------------------------------------------------*/ |
| int mvPp2ClsC4HwWrite(MV_PP2_CLS_C4_ENTRY *C4, int rule, int set) |
| { |
| unsigned int regVal = 0; |
| int regInd; |
| |
| PTR_VALIDATE(C4); |
| |
| |
| POS_RANGE_VALIDATE(rule, (MV_PP2_CLS_C4_GRP_SIZE-1)); |
| POS_RANGE_VALIDATE(set, (MV_PP2_CLS_C4_GRPS_NUM-1)); |
| |
| /* write index reg */ |
| regVal = (set << MV_PP2_CLS4_RL_INDEX_GRP) | (rule << MV_PP2_CLS4_RL_INDEX_RULE); |
| mvPp2WrReg(MV_PP2_CLS4_RL_INDEX_REG, regVal); |
| |
| mvPp2WrReg(MV_PP2_CLS4_FATTR1_REG, C4->rules.regs.attr[0]); |
| mvPp2WrReg(MV_PP2_CLS4_FATTR2_REG, C4->rules.regs.attr[1]); |
| |
| for (regInd = 0; regInd < MV_PP2_CLS_C4_TBL_DATA_WORDS; regInd++) |
| mvPp2WrReg(MV_PP2_CLS4_FDATA_REG(regInd), C4->rules.regs.fdataArr[regInd]); |
| |
| /* read entry from action table */ |
| mvPp2WrReg(MV_PP2_CLS4_ACT_REG, C4->sram.regs.actions); |
| mvPp2WrReg(MV_PP2_CLS4_ACT_QOS_ATTR_REG, C4->sram.regs.qos_attr); |
| mvPp2WrReg(MV_PP2_CLS4_ACT_DUP_ATTR_REG, C4->sram.regs.dup_attr); |
| |
| return MV_OK; |
| } |
| |
| /*-------------------------------------------------------------------------------*/ |
| int mvPp2ClsC4SwDump(MV_PP2_CLS_C4_ENTRY *C4) |
| { |
| int index; |
| |
| PTR_VALIDATE(C4); |
| |
| mvOsPrintf("SET: %d RULE: %d\n", C4->setIndex, C4->ruleIndex); |
| mvOsPrintf("FIELD ID OP DATA\n"); |
| |
| /*------------------------------*/ |
| /* fields 0-2 */ |
| /*------------------------------*/ |
| |
| for (index = 0; index < 4; index++) { |
| mvOsPrintf("%d %d %d ", |
| index, |
| MV_PP2_CLS4_FATTR_ID_VAL(index, C4->rules.regs.attr[GET_FIELD_ATRR(index)]), |
| MV_PP2_CLS4_FATTR_OPCODE_VAL(index, C4->rules.regs.attr[GET_FIELD_ATRR(index)])); |
| |
| mvOsPrintf(FLD_FMT, FLD_VAL(index, C4->rules.regs.fdataArr)); |
| mvOsPrintf("\n"); |
| } |
| |
| /*------------------------------*/ |
| /* field 4 */ |
| /*------------------------------*/ |
| |
| /* index = 4 after loop */ |
| mvOsPrintf("%d %d %d ", |
| index, |
| MV_PP2_CLS4_FATTR_ID_VAL(index, C4->rules.regs.attr[GET_FIELD_ATRR(index)]), |
| MV_PP2_CLS4_FATTR_OPCODE_VAL(index, C4->rules.regs.attr[GET_FIELD_ATRR(index)])); |
| mvOsPrintf(FLD4_FMT, FLD4_VAL(C4->rules.regs.fdataArr)); |
| mvOsPrintf("\n"); |
| |
| /*------------------------------*/ |
| /* field 5 */ |
| /*------------------------------*/ |
| index++; |
| |
| mvOsPrintf("%d %d %d ", |
| index, |
| MV_PP2_CLS4_FATTR_ID_VAL(index, C4->rules.regs.attr[GET_FIELD_ATRR(index)]), |
| MV_PP2_CLS4_FATTR_OPCODE_VAL(index, C4->rules.regs.attr[GET_FIELD_ATRR(index)])); |
| mvOsPrintf(FLD5_FMT, FLD5_VAL(C4->rules.regs.fdataArr)); |
