1e4b86885SCheng Sean Ye /*
2e4b86885SCheng Sean Ye * CDDL HEADER START
3e4b86885SCheng Sean Ye *
4e4b86885SCheng Sean Ye * The contents of this file are subject to the terms of the
5e4b86885SCheng Sean Ye * Common Development and Distribution License (the "License").
6e4b86885SCheng Sean Ye * You may not use this file except in compliance with the License.
7e4b86885SCheng Sean Ye *
8e4b86885SCheng Sean Ye * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9e4b86885SCheng Sean Ye * or http://www.opensolaris.org/os/licensing.
10e4b86885SCheng Sean Ye * See the License for the specific language governing permissions
11e4b86885SCheng Sean Ye * and limitations under the License.
12e4b86885SCheng Sean Ye *
13e4b86885SCheng Sean Ye * When distributing Covered Code, include this CDDL HEADER in each
14e4b86885SCheng Sean Ye * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15e4b86885SCheng Sean Ye * If applicable, add the following below this CDDL HEADER, with the
16e4b86885SCheng Sean Ye * fields enclosed by brackets "[]" replaced with your own identifying
17e4b86885SCheng Sean Ye * information: Portions Copyright [yyyy] [name of copyright owner]
18e4b86885SCheng Sean Ye *
19e4b86885SCheng Sean Ye * CDDL HEADER END
20e4b86885SCheng Sean Ye */
21e4b86885SCheng Sean Ye
22e4b86885SCheng Sean Ye /*
23f32a9dd1SSrihari Venkatesan * Copyright (c) 2008, 2010, Oracle and/or its affiliates. All rights reserved.
24e4b86885SCheng Sean Ye */
25e4b86885SCheng Sean Ye
26e4b86885SCheng Sean Ye #include <sys/conf.h>
27e4b86885SCheng Sean Ye #include <sys/ddi.h>
28e4b86885SCheng Sean Ye #include <sys/ddifm.h>
29e4b86885SCheng Sean Ye #include <sys/sunddi.h>
30e4b86885SCheng Sean Ye #include <sys/sunndi.h>
31e4b86885SCheng Sean Ye #include <sys/stat.h>
32e4b86885SCheng Sean Ye #include <sys/modctl.h>
33e4b86885SCheng Sean Ye #include <sys/types.h>
34e4b86885SCheng Sean Ye #include <sys/cpuvar.h>
35e4b86885SCheng Sean Ye #include <sys/cmn_err.h>
36e4b86885SCheng Sean Ye #include <sys/kmem.h>
37e4b86885SCheng Sean Ye #include <sys/cred.h>
38e4b86885SCheng Sean Ye #include <sys/ksynch.h>
39e4b86885SCheng Sean Ye #include <sys/rwlock.h>
40e4b86885SCheng Sean Ye #include <sys/pghw.h>
41e4b86885SCheng Sean Ye #include <sys/open.h>
42e4b86885SCheng Sean Ye #include <sys/policy.h>
43e4b86885SCheng Sean Ye #include <sys/x86_archext.h>
44e4b86885SCheng Sean Ye #include <sys/cpu_module.h>
45e4b86885SCheng Sean Ye #include <qsort.h>
46e4b86885SCheng Sean Ye #include <sys/pci_cfgspace.h>
47e4b86885SCheng Sean Ye #include <sys/mc.h>
48e4b86885SCheng Sean Ye #include <sys/mc_amd.h>
49074bb90dSTom Pothier #include <sys/smbios.h>
50074bb90dSTom Pothier #include <sys/pci.h>
51e4b86885SCheng Sean Ye #include <mcamd.h>
52e4b86885SCheng Sean Ye #include <mcamd_dimmcfg.h>
53e4b86885SCheng Sean Ye #include <mcamd_pcicfg.h>
54e4b86885SCheng Sean Ye #include <mcamd_api.h>
55e4b86885SCheng Sean Ye #include <sys/fm/cpu/AMD.h>
56074bb90dSTom Pothier #include <sys/fm/smb/fmsmb.h>
57074bb90dSTom Pothier #include <sys/fm/protocol.h>
58074bb90dSTom Pothier #include <sys/fm/util.h>
59e4b86885SCheng Sean Ye
60e4b86885SCheng Sean Ye /*
61e4b86885SCheng Sean Ye * Set to prevent mc-amd from attaching.
62e4b86885SCheng Sean Ye */
63e4b86885SCheng Sean Ye int mc_no_attach = 0;
64e4b86885SCheng Sean Ye
65e4b86885SCheng Sean Ye /*
66e4b86885SCheng Sean Ye * Of the 754/939/940 packages, only socket 940 supports quadrank registered
67e4b86885SCheng Sean Ye * dimms. Unfortunately, no memory-controller register indicates the
68e4b86885SCheng Sean Ye * presence of quadrank dimm support or presence (i.e., in terms of number
69e4b86885SCheng Sean Ye * of slots per cpu, and chip-select lines per slot, The following may be set
70e4b86885SCheng Sean Ye * in /etc/system to indicate the presence of quadrank support on a motherboard.
71e4b86885SCheng Sean Ye *
72e4b86885SCheng Sean Ye * There is no need to set this for F(1207) and S1g1.
73e4b86885SCheng Sean Ye */
74e4b86885SCheng Sean Ye int mc_quadranksupport = 0;
75e4b86885SCheng Sean Ye
76e4b86885SCheng Sean Ye mc_t *mc_list, *mc_last;
77e4b86885SCheng Sean Ye krwlock_t mc_lock;
78e4b86885SCheng Sean Ye int mc_hold_attached = 1;
79e4b86885SCheng Sean Ye
80e4b86885SCheng Sean Ye #define MAX(m, n) ((m) >= (n) ? (m) : (n))
81e4b86885SCheng Sean Ye #define MIN(m, n) ((m) <= (n) ? (m) : (n))
82e4b86885SCheng Sean Ye
83e4b86885SCheng Sean Ye /*
84e4b86885SCheng Sean Ye * The following tuneable is used to determine the DRAM scrubbing rate.
85e4b86885SCheng Sean Ye * The values range from 0x00-0x16 as described in the BKDG. Zero
86e4b86885SCheng Sean Ye * disables DRAM scrubbing. Values above zero indicate rates in descending
87e4b86885SCheng Sean Ye * order.
88e4b86885SCheng Sean Ye *
89e4b86885SCheng Sean Ye * The default value below is used on several Sun systems. In the future
90e4b86885SCheng Sean Ye * this code should assign values dynamically based on memory sizing.
91e4b86885SCheng Sean Ye */
92e4b86885SCheng Sean Ye uint32_t mc_scrub_rate_dram = 0xd; /* 64B every 163.8 us; 1GB per 45 min */
93e4b86885SCheng Sean Ye
94e4b86885SCheng Sean Ye enum {
95e4b86885SCheng Sean Ye MC_SCRUB_BIOSDEFAULT, /* retain system default value */
96e4b86885SCheng Sean Ye MC_SCRUB_FIXED, /* assign mc_scrub_rate_* values */
97e4b86885SCheng Sean Ye MC_SCRUB_MAX /* assign max of system and tunables */
98e4b86885SCheng Sean Ye } mc_scrub_policy = MC_SCRUB_MAX;
99e4b86885SCheng Sean Ye
100e4b86885SCheng Sean Ye static void
mc_snapshot_destroy(mc_t * mc)101e4b86885SCheng Sean Ye mc_snapshot_destroy(mc_t *mc)
102e4b86885SCheng Sean Ye {
103e4b86885SCheng Sean Ye ASSERT(RW_LOCK_HELD(&mc_lock));
104e4b86885SCheng Sean Ye
105e4b86885SCheng Sean Ye if (mc->mc_snapshot == NULL)
106e4b86885SCheng Sean Ye return;
107e4b86885SCheng Sean Ye
108e4b86885SCheng Sean Ye kmem_free(mc->mc_snapshot, mc->mc_snapshotsz);
109e4b86885SCheng Sean Ye mc->mc_snapshot = NULL;
110e4b86885SCheng Sean Ye mc->mc_snapshotsz = 0;
111e4b86885SCheng Sean Ye mc->mc_snapshotgen++;
112e4b86885SCheng Sean Ye }
113e4b86885SCheng Sean Ye
114e4b86885SCheng Sean Ye static int
mc_snapshot_update(mc_t * mc)115e4b86885SCheng Sean Ye mc_snapshot_update(mc_t *mc)
116e4b86885SCheng Sean Ye {
117e4b86885SCheng Sean Ye ASSERT(RW_LOCK_HELD(&mc_lock));
118e4b86885SCheng Sean Ye
119e4b86885SCheng Sean Ye if (mc->mc_snapshot != NULL)
120e4b86885SCheng Sean Ye return (0);
121e4b86885SCheng Sean Ye
122e4b86885SCheng Sean Ye if (nvlist_pack(mc->mc_nvl, &mc->mc_snapshot, &mc->mc_snapshotsz,
123e4b86885SCheng Sean Ye NV_ENCODE_XDR, KM_SLEEP) != 0)
124e4b86885SCheng Sean Ye return (-1);
125e4b86885SCheng Sean Ye
126e4b86885SCheng Sean Ye return (0);
127e4b86885SCheng Sean Ye }
128e4b86885SCheng Sean Ye
129e4b86885SCheng Sean Ye static mc_t *
mc_lookup_by_chipid(int chipid)130e4b86885SCheng Sean Ye mc_lookup_by_chipid(int chipid)
131e4b86885SCheng Sean Ye {
132e4b86885SCheng Sean Ye mc_t *mc;
133e4b86885SCheng Sean Ye
134e4b86885SCheng Sean Ye ASSERT(RW_LOCK_HELD(&mc_lock));
135e4b86885SCheng Sean Ye
136e4b86885SCheng Sean Ye for (mc = mc_list; mc != NULL; mc = mc->mc_next) {
137e4b86885SCheng Sean Ye if (mc->mc_props.mcp_num == chipid)
138e4b86885SCheng Sean Ye return (mc);
139e4b86885SCheng Sean Ye }
140e4b86885SCheng Sean Ye
141e4b86885SCheng Sean Ye return (NULL);
142e4b86885SCheng Sean Ye }
143e4b86885SCheng Sean Ye
144e4b86885SCheng Sean Ye /*
145e4b86885SCheng Sean Ye * Read config register pairs into the two arrays provided on the given
146e4b86885SCheng Sean Ye * handle and at offsets as follows:
147e4b86885SCheng Sean Ye *
148e4b86885SCheng Sean Ye * Index Array r1 offset Array r2 offset
149e4b86885SCheng Sean Ye * 0 r1addr r2addr
150e4b86885SCheng Sean Ye * 1 r1addr + incr r2addr + incr
151e4b86885SCheng Sean Ye * 2 r1addr + 2 * incr r2addr + 2 * incr
152e4b86885SCheng Sean Ye * ...
153e4b86885SCheng Sean Ye * n - 1 r1addr + (n - 1) * incr r2addr + (n - 1) * incr
154e4b86885SCheng Sean Ye *
155e4b86885SCheng Sean Ye * The number of registers to read into the r1 array is r1n; the number
156e4b86885SCheng Sean Ye * for the r2 array is r2n.
