xref: /openbmc/qemu/target/s390x/kvm/stsi-topology.c (revision 2b74dd91)
1 /* SPDX-License-Identifier: GPL-2.0-or-later */
2 /*
3  * QEMU S390x CPU Topology
4  *
5  * Copyright IBM Corp. 2022, 2023
6  * Author(s): Pierre Morel <pmorel@linux.ibm.com>
7  *
8  */
9 #include "qemu/osdep.h"
10 #include "cpu.h"
11 #include "hw/s390x/sclp.h"
12 #include "hw/s390x/cpu-topology.h"
13 
14 QEMU_BUILD_BUG_ON(S390_CPU_ENTITLEMENT_LOW != 1);
15 QEMU_BUILD_BUG_ON(S390_CPU_ENTITLEMENT_MEDIUM != 2);
16 QEMU_BUILD_BUG_ON(S390_CPU_ENTITLEMENT_HIGH != 3);
17 
18 /**
19  * fill_container:
20  * @p: The address of the container TLE to fill
21  * @level: The level of nesting for this container
22  * @id: The container receives a unique ID inside its own container
23  *
24  * Returns the next free TLE entry.
25  */
26 static char *fill_container(char *p, int level, int id)
27 {
28     SYSIBContainerListEntry *tle = (SYSIBContainerListEntry *)p;
29 
30     tle->nl = level;
31     tle->id = id;
32     return p + sizeof(*tle);
33 }
34 
35 /**
36  * fill_tle_cpu:
37  * @p: The address of the CPU TLE to fill
38  * @entry: a pointer to the S390TopologyEntry defining this
39  *         CPU container.
40  *
41  * Returns the next free TLE entry.
42  */
43 static char *fill_tle_cpu(char *p, S390TopologyEntry *entry)
44 {
45     SysIBCPUListEntry *tle = (SysIBCPUListEntry *)p;
46     S390TopologyId topology_id = entry->id;
47 
48     tle->nl = 0;
49     tle->flags = 0;
50     if (topology_id.vertical) {
51         tle->flags |= topology_id.entitlement;
52     }
53     if (topology_id.dedicated) {
54         tle->flags |= SYSIB_TLE_DEDICATED;
55     }
56     tle->type = topology_id.type;
57     tle->origin = cpu_to_be16(topology_id.origin * 64);
58     tle->mask = cpu_to_be64(entry->mask);
59     return p + sizeof(*tle);
60 }
61 
62 /*
63  * Macro to check that the size of data after increment
64  * will not get bigger than the size of the SysIB.
65  */
66 #define SYSIB_GUARD(data, x) do {       \
67         data += x;                      \
68         if (data > sizeof(SysIB)) {     \
69             return 0;                   \
70         }                               \
71     } while (0)
72 
73 /**
74  * stsi_topology_fill_sysib:
75  * @p: A pointer to the position of the first TLE
76  * @level: The nested level wanted by the guest
77  *
78  * Fill the SYSIB with the topology information as described in
79  * the PoP, nesting containers as appropriate, with the maximum
80  * nesting limited by @level.
81  *
82  * Return value:
83  * On success: the size of the SysIB_15x after being filled with TLE.
84  * On error: 0 in the case we would overrun the end of the SysIB.
85  */
86 static int stsi_topology_fill_sysib(S390TopologyList *topology_list,
87                                     char *p, int level)
88 {
89     S390TopologyEntry *entry;
90     int last_drawer = -1;
91     int last_book = -1;
92     int last_socket = -1;
93     int drawer_id = 0;
94     int book_id = 0;
95     int socket_id = 0;
96     int n = sizeof(SysIB_151x);
97 
98     QTAILQ_FOREACH(entry, topology_list, next) {
99         bool drawer_change = last_drawer != entry->id.drawer;
100         bool book_change = drawer_change || last_book != entry->id.book;
101         bool socket_change = book_change || last_socket != entry->id.socket;
102 
103         if (level > 3 && drawer_change) {
104             SYSIB_GUARD(n, sizeof(SYSIBContainerListEntry));
105             p = fill_container(p, 3, drawer_id++);
106             book_id = 0;
107         }
108         if (level > 2 && book_change) {
109             SYSIB_GUARD(n, sizeof(SYSIBContainerListEntry));
110             p = fill_container(p, 2, book_id++);
111             socket_id = 0;
112         }
113         if (socket_change) {
114             SYSIB_GUARD(n, sizeof(SYSIBContainerListEntry));
115             p = fill_container(p, 1, socket_id++);
116         }
117 
118         SYSIB_GUARD(n, sizeof(SysIBCPUListEntry));
119         p = fill_tle_cpu(p, entry);
120         last_drawer = entry->id.drawer;
121         last_book = entry->id.book;
122         last_socket = entry->id.socket;
123     }
124 
125     return n;
126 }
127 
128 /**
129  * setup_stsi:
130  * @topology_list: ordered list of groups of CPUs with same properties
131  * @sysib: pointer to a SysIB to be filled with SysIB_151x data
132  * @level: Nested level specified by the guest
133  *
134  * Setup the SYSIB for STSI 15.1, the header as well as the description
135  * of the topology.
