/* $Id$ * * This file is subject to the terms and conditions of the GNU General Public * License. See the file "COPYING" in the main directory of this archive * for more details. * * Copyright (C) 1992 - 1997, 2000 Silicon Graphics, Inc. * Copyright (C) 2000 by Colin Ngam */ #ifndef _ASM_SN_SN1_ROUTER_H #define _ASM_SN_SN1_ROUTER_H /* * Router Register definitions * * Macro argument _L always stands for a link number (1 to 8, inclusive). */ #if defined(_LANGUAGE_C) || defined(_LANGUAGE_C_PLUS_PLUS) #include #include #include typedef uint64_t router_reg_t; #define MAX_ROUTERS 64 #define MAX_ROUTER_PATH 80 #define ROUTER_REG_CAST (volatile router_reg_t *) #define PS_UINT_CAST (__psunsigned_t) #define UINT64_CAST (uint64_t) typedef signed char port_no_t; /* Type for router port number */ #elif _LANGUAGE_ASSEMBLY #define ROUTERREG_CAST #define PS_UINT_CAST #define UINT64_CAST #endif /* _LANGUAGE_C || _LANGUAGE_C_PLUS_PLUS */ #define MAX_ROUTER_PORTS (8) /* Max. number of ports on a router */ #define ALL_PORTS ((1 << MAX_ROUTER_PORTS) - 1) /* for 0 based references */ #define PORT_INVALID (-1) /* Invalid port number */ #define IS_META(_rp) ((_rp)->flags & PCFG_ROUTER_META) #define IS_REPEATER(_rp)((_rp)->flags & PCFG_ROUTER_REPEATER) /* * RR_TURN makes a given number of clockwise turns (0 to 7) from an inport * port to generate an output port. * * RR_DISTANCE returns the number of turns necessary (0 to 7) to go from * an input port (_L1 = 1 to 8) to an output port ( _L2 = 1 to 8). * * These are written to work on unsigned data. */ #define RR_TURN(_L, count) ((_L) + (count) > MAX_ROUTER_PORTS ? \ (_L) + (count) - MAX_ROUTER_PORTS : \ (_L) + (count)) #define RR_DISTANCE(_LS, _LD) ((_LD) >= (_LS) ? \ (_LD) - (_LS) : \ (_LD) + MAX_ROUTER_PORTS - (_LS)) /* Router register addresses */ #define RR_STATUS_REV_ID 0x00000 /* Status register and Revision ID */ #define RR_PORT_RESET 0x00008 /* Multiple port reset */ #define RR_PROT_CONF 0x00010 /* Inter-partition protection conf. */ #define RR_GLOBAL_PORT_DEF 0x00018 /* Global Port definitions */ #define RR_GLOBAL_PARMS0 0x00020 /* Parameters shared by all 8 ports */ #define RR_GLOBAL_PARMS1 0x00028 /* Parameters shared by all 8 ports */ #define RR_DIAG_PARMS 0x00030 /* Parameters for diag. testing */ #define RR_DEBUG_ADDR 0x00038 /* Debug address select - debug port*/ #define RR_LB_TO_L2 0x00040 /* Local Block to L2 cntrl intf reg */ #define RR_L2_TO_LB 0x00048 /* L2 cntrl intf to Local Block reg */ #define RR_JBUS_CONTROL 0x00050 /* read/write timing for JBUS intf */ #define RR_SCRATCH_REG0 0x00100 /* Scratch 0 is 64 bits */ #define RR_SCRATCH_REG1 0x00108 /* Scratch 1 is 64 bits */ #define RR_SCRATCH_REG2 0x00110 /* Scratch 2 is 64 bits */ #define RR_SCRATCH_REG3 0x00118 /* Scratch 3 is 1 bit */ #define RR_SCRATCH_REG4 0x00120 /* Scratch 4 is 1 bit */ #define RR_JBUS0(_D) (((_D) & 0x7) << 3 | 0x00200) /* JBUS0 addresses */ #define