157e4b86885SCheng Sean Ye */
158e4b86885SCheng Sean Ye static void
mc_prop_read_pair(mc_pcicfg_hdl_t cfghdl,uint32_t * r1,off_t r1addr,int r1n,uint32_t * r2,off_t r2addr,int r2n,off_t incr)159e4b86885SCheng Sean Ye mc_prop_read_pair(mc_pcicfg_hdl_t cfghdl, uint32_t *r1, off_t r1addr,
160e4b86885SCheng Sean Ye int r1n, uint32_t *r2, off_t r2addr, int r2n, off_t incr)
161e4b86885SCheng Sean Ye {
162e4b86885SCheng Sean Ye int i;
163e4b86885SCheng Sean Ye
164e4b86885SCheng Sean Ye for (i = 0; i < MAX(r1n, r2n); i++, r1addr += incr, r2addr += incr) {
165e4b86885SCheng Sean Ye if (i < r1n)
166e4b86885SCheng Sean Ye r1[i] = mc_pcicfg_get32(cfghdl, r1addr);
167e4b86885SCheng Sean Ye if (i < r2n)
168e4b86885SCheng Sean Ye r2[i] = mc_pcicfg_get32(cfghdl, r2addr);
169e4b86885SCheng Sean Ye }
170e4b86885SCheng Sean Ye }
171e4b86885SCheng Sean Ye
17289e921d5SKuriakose Kuruvilla /*ARGSUSED*/
17389e921d5SKuriakose Kuruvilla static int
mc_nvl_add_socket_cb(cmi_hdl_t whdl,void * arg1,void * arg2,void * arg3)17489e921d5SKuriakose Kuruvilla mc_nvl_add_socket_cb(cmi_hdl_t whdl, void *arg1, void *arg2, void *arg3)
17589e921d5SKuriakose Kuruvilla {
17689e921d5SKuriakose Kuruvilla uint32_t skt = *((uint32_t *)arg1);
17789e921d5SKuriakose Kuruvilla cmi_hdl_t *hdlp = (cmi_hdl_t *)arg2;
17889e921d5SKuriakose Kuruvilla
17989e921d5SKuriakose Kuruvilla if (cmi_hdl_getsockettype(whdl) == skt) {
18089e921d5SKuriakose Kuruvilla cmi_hdl_hold(whdl); /* short-term hold */
18189e921d5SKuriakose Kuruvilla *hdlp = whdl;
18289e921d5SKuriakose Kuruvilla return (CMI_HDL_WALK_DONE);
18389e921d5SKuriakose Kuruvilla } else {
18489e921d5SKuriakose Kuruvilla return (CMI_HDL_WALK_NEXT);
18589e921d5SKuriakose Kuruvilla }
18689e921d5SKuriakose Kuruvilla }
187e4b86885SCheng Sean Ye
188e4b86885SCheng Sean Ye static void
mc_nvl_add_socket(nvlist_t * nvl,mc_t * mc)189e4b86885SCheng Sean Ye mc_nvl_add_socket(nvlist_t *nvl, mc_t *mc)
190e4b86885SCheng Sean Ye {
19189e921d5SKuriakose Kuruvilla cmi_hdl_t hdl = NULL;
19289e921d5SKuriakose Kuruvilla const char *s;
193e4b86885SCheng Sean Ye
19489e921d5SKuriakose Kuruvilla cmi_hdl_walk(mc_nvl_add_socket_cb, (void *)&mc->mc_socket,
19589e921d5SKuriakose Kuruvilla (void *)&hdl, NULL);
19689e921d5SKuriakose Kuruvilla if (hdl == NULL)
19789e921d5SKuriakose Kuruvilla s = "Unknown"; /* no cpu for this chipid found */
19889e921d5SKuriakose Kuruvilla else
19989e921d5SKuriakose Kuruvilla s = cmi_hdl_getsocketstr(hdl);
200e4b86885SCheng Sean Ye
201e4b86885SCheng Sean Ye (void) nvlist_add_string(nvl, "socket", s);
20289e921d5SKuriakose Kuruvilla
20389e921d5SKuriakose Kuruvilla if (hdl != NULL)
20489e921d5SKuriakose Kuruvilla cmi_hdl_rele(hdl);
205e4b86885SCheng Sean Ye }
206e4b86885SCheng Sean Ye
207e4b86885SCheng Sean Ye static uint32_t
mc_ecc_enabled(mc_t * mc)208e4b86885SCheng Sean Ye mc_ecc_enabled(mc_t *mc)
209e4b86885SCheng Sean Ye {
210e4b86885SCheng Sean Ye uint32_t rev = mc->mc_props.mcp_rev;
211e4b86885SCheng Sean Ye union mcreg_nbcfg nbcfg;
212e4b86885SCheng Sean Ye
213e4b86885SCheng Sean Ye MCREG_VAL32(&nbcfg) = mc->mc_cfgregs.mcr_nbcfg;
214e4b86885SCheng Sean Ye
215e4b86885SCheng Sean Ye return (MC_REV_MATCH(rev, MC_F_REVS_BCDE) ?
216e4b86885SCheng Sean Ye MCREG_FIELD_F_preF(&nbcfg, EccEn) :
217e4b86885SCheng Sean Ye MCREG_FIELD_F_revFG(&nbcfg, EccEn));
218e4b86885SCheng Sean Ye }
219e4b86885SCheng Sean Ye
220e4b86885SCheng Sean Ye static uint32_t
mc_ck_enabled(mc_t * mc)221e4b86885SCheng Sean Ye mc_ck_enabled(mc_t *mc)
222e4b86885SCheng Sean Ye {
223e4b86885SCheng Sean Ye uint32_t rev = mc->mc_props.mcp_rev;
224e4b86885SCheng Sean Ye union mcreg_nbcfg nbcfg;
225e4b86885SCheng Sean Ye
226e4b86885SCheng Sean Ye MCREG_VAL32(&nbcfg) = mc->mc_cfgregs.mcr_nbcfg;
227e4b86885SCheng Sean Ye
228e4b86885SCheng Sean Ye return (MC_REV_MATCH(rev, MC_F_REVS_BCDE) ?
229e4b86885SCheng Sean Ye MCREG_FIELD_F_preF(&nbcfg, ChipKillEccEn) :
230e4b86885SCheng Sean Ye MCREG_FIELD_F_revFG(&nbcfg, ChipKillEccEn));
231e4b86885SCheng Sean Ye }
232e4b86885SCheng Sean Ye
233e4b86885SCheng Sean Ye static void
mc_nvl_add_ecctype(nvlist_t * nvl,mc_t * mc)234e4b86885SCheng Sean Ye mc_nvl_add_ecctype(nvlist_t *nvl, mc_t *mc)
235e4b86885SCheng Sean Ye {
236e4b86885SCheng Sean Ye (void) nvlist_add_string(nvl, "ecc-type", mc_ecc_enabled(mc) ?
237e4b86885SCheng Sean Ye (mc_ck_enabled(mc) ? "ChipKill 128/16" : "Normal 64/8") : "None");
238e4b86885SCheng Sean Ye }
239e4b86885SCheng Sean Ye
240e4b86885SCheng Sean Ye static void
mc_nvl_add_prop(nvlist_t * nvl,void * node,mcamd_propcode_t code,int reqval)241e4b86885SCheng Sean Ye mc_nvl_add_prop(nvlist_t *nvl, void *node, mcamd_propcode_t code, int reqval)
242e4b86885SCheng Sean Ye {
243e4b86885SCheng Sean Ye int valfound;
244e4b86885SCheng Sean Ye uint64_t value;
245e4b86885SCheng Sean Ye const char *name = mcamd_get_propname(code);
246e4b86885SCheng Sean Ye
247e4b86885SCheng Sean Ye valfound = mcamd_get_numprop(NULL, (mcamd_node_t *)node, code, &value);
248e4b86885SCheng Sean Ye
249e4b86885SCheng Sean Ye ASSERT(name != NULL && valfound);
250e4b86885SCheng Sean Ye if (name != NULL && valfound && (!reqval || value != MC_INVALNUM))
251e4b86885SCheng Sean Ye (void) nvlist_add_uint64(nvl, name, value);
252e4b86885SCheng Sean Ye }
253e4b86885SCheng Sean Ye
254e4b86885SCheng Sean Ye static void
mc_nvl_add_cslist(nvlist_t * mcnvl,mc_t * mc)255e4b86885SCheng Sean Ye mc_nvl_add_cslist(nvlist_t *mcnvl, mc_t *mc)
256e4b86885SCheng Sean Ye {
257e4b86885SCheng Sean Ye mc_cs_t *mccs = mc->mc_cslist;
258e4b86885SCheng Sean Ye nvlist_t *cslist[MC_CHIP_NCS];
259e4b86885SCheng Sean Ye int nelem, i;
260e4b86885SCheng Sean Ye
261e4b86885SCheng Sean Ye for (nelem = 0; mccs != NULL; mccs = mccs->mccs_next, nelem++) {
262e4b86885SCheng Sean Ye nvlist_t **csp = &cslist[nelem];
263e4b86885SCheng Sean Ye char csname[MCDCFG_CSNAMELEN];
264e4b86885SCheng Sean Ye
265e4b86885SCheng Sean Ye (void) nvlist_alloc(csp, NV_UNIQUE_NAME, KM_SLEEP);
266e4b86885SCheng Sean Ye mc_nvl_add_prop(*csp, mccs, MCAMD_PROP_NUM, 0);
267e4b86885SCheng Sean Ye mc_nvl_add_prop(*csp, mccs, MCAMD_PROP_BASE_ADDR, 0);
268e4b86885SCheng Sean Ye mc_nvl_add_prop(*csp, mccs, MCAMD_PROP_MASK, 0);
269e4b86885SCheng Sean Ye mc_nvl_add_prop(*csp, mccs, MCAMD_PROP_SIZE, 0);
270e4b86885SCheng Sean Ye
271e4b86885SCheng Sean Ye /*
272e4b86885SCheng Sean Ye * It is possible for an mc_cs_t not to have associated
273e4b86885SCheng Sean Ye * DIMM info if mcdcfg_lookup failed.