| mvOsPrintf("\n"); |
| mvOsPrintf("\n"); |
| mvOsPrintf("VLAN: %d PPPOE: %d MACME: %d L4INFO: %d L3INFO: %d\n", |
| MV_PP2_CLS4_VLAN_VAL(C4->rules.regs.fdataArr[6]), |
| MV_PP2_CLS4_PPPOE_VAL(C4->rules.regs.fdataArr[6]), |
| MV_PP2_CLS4_MACME_VAL(C4->rules.regs.fdataArr[6]), |
| MV_PP2_CLS4_L4INFO_VAL(C4->rules.regs.fdataArr[6]), |
| MV_PP2_CLS4_L3INFO_VAL(C4->rules.regs.fdataArr[6])); |
| mvOsPrintf("\n"); |
| /*------------------------------*/ |
| /* actions 0x1E80 */ |
| /*------------------------------*/ |
| /* |
| PPv2.1 (feature MAS 3.9) Add forwarding command to C4 |
| */ |
| |
| mvOsPrintf("ACT_TBL:COLOR PRIO DSCP GPID LOW_Q HIGH_Q POLICER FWD\n"); |
| mvOsPrintf("CMD: [%1d] [%1d] [%1d] [%1d] [%1d] [%1d] [%1d] [%1d]\n", |
| ((C4->sram.regs.actions & (ACT_COLOR_MASK)) >> ACT_COLOR), |
| ((C4->sram.regs.actions & (ACT_PRI_MASK)) >> ACT_PRI), |
| ((C4->sram.regs.actions & (ACT_DSCP_MASK)) >> ACT_DSCP), |
| ((C4->sram.regs.actions & (ACT_GEM_ID_MASK)) >> ACT_GEM_ID), |
| ((C4->sram.regs.actions & (ACT_LOW_Q_MASK)) >> ACT_LOW_Q), |
| ((C4->sram.regs.actions & (ACT_HIGH_Q_MASK)) >> ACT_HIGH_Q), |
| ((C4->sram.regs.actions & (ACT_POLICER_SELECT_MASK)) >> ACT_POLICER_SELECT), |
| ((C4->sram.regs.actions & ACT_FWD_MASK) >> ACT_FWD)); |
| |
| |
| /*------------------------------*/ |
| /* qos_attr 0x1E84 */ |
| /*------------------------------*/ |
| /*mvOsPrintf("ACT_TBL:COLOR PRIO DSCP GPID LOW_Q HIGH_Q POLICER FWD\n");*/ |
| |
| /*mvOsPrintf("VAL: PRIO DSCP GPID LOW_Q HIGH_Q POLICER\n");*/ |
| |
| mvOsPrintf("VAL: [%1d] [%1d] [%1d] [%1d] [0x%x] [id 0x%2.2x bank %1.1x]\n", |
| ((C4->sram.regs.qos_attr & (ACT_QOS_ATTR_MDF_PRI_MASK)) >> ACT_QOS_ATTR_MDF_PRI), |
| ((C4->sram.regs.qos_attr & (ACT_QOS_ATTR_MDF_DSCP_MASK)) >> ACT_QOS_ATTR_MDF_DSCP), |
| ((C4->sram.regs.qos_attr & (ACT_QOS_ATTR_MDF_GEM_ID_MASK)) >> ACT_QOS_ATTR_MDF_GEM_ID), |
| ((C4->sram.regs.qos_attr & (ACT_QOS_ATTR_MDF_LOW_Q_MASK)) >> ACT_QOS_ATTR_MDF_LOW_Q), |
| ((C4->sram.regs.qos_attr & (ACT_QOS_ATTR_MDF_HIGH_Q_MASK)) >> ACT_QOS_ATTR_MDF_HIGH_Q), |
| ((C4->sram.regs.dup_attr & (ACT_DUP_POLICER_MASK)) >> ACT_DUP_POLICER_ID), |
| ((C4->sram.regs.dup_attr & ACT_DUP_POLICER_BANK_MASK) >> ACT_DUP_POLICER_BANK_BIT)); |
| |
| |
| return MV_OK; |
| } |
| |
| /*-------------------------------------------------------------------------------*/ |
| /* PPv2.1 MASS 3.20 new feature */ |
| int mvPp2V1ClsC4HwCntDump(int rule, int set, unsigned int *cnt) |
| { |
| unsigned int regVal; |
| |
| POS_RANGE_VALIDATE(rule, (MV_PP2_CLS_C4_GRP_SIZE-1)); |
| POS_RANGE_VALIDATE(set, (MV_PP2_CLS_C4_GRPS_NUM-1)); |