RR_JBUS1(_D) (((_D) & 0x7) << 3 | 0x00240) /* JBUS1 addresses */ #define RR_SCRATCH_REG0_WZ 0x00500 /* Scratch 0 is 64 bits */ #define RR_SCRATCH_REG1_WZ 0x00508 /* Scratch 1 is 64 bits */ #define RR_SCRATCH_REG2_WZ 0x00510 /* Scratch 2 is 64 bits */ #define RR_SCRATCH_REG3_SZ 0x00518 /* Scratch 3 is 1 bit */ #define RR_SCRATCH_REG4_SZ 0x00520 /* Scratch 4 is 1 bit */ #define RR_VECTOR_HW_BAR(context) (0x08000 | (context)<<3) /* barrier config registers */ /* Port-specific registers (_L is the link number from 1 to 8) */ #define RR_PORT_PARMS(_L) (((_L+1) & 0xe) << 15 | ((_L+1) & 0x1) << 11 | 0x0000) /* LLP parameters */ #define RR_STATUS_ERROR(_L) (((_L+1) & 0xe) << 15 | ((_L+1) & 0x1) << 11 | 0x0008) /* Port-related errs */ #define RR_CHANNEL_TEST(_L) (((_L+1) & 0xe) << 15 | ((_L+1) & 0x1) << 11 | 0x0010) /* Port LLP chan test */ #define RR_RESET_MASK(_L) (((_L+1) & 0xe) << 15 | ((_L+1) & 0x1) << 11 | 0x0018) /* Remote reset mask */ #define RR_HISTOGRAM0(_L) (((_L+1) & 0xe) << 15 | ((_L+1) & 0x1) << 11 | 0x0020) /* Port usage histgrm */ #define RR_HISTOGRAM1(_L) (((_L+1) & 0xe) << 15 | ((_L+1) & 0x1) << 11 | 0x0028) /* Port usage histgrm */ #define RR_HISTOGRAM0_WC(_L) (((_L+1) & 0xe) << 15 | ((_L+1) & 0x1) << 11 | 0x0030) /* Port usage histgrm */ #define RR_HISTOGRAM1_WC(_L) (((_L+1) & 0xe) << 15 | ((_L+1) & 0x1) << 11 | 0x0038) /* Port usage histgrm */ #define RR_ERROR_CLEAR(_L) (((_L+1) & 0xe) << 15 | ((_L+1) & 0x1) << 11 | 0x0088) /* Read/clear errors */ #define RR_GLOBAL_TABLE0(_L) (((_L+1) & 0xe) << 15 | ((_L+1) & 0x1) << 11 | 0x0100) /* starting address of global table for this port */ #define RR_GLOBAL_TABLE(_L, _x) (RR_GLOBAL_TABLE0(_L) + ((_x) << 3)) #define RR_LOCAL_TABLE0(_L) (((_L+1) & 0xe) << 15 | ((_L+1) & 0x1) << 11 | 0x0200) /* starting address of local table for this port */ #define RR_LOCAL_TABLE(_L, _x) (RR_LOCAL_TABLE0(_L) + ((_x) << 3)) #define RR_META_ENTRIES 16 #define RR_LOCAL_ENTRIES 128 /* * RR_STATUS_REV_ID mask and shift definitions */ #define RSRI_INPORT_SHFT 52 #define RSRI_INPORT_MASK (UINT64_CAST 0xf << 52) #define RSRI_LINKWORKING_BIT(_L) (35 + 2 * (_L)) #define RSRI_LINKWORKING(_L) (UINT64_CAST 1 << (35 + 2 * (_L))) #define RSRI_LINKRESETFAIL(_L) (UINT64_CAST 1 << (34 + 2 * (_L))) #define RSRI_LSTAT_SHFT(_L) (34 + 2 * (_L)) #define RSRI_LSTAT_MASK(_L) (UINT64_CAST 0x3 << 34 + 2 * (_L)) #define RSRI_LOCALSBERROR (UINT64_CAST 1 << 35) #define RSRI_LOCALSTUCK (UINT64_CAST 1 << 34) #define RSRI_LOCALBADVEC (UINT64_CAST 1 << 33) #define RSRI_LOCALTAILERR (UINT64_CAST 1 << 32) #define RSRI_LOCAL_SHFT 32 #define RSRI_LOCAL_MASK (UINT64_CAST 0xf << 32) #define RSRI_CHIPREV_SHFT 28 #define RSRI_CHIPREV_MASK (UINT64_CAST 0xf << 28) #define RSRI_CHIPID_SHFT 12 #define RSRI_CHIPID_MASK (UINT64_CAST 0xffff << 12) #define RSRI_MFGID_SHFT 1 #define RSRI_MFGID_MASK (UINT64_CAST 0x7ff << 1) #define RSRI_LSTAT_WENTDOWN 0 #define RSRI_LSTAT_RESETFAIL 1 #define