274e4b86885SCheng Sean Ye */
275e4b86885SCheng Sean Ye if (mccs->mccs_csl[0] != NULL) {
276e4b86885SCheng Sean Ye mc_nvl_add_prop(*csp, mccs, MCAMD_PROP_CSDIMM1, 1);
277e4b86885SCheng Sean Ye mcdcfg_csname(mc->mc_socket, mccs->mccs_csl[0], csname,
278e4b86885SCheng Sean Ye sizeof (csname));
279e4b86885SCheng Sean Ye (void) nvlist_add_string(*csp, "dimm1-csname", csname);
280e4b86885SCheng Sean Ye }
281e4b86885SCheng Sean Ye
282e4b86885SCheng Sean Ye if (mccs->mccs_csl[1] != NULL) {
283e4b86885SCheng Sean Ye mc_nvl_add_prop(*csp, mccs, MCAMD_PROP_CSDIMM2, 1);
284e4b86885SCheng Sean Ye mcdcfg_csname(mc->mc_socket, mccs->mccs_csl[1], csname,
285e4b86885SCheng Sean Ye sizeof (csname));
286e4b86885SCheng Sean Ye (void) nvlist_add_string(*csp, "dimm2-csname", csname);
287e4b86885SCheng Sean Ye }
288e4b86885SCheng Sean Ye }
289e4b86885SCheng Sean Ye
290e4b86885SCheng Sean Ye /* Add cslist nvlist array even if zero members */
291e4b86885SCheng Sean Ye (void) nvlist_add_nvlist_array(mcnvl, "cslist", cslist, nelem);
292e4b86885SCheng Sean Ye for (i = 0; i < nelem; i++)
293e4b86885SCheng Sean Ye nvlist_free(cslist[i]);
294e4b86885SCheng Sean Ye }
295e4b86885SCheng Sean Ye
296e4b86885SCheng Sean Ye static void
mc_nvl_add_dimmlist(nvlist_t * mcnvl,mc_t * mc)297e4b86885SCheng Sean Ye mc_nvl_add_dimmlist(nvlist_t *mcnvl, mc_t *mc)
298e4b86885SCheng Sean Ye {
299e4b86885SCheng Sean Ye nvlist_t *dimmlist[MC_CHIP_NDIMM];
300e4b86885SCheng Sean Ye mc_dimm_t *mcd;
301e4b86885SCheng Sean Ye int nelem, i;
302e4b86885SCheng Sean Ye
303e4b86885SCheng Sean Ye for (nelem = 0, mcd = mc->mc_dimmlist; mcd != NULL;
304e4b86885SCheng Sean Ye mcd = mcd->mcd_next, nelem++) {
305e4b86885SCheng Sean Ye nvlist_t **dimmp = &dimmlist[nelem];
306e4b86885SCheng Sean Ye uint64_t csnums[MC_CHIP_DIMMRANKMAX];
307e4b86885SCheng Sean Ye char csname[4][MCDCFG_CSNAMELEN];
308e4b86885SCheng Sean Ye char *csnamep[4];
309e4b86885SCheng Sean Ye int ncs = 0;
310e4b86885SCheng Sean Ye
311e4b86885SCheng Sean Ye (void) nvlist_alloc(dimmp, NV_UNIQUE_NAME, KM_SLEEP);
312e4b86885SCheng Sean Ye
313e4b86885SCheng Sean Ye mc_nvl_add_prop(*dimmp, mcd, MCAMD_PROP_NUM, 1);
314e4b86885SCheng Sean Ye mc_nvl_add_prop(*dimmp, mcd, MCAMD_PROP_SIZE, 1);
315e4b86885SCheng Sean Ye
316e4b86885SCheng Sean Ye for (i = 0; i < MC_CHIP_DIMMRANKMAX; i++) {
317e4b86885SCheng Sean Ye if (mcd->mcd_cs[i] != NULL) {
318e4b86885SCheng Sean Ye csnums[ncs] =
319e4b86885SCheng Sean Ye mcd->mcd_cs[i]->mccs_props.csp_num;
320e4b86885SCheng Sean Ye mcdcfg_csname(mc->mc_socket, mcd->mcd_csl[i],
321e4b86885SCheng Sean Ye csname[ncs], MCDCFG_CSNAMELEN);
322e4b86885SCheng Sean Ye csnamep[ncs] = csname[ncs];
323e4b86885SCheng Sean Ye ncs++;
324e4b86885SCheng Sean Ye }
325e4b86885SCheng Sean Ye }
326e4b86885SCheng Sean Ye
327e4b86885SCheng Sean Ye (void) nvlist_add_uint64_array(*dimmp, "csnums", csnums, ncs);
328e4b86885SCheng Sean Ye (void) nvlist_add_string_array(*dimmp, "csnames", csnamep, ncs);
329e4b86885SCheng Sean Ye }
330e4b86885SCheng Sean Ye
331e4b86885SCheng Sean Ye /* Add dimmlist nvlist array even if zero members */
332e4b86885SCheng Sean Ye (void) nvlist_add_nvlist_array(mcnvl, "dimmlist", dimmlist, nelem);
333e4b86885SCheng Sean Ye for (i = 0; i < nelem; i++)
334e4b86885SCheng Sean Ye nvlist_free(dimmlist[i]);
335e4b86885SCheng Sean Ye }
336e4b86885SCheng Sean Ye
337e4b86885SCheng Sean Ye static void
mc_nvl_add_htconfig(nvlist_t * mcnvl,mc_t * mc)338e4b86885SCheng Sean Ye mc_nvl_add_htconfig(nvlist_t *mcnvl, mc_t *mc)
339e4b86885SCheng Sean Ye {
340e4b86885SCheng Sean Ye mc_cfgregs_t *mcr = &mc->mc_cfgregs;
341e4b86885SCheng Sean Ye union mcreg_htroute *htrp = (union mcreg_htroute *)&mcr->mcr_htroute[0];
342e4b86885SCheng Sean Ye union mcreg_nodeid *nip = (union mcreg_nodeid *)&mcr->mcr_htnodeid;
343e4b86885SCheng Sean Ye union mcreg_unitid *uip = (union mcreg_unitid *)&mcr->mcr_htunitid;
344e4b86885SCheng Sean Ye int ndcnt = HT_COHERENTNODES(nip);
345e4b86885SCheng Sean Ye uint32_t BCRte[MC_CHIP_MAXNODES];
346e4b86885SCheng Sean Ye uint32_t RPRte[MC_CHIP_MAXNODES];
347e4b86885SCheng Sean Ye uint32_t RQRte[MC_CHIP_MAXNODES];
348e4b86885SCheng Sean Ye nvlist_t *nvl;
349e4b86885SCheng Sean Ye int i;
350e4b86885SCheng Sean Ye
351e4b86885SCheng Sean Ye (void) nvlist_alloc(&nvl, NV_UNIQUE_NAME, KM_SLEEP);
352e4b86885SCheng Sean Ye
353e4b86885SCheng Sean Ye (void) nvlist_add_uint32(nvl, "NodeId", MCREG_FIELD_CMN(nip, NodeId));
354e4b86885SCheng Sean Ye (void) nvlist_add_uint32(nvl, "CoherentNodes", HT_COHERENTNODES(nip));
355e4b86885SCheng Sean Ye (void) nvlist_add_uint32(nvl, "SbNode", MCREG_FIELD_CMN(nip, SbNode));
356e4b86885SCheng Sean Ye (void) nvlist_add_uint32(nvl, "LkNode", MCREG_FIELD_CMN(nip, LkNode));
357e4b86885SCheng Sean Ye (void) nvlist_add_uint32(nvl, "SystemCoreCount",
358e4b86885SCheng Sean Ye HT_SYSTEMCORECOUNT(nip));
359e4b86885SCheng Sean Ye
360e4b86885SCheng Sean Ye (void) nvlist_add_uint32(nvl, "C0Unit", MCREG_FIELD_CMN(uip, C0Unit));
361e4b86885SCheng Sean Ye (void) nvlist_add_uint32(nvl, "C1Unit", MCREG_FIELD_CMN(uip, C1Unit));
362e4b86885SCheng Sean Ye (void) nvlist_add_uint32(nvl, "McUnit", MCREG_FIELD_CMN(uip, McUnit));
363e4b86885SCheng Sean Ye (void) nvlist_add_uint32(nvl, "HbUnit", MCREG_FIELD_CMN(uip, HbUnit));
364e4b86885SCheng Sean Ye (void) nvlist_add_uint32(nvl, "SbLink", MCREG_FIELD_CMN(uip, SbLink));
365e4b86885SCheng Sean Ye
366e4b86885SCheng Sean Ye if (ndcnt <= MC_CHIP_MAXNODES) {
367e4b86885SCheng Sean Ye for (i = 0; i < ndcnt; i++, htrp++) {
368e4b86885SCheng Sean Ye BCRte[i] = MCREG_FIELD_CMN(htrp, BCRte);
369e4b86885SCheng Sean Ye RPRte[i] = MCREG_FIELD_CMN(htrp, RPRte);
370e4b86885SCheng Sean Ye RQRte[i] = MCREG_FIELD_CMN(htrp, RQRte);
371e4b86885SCheng Sean Ye }
372e4b86885SCheng Sean Ye
373e4b86885SCheng Sean Ye (void) nvlist_add_uint32_array(nvl, "BroadcastRoutes",
374e4b86885SCheng Sean Ye &BCRte[0], ndcnt);
375e4b86885SCheng Sean Ye (void) nvlist_add_uint32_array(nvl, "ResponseRoutes",
376e4b86885SCheng Sean Ye &RPRte[0], ndcnt);
377e4b86885SCheng Sean Ye (void) nvlist_add_uint32_array(nvl, "RequestRoutes",
378e4b86885SCheng Sean Ye &RQRte[0], ndcnt);
379e4b86885SCheng Sean Ye }
380e4b86885SCheng Sean Ye
381e4b86885SCheng Sean Ye (void) nvlist_add_nvlist(mcnvl, "htconfig", nvl);
382e4b86885SCheng Sean Ye nvlist_free(nvl);
383e4b86885SCheng Sean Ye }
384e4b86885SCheng Sean Ye
385e4b86885SCheng Sean Ye static nvlist_t *
mc_nvl_create(mc_t * mc)386e4b86885SCheng Sean Ye mc_nvl_create(mc_t *mc)
387e4b86885SCheng Sean Ye {
388e4b86885SCheng Sean Ye nvlist_t *mcnvl;
389e4b86885SCheng Sean Ye
390e4b86885SCheng Sean Ye (void) nvlist_alloc(&mcnvl, NV_UNIQUE_NAME, KM_SLEEP);
391e4b86885SCheng Sean Ye
392e4b86885SCheng Sean Ye /*
393e4b86885SCheng Sean Ye * Since this nvlist is used in populating the topo tree changes
394e4b86885SCheng Sean Ye * made here may propogate through to changed property names etc
395e4b86885SCheng Sean Ye * in the topo tree. Some properties in the topo tree will be
396e4b86885SCheng Sean Ye * contracted via ARC, so be careful what you change here.
397e4b86885SCheng Sean Ye */
398e4b86885SCheng Sean Ye (void) nvlist_add_uint8(mcnvl, MC_NVLIST_VERSTR, MC_NVLIST_VERS1);
399e4b86885SCheng Sean Ye
400e4b86885SCheng Sean Ye mc_nvl_add_prop(mcnvl, mc, MCAMD_PROP_NUM, 0);
401e4b86885SCheng Sean Ye mc_nvl_add_prop(mcnvl, mc, MCAMD_PROP_REV, 0);
402e4b86885SCheng Sean Ye (void) nvlist_add_string(mcnvl, "revname", mc->mc_revname);
403e4b86885SCheng Sean Ye mc_nvl_add_socket(mcnvl, mc);
404e4b86885SCheng Sean Ye mc_nvl_add_ecctype(mcnvl, mc);
405e4b86885SCheng Sean Ye
406e4b86885SCheng Sean Ye mc_nvl_add_prop(mcnvl, mc, MCAMD_PROP_BASE_ADDR, 0);
407e4b86885SCheng Sean Ye mc_nvl_add_prop(mcnvl, mc, MCAMD_PROP_LIM_ADDR, 0);
408e4b86885SCheng Sean Ye mc_nvl_add_prop(mcnvl, mc, MCAMD_PROP_ILEN, 0);
409e4b86885SCheng Sean Ye mc_nvl_add_prop(mcnvl, mc, MCAMD_PROP_ILSEL, 0);
410e4b86885SCheng Sean Ye mc_nvl_add_prop(mcnvl, mc, MCAMD_PROP_CSINTLVFCTR, 0);
411e4b86885SCheng Sean Ye mc_nvl_add_prop(mcnvl, mc, MCAMD_PROP_DRAMHOLE_SIZE, 0);
412e4b86885SCheng Sean Ye mc_nvl_add_prop(mcnvl, mc, MCAMD_PROP_ACCESS_WIDTH, 0);
413e4b86885SCheng Sean Ye mc_nvl_add_prop(mcnvl, mc, MCAMD_PROP_CSBANKMAPREG, 0);
414e4b86885SCheng Sean Ye mc_nvl_add_prop(mcnvl, mc, MCAMD_PROP_BANKSWZL, 0);
415e4b86885SCheng Sean Ye mc_nvl_add_prop(mcnvl, mc, MCAMD_PROP_MOD64MUX, 0);
416e4b86885SCheng Sean Ye mc_nvl_add_prop(mcnvl, mc, MCAMD_PROP_SPARECS, 1);
417e4b86885SCheng Sean Ye mc_nvl_add_prop(mcnvl, mc, MCAMD_PROP_BADCS, 1);
418e4b86885SCheng Sean Ye
419e4b86885SCheng Sean Ye mc_nvl_add_cslist(mcnvl, mc);
420e4b86885SCheng Sean Ye mc_nvl_add_dimmlist(mcnvl, mc);
421e4b86885SCheng Sean Ye mc_nvl_add_htconfig(mcnvl, mc);
422e4b86885SCheng Sean Ye
423e4b86885SCheng Sean Ye return (mcnvl);
424e4b86885SCheng Sean Ye }
425e4b86885SCheng Sean Ye
426e4b86885SCheng Sean Ye /*
427e4b86885SCheng Sean Ye * Link a dimm to its associated chip-selects and chip-select lines.
