xref: /openbmc/qemu/hw/nvme/subsys.c (revision 53c7c924)
1 /*
2  * QEMU NVM Express Subsystem: nvme-subsys
3  *
4  * Copyright (c) 2021 Minwoo Im <minwoo.im.dev@gmail.com>
5  *
6  * This code is licensed under the GNU GPL v2.  Refer COPYING.
7  */
8 
9 #include "qemu/osdep.h"
10 #include "qemu/units.h"
11 #include "qapi/error.h"
12 
13 #include "nvme.h"
14 
15 #define NVME_DEFAULT_RU_SIZE (96 * MiB)
16 
17 static int nvme_subsys_reserve_cntlids(NvmeCtrl *n, int start, int num)
18 {
19     NvmeSubsystem *subsys = n->subsys;
20     NvmeSecCtrlList *list = &n->sec_ctrl_list;
21     NvmeSecCtrlEntry *sctrl;
22     int i, cnt = 0;
23 
24     for (i = start; i < ARRAY_SIZE(subsys->ctrls) && cnt < num; i++) {
25         if (!subsys->ctrls[i]) {
26             sctrl = &list->sec[cnt];
27             sctrl->scid = cpu_to_le16(i);
28             subsys->ctrls[i] = SUBSYS_SLOT_RSVD;
29             cnt++;
30         }
31     }
32 
33     return cnt;
34 }
35 
36 static void nvme_subsys_unreserve_cntlids(NvmeCtrl *n)
37 {
38     NvmeSubsystem *subsys = n->subsys;
39     NvmeSecCtrlList *list = &n->sec_ctrl_list;
40     NvmeSecCtrlEntry *sctrl;
41     int i, cntlid;
42 
43     for (i = 0; i < n->params.sriov_max_vfs; i++) {
44         sctrl = &list->sec[i];
45         cntlid = le16_to_cpu(sctrl->scid);
46 
47         if (cntlid) {
48             assert(subsys->ctrls[cntlid] == SUBSYS_SLOT_RSVD);
49             subsys->ctrls[cntlid] = NULL;
50             sctrl->scid = 0;
51         }
52     }
53 }
54 
55 int nvme_subsys_register_ctrl(NvmeCtrl *n, Error **errp)
56 {
57     NvmeSubsystem *subsys = n->subsys;
58     NvmeSecCtrlEntry *sctrl = nvme_sctrl(n);
59     int cntlid, nsid, num_rsvd, num_vfs = n->params.sriov_max_vfs;
60 
61     if (pci_is_vf(&n->parent_obj)) {
62         cntlid = le16_to_cpu(sctrl->scid);
63     } else {
64         for (cntlid = 0; cntlid < ARRAY_SIZE(subsys->ctrls); cntlid++) {
65             if (!subsys->ctrls[cntlid]) {
66                 break;
67             }
68         }
69 
70         if (cntlid == ARRAY_SIZE(subsys->ctrls)) {
71             error_setg(errp, "no more free controller id");
72             return -1;
73         }
74 
75         num_rsvd = nvme_subsys_reserve_cntlids(n, cntlid + 1, num_vfs);
76         if (num_rsvd != num_vfs) {
77             nvme_subsys_unreserve_cntlids(n);
78             error_setg(errp,
79                        "no more free controller ids for secondary controllers");
80             return -1;
81         }
82     }
83 
84     if (!subsys->serial) {
85         subsys->serial = g_strdup(n->params.serial);
86     } else if (strcmp(subsys->serial, n->params.serial)) {
87         error_setg(errp, "invalid controller serial");
88         return -1;
89     }
90 
91     subsys->ctrls[cntlid] = n;
92 
93     for (nsid = 1; nsid < ARRAY_SIZE(subsys->namespaces); nsid++) {
94         NvmeNamespace *ns = subsys->namespaces[nsid];
95         if (ns && ns->params.shared && !ns->params.detached) {
96             nvme_attach_ns(n, ns);
97         }
98     }
99 
100     return cntlid;
101 }
102 
103 void nvme_subsys_unregister_ctrl(NvmeSubsystem *subsys, NvmeCtrl *n)
104 {
105     if (pci_is_vf(&n->parent_obj)) {
106         subsys->ctrls[n->cntlid] = SUBSYS_SLOT_RSVD;
107     } else {
108         subsys->ctrls[n->cntlid] = NULL;
109         nvme_subsys_unreserve_cntlids(n);
110     }
111 
112     n->cntlid = -1;
113 }
114 
115 static bool nvme_calc_rgif(uint16_t nruh, uint16_t nrg, uint8_t *rgif)
116 {
117     uint16_t val;
118     unsigned int i;
119 
120     if (unlikely(nrg == 1)) {
121         /* PIDRG_NORGI scenario, all of pid is used for PHID */
122         *rgif = 0;
123         return true;
124     }
125 
126     val = nrg;
127     i = 0;
128     while (val) {
129         val >>= 1;
130         i++;
131     }
132     *rgif = i;