136  */
137 static int setup_stsi(S390TopologyList *topology_list, SysIB_151x *sysib,
138                       int level)
139 {
140     sysib->mnest = level;
141     switch (level) {
142     case 4:
143         sysib->mag[S390_TOPOLOGY_MAG4] = current_machine->smp.drawers;
144         sysib->mag[S390_TOPOLOGY_MAG3] = current_machine->smp.books;
145         sysib->mag[S390_TOPOLOGY_MAG2] = current_machine->smp.sockets;
146         sysib->mag[S390_TOPOLOGY_MAG1] = current_machine->smp.cores;
147         break;
148     case 3:
149         sysib->mag[S390_TOPOLOGY_MAG3] = current_machine->smp.drawers *
150                                          current_machine->smp.books;
151         sysib->mag[S390_TOPOLOGY_MAG2] = current_machine->smp.sockets;
152         sysib->mag[S390_TOPOLOGY_MAG1] = current_machine->smp.cores;
153         break;
154     case 2:
155         sysib->mag[S390_TOPOLOGY_MAG2] = current_machine->smp.drawers *
156                                          current_machine->smp.books *
157                                          current_machine->smp.sockets;
158         sysib->mag[S390_TOPOLOGY_MAG1] = current_machine->smp.cores;
159         break;
160     }
161 
162     return stsi_topology_fill_sysib(topology_list, sysib->tle, level);
163 }
164 
165 /**
166  * s390_topology_add_cpu_to_entry:
167  * @entry: Topology entry to setup
168  * @cpu: the S390CPU to add
169  *
170  * Set the core bit inside the topology mask.
171  */
172 static void s390_topology_add_cpu_to_entry(S390TopologyEntry *entry,
173                                            S390CPU *cpu)
174 {
175     set_bit(63 - (cpu->env.core_id % 64), &entry->mask);
176 }
177 
178 /**
179  * s390_topology_from_cpu:
180  * @cpu: S390CPU to calculate the topology id
181  *
182  * Initialize the topology id from the CPU environment.
183  */
184 static S390TopologyId s390_topology_from_cpu(S390CPU *cpu)
185 {
186     S390TopologyId topology_id = {
187         .drawer = cpu->env.drawer_id,
188         .book = cpu->env.book_id,
189         .socket = cpu->env.socket_id,
190         .type = S390_TOPOLOGY_CPU_IFL,
191         .vertical = s390_topology.polarization == S390_CPU_POLARIZATION_VERTICAL,
192         .entitlement = cpu->env.entitlement,
193         .dedicated = cpu->env.dedicated,
194         .origin = cpu->env.core_id / 64,
195     };
196 
197     return topology_id;
198 }
199 
200 /**
201  * s390_topology_id_cmp:
202  * @l: first S390TopologyId
203  * @r: second S390TopologyId
204  *
205  * Compare two topology ids according to the sorting order specified by the PoP.
206  *
207  * Returns a negative number if the first id is less than, 0 if it is equal to
208  *     and positive if it is larger than the second id.