| |
| /* write index */ |
| regVal = MV_PP2_V1_CNT_IDX_RULE(rule, set); |
| mvPp2WrReg(MV_PP2_V1_CNT_IDX_REG, regVal); |
| |
| /*read hit counter*/ |
| regVal = mvPp2RdReg(MV_PP2_V1_CLS_C4_TBL_HIT_REG); |
| |
| if (cnt) |
| *cnt = regVal; |
| else |
| mvOsPrintf("HIT COUNTER: %d\n", regVal); |
| |
| return MV_OK; |
| } |
| /*-------------------------------------------------------------------------------*/ |
| int mvPp2ClsC4HwDumpAll() |
| { |
| int set, rule; |
| MV_PP2_CLS_C4_ENTRY C4; |
| |
| for (set = 0; set < MV_PP2_CLS_C4_GRPS_NUM; set++) |
| for (rule = 0; rule < MV_PP2_CLS_C4_GRP_SIZE; rule++) { |
| mvPp2ClsC4HwRead(&C4, rule, set); |
| mvPp2ClsC4SwDump(&C4); |
| mvPp2V1ClsC4HwCntDump(rule, set, NULL); |
| mvOsPrintf("--------------------------------------------------------------------\n"); |
| } |
| return MV_OK; |
| } |
| /*-------------------------------------------------------------------------------*/ |
| /* mvPp2V1ClsC4HwHitsDump - dump all non zeroed hit counters and the associated HWentries */ |
| /* PPv2.1 MASS 3.20 new feature */ |
| int mvPp2V1ClsC4HwHitsDump() |
| { |
| int set, rule; |
| unsigned int cnt; |
| MV_PP2_CLS_C4_ENTRY C4; |
| |
| for (set = 0; set < MV_PP2_CLS_C4_GRPS_NUM; set++) |
| for (rule = 0; rule < MV_PP2_CLS_C4_GRP_SIZE; rule++) { |
| mvPp2V1ClsC4HwCntDump(rule, set, &cnt); |
| if (cnt == 0) |
| continue; |
| |
| mvPp2ClsC4HwRead(&C4, rule, set); |
| mvPp2ClsC4SwDump(&C4); |
| mvOsPrintf("HITS: %d\n", cnt); |
| mvOsPrintf("--------------------------------------------------------------------\n"); |
| } |
| return MV_OK; |
| } |
| /*-------------------------------------------------------------------------------*/ |
| int mvPp2ClsC4RegsDump() |
| { |
| int i = 0; |
| char reg_name[100]; |
| |
| |
| for (i = 0; i < MV_PP2_MAX_PORTS; i++) { |
| mvOsSPrintf(reg_name, "MV_PP2_CLS4_PHY_TO_RL_%d_REG", i); |
| mvPp2PrintReg(MV_PP2_CLS4_PHY_TO_RL_REG(i), reg_name); |
| } |
| |
| for (i = 0; i < MV_PP2_MAX_PORTS; i++) { |
| mvOsSPrintf(reg_name, "MV_PP2_CLS4_UNI_TO_RL_%d_REG", i); |
| mvPp2PrintReg(MV_PP2_CLS4_UNI_TO_RL_REG(i), reg_name); |
| } |
| |
| mvPp2PrintReg(MV_PP2_CLS4_FATTR1_REG, "MV_PP2_CLS4_FATTR1_REG"); |
| mvPp2PrintReg(MV_PP2_CLS4_FATTR2_REG, "MV_PP2_CLS4_FATTR2_REG"); |
| |
| for (i = 0; i < MV_PP2_CLS4_FDATA_REGS_NUM; i++) { |
| mvOsSPrintf(reg_name, "MV_PP2_CLS4_FDATA_%d_REG", i); |
| mvPp2PrintReg(MV_PP2_CLS4_FDATA_REG(i), reg_name); |
| } |
| |
| mvPp2PrintReg(MV_PP2_CLS4_RL_INDEX_REG, "MV_PP2_CLS4_RL_INDEX_REG"); |
| mvPp2PrintReg(MV_PP2_CLS4_ACT_REG, "MV_PP2_CLS4_ACT_REG"); |