RSRI_LSTAT_LINKUP 2 #define RSRI_LSTAT_NOTUSED 3 /* * RR_PORT_RESET mask definitions */ #define RPRESET_WARM (UINT64_CAST 1 << 9) #define RPRESET_LINK(_L) (UINT64_CAST 1 << (_L)) #define RPRESET_LOCAL (UINT64_CAST 1) /* * RR_PROT_CONF mask and shift definitions */ #define RPCONF_DIRCMPDIS_SHFT 13 #define RPCONF_DIRCMPDIS_MASK (UINT64_CAST 1 << 13) #define RPCONF_FORCELOCAL (UINT64_CAST 1 << 12) #define RPCONF_FLOCAL_SHFT 12 #define RPCONF_METAID_SHFT 8 #define RPCONF_METAID_MASK (UINT64_CAST 0xf << 8) #define RPCONF_RESETOK(_L) (UINT64_CAST 1 << ((_L) - 1)) /* * RR_GLOBAL_PORT_DEF mask and shift definitions */ #define RGPD_MGLBLNHBR_ID_SHFT 12 /* -global neighbor ID */ #define RGPD_MGLBLNHBR_ID_MASK (UINT64_CAST 0xf << 12) #define RGPD_MGLBLNHBR_VLD_SHFT 11 /* -global neighbor Valid */ #define RGPD_MGLBLNHBR_VLD_MASK (UINT64_CAST 0x1 << 11) #define RGPD_MGLBLPORT_SHFT 8 /* -global neighbor Port */ #define RGPD_MGLBLPORT_MASK (UINT64_CAST 0x7 << 8) #define RGPD_PGLBLNHBR_ID_SHFT 4 /* +global neighbor ID */ #define RGPD_PGLBLNHBR_ID_MASK (UINT64_CAST 0xf << 4) #define RGPD_PGLBLNHBR_VLD_SHFT 3 /* +global neighbor Valid */ #define RGPD_PGLBLNHBR_VLD_MASK (UINT64_CAST 0x1 << 3) #define RGPD_PGLBLPORT_SHFT 0 /* +global neighbor Port */ #define RGPD_PGLBLPORT_MASK (UINT64_CAST 0x7 << 0) #define GLBL_PARMS_REGS 2 /* Two Global Parms registers */ /* * RR_GLOBAL_PARMS0 mask and shift definitions */ #define RGPARM0_ARB_VALUE_SHFT 54 /* Local Block Arbitration State */ #define RGPARM0_ARB_VALUE_MASK (UINT64_CAST 0x7 << 54) #define RGPARM0_ROTATEARB_SHFT 53 /* Rotate Local Block Arbitration */ #define RGPARM0_ROTATEARB_MASK (UINT64_CAST 0x1 << 53) #define RGPARM0_FAIREN_SHFT 52 /* Fairness logic Enable */ #define RGPARM0_FAIREN_MASK (UINT64_CAST 0x1 << 52) #define RGPARM0_LOCGNTTO_SHFT 40 /* Local grant timeout */ #define RGPARM0_LOCGNTTO_MASK (UINT64_CAST 0xfff << 40) #define RGPARM0_DATELINE_SHFT 38 /* Dateline crossing router */ #define RGPARM0_DATELINE_MASK (UINT64_CAST 0x1 << 38) #define RGPARM0_MAXRETRY_SHFT 28 /* Max retry count */ #define RGPARM0_MAXRETRY_MASK (UINT64_CAST 0x3ff << 28) #define RGPARM0_URGWRAP_SHFT 20 /* Urgent wrap */ #define RGPARM0_URGWRAP_MASK (UINT64_CAST 0xff << 20) #define RGPARM0_DEADLKTO_SHFT 16 /* Deadlock timeout */ #define RGPARM0_DEADLKTO_MASK (UINT64_CAST 0xf << 16) #define RGPARM0_URGVAL_SHFT 12 /* Urgent value */ #define RGPARM0_URGVAL_MASK (UINT64_CAST 0xf << 12) #define RGPARM0_VCHSELEN_SHFT 11 /* VCH_SEL_EN */ #define RGPARM0_VCHSELEN_MASK (UINT64_CAST 0x1 << 11) #define RGPARM0_LOCURGTO_SHFT 9 /* Local urgent timeout */ #define RGPARM0_LOCURGTO_MASK (UINT64_CAST 0x3 << 9) #define RGPARM0_TAILVAL_SHFT 5 /* Tail value */ #define RGPARM0_TAILVAL_MASK (UINT64_CAST 0xf << 5) #define RGPARM0_CLOCK_SHFT 1 /* Global clock select */ #define RGPARM0_CLOCK_MASK (UINT64_CAST 0xf << 1) #define RGPARM0_BYPEN_SHFT 0 #define RGPARM0_BYPEN_MASK (UINT64_CAST 