209  */
210 static int s390_topology_id_cmp(const S390TopologyId *l,
211                                 const S390TopologyId *r)
212 {
213     int l_polarization = l->vertical ? l->entitlement : 0;
214     int r_polarization = r->vertical ? r->entitlement : 0;
215 
216     /*
217      * lexical order, compare less significant values only if more significant
218      * ones are equal
219      */
220     return l->sentinel - r->sentinel ?:
221            l->drawer - r->drawer ?:
222            l->book - r->book ?:
223            l->socket - r->socket ?:
224            l->type - r->type ?:
225            /* logic is inverted for the next two */
226            r_polarization - l_polarization ?:
227            r->dedicated - l->dedicated ?:
228            l->origin - r->origin;
229 }
230 
231 static bool s390_topology_id_eq(const S390TopologyId *l,
232                                 const S390TopologyId *r)
233 {
234     return !s390_topology_id_cmp(l, r);
235 }
236 
237 static bool s390_topology_id_lt(const S390TopologyId *l,
238                                 const S390TopologyId *r)
239 {
240     return s390_topology_id_cmp(l, r) < 0;
241 }
242 
243 /**
244  * s390_topology_fill_list_sorted:
245  * @topology_list: list to fill
246  *
247  * Create S390TopologyEntrys as appropriate from all CPUs and fill the
248  * topology_list with the entries according to the order specified by the PoP.
249  */
250 static void s390_topology_fill_list_sorted(S390TopologyList *topology_list)
251 {
252     CPUState *cs;
253     S390TopologyEntry sentinel = { .id.sentinel = 1 };
254 
255     QTAILQ_INIT(topology_list);
256 
257     QTAILQ_INSERT_HEAD(topology_list, &sentinel, next);
258 
259     CPU_FOREACH(cs) {
260         S390TopologyId id = s390_topology_from_cpu(S390_CPU(cs));
261         S390TopologyEntry *entry = NULL, *tmp;
262 
263         QTAILQ_FOREACH(tmp, topology_list, next) {
264             if (s390_topology_id_eq(&id, &tmp->id)) {
265                 entry = tmp;
266                 break;
267             } else if (s390_topology_id_lt(&id, &tmp->id)) {
268                 entry = g_malloc0(sizeof(*entry));
269                 entry->id = id;
270                 QTAILQ_INSERT_BEFORE(tmp, entry, next);
271                 break;
272             }
273         }
274         assert(entry);
275         s390_topology_add_cpu_to_entry(entry, S390_CPU(cs));
276     }
277 
278     QTAILQ_REMOVE(topology_list, &sentinel, next);
279 }
280 
281 /**
282  * s390_topology_empty_list:
283  *
284  * Clear all entries in the S390Topology list.
285  */
286 static void s390_topology_empty_list(S390TopologyList *topology_list)
287 {
288     S390TopologyEntry *entry = NULL;
289     S390TopologyEntry *tmp = NULL;
290 
291     QTAILQ_FOREACH_SAFE(entry, topology_list, next, tmp) {
292         QTAILQ_REMOVE(topology_list, entry, next);
293         g_free(entry);
294     }
295 }
296 
297 /**
298  * insert_stsi_15_1_x:
299  * @cpu: the CPU doing the call for which we set CC
300  * @sel2: the selector 2, containing the nested level
301  * @addr: Guest logical address of the guest SysIB
302  * @ar: the access register number
303  * @ra: the return address
304  *
305  * Emulate STSI 15.1.x, that is, perform all necessary checks and
306  * fill the SYSIB.
307  * In case the topology description is too long to fit into the SYSIB,
308  * set CC=3 and abort without writing the SYSIB.
309  */
310 void insert_stsi_15_1_x(S390CPU *cpu, int sel2, uint64_t addr, uint8_t ar, uintptr_t ra)
311 {
312     S390TopologyList topology_list;
313     SysIB sysib = {0};
314     int length;
315 
316     if (!s390_has_topology() || sel2 < 2 || sel2 > SCLP_READ_SCP_INFO_MNEST) {
317         setcc(cpu, 3);
318         return;
319     }
320 
321     s390_topology_fill_list_sorted(&topology_list);
322     length = setup_stsi(&topology_list, &sysib.sysib_151x, sel2);
323     s390_topology_empty_list(&topology_list);
324 
325     if (!length) {
326         setcc(cpu, 3);
327         return;
328     }
329 
330     sysib.sysib_151x.length = cpu_to_be16(length);
331     if (!s390_cpu_virt_mem_write(cpu, addr, ar, &sysib, length)) {
332         setcc(cpu, 0);
333     } else {
334         s390_cpu_virt_mem_handle_exc(cpu, ra);
335     }
336 }
337