428e4b86885SCheng Sean Ye * Total the size of all ranks of this dimm.
429e4b86885SCheng Sean Ye */
430e4b86885SCheng Sean Ye static void
mc_dimm_csadd(mc_t * mc,mc_dimm_t * mcd,mc_cs_t * mccs,const mcdcfg_csl_t * csl)431e4b86885SCheng Sean Ye mc_dimm_csadd(mc_t *mc, mc_dimm_t *mcd, mc_cs_t *mccs, const mcdcfg_csl_t *csl)
432e4b86885SCheng Sean Ye {
433e4b86885SCheng Sean Ye int factor = (mc->mc_props.mcp_accwidth == 128) ? 2 : 1;
434e4b86885SCheng Sean Ye uint64_t sz = 0;
435e4b86885SCheng Sean Ye int i;
436e4b86885SCheng Sean Ye
437e4b86885SCheng Sean Ye /* Skip to first unused rank slot */
438e4b86885SCheng Sean Ye for (i = 0; i < MC_CHIP_DIMMRANKMAX; i++) {
439e4b86885SCheng Sean Ye if (mcd->mcd_cs[i] == NULL) {
440e4b86885SCheng Sean Ye mcd->mcd_cs[i] = mccs;
441e4b86885SCheng Sean Ye mcd->mcd_csl[i] = csl;
442e4b86885SCheng Sean Ye sz += mccs->mccs_props.csp_size / factor;
443e4b86885SCheng Sean Ye break;
444e4b86885SCheng Sean Ye } else {
445e4b86885SCheng Sean Ye sz += mcd->mcd_cs[i]->mccs_props.csp_size / factor;
446e4b86885SCheng Sean Ye }
447e4b86885SCheng Sean Ye }
448e4b86885SCheng Sean Ye
449e4b86885SCheng Sean Ye ASSERT(i != MC_CHIP_DIMMRANKMAX);
450e4b86885SCheng Sean Ye
451e4b86885SCheng Sean Ye mcd->mcd_size = sz;
452e4b86885SCheng Sean Ye }
453e4b86885SCheng Sean Ye
454e4b86885SCheng Sean Ye /*
455e4b86885SCheng Sean Ye * Create a dimm structure and call to link it to its associated chip-selects.
456e4b86885SCheng Sean Ye */
457e4b86885SCheng Sean Ye static mc_dimm_t *
mc_dimm_create(mc_t * mc,uint_t num)458e4b86885SCheng Sean Ye mc_dimm_create(mc_t *mc, uint_t num)
459e4b86885SCheng Sean Ye {
460e4b86885SCheng Sean Ye mc_dimm_t *mcd = kmem_zalloc(sizeof (mc_dimm_t), KM_SLEEP);
461e4b86885SCheng Sean Ye
462e4b86885SCheng Sean Ye mcd->mcd_hdr.mch_type = MC_NT_DIMM;
463e4b86885SCheng Sean Ye mcd->mcd_mc = mc;
464e4b86885SCheng Sean Ye mcd->mcd_num = num;
465e4b86885SCheng Sean Ye
466e4b86885SCheng Sean Ye return (mcd);
467e4b86885SCheng Sean Ye }
468e4b86885SCheng Sean Ye
469e4b86885SCheng Sean Ye /*
470e4b86885SCheng Sean Ye * The chip-select structure includes an array of dimms associated with
471e4b86885SCheng Sean Ye * that chip-select. This function fills that array, and also builds
472e4b86885SCheng Sean Ye * the list of all dimms on this memory controller mc_dimmlist. The
473e4b86885SCheng Sean Ye * caller has filled a structure with all there is to know about the
474e4b86885SCheng Sean Ye * associated dimm(s).
475e4b86885SCheng Sean Ye */
476e4b86885SCheng Sean Ye static void
mc_csdimms_create(mc_t * mc,mc_cs_t * mccs,mcdcfg_rslt_t * rsltp)477e4b86885SCheng Sean Ye mc_csdimms_create(mc_t *mc, mc_cs_t *mccs, mcdcfg_rslt_t *rsltp)
478e4b86885SCheng Sean Ye {
479e4b86885SCheng Sean Ye mc_dimm_t *found[MC_CHIP_DIMMPERCS];
480e4b86885SCheng Sean Ye mc_dimm_t *mcd;
481e4b86885SCheng Sean Ye int nfound = 0;
482e4b86885SCheng Sean Ye int i;
483e4b86885SCheng Sean Ye
484e4b86885SCheng Sean Ye /*
485e4b86885SCheng Sean Ye * Has some other chip-select already created this dimm or dimms?
486e4b86885SCheng Sean Ye * If so then link to the dimm(s) from the mccs_dimm array,
487e4b86885SCheng Sean Ye * record their topo numbers in the csp_dimmnums array, and link
488e4b86885SCheng Sean Ye * the dimm(s) to the additional chip-select.
489e4b86885SCheng Sean Ye */
490e4b86885SCheng Sean Ye for (mcd = mc->mc_dimmlist; mcd != NULL; mcd = mcd->mcd_next) {
491e4b86885SCheng Sean Ye for (i = 0; i < rsltp->ndimm; i++) {
492e4b86885SCheng Sean Ye if (mcd->mcd_num == rsltp->dimm[i].toponum)
493e4b86885SCheng Sean Ye found[nfound++] = mcd;
494e4b86885SCheng Sean Ye }
495e4b86885SCheng Sean Ye }
496e4b86885SCheng Sean Ye ASSERT(nfound == 0 || nfound == rsltp->ndimm);
497e4b86885SCheng Sean Ye
498e4b86885SCheng Sean Ye for (i = 0; i < rsltp->ndimm; i++) {
499e4b86885SCheng Sean Ye if (nfound == 0) {
500e4b86885SCheng Sean Ye mcd = mc_dimm_create(mc, rsltp->dimm[i].toponum);
501e4b86885SCheng Sean Ye if (mc->mc_dimmlist == NULL)
502e4b86885SCheng Sean Ye mc->mc_dimmlist = mcd;
503e4b86885SCheng Sean Ye else
504e4b86885SCheng Sean Ye mc->mc_dimmlast->mcd_next = mcd;
505e4b86885SCheng Sean Ye mc->mc_dimmlast = mcd;
506e4b86885SCheng Sean Ye } else {
507e4b86885SCheng Sean Ye mcd = found[i];
508e4b86885SCheng Sean Ye }
509e4b86885SCheng Sean Ye
510e4b86885SCheng Sean Ye mccs->mccs_dimm[i] = mcd;
511e4b86885SCheng Sean Ye mccs->mccs_csl[i] = rsltp->dimm[i].cslp;
512e4b86885SCheng Sean Ye mccs->mccs_props.csp_dimmnums[i] = mcd->mcd_num;
513e4b86885SCheng Sean Ye mc_dimm_csadd(mc, mcd, mccs, rsltp->dimm[i].cslp);
514e4b86885SCheng Sean Ye
515e4b86885SCheng Sean Ye }
516e4b86885SCheng Sean Ye
517e4b86885SCheng Sean Ye /* The rank number is constant across all constituent dimm(s) */
518e4b86885SCheng Sean Ye mccs->mccs_props.csp_dimmrank = rsltp->dimm[0].cslp->csl_rank;
519e4b86885SCheng Sean Ye }
520e4b86885SCheng Sean Ye
521e4b86885SCheng Sean Ye /*
522e4b86885SCheng Sean Ye * mc_dimmlist_create is called after we have discovered all enabled
523e4b86885SCheng Sean Ye * (and spare or testfailed on revs F and G) chip-selects on the
524e4b86885SCheng Sean Ye * given memory controller. For each chip-select we must derive
525e4b86885SCheng Sean Ye * the associated dimms, remembering that a chip-select csbase/csmask
526e4b86885SCheng Sean Ye * pair may be associated with up to 2 chip-select lines (in 128 bit mode)
527e4b86885SCheng Sean Ye * and that any one dimm may be associated with 1, 2, or 4 chip-selects
528e4b86885SCheng Sean Ye * depending on whether it is single, dual or quadrank.
529e4b86885SCheng Sean Ye */
530e4b86885SCheng Sean Ye static void
mc_dimmlist_create(mc_t * mc)531e4b86885SCheng Sean Ye mc_dimmlist_create(mc_t *mc)
532e4b86885SCheng Sean Ye {
533e4b86885SCheng Sean Ye union mcreg_dramcfg_hi *drcfghip =
534e4b86885SCheng Sean Ye (union mcreg_dramcfg_hi *)(&mc->mc_cfgregs.mcr_dramcfghi);
535e4b86885SCheng Sean Ye mc_props_t *mcp = &mc->mc_props;
536e4b86885SCheng Sean Ye uint32_t rev = mcp->mcp_rev;
537e4b86885SCheng Sean Ye mc_cs_t *mccs;
538e4b86885SCheng Sean Ye int r4 = 0, s4 = 0;
539e4b86885SCheng Sean Ye
540e4b86885SCheng Sean Ye /*
541e4b86885SCheng Sean Ye * Are we dealing with quadrank registered dimms?
542e4b86885SCheng Sean Ye *
543e4b86885SCheng Sean Ye * For socket 940 we can't tell and we'll assume we're not.
544e4b86885SCheng Sean Ye * This can be over-ridden by the admin in /etc/system by setting
545e4b86885SCheng Sean Ye * mc_quadranksupport nonzero. A possible optimisation in systems
546e4b86885SCheng Sean Ye * that export an SMBIOS table would be to count the number of
547e4b86885SCheng Sean Ye * dimm slots per cpu - more than 4 would indicate no quadrank support
548e4b86885SCheng Sean Ye * and 4 or fewer would indicate that if we see any of the upper
549e4b86885SCheng Sean Ye * chip-selects enabled then a quadrank dimm is present.
550e4b86885SCheng Sean Ye *
551e4b86885SCheng Sean Ye * For socket F(1207) we can check a bit in the dram config high reg.
552e4b86885SCheng Sean Ye *
553e4b86885SCheng Sean Ye * Other socket types do not support registered dimms.
554e4b86885SCheng Sean Ye */
555e4b86885SCheng Sean Ye if (mc->mc_socket == X86_SOCKET_940)
556e4b86885SCheng Sean Ye r4 = mc_quadranksupport != 0;
557e4b86885SCheng Sean Ye else if (mc->mc_socket == X86_SOCKET_F1207)
558e4b86885SCheng Sean Ye r4 = MCREG_FIELD_F_revFG(drcfghip, FourRankRDimm);
559e4b86885SCheng Sean Ye
560e4b86885SCheng Sean Ye /*
561e4b86885SCheng Sean Ye * Are we dealing with quadrank SO-DIMMs? These are supported
562e4b86885SCheng Sean Ye * in AM2 and S1g1 packages only, but in all rev F/G cases we
563e4b86885SCheng Sean Ye * can detect their presence via a bit in the dram config high reg.