133 
134     /* ensure remaining bits suffice to represent number of phids in a RG */
135     if (unlikely((UINT16_MAX >> i) < nruh)) {
136         *rgif = 0;
137         return false;
138     }
139 
140     return true;
141 }
142 
143 static bool nvme_subsys_setup_fdp(NvmeSubsystem *subsys, Error **errp)
144 {
145     NvmeEnduranceGroup *endgrp = &subsys->endgrp;
146 
147     if (!subsys->params.fdp.runs) {
148         error_setg(errp, "fdp.runs must be non-zero");
149         return false;
150     }
151 
152     endgrp->fdp.runs = subsys->params.fdp.runs;
153 
154     if (!subsys->params.fdp.nrg) {
155         error_setg(errp, "fdp.nrg must be non-zero");
156         return false;
157     }
158 
159     endgrp->fdp.nrg = subsys->params.fdp.nrg;
160 
161     if (!subsys->params.fdp.nruh ||
162         subsys->params.fdp.nruh > NVME_FDP_MAXPIDS) {
163         error_setg(errp, "fdp.nruh must be non-zero and less than %u",
164                    NVME_FDP_MAXPIDS);
165         return false;
166     }
167 
168     endgrp->fdp.nruh = subsys->params.fdp.nruh;
169 
170     if (!nvme_calc_rgif(endgrp->fdp.nruh, endgrp->fdp.nrg, &endgrp->fdp.rgif)) {
171         error_setg(errp,
172                    "cannot derive a valid rgif (nruh %"PRIu16" nrg %"PRIu32")",
173                    endgrp->fdp.nruh, endgrp->fdp.nrg);
174         return false;
175     }
176 
177     endgrp->fdp.ruhs = g_new(NvmeRuHandle, endgrp->fdp.nruh);
178 
179     for (uint16_t ruhid = 0; ruhid < endgrp->fdp.nruh; ruhid++) {
180         endgrp->fdp.ruhs[ruhid] = (NvmeRuHandle) {
181             .ruht = NVME_RUHT_INITIALLY_ISOLATED,
182             .ruha = NVME_RUHA_UNUSED,
183         };
184 
185         endgrp->fdp.ruhs[ruhid].rus = g_new(NvmeReclaimUnit, endgrp->fdp.nrg);
186     }
187 
188     endgrp->fdp.enabled = true;
189 
190     return true;
191 }
192 
193 static bool nvme_subsys_setup(NvmeSubsystem *subsys, Error **errp)
194 {
195     const char *nqn = subsys->params.nqn ?
196         subsys->params.nqn : subsys->parent_obj.id;
197 
198     snprintf((char *)subsys->subnqn, sizeof(subsys->subnqn),
199              "nqn.2019-08.org.qemu:%s", nqn);
200 
201     if (subsys->params.fdp.enabled && !nvme_subsys_setup_fdp(subsys, errp)) {
202         return false;
203     }
204 
205     return true;
206 }
207 
208 static void nvme_subsys_realize(DeviceState *dev, Error **errp)
209 {
210     NvmeSubsystem *subsys = NVME_SUBSYS(dev);
211 
212     qbus_init(&subsys->bus, sizeof(NvmeBus), TYPE_NVME_BUS, dev, dev->id);
213 
214     nvme_subsys_setup(subsys, errp);
215 }
216 
217 static Property nvme_subsystem_props[] = {
218     DEFINE_PROP_STRING("nqn", NvmeSubsystem, params.nqn),
219     DEFINE_PROP_BOOL("fdp", NvmeSubsystem, params.fdp.enabled, false),
220     DEFINE_PROP_SIZE("fdp.runs", NvmeSubsystem, params.fdp.runs,
221                      NVME_DEFAULT_RU_SIZE),
222     DEFINE_PROP_UINT32("fdp.nrg", NvmeSubsystem, params.fdp.nrg, 1),
223     DEFINE_PROP_UINT16("fdp.nruh", NvmeSubsystem, params.fdp.nruh, 0),
224     DEFINE_PROP_END_OF_LIST(),
225 };
226 
227 static void nvme_subsys_class_init(ObjectClass *oc, void *data)
228 {
229     DeviceClass *dc = DEVICE_CLASS(oc);
230 
231     set_bit(DEVICE_CATEGORY_STORAGE, dc->categories);
232 
233     dc->realize = nvme_subsys_realize;
234     dc->desc = "Virtual NVMe subsystem";
235     dc->hotpluggable = false;
236 
237     device_class_set_props(dc, nvme_subsystem_props);
238 }
239 
240 static const TypeInfo nvme_subsys_info = {
241     .name = TYPE_NVME_SUBSYS,
242     .parent = TYPE_DEVICE,
243     .class_init = nvme_subsys_class_init,
244     .instance_size = sizeof(NvmeSubsystem),
245 };
246 
247 static void nvme_subsys_register_types(void)
248 {
249     type_register_static(&nvme_subsys_info);
250 }
251 
252 type_init(nvme_subsys_register_types)
253