1) /* Bypass enable */ /* * RR_GLOBAL_PARMS1 shift and mask definitions */ #define RGPARM1_TTOWRAP_SHFT 12 /* Tail timeout wrap */ #define RGPARM1_TTOWRAP_MASK (UINT64_CAST 0xfffff << 12) #define RGPARM1_AGERATE_SHFT 8 /* Age rate */ #define RGPARM1_AGERATE_MASK (UINT64_CAST 0xf << 8) #define RGPARM1_JSWSTAT_SHFT 0 /* JTAG Sw Register bits */ #define RGPARM1_JSWSTAT_MASK (UINT64_CAST 0xff << 0) /* * RR_DIAG_PARMS mask and shift definitions */ #define RDPARM_ABSHISTOGRAM (UINT64_CAST 1 << 17) /* Absolute histgrm */ #define RDPARM_DEADLOCKRESET (UINT64_CAST 1 << 16) /* Reset on deadlck */ #define RDPARM_DISABLE(_L) (UINT64_CAST 1 << ((_L) + 7)) #define RDPARM_SENDERROR(_L) (UINT64_CAST 1 << ((_L) - 1)) /* * RR_DEBUG_ADDR mask and shift definitions */ #define RDA_DATA_SHFT 10 /* Observed debug data */ #define RDA_DATA_MASK (UINT64_CAST 0xffff << 10) #define RDA_ADDR_SHFT 0 /* debug address for data */ #define RDA_ADDR_MASK (UINT64_CAST 0x3ff << 0) /* * RR_LB_TO_L2 mask and shift definitions */ #define RLBTOL2_DATA_VLD_SHFT 32 /* data is valid for JTAG controller */ #define RLBTOL2_DATA_VLD_MASK (UINT64_CAST 0x1 << 32) #define RLBTOL2_DATA_SHFT 0 /* data bits for JTAG controller */ #define RLBTOL2_DATA_MASK (UINT64_CAST 0xffffffff) /* * RR_L2_TO_LB mask and shift definitions */ #define RL2TOLB_DATA_VLD_SHFT 33 /* data is valid from JTAG controller */ #define RL2TOLB_DATA_VLD_MASK (UINT64_CAST 0x1 << 33) #define RL2TOLB_PARITY_SHFT 32 /* sw implemented parity for data */ #define RL2TOLB_PARITY_MASK (UINT64_CAST 0x1 << 32) #define RL2TOLB_DATA_SHFT 0 /* data bits from JTAG controller */ #define RL2TOLB_DATA_MASK (UINT64_CAST 0xffffffff) /* * RR_JBUS_CONTROL mask and shift definitions */ #define RJC_POS_BITS_SHFT 20 /* Router position bits */ #define RJC_POS_BITS_MASK (UINT64_CAST 0xf << 20) #define RJC_RD_DATA_STROBE_SHFT 16 /* count when read data is strobed in */ #define RJC_RD_DATA_STROBE_MASK (UINT64_CAST 0xf << 16) #define RJC_WE_OE_HOLD_SHFT 8 /* time OE or WE is held */ #define RJC_WE_OE_HOLD_MASK (UINT64_CAST 0xff << 8) #define RJC_ADDR_SET_HLD_SHFT 0 /* time address driven around OE/WE */ #define RJC_ADDR_SET_HLD_MASK (UINT64_CAST 0xff) /* * RR_SCRATCH_REGx mask and shift definitions * note: these fields represent a software convention, and are not * understood/interpreted by the hardware. */ #define RSCR0_BOOTED_SHFT 63 #define RSCR0_BOOTED_MASK (UINT64_CAST 0x1 << RSCR0_BOOTED_SHFT) #define RSCR0_LOCALID_SHFT 56 #define RSCR0_LOCALID_MASK (UINT64_CAST 0x7f << RSCR0_LOCALID_SHFT) #define RSCR0_UNUSED_SHFT 48 #define RSCR0_UNUSED_MASK (UINT64_CAST 0xff << RSCR0_UNUSED_SHFT) #define RSCR0_NIC_SHFT 0 #define RSCR0_NIC_MASK (UINT64_CAST 0xffffffffffff) #define RSCR1_MODID_SHFT 0 #define RSCR1_MODID_MASK (UINT64_CAST 0xffff) /* * RR_VECTOR_HW_BAR mask and shift definitions */ #define BAR_TX_SHFT 27 /* Barrier in trans(m)it when read */ #define BAR_TX_MASK (UINT64_CAST 1 << BAR_TX_SHFT) #define BAR_VLD_SHFT 26 /* Valid Configuration */ #define BAR_VLD_MASK (UINT64_CAST 1 << BAR_VLD_SHFT) #define BAR_SEQ_SHFT 24 /* Sequence number */ #define BAR_SEQ_MASK (UINT64_CAST 3 << BAR_SEQ_SHFT) #define BAR_LEAFSTATE_SHFT 18 /* Leaf State */ #define BAR_LEAFSTATE_MASK (UINT64_CAST 0x3f << BAR_LEAFSTATE_SHFT) #define BAR_PARENT_SHFT 14 /* Parent Port */ #define BAR_PARENT_MASK (UINT64_CAST 0xf << BAR_PARENT_SHFT) #define BAR_CHILDREN_SHFT 6 /* Child Select port bits */ #define BAR_CHILDREN_MASK (UINT64_CAST 0xff << BAR_CHILDREN_SHFT) #define BAR_LEAFCOUNT_SHFT 0 /* Leaf Count to trigger parent */ #define BAR_LEAFCOUNT_MASK (UINT64_CAST 0x3f) /* * RR_PORT_PARMS(_L) mask and shift definitions */ #define RPPARM_MIPRESETEN_SHFT 29 /* Message In Progress reset enable */ #define RPPARM_MIPRESETEN_MASK (UINT64_CAST 0x1 << 29) #define RPPARM_UBAREN_SHFT 28 /* Enable user barrier requests */ #define RPPARM_UBAREN_MASK (UINT64_CAST 0x1 << 28) #define RPPARM_OUTPDTO_SHFT 24 /* Output Port Deadlock TO value */ #define RPPARM_OUTPDTO_MASK (UINT64_CAST 0xf << 24) #define RPPARM_PORTMATE_SHFT 21 /* Port Mate for the port */ #define RPPARM_PORTMATE_MASK (UINT64_CAST 0x7 << 21) #define RPPARM_HISTEN_SHFT 20 /* Histogram counter enable */ #define RPPARM_HISTEN_MASK (UINT64_CAST 0x1 << 20) #define RPPARM_HISTSEL_SHFT 18 #define RPPARM_HISTSEL_MASK (UINT64_CAST 0x3 << 18) #define RPPARM_DAMQHS_SHFT 16 #define RPPARM_DAMQHS_MASK (UINT64_CAST 0x3 << 16) #define RPPARM_NULLTO_SHFT 10 #define RPPARM_NULLTO_MASK (UINT64_CAST 0x3f << 10) #define RPPARM_MAXBURST_SHFT 0 #define RPPARM_MAXBURST_MASK (UINT64_CAST 0x3ff) /* * NOTE: Normally the kernel tracks only UTILIZATION statistics. * The other 2 should not be used, except during any experimentation * with the router. */ #define RPPARM_HISTSEL_AGE 0 /* Histogram age characterization. */ #define RPPARM_HISTSEL_UTIL 1 /* Histogram link utilization */ #define RPPARM_HISTSEL_DAMQ 2 /* Histogram DAMQ characterization. */ /* * RR_STATUS_ERROR(_L) and RR_ERROR_CLEAR(_L) mask and shift definitions */ #define RSERR_POWERNOK (UINT64_CAST 1 << 38) #define RSERR_PORT_DEADLOCK (UINT64_CAST 1 << 37) #define RSERR_WARMRESET (UINT64_CAST 1 << 36) #define RSERR_LINKRESET (UINT64_CAST 1 << 35) #define RSERR_RETRYTIMEOUT (UINT64_CAST 1 << 34) #define RSERR_FIFOOVERFLOW (UINT64_CAST 1 << 33) #define RSERR_ILLEGALPORT (UINT64_CAST 1 << 32) #define RSERR_DEADLOCKTO_SHFT 28 #define RSERR_DEADLOCKTO_MASK (UINT64_CAST 0xf << 28) #define RSERR_RECVTAILTO_SHFT 24 #define RSERR_RECVTAILTO_MASK (UINT64_CAST 0xf << 24) #define RSERR_RETRYCNT_SHFT 16 #define RSERR_RETRYCNT_MASK (UINT64_CAST 0xff << 16) #define RSERR_CBERRCNT_SHFT 8 #define RSERR_CBERRCNT_MASK (UINT64_CAST 0xff << 8) #define RSERR_SNERRCNT_SHFT 0 #define RSERR_SNERRCNT_MASK (UINT64_CAST 0xff << 0) #define PORT_STATUS_UP (1 << 0) /* Router link up */ #define PORT_STATUS_FENCE (1 << 1) /* Router link fenced */ #define PORT_STATUS_RESETFAIL (1 << 2) /* Router link didnot * come out of reset */ #define PORT_STATUS_DISCFAIL (1 << 3) /* Router link failed after * out of reset but before * router tables were * programmed */ #define PORT_STATUS_KERNFAIL (1 << 4) /* Router link failed * after reset and the * router tables were * programmed */ #define PORT_STATUS_UNDEF (1 << 5) /* Unable to pinpoint * why the router link * went down */ #define PROBE_RESULT_BAD (-1) /* Set if any of the router * links failed after reset */ #define PROBE_RESULT_GOOD (0) /* Set if all the router links * which came out of reset * are up */ /* Should be enough for 256 CPUs */ #define MAX_RTR_BREADTH 64 /* Max # of routers possible */ /* Get the require set of bits in a var. corr to a sequence of bits */ #define GET_FIELD(var, fname) \ ((var) >> fname##_SHFT & fname##_MASK >> fname##_SHFT) /* Set the require set of bits in a var. corr to a sequence of bits */ #define SET_FIELD(var, fname, fval) \ ((var) = (var) & ~fname##_MASK | (uint64_t) (fval) << fname##_SHFT) #if defined(_LANGUAGE_C) || defined(_LANGUAGE_C_PLUS_PLUS) typedef struct router_map_ent_s { uint64_t nic; moduleid_t module; slotid_t slot; } router_map_ent_t; struct rr_status_error_fmt { uint64_t rserr_unused : 30, rserr_fifooverflow : 1, rserr_illegalport : 1, rserr_deadlockto : 4, rserr_recvtailto : 4, rserr_retrycnt : 8, rserr_cberrcnt : 8, rserr_snerrcnt : 8; }; /* * This type is used to store "absolute" counts of router events */ typedef int router_count_t; /* All utilizations are on a scale from 0 - 1023. */ #define RP_BYPASS_UTIL 0 #define RP_RCV_UTIL 1 #define RP_SEND_UTIL 2 #define RP_TOTAL_PKTS 3 /* Free running clock/packet counter */ #define RP_NUM_UTILS 3 #define RP_HIST_REGS 2 #define RP_NUM_BUCKETS 4 #define RP_HIST_TYPES 3 #define RP_AGE0 0 #define RP_AGE1 1 #define RP_AGE2 2 #define RP_AGE3 3 #define RR_UTIL_SCALE 1024 /* * Router port-oriented information */ typedef struct router_port_info_s { router_reg_t rp_histograms[RP_HIST_REGS];/* Port usage info */ router_reg_t rp_port_error; /* Port error info */ router_count_t rp_retry_errors; /* Total retry errors */ router_count_t rp_sn_errors; /* Total sn errors */ router_count_t rp_cb_errors; /* Total cb errors */ int rp_overflows; /* Total count overflows */ int rp_excess_err; /* Port has excessive errors */ ushort rp_util[RP_NUM_BUCKETS];/* Port utilization */ } router_port_info_t; #define ROUTER_INFO_VERSION 7 struct lboard_s; /* * Router information */ typedef struct router_info_s { char ri_version; /* structure version */ cnodeid_t ri_cnode; /* cnode of its legal guardian hub */ nasid_t ri_nasid; /* Nasid of same */ char ri_ledcache; /* Last LED bitmap */ char ri_leds; /* Current LED bitmap */ char ri_portmask; /* Active port bitmap */ router_reg_t ri_stat_rev_id; /* Status rev ID value */ net_vec_t ri_vector; /* vector from guardian to router */ int ri_writeid; /* router's