| mvPp2PrintReg(MV_PP2_CLS4_ACT_QOS_ATTR_REG, "MV_PP2_CLS4_ACT_QOS_ATTR_REG"); |
| mvPp2PrintReg(MV_PP2_CLS4_ACT_DUP_ATTR_REG, "MV_PP2_CLS4_ACT_DUP_ATTR_REG"); |
| |
| return MV_OK; |
| } |
| |
| /*-------------------------------------------------------------------------------*/ |
| void mvPp2ClsC4SwClear(MV_PP2_CLS_C4_ENTRY *C4) |
| { |
| memset(C4, 0, sizeof(MV_PP2_CLS_C4_ENTRY)); |
| } |
| |
| /*-------------------------------------------------------------------------------*/ |
| void mvPp2ClsC4HwClearAll() |
| { |
| int set, rule; |
| MV_PP2_CLS_C4_ENTRY C4; |
| |
| mvPp2ClsC4SwClear(&C4); |
| |
| for (set = 0; set < MV_PP2_CLS_C4_GRPS_NUM; set++) |
| for (rule = 0; rule < MV_PP2_CLS_C4_GRP_SIZE; rule++) |
| mvPp2ClsC4HwWrite(&C4, rule, set); |
| } |
| /*-------------------------------------------------------------------------------*/ |
| /* Classifier C4 engine rules APIs */ |
| /*-------------------------------------------------------------------------------*/ |
| |
| /* |
| set two bytes of data in fields |
| offs - offset in byte resolution |
| */ |
| int mvPp2ClsC4FieldsShortSet(MV_PP2_CLS_C4_ENTRY *C4, int field, unsigned int offs, unsigned short data) |
| { |
| PTR_VALIDATE(C4); |
| |
| POS_RANGE_VALIDATE(field, MV_PP2_CLS_C4_FIELDS_NUM-1); |
| |
| if ((offs % 2) != 0) { |
| mvOsPrintf("mvCls4Hw %s: offset should be even , current func write two bytes of data.\n", __func__); |
| return MV_CLS4_ERR; |
| } |
| |
| if (field < 4) { |
| /* fields 0,1,2,3 lenght is 2 bytes */ |
| POS_RANGE_VALIDATE(offs, 0); |
| C4->rules.regs.fdataArr[field/2] &= ~(0xFFFF << (16 * (field % 2))); |
| C4->rules.regs.fdataArr[field/2] |= (data << (16 * (field % 2))); |
| } |
| |
| else if (field == 4) { |
| /* field 4 lenght is 16 bytes */ |
| POS_RANGE_VALIDATE(offs, 14); |
| C4->rules.regs.fdataArr[5 - offs/4] &= ~(0xFFFF << (16 * ((offs / 2) % 2))); |
| C4->rules.regs.fdataArr[5 - offs/4] |= (data << (16 * ((offs / 2) % 2))); |
| } else { |
| /* field 5 lenght is 6 bytes */ |
| POS_RANGE_VALIDATE(offs, 4); |
| C4->rules.regs.fdataArr[7 - offs/4] &= ~(0xFFFF << (16 * ((offs / 2) % 2))); |
| C4->rules.regs.fdataArr[7 - offs/4] |= (data << (16 * ((offs / 2) % 2))); |
| } |
| |
| return MV_OK; |
| } |
| /*-------------------------------------------------------------------------------*/ |
| int mvPp2ClsC4FieldsParamsSet(MV_PP2_CLS_C4_ENTRY *C4, int field, unsigned int id, unsigned int op) |
| { |
| PTR_VALIDATE(C4); |
| POS_RANGE_VALIDATE(field, MV_PP2_CLS_C4_FIELDS_NUM-1); |
| POS_RANGE_VALIDATE(id, MV_PP2_CLS4_FATTR_ID_MAX); |
| POS_RANGE_VALIDATE(op, MV_PP2_CLS4_FATTR_OPCODE_MAX); |
