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/*- * Copyright 2003-2011 Netlogic Microsystems (Netlogic). All rights * reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are * met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in * the documentation and/or other materials provided with the * distribution. * * THIS SOFTWARE IS PROVIDED BY Netlogic Microsystems ``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 DISCLAIMED. IN NO EVENT SHALL NETLOGIC OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF * THE POSSIBILITY OF SUCH DAMAGE. * * NETLOGIC_BSD * $FreeBSD: release/9.1.0/sys/mips/nlm/hal/fmn.h 225394 2011-09-05 10:45:29Z jchandra $ */ #ifndef __NLM_FMNV2_H__ #define __NLM_FMNV2_H__ /** * @file_name fmn.h * @author Netlogic Microsystems * @brief HAL for Fast message network V2 */ /* FMN configuration registers */ #define CMS_OUTPUTQ_CONFIG(i) ((i)*2) #define CMS_MAX_OUTPUTQ 1024 #define CMS_OUTPUTQ_CREDIT_CFG (0x2000/4) #define CMS_MSG_CONFIG (0x2008/4) #define CMS_MSG_ERR (0x2010/4) #define CMS_TRACE_CONFIG (0x2018/4) #define CMS_TRACE_BASE_ADDR (0x2020/4) #define CMS_TRACE_LIMIT_ADDR (0x2028/4) #define CMS_TRACE_CURRENT_ADDR (0x2030/4) #define CMS_MSG_ENDIAN_SWAP (0x2038/4) #define CMS_CPU_PUSHQ(node, core, thread, vc) \ (((node)<<10) | ((core)<<4) | ((thread)<<2) | ((vc)<<0)) #define CMS_POPQ(node, queue) (((node)<<10) | (queue)) #define CMS_IO_PUSHQ(node, queue) (((node)<<10) | (queue)) #define CMS_POPQ_QID(i) (128+(i)) #define CMS_POPQ_MAXQID 255 #define CMS_PCIE0_QID(i) (256+(i)) #define CMS_PCIE0_MAXQID 257 #define CMS_PCIE1_QID(i) (258+(i)) #define CMS_PCIE1_MAXQID 259 #define CMS_PCIE2_QID(i) (260+(i)) #define CMS_PCIE2_MAXQID 261 #define CMS_PCIE3_QID(i) (262+(i)) #define CMS_PCIE3_MAXQID 263 #define CMS_DTE_QID(i) (264+(i)) #define CMS_DTE_MAXQID 267 #define CMS_RSA_ECC_QID(i) (272+(i)) #define CMS_RSA_ECC_MAXQID 280 #define CMS_CRYPTO_QID(i) (281+(i)) #define CMS_CRYPTO_MAXQID 296 /* TODO PCI header register 0x3C says CMP starts at 297(0x129) VERIFY */ #define CMS_CMP_QID(i) (298+(i)) #define CMS_CMP_MAXQID 305 #define CMS_POE_QID(i) (384+(i)) #define CMS_POE_MAXQID 391 #define CMS_NAE_QID(i) (476+(i)) #define CMS_NAE_MAXQID 1023 #define CMS_NAE_TX_VC_BASE 476 #define CMS_NAE_TX_VC_LIMIT 999 #define CMS_NAE_RX_VC_BASE 1000 #define CMS_NAE_RX_VC_LIMIT 1019 #define MAX_CMS_QUEUES 1024 /* FMN Level Interrupt Type */ #define CMS_LVL_INTR_DISABLE 0 #define CMS_LVL_LOW_WATERMARK 1 #define CMS_LVL_HI_WATERMARK 2 /* FMN Level interrupt trigger values */ #define CMS_QUEUE_NON_EMPTY 0 #define CMS_QUEUE_QUARTER_FULL 1 #define CMS_QUEUE_HALF_FULL 2 #define CMS_QUEUE_THREE_QUARTER_FULL 3 #define CMS_QUEUE_FULL 4 /* FMN Timer Interrupt Type */ #define CMS_TIMER_INTR_DISABLE 0 #define CMS_TIMER_CONSUMER 1 #define CMS_TIMER_PRODUCER 1 /* FMN timer interrupt trigger values */ #define CMS_TWO_POW_EIGHT_CYCLES 0 #define CMS_TWO_POW_TEN_CYCLES 1 #define CMS_TWO_POW_TWELVE_CYCLES 2 #define CMS_TWO_POW_FOURTEEN_CYCLES 3 #define