vector write ID */ int64_t ri_timebase; /* Time of first sample */ int64_t ri_timestamp; /* Time of last sample */ router_port_info_t ri_port[MAX_ROUTER_PORTS]; /* per port info */ moduleid_t ri_module; /* Which module are we in? */ slotid_t ri_slotnum; /* Which slot are we in? */ router_reg_t ri_glbl_parms[GLBL_PARMS_REGS]; /* Global parms0&1 register contents*/ devfs_handle_t ri_vertex; /* hardware graph vertex */ router_reg_t ri_prot_conf; /* protection config. register */ int64_t ri_per_minute; /* Ticks per minute */ /* * Everything below here is for kernel use only and may change at * at any time with or without a change in teh revision number * * Any pointers or things that come and go with DEBUG must go at * the bottom of the structure, below the user stuff. */ char ri_hist_type; /* histogram type */ devfs_handle_t ri_guardian; /* guardian node for the router */ int64_t ri_last_print; /* When did we last print */ char ri_print; /* Should we print */ char ri_just_blink; /* Should we blink the LEDs */ #ifdef DEBUG int64_t ri_deltatime; /* Time it took to sample */ #endif spinlock_t ri_lock; /* Lock for access to router info */ net_vec_t *ri_vecarray; /* Pointer to array of vectors */ struct lboard_s *ri_brd; /* Pointer to board structure */ char * ri_name; /* This board's hwg path */ unsigned char ri_port_maint[MAX_ROUTER_PORTS]; /* should we send a message to availmon */ } router_info_t; /* Router info location specifiers */ #define RIP_PROMLOG 2 /* Router info in promlog */ #define RIP_CONSOLE 4 /* Router info on console */ #define ROUTER_INFO_PRINT(_rip,_where) (_rip->ri_print |= _where) /* Set the field used to check if a * router info can be printed */ #define IS_ROUTER_INFO_PRINTED(_rip,_where) \ (_rip->ri_print & _where) /* Was the router info printed to * the given location (_where) ? * Mainly used to prevent duplicate * router error states. */ #define ROUTER_INFO_LOCK(_rip,_s) _s = mutex_spinlock(&(_rip->ri_lock)) /* Take the lock on router info * to gain exclusive access */ #define ROUTER_INFO_UNLOCK(_rip,_s) mutex_spinunlock(&(_rip->ri_lock),_s) /* Release the lock on router info */ /* * Router info hanging in the nodepda */ typedef struct nodepda_router_info_s { devfs_handle_t router_vhdl; /* vertex handle of the router */ short router_port; /* port thru which we entered */ short router_portmask; moduleid_t router_module; /* module in which router is there */ slotid_t router_slot; /* router slot */ unsigned char router_type; /* kind of router */ net_vec_t router_vector; /* vector from the guardian node */ router_info_t *router_infop; /* info hanging off the hwg vertex */ struct nodepda_router_info_s *router_next; /* pointer to next element */ } nodepda_router_info_t; #define ROUTER_NAME_SIZE 20 /* Max size of a router name */ #define NORMAL_ROUTER_NAME "normal_router" #define NULL_ROUTER_NAME "null_router" #define META_ROUTER_NAME "meta_router" #define