564e4b86885SCheng Sean Ye */
565e4b86885SCheng Sean Ye if (MC_REV_MATCH(rev, MC_F_REVS_FG))
566e4b86885SCheng Sean Ye s4 = MCREG_FIELD_F_revFG(drcfghip, FourRankSODimm);
567e4b86885SCheng Sean Ye
568e4b86885SCheng Sean Ye for (mccs = mc->mc_cslist; mccs != NULL; mccs = mccs->mccs_next) {
569e4b86885SCheng Sean Ye mcdcfg_rslt_t rslt;
570e4b86885SCheng Sean Ye
571e4b86885SCheng Sean Ye /*
572e4b86885SCheng Sean Ye * If lookup fails we will not create dimm structures for
573e4b86885SCheng Sean Ye * this chip-select. In the mc_cs_t we will have both
574e4b86885SCheng Sean Ye * csp_dimmnum members set to MC_INVALNUM and patounum
575e4b86885SCheng Sean Ye * code will see from those that we do not have dimm info
576e4b86885SCheng Sean Ye * for this chip-select.
577e4b86885SCheng Sean Ye */
578e4b86885SCheng Sean Ye if (mcdcfg_lookup(rev, mcp->mcp_mod64mux, mcp->mcp_accwidth,
579e4b86885SCheng Sean Ye mccs->mccs_props.csp_num, mc->mc_socket,
580e4b86885SCheng Sean Ye r4, s4, &rslt) < 0)
581e4b86885SCheng Sean Ye continue;
582e4b86885SCheng Sean Ye
583e4b86885SCheng Sean Ye mc_csdimms_create(mc, mccs, &rslt);
584e4b86885SCheng Sean Ye }
585e4b86885SCheng Sean Ye }
586e4b86885SCheng Sean Ye
587e4b86885SCheng Sean Ye static mc_cs_t *
mc_cs_create(mc_t * mc,uint_t num,uint64_t base,uint64_t mask,size_t sz,int csbe,int spare,int testfail)588e4b86885SCheng Sean Ye mc_cs_create(mc_t *mc, uint_t num, uint64_t base, uint64_t mask, size_t sz,
589e4b86885SCheng Sean Ye int csbe, int spare, int testfail)
590e4b86885SCheng Sean Ye {
591e4b86885SCheng Sean Ye mc_cs_t *mccs = kmem_zalloc(sizeof (mc_cs_t), KM_SLEEP);
592e4b86885SCheng Sean Ye mccs_props_t *csp = &mccs->mccs_props;
593e4b86885SCheng Sean Ye int i;
594e4b86885SCheng Sean Ye
595e4b86885SCheng Sean Ye mccs->mccs_hdr.mch_type = MC_NT_CS;
596e4b86885SCheng Sean Ye mccs->mccs_mc = mc;
597e4b86885SCheng Sean Ye csp->csp_num = num;
598e4b86885SCheng Sean Ye csp->csp_base = base;
599e4b86885SCheng Sean Ye csp->csp_mask = mask;
600e4b86885SCheng Sean Ye csp->csp_size = sz;
601e4b86885SCheng Sean Ye csp->csp_csbe = csbe;
602e4b86885SCheng Sean Ye csp->csp_spare = spare;
603e4b86885SCheng Sean Ye csp->csp_testfail = testfail;
604e4b86885SCheng Sean Ye
605e4b86885SCheng Sean Ye for (i = 0; i < MC_CHIP_DIMMPERCS; i++)
606e4b86885SCheng Sean Ye csp->csp_dimmnums[i] = MC_INVALNUM;
607e4b86885SCheng Sean Ye
608e4b86885SCheng Sean Ye if (spare)
609e4b86885SCheng Sean Ye mc->mc_props.mcp_sparecs = num;
610e4b86885SCheng Sean Ye
611e4b86885SCheng Sean Ye return (mccs);
612e4b86885SCheng Sean Ye }
613e4b86885SCheng Sean Ye
614e4b86885SCheng Sean Ye /*
615e4b86885SCheng Sean Ye * For any cs# of this mc marked TestFail generate an ereport with
616e4b86885SCheng Sean Ye * resource identifying the associated dimm(s).
617e4b86885SCheng Sean Ye */
618e4b86885SCheng Sean Ye static void
mc_report_testfails(mc_t * mc)619e4b86885SCheng Sean Ye mc_report_testfails(mc_t *mc)
620e4b86885SCheng Sean Ye {
621e4b86885SCheng Sean Ye mc_unum_t unum;
622e4b86885SCheng Sean Ye mc_cs_t *mccs;
623e4b86885SCheng Sean Ye int i;
624e4b86885SCheng Sean Ye
625e4b86885SCheng Sean Ye for (mccs = mc->mc_cslist; mccs != NULL; mccs = mccs->mccs_next) {
626e4b86885SCheng Sean Ye if (mccs->mccs_props.csp_testfail) {
627e4b86885SCheng Sean Ye unum.unum_board = 0;
628e4b86885SCheng Sean Ye unum.unum_chip = mc->mc_props.mcp_num;
629e4b86885SCheng Sean Ye unum.unum_mc = 0;
630e4b86885SCheng Sean Ye unum.unum_chan = MC_INVALNUM;
631e4b86885SCheng Sean Ye unum.unum_cs = mccs->mccs_props.csp_num;
632e4b86885SCheng Sean Ye unum.unum_rank = mccs->mccs_props.csp_dimmrank;
633e4b86885SCheng Sean Ye unum.unum_offset = MCAMD_RC_INVALID_OFFSET;
634e4b86885SCheng Sean Ye for (i = 0; i < MC_CHIP_DIMMPERCS; i++)
635e4b86885SCheng Sean Ye unum.unum_dimms[i] = MC_INVALNUM;
636e4b86885SCheng Sean Ye
637e4b86885SCheng Sean Ye mcamd_ereport_post(mc, FM_EREPORT_CPU_AMD_MC_TESTFAIL,
638e4b86885SCheng Sean Ye &unum,
639e4b86885SCheng Sean Ye FM_EREPORT_PAYLOAD_FLAGS_CPU_AMD_MC_TESTFAIL);
640e4b86885SCheng Sean Ye }
641e4b86885SCheng Sean Ye }
642e4b86885SCheng Sean Ye }
643e4b86885SCheng Sean Ye
644e4b86885SCheng Sean Ye /*
645e4b86885SCheng Sean Ye * Function 0 - HyperTransport Technology Configuration
646e4b86885SCheng Sean Ye */
647e4b86885SCheng Sean Ye static void
mc_mkprops_htcfg(mc_pcicfg_hdl_t cfghdl,mc_t * mc)648e4b86885SCheng Sean Ye mc_mkprops_htcfg(mc_pcicfg_hdl_t cfghdl, mc_t *mc)
649e4b86885SCheng Sean Ye {
650e4b86885SCheng Sean Ye union mcreg_nodeid nodeid;
651e4b86885SCheng Sean Ye off_t offset;
652e4b86885SCheng Sean Ye int i;
653e4b86885SCheng Sean Ye
654e4b86885SCheng Sean Ye mc->mc_cfgregs.mcr_htnodeid = MCREG_VAL32(&nodeid) =
655e4b86885SCheng Sean Ye mc_pcicfg_get32(cfghdl, MC_HT_REG_NODEID);
656e4b86885SCheng Sean Ye
657e4b86885SCheng Sean Ye mc->mc_cfgregs.mcr_htunitid = mc_pcicfg_get32(cfghdl, MC_HT_REG_UNITID);
658e4b86885SCheng Sean Ye
659e4b86885SCheng Sean Ye for (i = 0, offset = MC_HT_REG_RTBL_NODE_0;
660e4b86885SCheng Sean Ye i < HT_COHERENTNODES(&nodeid);
661e4b86885SCheng Sean Ye i++, offset += MC_HT_REG_RTBL_INCR)
662e4b86885SCheng Sean Ye mc->mc_cfgregs.mcr_htroute[i] = mc_pcicfg_get32(cfghdl, offset);
663e4b86885SCheng Sean Ye }
664e4b86885SCheng Sean Ye
665e4b86885SCheng Sean Ye /*
666e4b86885SCheng Sean Ye * Function 1 Configuration - Address Map (see BKDG 3.4.4 DRAM Address Map)
667e4b86885SCheng Sean Ye *
668e4b86885SCheng Sean Ye * Read the Function 1 Address Map for each potential DRAM node. The Base
669e4b86885SCheng Sean Ye * Address for a node gives the starting system address mapped at that node,
670e4b86885SCheng Sean Ye * and the limit gives the last valid address mapped at that node. Regions for
671e4b86885SCheng Sean Ye * different nodes should not overlap, unless node-interleaving is enabled.
672e4b86885SCheng Sean Ye * The base register also indicates the node-interleaving settings (IntlvEn).
673e4b86885SCheng Sean Ye * The limit register includes IntlvSel which determines which 4K blocks will
674e4b86885SCheng Sean Ye * be routed to this node and the destination node ID for addresses that fall
675e4b86885SCheng Sean Ye * within the [base, limit] range - this must match the pair number.
676e4b86885SCheng Sean Ye */
677e4b86885SCheng Sean Ye static void
mc_mkprops_addrmap(mc_pcicfg_hdl_t cfghdl,mc_t * mc)678e4b86885SCheng Sean Ye mc_mkprops_addrmap(mc_pcicfg_hdl_t cfghdl, mc_t *mc)
679e4b86885SCheng Sean Ye {
680e4b86885SCheng Sean Ye union mcreg_drambase basereg;
681e4b86885SCheng Sean Ye union mcreg_dramlimit limreg;
682e4b86885SCheng Sean Ye mc_props_t *mcp = &mc->mc_props;
683e4b86885SCheng Sean Ye mc_cfgregs_t *mcr = &mc->mc_cfgregs;
684e4b86885SCheng Sean Ye union mcreg_dramhole hole;
685e4b86885SCheng Sean Ye int nodeid = mc->mc_props.mcp_num;
686e4b86885SCheng Sean Ye
687e4b86885SCheng Sean Ye mcr->mcr_drambase = MCREG_VAL32(&basereg) = mc_pcicfg_get32(cfghdl,
688e4b86885SCheng Sean Ye MC_AM_REG_DRAMBASE_0 + nodeid * MC_AM_REG_DRAM_INCR);
689e4b86885SCheng Sean Ye
690e4b86885SCheng Sean Ye mcr->mcr_dramlimit = MCREG_VAL32(&limreg) = mc_pcicfg_get32(cfghdl,
691e4b86885SCheng Sean Ye MC_AM_REG_DRAMLIM_0 + nodeid * MC_AM_REG_DRAM_INCR);
692e4b86885SCheng Sean Ye
693e4b86885SCheng Sean Ye /*
694e4b86885SCheng Sean Ye * Derive some "cooked" properties for nodes that have a range of
695e4b86885SCheng Sean Ye * physical addresses that are read or write enabled and for which
696e4b86885SCheng Sean Ye * the DstNode matches the node we are attaching.