| |
| /* clear old ID and opcode*/ |
| C4->rules.regs.attr[GET_FIELD_ATRR(field)] &= ~MV_PP2_CLS4_FATTR_ID_MASK(field); |
| C4->rules.regs.attr[GET_FIELD_ATRR(field)] &= ~MV_PP2_CLS4_FATTR_OPCODE_MASK(field); |
| |
| /* write new values */ |
| C4->rules.regs.attr[GET_FIELD_ATRR(field)] |= (op << MV_PP2_CLS4_FATTR_OPCODE(field)); |
| C4->rules.regs.attr[GET_FIELD_ATRR(field)] |= (id << MV_PP2_CLS4_FATTR_ID(field)); |
| |
| return MV_OK; |
| } |
| /*-------------------------------------------------------------------------------*/ |
| int mvPp2ClsC4SwVlanSet(MV_PP2_CLS_C4_ENTRY *C4, int vlan) |
| { |
| PTR_VALIDATE(C4); |
| POS_RANGE_VALIDATE(vlan, MV_PP2_CLS4_VLAN_MAX); |
| |
| C4->rules.regs.fdataArr[6] &= ~MV_PP2_CLS4_VLAN_MASK; |
| C4->rules.regs.fdataArr[6] |= (vlan << MV_PP2_CLS4_FDATA7_VLAN); |
| |
| return MV_OK; |
| } |
| /*-------------------------------------------------------------------------------*/ |
| int mvPp2ClsC4SwPppoeSet(MV_PP2_CLS_C4_ENTRY *C4, int pppoe) |
| { |
| PTR_VALIDATE(C4); |
| POS_RANGE_VALIDATE(pppoe, MV_PP2_CLS4_PPPOE_MAX); |
| |
| C4->rules.regs.fdataArr[6] &= ~MV_PP2_CLS4_PPPOE_MASK; |
| C4->rules.regs.fdataArr[6] |= (pppoe << MV_PP2_CLS4_FDATA7_PPPOE); |
| |
| return MV_OK; |
| } |
| /*-------------------------------------------------------------------------------*/ |
| int mvPp2ClsC4SwMacMeSet(MV_PP2_CLS_C4_ENTRY *C4, int mac) |
| { |
| PTR_VALIDATE(C4); |
| POS_RANGE_VALIDATE(mac, MV_PP2_CLS4_MACME_MAX); |
| |
| C4->rules.regs.fdataArr[6] &= ~MV_PP2_CLS4_MACME_MASK; |
| C4->rules.regs.fdataArr[6] |= (mac << MV_PP2_CLS4_FDATA7_MACME); |
| |
| return MV_OK; |
| } |
| /*-------------------------------------------------------------------------------*/ |
| int mvPp2ClsC4SwL4InfoSet(MV_PP2_CLS_C4_ENTRY *C4, int info) |
| { |
| PTR_VALIDATE(C4); |
| POS_RANGE_VALIDATE(info, MV_PP2_CLS4_L4INFO_MAX); |
| |
| C4->rules.regs.fdataArr[6] &= ~MV_PP2_CLS4_L4INFO_MASK; |
| C4->rules.regs.fdataArr[6] |= (info << MV_PP2_CLS4_FDATA7_L4INFO); |
| |
| return MV_OK; |
| } |
| /*-------------------------------------------------------------------------------*/ |
| int mvPp2ClsC4SwL3InfoSet(MV_PP2_CLS_C4_ENTRY *C4, int info) |
| { |
| PTR_VALIDATE(C4); |
| POS_RANGE_VALIDATE(info, MV_PP2_CLS4_L3INFO_MAX); |
| |
| C4->rules.regs.fdataArr[6] &= ~MV_PP2_CLS4_L3INFO_MASK; |
| C4->rules.regs.fdataArr[6] |= (info << MV_PP2_CLS4_FDATA7_L3INFO); |
| |
| return MV_OK; |
| } |
| |
| |
| /*-------------------------------------------------------------------------------*/ |
| /* Classifier C4 engine Public action table APIs */ |