REPEATER_ROUTER_NAME "repeater_router" #define UNKNOWN_ROUTER_NAME "unknown_router" /* The following definitions are needed by the router traversing * code either using the hardware graph or using vector operations. */ /* Structure of the router queue element */ typedef struct router_elt_s { union { /* queue element structure during router probing */ struct { /* number-in-a-can (unique) for the router */ nic_t nic; /* vector route from the master hub to * this router. */ net_vec_t vec; /* port status */ uint64_t status; char port_status[MAX_ROUTER_PORTS + 1]; } r_elt; /* queue element structure during router guardian * assignment */ struct { /* vertex handle for the router */ devfs_handle_t vhdl; /* guardian for this router */ devfs_handle_t guard; /* vector router from the guardian to the router */ net_vec_t vec; } k_elt; } u; /* easy to use port status interpretation */ } router_elt_t; /* structure of the router queue */ typedef struct router_queue_s { char head; /* Point where a queue element is inserted */ char tail; /* Point where a queue element is removed */ int type; router_elt_t array[MAX_RTR_BREADTH]; /* Entries for queue elements */ } router_queue_t; #endif /* _LANGUAGE_C || _LANGUAGE_C_PLUS_PLUS */ /* * RR_HISTOGRAM(_L) mask and shift definitions * There are two 64 bit histogram registers, so the following macros take * into account dealing with an array of 4 32 bit values indexed by _x */ #define RHIST_BUCKET_SHFT(_x) (32 * ((_x) & 0x1)) #define RHIST_BUCKET_MASK(_x) (UINT64_CAST 0xffffffff << RHIST_BUCKET_SHFT((_x) & 0x1)) #define RHIST_GET_BUCKET(_x, _reg) \ ((RHIST_BUCKET_MASK(_x) & ((_reg)[(_x) >> 1])) >> RHIST_BUCKET_SHFT(_x)) /* * RR_RESET_MASK(_L) mask and shift definitions */ #define RRM_RESETOK(_L) (UINT64_CAST 1 << ((_L) - 1)) #define RRM_RESETOK_ALL ALL_PORTS /* * RR_META_TABLE(_x) and RR_LOCAL_TABLE(_x) mask and shift definitions */ #define RTABLE_SHFT(_L) (4 * ((_L) - 1)) #define RTABLE_MASK(_L) (UINT64_CAST 0x7 << RTABLE_SHFT(_L)) #define ROUTERINFO_STKSZ 4096 #if defined(_LANGUAGE_C) || defined(_LANGUAGE_C_PLUS_PLUS) #if defined(_LANGUAGE_C_PLUS_PLUS) extern "C" { #endif int router_reg_read(router_info_t *rip, int regno, router_reg_t *val); int router_reg_write(router_info_t *rip, int regno, router_reg_t val); int router_get_info(devfs_handle_t routerv, router_info_t *, int); int router_init(cnodeid_t cnode,int writeid, nodepda_router_info_t *npda_rip); int router_set_leds(router_info_t *rip); void router_print_state(router_info_t *rip, int level, void (*pf)(int, char *, ...),int print_where); void capture_router_stats(router_info_t *rip); int probe_routers(void); void get_routername(unsigned char brd_type,char *rtrname); void router_guardians_set(devfs_handle_t hwgraph_root); int router_hist_reselect(router_info_t *, int64_t); #if defined(_LANGUAGE_C_PLUS_PLUS) } #endif #endif /* _LANGUAGE_C || _LANGUAGE_C_PLUS_PLUS */ #endif /* _ASM_SN_SN1_ROUTER_H */