697e4b86885SCheng Sean Ye */
698e4b86885SCheng Sean Ye if (MCREG_FIELD_CMN(&limreg, DRAMLimiti) != 0 &&
699e4b86885SCheng Sean Ye MCREG_FIELD_CMN(&limreg, DstNode) == nodeid &&
700e4b86885SCheng Sean Ye (MCREG_FIELD_CMN(&basereg, WE) || MCREG_FIELD_CMN(&basereg, RE))) {
701e4b86885SCheng Sean Ye mcp->mcp_base = MC_DRAMBASE(&basereg);
702e4b86885SCheng Sean Ye mcp->mcp_lim = MC_DRAMLIM(&limreg);
703e4b86885SCheng Sean Ye mcp->mcp_ilen = MCREG_FIELD_CMN(&basereg, IntlvEn);
704e4b86885SCheng Sean Ye mcp->mcp_ilsel = MCREG_FIELD_CMN(&limreg, IntlvSel);
705e4b86885SCheng Sean Ye }
706e4b86885SCheng Sean Ye
707e4b86885SCheng Sean Ye /*
708e4b86885SCheng Sean Ye * The Function 1 DRAM Hole Address Register tells us which node(s)
709e4b86885SCheng Sean Ye * own the DRAM space that is hoisted above 4GB, together with the
710e4b86885SCheng Sean Ye * hole base and offset for this node. This was introduced in
711e4b86885SCheng Sean Ye * revision E.
712e4b86885SCheng Sean Ye */
713e4b86885SCheng Sean Ye if (MC_REV_ATLEAST(mc->mc_props.mcp_rev, MC_F_REV_E)) {
714e4b86885SCheng Sean Ye mcr->mcr_dramhole = MCREG_VAL32(&hole) =
715e4b86885SCheng Sean Ye mc_pcicfg_get32(cfghdl, MC_AM_REG_HOLEADDR);
716e4b86885SCheng Sean Ye
717e4b86885SCheng Sean Ye if (MCREG_FIELD_CMN(&hole, DramHoleValid))
718e4b86885SCheng Sean Ye mcp->mcp_dramhole_size = MC_DRAMHOLE_SIZE(&hole);
719e4b86885SCheng Sean Ye }
720e4b86885SCheng Sean Ye }
721e4b86885SCheng Sean Ye
722e4b86885SCheng Sean Ye /*
723e4b86885SCheng Sean Ye * Read some function 3 parameters via PCI Mechanism 1 accesses (which
724e4b86885SCheng Sean Ye * will serialize any NB accesses).
725e4b86885SCheng Sean Ye */
726e4b86885SCheng Sean Ye static void
mc_getmiscctl(mc_t * mc)727e4b86885SCheng Sean Ye mc_getmiscctl(mc_t *mc)
728e4b86885SCheng Sean Ye {
729e4b86885SCheng Sean Ye uint32_t rev = mc->mc_props.mcp_rev;
730e4b86885SCheng Sean Ye union mcreg_nbcfg nbcfg;
731e4b86885SCheng Sean Ye union mcreg_sparectl sparectl;
732e4b86885SCheng Sean Ye
733e4b86885SCheng Sean Ye mc->mc_cfgregs.mcr_nbcfg = MCREG_VAL32(&nbcfg) =
734e4b86885SCheng Sean Ye mc_pcicfg_get32_nohdl(mc, MC_FUNC_MISCCTL, MC_CTL_REG_NBCFG);
735e4b86885SCheng Sean Ye
736e4b86885SCheng Sean Ye if (MC_REV_MATCH(rev, MC_F_REVS_FG)) {
737e4b86885SCheng Sean Ye mc->mc_cfgregs.mcr_sparectl = MCREG_VAL32(&sparectl) =
738e4b86885SCheng Sean Ye mc_pcicfg_get32_nohdl(mc, MC_FUNC_MISCCTL,
739e4b86885SCheng Sean Ye MC_CTL_REG_SPARECTL);
740e4b86885SCheng Sean Ye
741e4b86885SCheng Sean Ye if (MCREG_FIELD_F_revFG(&sparectl, SwapDone)) {
742e4b86885SCheng Sean Ye mc->mc_props.mcp_badcs =
743e4b86885SCheng Sean Ye MCREG_FIELD_F_revFG(&sparectl, BadDramCs);
744e4b86885SCheng Sean Ye }
745e4b86885SCheng Sean Ye }
746e4b86885SCheng Sean Ye }
747e4b86885SCheng Sean Ye
748e4b86885SCheng Sean Ye static int
csbasecmp(mc_cs_t ** csapp,mc_cs_t ** csbpp)749e4b86885SCheng Sean Ye csbasecmp(mc_cs_t **csapp, mc_cs_t **csbpp)
750e4b86885SCheng Sean Ye {
751e4b86885SCheng Sean Ye uint64_t basea = (*csapp)->mccs_props.csp_base;
752e4b86885SCheng Sean Ye uint64_t baseb = (*csbpp)->mccs_props.csp_base;
753e4b86885SCheng Sean Ye
754e4b86885SCheng Sean Ye if (basea == baseb)
755e4b86885SCheng Sean Ye return (0);
756e4b86885SCheng Sean Ye else if (basea < baseb)
757e4b86885SCheng Sean Ye return (-1);
758e4b86885SCheng Sean Ye else
759e4b86885SCheng Sean Ye return (1);
760e4b86885SCheng Sean Ye }
761e4b86885SCheng Sean Ye
762e4b86885SCheng Sean Ye /*
763e4b86885SCheng Sean Ye * The following are for use in simulating TestFail for a chip-select
764e4b86885SCheng Sean Ye * without poking at the hardware (which tends to get upset if you do
765e4b86885SCheng Sean Ye * since the BIOS needs to restart to map a failed cs out). For internal
766e4b86885SCheng Sean Ye * testing only! Note that setting these does not give the full experience -
767e4b86885SCheng Sean Ye * the select chip-select *is* enabled and can give errors etc and the
768e4b86885SCheng Sean Ye * patounum logic will get confused.
769e4b86885SCheng Sean Ye */
770e4b86885SCheng Sean Ye int testfail_mcnum = -1;
771e4b86885SCheng Sean Ye int testfail_csnum = -1;
772e4b86885SCheng Sean Ye
773e4b86885SCheng Sean Ye /*
774e4b86885SCheng Sean Ye * Function 2 configuration - DRAM Controller
775e4b86885SCheng Sean Ye */
776e4b86885SCheng Sean Ye static void
mc_mkprops_dramctl(mc_pcicfg_hdl_t cfghdl,mc_t * mc)777e4b86885SCheng Sean Ye mc_mkprops_dramctl(mc_pcicfg_hdl_t cfghdl, mc_t *mc)
778e4b86885SCheng Sean Ye {
779e4b86885SCheng Sean Ye union mcreg_csbase base[MC_CHIP_NCS];
780e4b86885SCheng Sean Ye union mcreg_csmask mask[MC_CHIP_NCS];
781e4b86885SCheng Sean Ye union mcreg_dramcfg_lo drcfg_lo;
782e4b86885SCheng Sean Ye union mcreg_dramcfg_hi drcfg_hi;
783e4b86885SCheng Sean Ye union mcreg_drammisc drmisc;
784e4b86885SCheng Sean Ye union mcreg_bankaddrmap baddrmap;
785e4b86885SCheng Sean Ye mc_props_t *mcp = &mc->mc_props;
786e4b86885SCheng Sean Ye mc_cfgregs_t *mcr = &mc->mc_cfgregs;
787e4b86885SCheng Sean Ye int maskdivisor;
788e4b86885SCheng Sean Ye int wide = 0;
789e4b86885SCheng Sean Ye uint32_t rev = mc->mc_props.mcp_rev;
790e4b86885SCheng Sean Ye int i;
791e4b86885SCheng Sean Ye mcamd_hdl_t hdl;
792e4b86885SCheng Sean Ye
793e4b86885SCheng Sean Ye mcamd_mkhdl(&hdl); /* to call into common code */
794e4b86885SCheng Sean Ye
795e4b86885SCheng Sean Ye /*
796e4b86885SCheng Sean Ye * Read Function 2 DRAM Configuration High and Low registers. The High
797e4b86885SCheng Sean Ye * part is mostly concerned with memory clocks etc and we'll not have
798e4b86885SCheng Sean Ye * any use for that. The Low component tells us if ECC is enabled,
799e4b86885SCheng Sean Ye * if we're in 64- or 128-bit MC mode, how the upper chip-selects
800e4b86885SCheng Sean Ye * are mapped, which chip-select pairs are using x4 parts, etc.
801e4b86885SCheng Sean Ye */
802e4b86885SCheng Sean Ye MCREG_VAL32(&drcfg_lo) = mc_pcicfg_get32(cfghdl, MC_DC_REG_DRAMCFGLO);
803e4b86885SCheng Sean Ye MCREG_VAL32(&drcfg_hi) = mc_pcicfg_get32(cfghdl, MC_DC_REG_DRAMCFGHI);
804e4b86885SCheng Sean Ye mcr->mcr_dramcfglo = MCREG_VAL32(&drcfg_lo);
805e4b86885SCheng Sean Ye mcr->mcr_dramcfghi = MCREG_VAL32(&drcfg_hi);
806e4b86885SCheng Sean Ye
807e4b86885SCheng Sean Ye /*
808e4b86885SCheng Sean Ye * Note the DRAM controller width. The 64/128 bit is in a different
809e4b86885SCheng Sean Ye * bit position for revision F and G.
810e4b86885SCheng Sean Ye */
811e4b86885SCheng Sean Ye if (MC_REV_MATCH(rev, MC_F_REVS_FG)) {
812e4b86885SCheng Sean Ye wide = MCREG_FIELD_F_revFG(&drcfg_lo, Width128);
813e4b86885SCheng Sean Ye } else {
814e4b86885SCheng Sean Ye wide = MCREG_FIELD_F_preF(&drcfg_lo, Width128);
815e4b86885SCheng Sean Ye }
816e4b86885SCheng Sean Ye mcp->mcp_accwidth = wide ? 128 : 64;
817e4b86885SCheng Sean Ye
818e4b86885SCheng Sean Ye /*
819e4b86885SCheng Sean Ye * Read Function 2 DRAM Controller Miscellaenous Regsiter for those
820e4b86885SCheng Sean Ye * revs that support it. This include the Mod64Mux indication on
821e4b86885SCheng Sean Ye * these revs - for rev E it is in DRAM config low.
822e4b86885SCheng Sean Ye */
823e4b86885SCheng Sean Ye if (MC_REV_MATCH(rev, MC_F_REVS_FG)) {
824e4b86885SCheng Sean Ye mcr->mcr_drammisc = MCREG_VAL32(&drmisc) =
825e4b86885SCheng Sean Ye mc_pcicfg_get32(cfghdl, MC_DC_REG_DRAMMISC);
826e4b86885SCheng Sean Ye mcp->mcp_mod64mux = MCREG_FIELD_F_revFG(&drmisc, Mod64Mux);
827e4b86885SCheng Sean Ye } else if (MC_REV_MATCH(rev, MC_F_REV_E)) {
828e4b86885SCheng Sean Ye mcp->mcp_mod64mux = MCREG_FIELD_F_preF(&drcfg_lo, Mod64BitMux);
829e4b86885SCheng Sean Ye }
830e4b86885SCheng Sean Ye
831e4b86885SCheng Sean Ye /*
832e4b86885SCheng Sean Ye * Read Function 2 DRAM Bank Address Mapping. This encodes the
833e4b86885SCheng Sean Ye * type of DIMM module in use for each chip-select pair.
834e4b86885SCheng Sean Ye * Prior ro revision F it also tells us whether BankSwizzle mode
835e4b86885SCheng Sean Ye * is enabled - in rev F that has moved to dram config hi register.