| /*-------------------------------------------------------------------------------*/ |
| |
| int mvPp2ClsC4ColorSet(MV_PP2_CLS_C4_ENTRY *C4, int cmd) |
| { |
| PTR_VALIDATE(C4); |
| POS_RANGE_VALIDATE(cmd, COLOR_RED_AND_LOCK); |
| |
| C4->sram.regs.actions &= ~ACT_COLOR_MASK; |
| C4->sram.regs.actions |= (cmd << ACT_COLOR); |
| |
| return MV_OK; |
| } |
| /*-------------------------------------------------------------------------------*/ |
| int mvPp2ClsC4PrioSet(MV_PP2_CLS_C4_ENTRY *C4, int cmd, int prio) |
| { |
| PTR_VALIDATE(C4); |
| POS_RANGE_VALIDATE(cmd, UPDATE_AND_LOCK); |
| POS_RANGE_VALIDATE(prio, ACT_QOS_ATTR_PRI_MAX); |
| |
| /*set command*/ |
| C4->sram.regs.actions &= ~ACT_PRI_MASK; |
| C4->sram.regs.actions |= (cmd << ACT_PRI); |
| |
| /*set modify priority value*/ |
| C4->sram.regs.qos_attr &= ~ACT_QOS_ATTR_MDF_PRI_MASK; |
| C4->sram.regs.qos_attr |= (prio << ACT_QOS_ATTR_MDF_PRI); |
| |
| return MV_OK; |
| } |
| /*-------------------------------------------------------------------------------*/ |
| int mvPp2ClsC4DscpSet(MV_PP2_CLS_C4_ENTRY *C4, int cmd, int dscp) |
| { |
| PTR_VALIDATE(C4); |
| POS_RANGE_VALIDATE(cmd, UPDATE_AND_LOCK); |
| POS_RANGE_VALIDATE(dscp, ACT_QOS_ATTR_DSCP_MAX); |
| |
| /*set command*/ |
| C4->sram.regs.actions &= ~ACT_DSCP_MASK; |
| C4->sram.regs.actions |= (cmd << ACT_DSCP); |
| |
| /*set modify DSCP value*/ |
| C4->sram.regs.qos_attr &= ~ACT_QOS_ATTR_MDF_DSCP_MASK; |
| C4->sram.regs.qos_attr |= (dscp << ACT_QOS_ATTR_MDF_DSCP); |
| |
| return MV_OK; |
| } |
| |
| /*-------------------------------------------------------------------------------*/ |
| |
| int mvPp2ClsC4GpidSet(MV_PP2_CLS_C4_ENTRY *C4, int cmd, int gid) |
| { |
| PTR_VALIDATE(C4); |
| POS_RANGE_VALIDATE(cmd, UPDATE_AND_LOCK); |
| POS_RANGE_VALIDATE(gid, ACT_QOS_ATTR_GEM_ID_MAX); |
| |
| /*set command*/ |
| C4->sram.regs.actions &= ~ACT_GEM_ID_MASK; |
| C4->sram.regs.actions |= (cmd << ACT_GEM_ID); |
| |
| /*set modify DSCP value*/ |
| C4->sram.regs.qos_attr &= ~ACT_QOS_ATTR_MDF_GEM_ID_MASK; |
| C4->sram.regs.qos_attr |= (gid << ACT_QOS_ATTR_MDF_GEM_ID); |
| |
| return MV_OK; |
| } |
| |
| /*-------------------------------------------------------------------------------*/ |
| int mvPp2ClsC4PolicerSet(MV_PP2_CLS_C4_ENTRY *C4, int cmd, int policerId, int bank) |
| { |
| PTR_VALIDATE(C4); |
| POS_RANGE_VALIDATE(cmd, UPDATE_AND_LOCK); |
| POS_RANGE_VALIDATE(policerId, ACT_DUP_POLICER_MAX); |
| BIT_RANGE_VALIDATE(bank); |
| |
| C4->sram.regs.actions &= ~ACT_POLICER_SELECT_MASK; |
| C4->sram.regs.actions |= (cmd << ACT_POLICER_SELECT); |
