/** * Return a human-readable name for a BHND core. * * @param ci The core's info record. */ const char * bhnd_core_name(const struct bhnd_core_info *ci) { return bhnd_find_core_name(ci->vendor, ci->device); }
/** * Parse the next core entry from the EROM table and produce a bcma_corecfg * to be owned by the caller. * * @param erom EROM read state. * @param[out] result On success, the core's device info. The caller inherits * ownership of this allocation. * * @return If successful, returns 0. If the end of the EROM table is hit, * ENOENT will be returned. On error, returns a non-zero error value. */ int bcma_erom_parse_corecfg(struct bcma_erom *erom, struct bcma_corecfg **result) { struct bcma_corecfg *cfg; struct bcma_erom_core core; uint8_t first_region_type; bus_size_t initial_offset; u_int core_index; int core_unit; int error; cfg = NULL; initial_offset = bcma_erom_tell(erom); /* Parse the next core entry */ if ((error = bcma_erom_parse_core(erom, &core))) return (error); /* Determine the core's index and unit numbers */ bcma_erom_reset(erom); core_unit = 0; core_index = 0; for (; bcma_erom_tell(erom) != initial_offset; core_index++) { struct bcma_erom_core prev_core; /* Parse next core */ if ((error = erom_seek_next(erom, BCMA_EROM_ENTRY_TYPE_CORE))) return (error); if ((error = bcma_erom_parse_core(erom, &prev_core))) return (error); /* Is earlier unit? */ if (core.vendor == prev_core.vendor && core.device == prev_core.device) { core_unit++; } /* Seek to next core */ if ((error = erom_seek_next(erom, BCMA_EROM_ENTRY_TYPE_CORE))) return (error); } /* We already parsed the core descriptor */ if ((error = erom_skip_core(erom))) return (error); /* Allocate our corecfg */ cfg = bcma_alloc_corecfg(core_index, core_unit, core.vendor, core.device, core.rev); if (cfg == NULL) return (ENOMEM); /* These are 5-bit values in the EROM table, and should never be able * to overflow BCMA_PID_MAX. */ KASSERT(core.num_mport <= BCMA_PID_MAX, ("unsupported mport count")); KASSERT(core.num_dport <= BCMA_PID_MAX, ("unsupported dport count")); KASSERT(core.num_mwrap + core.num_swrap <= BCMA_PID_MAX, ("unsupported wport count")); if (bootverbose) { EROM_LOG(erom, "core%u: %s %s (cid=%hx, rev=%hu, unit=%d)\n", core_index, bhnd_vendor_name(core.vendor), bhnd_find_core_name(core.vendor, core.device), core.device, core.rev, core_unit); } cfg->num_master_ports = core.num_mport; cfg->num_dev_ports = 0; /* determined below */ cfg->num_bridge_ports = 0; /* determined blow */ cfg->num_wrapper_ports = core.num_mwrap + core.num_swrap; /* Parse Master Port Descriptors */ for (uint8_t i = 0; i < core.num_mport; i++) { struct bcma_mport *mport; struct bcma_erom_mport mpd; /* Parse the master port descriptor */ error = bcma_erom_parse_mport(erom, &mpd); if (error) goto failed; /* Initialize a new bus mport structure */ mport = malloc(sizeof(struct bcma_mport), M_BHND, M_NOWAIT); if (mport == NULL) { error = ENOMEM; goto failed; } mport->mp_vid = mpd.port_vid; mport->mp_num = mpd.port_num; /* Update dinfo */ STAILQ_INSERT_TAIL(&cfg->master_ports, mport, mp_link); } /* * Determine whether this is a bridge device; if so, we can * expect the first sequence of address region descriptors to * be of EROM_REGION_TYPE_BRIDGE instead of * BCMA_EROM_REGION_TYPE_DEVICE. * * It's unclear whether this is the correct mechanism by which we * should detect/handle bridge devices, but this approach matches * that of (some of) Broadcom's published drivers. */ if (core.num_dport > 0) { uint32_t entry; if ((error = bcma_erom_peek32(erom, &entry))) goto failed; if (BCMA_EROM_ENTRY_IS(entry, REGION) && BCMA_EROM_GET_ATTR(entry, REGION_TYPE) == BCMA_EROM_REGION_TYPE_BRIDGE) { first_region_type = BCMA_EROM_REGION_TYPE_BRIDGE; cfg->num_dev_ports = 0; cfg->num_bridge_ports = core.num_dport; } else { first_region_type = BCMA_EROM_REGION_TYPE_DEVICE; cfg->num_dev_ports = core.num_dport; cfg->num_bridge_ports = 0; } } /* Device/bridge port descriptors */ for (uint8_t sp_num = 0; sp_num < core.num_dport; sp_num++) { error = erom_corecfg_fill_port_regions(erom, cfg, sp_num, first_region_type); if (error) goto failed; } /* Wrapper (aka device management) descriptors (for master ports). */ for (uint8_t sp_num = 0; sp_num < core.num_mwrap; sp_num++) { error = erom_corecfg_fill_port_regions(erom, cfg, sp_num, BCMA_EROM_REGION_TYPE_MWRAP); if (error) goto failed; } /* Wrapper (aka device management) descriptors (for slave ports). */ for (uint8_t i = 0; i < core.num_swrap; i++) { /* Slave wrapper ports are not numbered distinctly from master * wrapper ports. */ /* * Broadcom DDR1/DDR2 Memory Controller * (cid=82e, rev=1, unit=0, d/mw/sw = 2/0/1 ) -> * bhnd0: erom[0xdc]: core6 agent0.0: mismatch got: 0x1 (0x2) * * ARM BP135 AMBA3 AXI to APB Bridge * (cid=135, rev=0, unit=0, d/mw/sw = 1/0/1 ) -> * bhnd0: erom[0x124]: core9 agent1.0: mismatch got: 0x0 (0x2) * * core.num_mwrap * ===> * (core.num_mwrap > 0) ? * core.num_mwrap : * ((core.vendor == BHND_MFGID_BCM) ? 1 : 0) */ uint8_t sp_num; sp_num = (core.num_mwrap > 0) ? core.num_mwrap : ((core.vendor == BHND_MFGID_BCM) ? 1 : 0) + i; error = erom_corecfg_fill_port_regions(erom, cfg, sp_num, BCMA_EROM_REGION_TYPE_SWRAP); if (error) goto failed; } *result = cfg; return (0); failed: if (cfg != NULL) bcma_free_corecfg(cfg); return error; }