836e4b86885SCheng Sean Ye */
837e4b86885SCheng Sean Ye mcp->mcp_csbankmapreg = MCREG_VAL32(&baddrmap) =
838e4b86885SCheng Sean Ye mc_pcicfg_get32(cfghdl, MC_DC_REG_BANKADDRMAP);
839e4b86885SCheng Sean Ye
840e4b86885SCheng Sean Ye /*
841e4b86885SCheng Sean Ye * Determine whether bank swizzle mode is active. Bank swizzling was
842e4b86885SCheng Sean Ye * introduced as an option in rev E, but the bit that indicates it
843e4b86885SCheng Sean Ye * is enabled has moved in revs F/G.
844e4b86885SCheng Sean Ye */
845e4b86885SCheng Sean Ye if (MC_REV_MATCH(rev, MC_F_REV_E)) {
846e4b86885SCheng Sean Ye mcp->mcp_bnkswzl =
847e4b86885SCheng Sean Ye MCREG_FIELD_F_preF(&baddrmap, BankSwizzleMode);
848e4b86885SCheng Sean Ye } else if (MC_REV_MATCH(rev, MC_F_REVS_FG)) {
849e4b86885SCheng Sean Ye mcp->mcp_bnkswzl = MCREG_FIELD_F_revFG(&drcfg_hi,
850e4b86885SCheng Sean Ye BankSwizzleMode);
851e4b86885SCheng Sean Ye }
852e4b86885SCheng Sean Ye
853e4b86885SCheng Sean Ye /*
854e4b86885SCheng Sean Ye * Read the DRAM CS Base and DRAM CS Mask registers. Revisions prior
855e4b86885SCheng Sean Ye * to F have an equal number of base and mask registers; revision F
856e4b86885SCheng Sean Ye * has twice as many base registers as masks.
857e4b86885SCheng Sean Ye */
858e4b86885SCheng Sean Ye maskdivisor = MC_REV_MATCH(rev, MC_F_REVS_FG) ? 2 : 1;
859e4b86885SCheng Sean Ye
860e4b86885SCheng Sean Ye mc_prop_read_pair(cfghdl,
861e4b86885SCheng Sean Ye (uint32_t *)base, MC_DC_REG_CSBASE_0, MC_CHIP_NCS,
862e4b86885SCheng Sean Ye (uint32_t *)mask, MC_DC_REG_CSMASK_0, MC_CHIP_NCS / maskdivisor,
863e4b86885SCheng Sean Ye MC_DC_REG_CS_INCR);
864e4b86885SCheng Sean Ye
865e4b86885SCheng Sean Ye /*
866e4b86885SCheng Sean Ye * Create a cs node for each enabled chip-select as well as
867e4b86885SCheng Sean Ye * any appointed online spare chip-selects and for any that have
868e4b86885SCheng Sean Ye * failed test.
869e4b86885SCheng Sean Ye */
870e4b86885SCheng Sean Ye for (i = 0; i < MC_CHIP_NCS; i++) {
871e4b86885SCheng Sean Ye mc_cs_t *mccs;
872e4b86885SCheng Sean Ye uint64_t csbase, csmask;
873e4b86885SCheng Sean Ye size_t sz;
874e4b86885SCheng Sean Ye int csbe, spare, testfail;
875e4b86885SCheng Sean Ye
876e4b86885SCheng Sean Ye if (MC_REV_MATCH(rev, MC_F_REVS_FG)) {
877e4b86885SCheng Sean Ye csbe = MCREG_FIELD_F_revFG(&base[i], CSEnable);
878e4b86885SCheng Sean Ye spare = MCREG_FIELD_F_revFG(&base[i], Spare);
879e4b86885SCheng Sean Ye testfail = MCREG_FIELD_F_revFG(&base[i], TestFail);
880e4b86885SCheng Sean Ye } else {
881e4b86885SCheng Sean Ye csbe = MCREG_FIELD_F_preF(&base[i], CSEnable);
882e4b86885SCheng Sean Ye spare = 0;
883e4b86885SCheng Sean Ye testfail = 0;
884e4b86885SCheng Sean Ye }
885e4b86885SCheng Sean Ye
886e4b86885SCheng Sean Ye /* Testing hook */
887e4b86885SCheng Sean Ye if (testfail_mcnum != -1 && testfail_csnum != -1 &&
888e4b86885SCheng Sean Ye mcp->mcp_num == testfail_mcnum && i == testfail_csnum) {
889e4b86885SCheng Sean Ye csbe = spare = 0;
890e4b86885SCheng Sean Ye testfail = 1;
891e4b86885SCheng Sean Ye cmn_err(CE_NOTE, "Pretending MC %d CS %d failed test",
892e4b86885SCheng Sean Ye testfail_mcnum, testfail_csnum);
893e4b86885SCheng Sean Ye }
894e4b86885SCheng Sean Ye
895e4b86885SCheng Sean Ye /*
896e4b86885SCheng Sean Ye * If the chip-select is not enabled then skip it unless
897e4b86885SCheng Sean Ye * it is a designated online spare or is marked with TestFail.
898e4b86885SCheng Sean Ye */
899e4b86885SCheng Sean Ye if (!csbe && !(spare || testfail))
900e4b86885SCheng Sean Ye continue;
901e4b86885SCheng Sean Ye
902e4b86885SCheng Sean Ye /*
903e4b86885SCheng Sean Ye * For an enabled or spare chip-select the Bank Address Mapping
904e4b86885SCheng Sean Ye * register will be valid as will the chip-select mask. The
905e4b86885SCheng Sean Ye * base will not be valid but we'll read and store it anyway.
906e4b86885SCheng Sean Ye * We will not know whether the spare is already swapped in
907e4b86885SCheng Sean Ye * until MC function 3 attaches.
908e4b86885SCheng Sean Ye */
909e4b86885SCheng Sean Ye if (csbe || spare) {
910e4b86885SCheng Sean Ye if (mcamd_cs_size(&hdl, (mcamd_node_t *)mc, i, &sz) < 0)
911e4b86885SCheng Sean Ye continue;
912e4b86885SCheng Sean Ye csbase = MC_CSBASE(&base[i], rev);
913e4b86885SCheng Sean Ye csmask = MC_CSMASK(&mask[i / maskdivisor], rev);
914e4b86885SCheng Sean Ye } else {
915e4b86885SCheng Sean Ye sz = 0;
916e4b86885SCheng Sean Ye csbase = csmask = 0;
917e4b86885SCheng Sean Ye }
918e4b86885SCheng Sean Ye
919e4b86885SCheng Sean Ye mccs = mc_cs_create(mc, i, csbase, csmask, sz,
920e4b86885SCheng Sean Ye csbe, spare, testfail);
921e4b86885SCheng Sean Ye
922e4b86885SCheng Sean Ye if (mc->mc_cslist == NULL)
923e4b86885SCheng Sean Ye mc->mc_cslist = mccs;
924e4b86885SCheng Sean Ye else
925e4b86885SCheng Sean Ye mc->mc_cslast->mccs_next = mccs;
926e4b86885SCheng Sean Ye mc->mc_cslast = mccs;
927e4b86885SCheng Sean Ye
928e4b86885SCheng Sean Ye mccs->mccs_cfgregs.csr_csbase = MCREG_VAL32(&base[i]);
929e4b86885SCheng Sean Ye mccs->mccs_cfgregs.csr_csmask =
930e4b86885SCheng Sean Ye MCREG_VAL32(&mask[i / maskdivisor]);
931e4b86885SCheng Sean Ye
932e4b86885SCheng Sean Ye /*
933e4b86885SCheng Sean Ye * Check for cs bank interleaving - some bits clear in the
934e4b86885SCheng Sean Ye * lower mask. All banks must/will have the same lomask bits
935e4b86885SCheng Sean Ye * if cs interleaving is active.
936e4b86885SCheng Sean Ye */
937e4b86885SCheng Sean Ye if (csbe && !mcp->mcp_csintlvfctr) {
938e4b86885SCheng Sean Ye int bitno, ibits = 0;
939e4b86885SCheng Sean Ye for (bitno = MC_CSMASKLO_LOBIT(rev);
940e4b86885SCheng Sean Ye bitno <= MC_CSMASKLO_HIBIT(rev); bitno++) {
941e4b86885SCheng Sean Ye if (!(csmask & (1 << bitno)))
942e4b86885SCheng Sean Ye ibits++;
943e4b86885SCheng Sean Ye }
944e4b86885SCheng Sean Ye mcp->mcp_csintlvfctr = 1 << ibits;
945e4b86885SCheng Sean Ye }
946e4b86885SCheng Sean Ye }
947e4b86885SCheng Sean Ye
948e4b86885SCheng Sean Ye /*
949e4b86885SCheng Sean Ye * If there is no chip-select interleave on this node determine
950e4b86885SCheng Sean Ye * whether the chip-select ranks are contiguous or if there
951e4b86885SCheng Sean Ye * is a hole.
952e4b86885SCheng Sean Ye */
953e4b86885SCheng Sean Ye if (mcp->mcp_csintlvfctr == 1) {
954e4b86885SCheng Sean Ye mc_cs_t *csp[MC_CHIP_NCS];
955e4b86885SCheng Sean Ye mc_cs_t *mccs;
956e4b86885SCheng Sean Ye int ncsbe = 0;
957e4b86885SCheng Sean Ye
958e4b86885SCheng Sean Ye for (mccs = mc->mc_cslist; mccs != NULL;
959e4b86885SCheng Sean Ye mccs = mccs->mccs_next) {
960e4b86885SCheng Sean Ye if (mccs->mccs_props.csp_csbe)
961e4b86885SCheng Sean Ye csp[ncsbe++] = mccs;
962e4b86885SCheng Sean Ye }
963e4b86885SCheng Sean Ye
964e4b86885SCheng Sean Ye if (ncsbe != 0) {
965e4b86885SCheng Sean Ye qsort((void *)csp, ncsbe, sizeof (mc_cs_t *),
966e4b86885SCheng Sean Ye (int (*)(const void *, const void *))csbasecmp);
967e4b86885SCheng Sean Ye
968e4b86885SCheng Sean Ye for (i = 1; i < ncsbe; i++) {
969e4b86885SCheng Sean Ye if (csp[i]->mccs_props.csp_base !=
970e4b86885SCheng Sean Ye csp[i - 1]->mccs_props.csp_base +
971e4b86885SCheng Sean Ye csp[i - 1]->mccs_props.csp_size)
972e4b86885SCheng Sean Ye mc->mc_csdiscontig = 1;
973e4b86885SCheng Sean Ye }
974e4b86885SCheng Sean Ye }
975e4b86885SCheng Sean Ye }
976e4b86885SCheng Sean Ye
977e4b86885SCheng Sean Ye
978e4b86885SCheng Sean Ye /*
979e4b86885SCheng Sean Ye * Since we do not attach to MC function 3 go ahead and read some
980e4b86885SCheng Sean Ye * config parameters from it now.
981e4b86885SCheng Sean Ye */
982e4b86885SCheng Sean Ye mc_getmiscctl(mc);
983e4b86885SCheng Sean Ye
984e4b86885SCheng Sean Ye /*
985e4b86885SCheng Sean Ye * Now that we have discovered all enabled/spare/testfail chip-selects
986e4b86885SCheng Sean Ye * we divine the associated DIMM configuration.