| |
| C4->sram.regs.dup_attr &= ~ACT_DUP_POLICER_MASK; |
| C4->sram.regs.dup_attr |= (policerId << ACT_DUP_POLICER_ID); |
| |
| if (bank) |
| C4->sram.regs.dup_attr |= ACT_DUP_POLICER_BANK_MASK; |
| else |
| C4->sram.regs.dup_attr &= ~ACT_DUP_POLICER_BANK_MASK; |
| |
| return MV_OK; |
| } |
| |
| /*-------------------------------------------------------------------------------*/ |
| int mvPp2ClsC4QueueHighSet(MV_PP2_CLS_C4_ENTRY *C4, int cmd, int queue) |
| { |
| PTR_VALIDATE(C4); |
| |
| |
| POS_RANGE_VALIDATE(cmd, UPDATE_AND_LOCK); |
| POS_RANGE_VALIDATE(queue, ACT_QOS_ATTR_MDF_HIGH_Q_MAX); |
| |
| /*set command*/ |
| C4->sram.regs.actions &= ~ACT_HIGH_Q_MASK; |
| C4->sram.regs.actions |= (cmd << ACT_HIGH_Q); |
| |
| /*set modify High queue value*/ |
| C4->sram.regs.qos_attr &= ~ACT_QOS_ATTR_MDF_HIGH_Q_MASK; |
| C4->sram.regs.qos_attr |= (queue << ACT_QOS_ATTR_MDF_HIGH_Q); |
| |
| return MV_OK; |
| } |
| |
| /*-------------------------------------------------------------------------------*/ |
| int mvPp2ClsC4QueueLowSet(MV_PP2_CLS_C4_ENTRY *C4, int cmd, int queue) |
| { |
| PTR_VALIDATE(C4); |
| |
| POS_RANGE_VALIDATE(cmd, UPDATE_AND_LOCK); |
| POS_RANGE_VALIDATE(queue, ACT_QOS_ATTR_MDF_LOW_Q_MAX); |
| |
| /*set command*/ |
| C4->sram.regs.actions &= ~ACT_LOW_Q_MASK; |
| C4->sram.regs.actions |= (cmd << ACT_LOW_Q); |
| |
| /*set modify High queue value*/ |
| C4->sram.regs.qos_attr &= ~ACT_QOS_ATTR_MDF_LOW_Q_MASK; |
| C4->sram.regs.qos_attr |= (queue << ACT_QOS_ATTR_MDF_LOW_Q); |
| |
| return MV_OK; |
| } |
| /*-------------------------------------------------------------------------------*/ |
| |
| int mvPp2ClsC4QueueSet(MV_PP2_CLS_C4_ENTRY *C4, int cmd, int queue) |
| { |
| int status = MV_OK; |
| int qHigh, qLow; |
| |
| PTR_VALIDATE(C4); |
| POS_RANGE_VALIDATE(queue, ACT_QOS_ATTR_Q_MAX); |
| |
| /* cmd validation in set functions */ |
| |
| qHigh = (queue & ACT_QOS_ATTR_MDF_HIGH_Q_MASK) >> ACT_QOS_ATTR_MDF_HIGH_Q; |
| qLow = (queue & ACT_QOS_ATTR_MDF_LOW_Q_MASK) >> ACT_QOS_ATTR_MDF_LOW_Q; |
| |
| status |= mvPp2ClsC4QueueLowSet(C4, cmd, qLow); |
| status |= mvPp2ClsC4QueueHighSet(C4, cmd, qHigh); |
| |
| return status; |
| |
| } |
| |
| /*-------------------------------------------------------------------------------*/ |
| /* |
| PPv2.1 (feature MAS 3.9) Add forwarding command to C4 |
| */ |
| int mvPp2ClsC4ForwardSet(MV_PP2_CLS_C4_ENTRY *C4, int cmd) |
| { |
| PTR_VALIDATE(C4); |
| POS_RANGE_VALIDATE(cmd, SWF_AND_LOCK); |
| |
| C4->sram.regs.actions &= ~ACT_FWD_MASK; |
| C4->sram.regs.actions |= (cmd << ACT_FWD); |
| return MV_OK; |
| } |
