/* Copyright 2013-2014 IBM Corp. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or * implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include #include "spira.h" #include #include #include #include #include #include #include "hdata.h" #define PACA_MAX_THREADS 4 static unsigned int paca_index(const struct HDIF_common_hdr *paca) { void *start = get_hdif(&spira.ntuples.paca, PACA_HDIF_SIG); return ((void *)paca - start) / be32_to_cpu(spira.ntuples.paca.alloc_len); } static struct dt_node *add_cpu_node(struct dt_node *cpus, const struct HDIF_common_hdr *paca, const struct sppaca_cpu_id *id, bool okay) { const struct sppaca_cpu_timebase *timebase; const struct sppaca_cpu_cache *cache; const struct sppaca_cpu_attr *attr; struct dt_node *cpu; u32 no, size, ve_flags, l2_phandle, chip_id; /* We use the process_interrupt_line as the res id */ no = be32_to_cpu(id->process_interrupt_line); ve_flags = be32_to_cpu(id->verify_exists_flags); printf("CPU[%i]: PIR=%i RES=%i %s %s(%u threads)\n", paca_index(paca), be32_to_cpu(id->pir), no, ve_flags & CPU_ID_PACA_RESERVED ? "**RESERVED**" : cpu_state(ve_flags), ve_flags & CPU_ID_SECONDARY_THREAD ? "[secondary] " : (be32_to_cpu(id->pir) == boot_cpu->pir ? "[boot] " : ""), ((ve_flags & CPU_ID_NUM_SECONDARY_THREAD_MASK) >> CPU_ID_NUM_SECONDARY_THREAD_SHIFT) + 1); timebase = HDIF_get_idata(paca, SPPACA_IDATA_TIMEBASE, &size); if (!timebase || size < sizeof(*timebase)) { prerror("CPU[%i]: bad timebase size %u @ %p\n", paca_index(paca), size, timebase); return NULL; } cache = HDIF_get_idata(paca, SPPACA_IDATA_CACHE_SIZE, &size); if (!cache || size < sizeof(*cache)) { prerror("CPU[%i]: bad cache size %u @ %p\n", paca_index(paca), size, cache); return NULL; } cpu = add_core_common(cpus, cache, timebase, no, okay); /* Core attributes */ attr = HDIF_get_idata(paca, SPPACA_IDATA_CPU_ATTR, &size); if (attr) add_core_attr(cpu, be32_to_cpu(attr->attr)); /* Add cache info */ l2_phandle = add_core_cache_info(cpus, cache, no, okay); dt_add_property_cells(cpu, "l2-cache", l2_phandle); /* We append the secondary cpus in __cpu_parse */ dt_add_property_cells(cpu, "ibm,ppc-interrupt-server#s", no); dt_add_property_cells(cpu, DT_PRIVATE "hw_proc_id", be32_to_cpu(id->hardware_proc_id)); dt_add_property_cells(cpu, "ibm,pir", be32_to_cpu(id->pir)); chip_id = pcid_to_chip_id(be32_to_cpu(id->processor_chip_id)); dt_add_property_cells(cpu, "ibm,chip-id", chip_id); return cpu; } static struct dt_node *find_cpu_by_hardware_proc_id(struct dt_node *root, u32 hw_proc_id) { struct dt_node *i; dt_for_each_node(root, i) { const struct dt_property *prop; if (!dt_has_node_property(i, "device_type", "cpu")) continue; prop = dt_find_property(i, DT_PRIVATE "hw_proc_id"); if (!prop) return NULL; if (be32_to_cpu(*(be32 *)prop->prop) == hw_proc_id) return i; } return NULL; } /* Note that numbers are small. */ static void add_be32_sorted(__be32 arr[], __be32 new, unsigned num) { unsigned int i; /* Walk until we find where we belong (insertion sort). */ for (i = 0; i < num; i++) { if (be32_to_cpu(new) < be32_to_cpu(arr[i])) { __be32 tmp = arr[i]; arr[i] = new; new = tmp; } } arr[i] = new; } static void add_xics_icps(void) { struct dt_node *cpu; unsigned int i; u64 reg[PACA_MAX_THREADS * 2]; struct dt_node *icp; dt_for_each_node(dt_root, cpu) { u32 irange[2], size, pir; const struct dt_property *intsrv; const struct HDIF_common_hdr *paca; u64 ibase; unsigned int num_threads; bool found = false; if (!dt_has_node_property(cpu, "device_type", "cpu")) continue; intsrv = dt_find_property(cpu, "ibm,ppc-interrupt-server#s"); pir = dt_prop_get_u32(cpu, "ibm,pir"); /* Get ibase address */ paca = get_hdif(&spira.ntuples.paca, PACA_HDIF_SIG); for_each_paca(paca) { const struct sppaca_cpu_id *id; id = HDIF_get_idata(paca, SPPACA_IDATA_CPU_ID, &size); if (!CHECK_SPPTR(id)) continue; if (pir != be32_to_cpu(id->pir)) continue; ibase = cleanup_addr(be64_to_cpu(id->ibase)); found = true; break; } if (!found) return; num_threads = intsrv->len / sizeof(u32); assert(num_threads <= PACA_MAX_THREADS); icp = dt_new_addr(dt_root, "interrupt-controller", ibase); if (!icp) continue; dt_add_property_strings(icp, "compatible", "IBM,ppc-xicp", "IBM,power7-xicp"); irange[0] = dt_property_get_cell(intsrv, 0); /* Index */ irange[1] = num_threads; /* num servers */ dt_add_property(icp, "ibm,interrupt-server-ranges", irange, sizeof(irange)); dt_add_property(icp, "interrupt-controller", NULL, 0); dt_add_property_cells(icp, "#address-cells", 0); dt_add_property_string(icp, "device_type", "PowerPC-External-Interrupt-Presentation"); for (i = 0; i < num_threads*2; i += 2) { reg[i] = ibase; /* One page is enough for a handful of regs. */ reg[i+1] = 4096; ibase += reg[i+1]; } dt_add_property(icp, "reg", reg, sizeof(reg)); } } static bool __paca_parse(void) { const struct HDIF_common_hdr *paca; struct dt_node *cpus; paca = get_hdif(&spira.ntuples.paca, PACA_HDIF_SIG); if (!paca) { prerror("Invalid PACA (PCIA = %p)\n", ntuple_addr(&spira.ntuples.pcia)); return false; } if (be32_to_cpu(spira.ntuples.paca.act_len) < sizeof(*paca)) { prerror("PACA: invalid size %u\n", be32_to_cpu(spira.ntuples.paca.act_len)); return false; } cpus = dt_new(dt_root, "cpus"); dt_add_property_cells(cpus, "#address-cells", 1); dt_add_property_cells(cpus, "#size-cells", 0); for_each_paca(paca) { const struct sppaca_cpu_id *id; u32 size, ve_flags; bool okay; id = HDIF_get_idata(paca, SPPACA_IDATA_CPU_ID, &size); /* The ID structure on Blade314 is only 0x54 long. We can * cope with it as we don't use all the additional fields. * The minimum size we support is 0x40 */ if (!id || size < SPIRA_CPU_ID_MIN_SIZE) { prerror("CPU[%i]: bad id size %u @ %p\n", paca_index(paca), size, id); return false; } ve_flags = be32_to_cpu(id->verify_exists_flags); switch ((ve_flags&CPU_ID_VERIFY_MASK) >> CPU_ID_VERIFY_SHIFT) { case CPU_ID_VERIFY_USABLE_NO_FAILURES: case CPU_ID_VERIFY_USABLE_FAILURES: okay = true; break; default: okay = false; } printf("CPU[%i]: PIR=%i RES=%i %s\n", paca_index(paca), be32_to_cpu(id->pir), be32_to_cpu(id->process_interrupt_line), okay ? "OK" : "UNAVAILABLE"); /* Secondary threads don't get their own node. */ if (ve_flags & CPU_ID_SECONDARY_THREAD) continue; if (!add_cpu_node(cpus, paca, id, okay)) return false; } /* Now account for secondaries. */ for_each_paca(paca) { const struct dt_property *prop; const struct sppaca_cpu_id *id; u32 size, state, num, ve_flags; struct dt_node *cpu; __be32 *new_prop; id = HDIF_get_idata(paca, 2, &size); if (!CHECK_SPPTR(id)) continue; ve_flags = be32_to_cpu(id->verify_exists_flags); state = (ve_flags & CPU_ID_VERIFY_MASK) >> CPU_ID_VERIFY_SHIFT; switch (state) { case CPU_ID_VERIFY_USABLE_NO_FAILURES: case CPU_ID_VERIFY_USABLE_FAILURES: break; default: continue; } /* Only interested in secondary threads. */ if (!(ve_flags & CPU_ID_SECONDARY_THREAD)) continue; cpu = find_cpu_by_hardware_proc_id(cpus, be32_to_cpu(id->hardware_proc_id)); if (!cpu) { prerror("CPU[%i]: could not find primary hwid %i\n", paca_index(paca), be32_to_cpu(id->hardware_proc_id)); return false; } /* Add the cpu #. */ prop = dt_find_property(cpu, "ibm,ppc-interrupt-server#s"); if (!prop) { prerror("CPU[%i]: could not find mapping information\n", paca_index(paca)); return false; } num = prop->len / sizeof(u32); new_prop = malloc((num + 1) * sizeof(u32)); if (!new_prop) { prerror("Property allocation length %zu failed\n", (num + 1) * sizeof(u32)); return false; } memcpy(new_prop, prop->prop, prop->len); add_be32_sorted(new_prop, id->process_interrupt_line, num); dt_del_property(cpu, (struct dt_property *)prop); dt_add_property(cpu, "ibm,ppc-interrupt-server#s", new_prop, (num + 1) * sizeof(__be32)); free(new_prop); } /* * P7 and P8 use the XICS interrupt controller which has a per-core * interrupt controller node. */ if (proc_gen <= proc_gen_p8) add_xics_icps(); return true; } int paca_parse(void) { if (!__paca_parse()) { prerror("CPU: Initial CPU parsing failed\n"); return -1; } return 0; }