CMS_TWO_POW_SIXTEEN_CYCLES 4 #define CMS_TWO_POW_EIGHTTEEN_CYCLES 5 #define CMS_TWO_POW_TWENTY_CYCLES 6 #define CMS_TWO_POW_TWENTYTWO_CYCLES 7 #define CMS_QUEUE_ENA 1ULL #define CMS_QUEUE_DIS 0 #define CMS_SPILL_ENA 1ULL #define CMS_SPILL_DIS 0 #define CMS_MAX_VCPU_VC 4 /* Each XLP chip can hold upto 32K messages on the chip itself */ #define CMS_ON_CHIP_MESG_SPACE (32*1024) #define CMS_ON_CHIP_PER_QUEUE_SPACE \ ((CMS_ON_CHIP_MESG_SPACE)/(MAX_CMS_QUEUES)) #define CMS_MAX_ONCHIP_SEGMENTS 1024 #define CMS_MAX_SPILL_SEGMENTS_PER_QUEUE 64 /* FMN Network error */ #define CMS_ILLEGAL_DST_ERROR 0x100 #define CMS_BIU_TIMEOUT_ERROR 0x080 #define CMS_BIU_ERROR 0x040 #define CMS_SPILL_FILL_UNCORRECT_ECC_ERROR 0x020 #define CMS_SPILL_FILL_CORRECT_ECC_ERROR 0x010 #define CMS_SPILL_UNCORRECT_ECC_ERROR 0x008 #define CMS_SPILL_CORRECT_ECC_ERROR 0x004 #define CMS_OUTPUTQ_UNCORRECT_ECC_ERROR 0x002 #define CMS_OUTPUTQ_CORRECT_ECC_ERROR 0x001 /* worst case, a single entry message consists of a 4 byte header * and an 8-byte entry = 12 bytes in total */ #define CMS_SINGLE_ENTRY_MSG_SIZE 12 /* total spill memory needed for one FMN queue */ #define CMS_PER_QUEUE_SPILL_MEM(spilltotmsgs) \ ((spilltotmsgs) * (CMS_SINGLE_ENTRY_MSG_SIZE)) /* total spill memory needed */ #define CMS_TOTAL_SPILL_MEM(spilltotmsgs) \ ((CMS_PER_QUEUE_SPILL_MEM(spilltotmsgs)) * \ (MAX_CMS_QUEUES)) /* total number of FMN messages possible in a queue */ #define CMS_TOTAL_QUEUE_SIZE(spilltotmsgs) \ ((spilltotmsgs) + (CMS_ON_CHIP_PER_QUEUE_SPACE)) /* FMN Src station id's */ #define CMS_CPU0_SRC_STID (0 << 4) #define CMS_CPU1_SRC_STID (1 << 4) #define CMS_CPU2_SRC_STID (2 << 4) #define CMS_CPU3_SRC_STID (3 << 4) #define CMS_CPU4_SRC_STID (4 << 4) #define CMS_CPU5_SRC_STID (5 << 4) #define CMS_CPU6_SRC_STID (6 << 4) #define CMS_CPU7_SRC_STID (7 << 4) #define CMS_PCIE0_SRC_STID 256 #define CMS_PCIE1_SRC_STID 258 #define CMS_PCIE2_SRC_STID 260 #define CMS_PCIE3_SRC_STID 262 #define CMS_DTE_SRC_STID 264 #define CMS_RSA_ECC_SRC_STID 272 #define CMS_CRYPTO_SRC_STID 281 #define CMS_CMP_SRC_STID 298 #define CMS_POE_SRC_STID 384 #define CMS_NAE_SRC_STID 476 #if 0 #define CMS_DEFAULT_CREDIT(cmstotstns,spilltotmsgs) \ ((CMS_TOTAL_QUEUE_SIZE(spilltotmsgs)) / \ (cmstotstns)) #endif #define CMS_DEFAULT_CREDIT(cmstotstns,spilltotmsgs) 8 /* POPQ related defines */ #define CMS_POPQID_START 128 #define CMS_POPQID_END 255 #define CMS_INT_RCVD 0x800000000000000ULL #define nlm_read_cms_reg(b, r) nlm_read_reg64_xkphys(b,r) #define nlm_write_cms_reg(b, r, v) nlm_write_reg64_xkphys(b,r,v) #define nlm_get_cms_pcibase(node) nlm_pcicfg_base(XLP_IO_CMS_OFFSET(node)) #define nlm_get_cms_regbase(node) nlm_xkphys_map_pcibar0(nlm_get_cms_pcibase(node)) enum fmn_swcode { FMN_SWCODE_CPU0=1, FMN_SWCODE_CPU1, FMN_SWCODE_CPU2, FMN_SWCODE_CPU3, FMN_SWCODE_CPU4, FMN_SWCODE_CPU5, FMN_SWCODE_CPU6, FMN_SWCODE_CPU7, FMN_SWCODE_CPU8, FMN_SWCODE_CPU9, FMN_SWCODE_CPU10, FMN_SWCODE_CPU11, FMN_SWCODE_CPU12, FMN_SWCODE_CPU13, FMN_SWCODE_CPU14, FMN_SWCODE_CPU15, FMN_SWCODE_CPU16, FMN_SWCODE_CPU17, FMN_SWCODE_CPU18, FMN_SWCODE_CPU19, FMN_SWCODE_CPU20, FMN_SWCODE_CPU21, FMN_SWCODE_CPU22, FMN_SWCODE_CPU23, FMN_SWCODE_CPU24, FMN_SWCODE_CPU25, FMN_SWCODE_CPU26, FMN_SWCODE_CPU27, FMN_SWCODE_CPU28, FMN_SWCODE_CPU29, FMN_SWCODE_CPU30, FMN_SWCODE_CPU31, FMN_SWCODE_CPU32, FMN_SWCODE_PCIE0, FMN_SWCODE_PCIE1, FMN_SWCODE_PCIE2, FMN_SWCODE_PCIE3, FMN_SWCODE_DTE, FMN_SWCODE_CRYPTO, FMN_SWCODE_RSA, FMN_SWCODE_CMP, FMN_SWCODE_POE, FMN_SWCODE_NAE, }; extern uint64_t nlm_cms_spill_total_messages; extern uint32_t nlm_cms_total_stations; extern uint32_t cms_onchip_seg_availability[CMS_ON_CHIP_PER_QUEUE_SPACE]; extern uint64_t cms_base_addr(int node); extern int nlm_cms_verify_credit_config (int spill_en, int tot_credit); extern int nlm_cms_get_oc_space(int qsize, int max_queues, int qid, int *ocbase, int *ocstart, int *ocend); extern void nlm_cms_setup_credits (uint64_t base, int destid, int srcid, int credit); extern int nlm_cms_config_onchip_queue (uint64_t base, uint64_t cms_spill_base, int qid, int spill_en); extern void nlm_cms_default_setup(int node, uint64_t spill_base, int spill_en, int popq_en); extern uint64_t nlm_cms_get_onchip_queue (uint64_t base, int qid); extern void nlm_cms_set_onchip_queue (uint64_t base, int qid, uint64_t val); extern void nlm_cms_per_queue_level_intr(uint64_t base, int qid, int sub_type, int intr_val); extern void nlm_cms_level_intr(int node, int sub_type, int intr_val); extern void nlm_cms_per_queue_timer_intr(uint64_t base, int qid, int sub_type, int intr_val); extern void nlm_cms_timer_intr(int node, int en, int sub_type, int intr_val); extern int nlm_cms_outputq_intr_check(uint64_t base, int qid); extern void nlm_cms_outputq_clr_intr(uint64_t base, int qid); extern void nlm_cms_illegal_dst_error_intr(uint64_t base, int en); extern void nlm_cms_timeout_error_intr(uint64_t base, int en); extern void nlm_cms_biu_error_resp_intr(uint64_t base, int en); extern void nlm_cms_spill_uncorrectable_ecc_error_intr(uint64_t base, int en); extern void nlm_cms_spill_correctable_ecc_error_intr(uint64_t base, int en); extern void nlm_cms_outputq_uncorrectable_ecc_error_intr(uint64_t base, int en); extern void nlm_cms_outputq_correctable_ecc_error_intr(uint64_t base, int en); extern uint64_t nlm_cms_network_error_status(uint64_t base); extern int nlm_cms_get_net_error_code(uint64_t err); extern int nlm_cms_get_net_error_syndrome(uint64_t err); extern int nlm_cms_get_net_error_ramindex(uint64_t err); extern int nlm_cms_get_net_error_outputq(uint64_t err); extern void nlm_cms_trace_setup(uint64_t base, int en, uint64_t trace_base, uint64_t trace_limit, int match_dstid_en, int dst_id, int match_srcid_en, int src_id, int wrap); extern void nlm_cms_endian_byte_swap (uint64_t base, int en); extern uint8_t xlp_msg_send(uint8_t vc, uint8_t size); extern int nlm_cms_alloc_spill_q(uint64_t base, int qid, uint64_t spill_base, int nsegs); extern int nlm_cms_alloc_onchip_q(uint64_t base, int qid, int nsegs); #endif