987e4b86885SCheng Sean Ye */
988e4b86885SCheng Sean Ye mc_dimmlist_create(mc);
989e4b86885SCheng Sean Ye }
990e4b86885SCheng Sean Ye
991e4b86885SCheng Sean Ye typedef struct mc_bind_map {
992e4b86885SCheng Sean Ye const char *bm_bindnm; /* attachment binding name */
993e4b86885SCheng Sean Ye enum mc_funcnum bm_func; /* PCI config space function number for bind */
994e4b86885SCheng Sean Ye const char *bm_model; /* value for device node model property */
995e4b86885SCheng Sean Ye void (*bm_mkprops)(mc_pcicfg_hdl_t, mc_t *);
996e4b86885SCheng Sean Ye } mc_bind_map_t;
997e4b86885SCheng Sean Ye
998e4b86885SCheng Sean Ye /*
999e4b86885SCheng Sean Ye * Do not attach to MC function 3 - agpgart already attaches to that.
1000e4b86885SCheng Sean Ye * Function 3 may be a good candidate for a nexus driver to fan it out
1001e4b86885SCheng Sean Ye * into virtual devices by functionality. We will use pci_mech1_getl
1002e4b86885SCheng Sean Ye * to retrieve the function 3 parameters we require.
1003e4b86885SCheng Sean Ye */
1004e4b86885SCheng Sean Ye
1005e4b86885SCheng Sean Ye static const mc_bind_map_t mc_bind_map[] = {
1006e4b86885SCheng Sean Ye { MC_FUNC_HTCONFIG_BINDNM, MC_FUNC_HTCONFIG,
1007e4b86885SCheng Sean Ye "AMD Memory Controller (HT Configuration)", mc_mkprops_htcfg },
1008e4b86885SCheng Sean Ye { MC_FUNC_ADDRMAP_BINDNM, MC_FUNC_ADDRMAP,
1009e4b86885SCheng Sean Ye "AMD Memory Controller (Address Map)", mc_mkprops_addrmap },
1010e4b86885SCheng Sean Ye { MC_FUNC_DRAMCTL_BINDNM, MC_FUNC_DRAMCTL,
1011e4b86885SCheng Sean Ye "AMD Memory Controller (DRAM Controller & HT Trace)",
1012e4b86885SCheng Sean Ye mc_mkprops_dramctl },
1013e4b86885SCheng Sean Ye NULL
1014e4b86885SCheng Sean Ye };
1015e4b86885SCheng Sean Ye
1016e4b86885SCheng Sean Ye /*ARGSUSED*/
1017e4b86885SCheng Sean Ye static int
mc_open(dev_t * devp,int flag,int otyp,cred_t * credp)1018e4b86885SCheng Sean Ye mc_open(dev_t *devp, int flag, int otyp, cred_t *credp)
1019e4b86885SCheng Sean Ye {
1020e4b86885SCheng Sean Ye if (otyp != OTYP_CHR)
1021e4b86885SCheng Sean Ye return (EINVAL);
1022e4b86885SCheng Sean Ye
1023e4b86885SCheng Sean Ye rw_enter(&mc_lock, RW_READER);
1024e4b86885SCheng Sean Ye if (mc_lookup_by_chipid(getminor(*devp)) == NULL) {
1025e4b86885SCheng Sean Ye rw_exit(&mc_lock);
1026e4b86885SCheng Sean Ye return (EINVAL);
1027e4b86885SCheng Sean Ye }
1028e4b86885SCheng Sean Ye rw_exit(&mc_lock);
1029e4b86885SCheng Sean Ye
1030e4b86885SCheng Sean Ye return (0);
1031e4b86885SCheng Sean Ye }
1032e4b86885SCheng Sean Ye
1033e4b86885SCheng Sean Ye /*ARGSUSED*/
1034e4b86885SCheng Sean Ye static int
mc_close(dev_t dev,int flag,int otyp,cred_t * credp)1035e4b86885SCheng Sean Ye mc_close(dev_t dev, int flag, int otyp, cred_t *credp)
1036e4b86885SCheng Sean Ye {
1037e4b86885SCheng Sean Ye return (0);
1038e4b86885SCheng Sean Ye }
1039e4b86885SCheng Sean Ye
1040e4b86885SCheng Sean Ye /*
1041e4b86885SCheng Sean Ye * Enable swap from chip-select csnum to the spare chip-select on this
1042e4b86885SCheng Sean Ye * memory controller (if any).
1043e4b86885SCheng Sean Ye */
1044e4b86885SCheng Sean Ye
1045e4b86885SCheng Sean Ye int mc_swapdonetime = 30; /* max number of seconds to wait for SwapDone */
1046e4b86885SCheng Sean Ye
1047e4b86885SCheng Sean Ye static int
mc_onlinespare(mc_t * mc,int csnum)1048e4b86885SCheng Sean Ye mc_onlinespare(mc_t *mc, int csnum)
1049e4b86885SCheng Sean Ye {
1050e4b86885SCheng Sean Ye mc_props_t *mcp = &mc->mc_props;
1051e4b86885SCheng Sean Ye union mcreg_sparectl sparectl;
1052e4b86885SCheng Sean Ye union mcreg_scrubctl scrubctl;
1053e4b86885SCheng Sean Ye mc_cs_t *mccs;
1054e4b86885SCheng Sean Ye hrtime_t tmax;
1055e4b86885SCheng Sean Ye int i = 0;
1056e4b86885SCheng Sean Ye
1057e4b86885SCheng Sean Ye ASSERT(RW_WRITE_HELD(&mc_lock));
1058e4b86885SCheng Sean Ye
1059e4b86885SCheng Sean Ye if (!MC_REV_MATCH(mcp->mcp_rev, MC_F_REVS_FG))
1060e4b86885SCheng Sean Ye return (ENOTSUP); /* MC rev does not offer online spare */
1061e4b86885SCheng Sean Ye else if (mcp->mcp_sparecs == MC_INVALNUM)
1062e4b86885SCheng Sean Ye return (ENODEV); /* Supported, but no spare configured */
1063e4b86885SCheng Sean Ye else if (mcp->mcp_badcs != MC_INVALNUM)
1064e4b86885SCheng Sean Ye return (EBUSY); /* Spare already swapped in */
1065e4b86885SCheng Sean Ye else if (csnum == mcp->mcp_sparecs)
1066e4b86885SCheng Sean Ye return (EINVAL); /* Can't spare the spare! */
1067e4b86885SCheng Sean Ye
1068e4b86885SCheng Sean Ye for (mccs = mc->mc_cslist; mccs != NULL; mccs = mccs->mccs_next) {
1069e4b86885SCheng Sean Ye if (mccs->mccs_props.csp_num == csnum)
1070e4b86885SCheng Sean Ye break;
1071e4b86885SCheng Sean Ye }
1072e4b86885SCheng Sean Ye if (mccs == NULL)
1073e4b86885SCheng Sean Ye return (EINVAL); /* nominated bad CS does not exist */
1074e4b86885SCheng Sean Ye
1075e4b86885SCheng Sean Ye /*
1076e4b86885SCheng Sean Ye * If the DRAM Scrubber is not enabled then the swap cannot succeed.
1077e4b86885SCheng Sean Ye */
1078e4b86885SCheng Sean Ye MCREG_VAL32(&scrubctl) = mc_pcicfg_get32_nohdl(mc, MC_FUNC_MISCCTL,
1079e4b86885SCheng Sean Ye MC_CTL_REG_SCRUBCTL);
1080e4b86885SCheng Sean Ye if (MCREG_FIELD_CMN(&scrubctl, DramScrub) == 0)
1081e4b86885SCheng Sean Ye return (ENODEV); /* DRAM scrubber not enabled */
1082e4b86885SCheng Sean Ye
1083e4b86885SCheng Sean Ye /*
1084e4b86885SCheng Sean Ye * Read Online Spare Comtrol Register again, just in case our
1085e4b86885SCheng Sean Ye * state does not reflect reality.
1086e4b86885SCheng Sean Ye */
1087e4b86885SCheng Sean Ye MCREG_VAL32(&sparectl) = mc_pcicfg_get32_nohdl(mc, MC_FUNC_MISCCTL,
1088e4b86885SCheng Sean Ye MC_CTL_REG_SPARECTL);
1089e4b86885SCheng Sean Ye
1090e4b86885SCheng Sean Ye if (MCREG_FIELD_F_revFG(&sparectl, SwapDone))
1091e4b86885SCheng Sean Ye return (EBUSY);
1092e4b86885SCheng Sean Ye
1093e4b86885SCheng Sean Ye /* Write to the BadDramCs field */
1094e4b86885SCheng Sean Ye MCREG_FIELD_F_revFG(&sparectl, BadDramCs) = csnum;
1095e4b86885SCheng Sean Ye mc_pcicfg_put32_nohdl(mc, MC_FUNC_MISCCTL, MC_CTL_REG_SPARECTL,
1096e4b86885SCheng Sean Ye MCREG_VAL32(&sparectl));
1097e4b86885SCheng Sean Ye
1098e4b86885SCheng Sean Ye /* And request that the swap to the spare start */
1099e4b86885SCheng Sean Ye MCREG_FIELD_F_revFG(&sparectl, SwapEn) = 1;
1100e4b86885SCheng Sean Ye mc_pcicfg_put32_nohdl(mc, MC_FUNC_MISCCTL, MC_CTL_REG_SPARECTL,
1101e4b86885SCheng Sean Ye MCREG_VAL32(&sparectl));
1102e4b86885SCheng Sean Ye
1103e4b86885SCheng Sean Ye /*
1104e4b86885SCheng Sean Ye * Poll for SwapDone - we have disabled notification by interrupt.
1105e4b86885SCheng Sean Ye * Swap takes "several CPU cycles, depending on the DRAM speed, but
1106e4b86885SCheng Sean Ye * is performed in the background" (Family 0Fh Bios Porting Guide).
1107e4b86885SCheng Sean Ye * We're in a slow ioctl path so there is no harm in waiting around
1108e4b86885SCheng Sean Ye * a bit - consumers of the ioctl must be aware that it may take
1109e4b86885SCheng Sean Ye * a moment. We will poll for up to mc_swapdonetime seconds,
1110e4b86885SCheng Sean Ye * limiting that to 120s.
1111e4b86885SCheng Sean Ye *
1112e4b86885SCheng Sean Ye * The swap is performed by the DRAM scrubber (which must be enabled)
1113e4b86885SCheng Sean Ye * whose scrub rate is accelerated for the duration of the swap.
1114e4b86885SCheng Sean Ye * The maximum swap rate is 40.0ns per 64 bytes, so the maximum
1115e4b86885SCheng Sean Ye * supported cs size of 16GB would take 10.7s at that max rate
1116e4b86885SCheng Sean Ye * of 25000000 scrubs/second.
1117e4b86885SCheng Sean Ye */
1118e4b86885SCheng Sean Ye tmax = gethrtime() + MIN(mc_swapdonetime, 120) * 1000000000ULL;
1119e4b86885SCheng Sean Ye do {
1120e4b86885SCheng Sean Ye if (i++ < 20)
1121e4b86885SCheng Sean Ye delay(drv_usectohz(100000)); /* 0.1s for up to 2s */
1122e4b86885SCheng Sean Ye else
1123e4b86885SCheng Sean Ye delay(drv_usectohz(500000)); /* 0.5s */
1124e4b86885SCheng Sean Ye
1125e4b86885SCheng Sean Ye MCREG_VAL32(&sparectl) = mc_pcicfg_get32_nohdl(mc,
1126e4b86885SCheng Sean Ye MC_FUNC_MISCCTL, MC_CTL_REG_SPARECTL);
1127e4b86885SCheng Sean Ye } while (!MCREG_FIELD_F_revFG(&sparectl, SwapDone) &&
1128e4b86885SCheng Sean Ye gethrtime() < tmax);
1129e4b86885SCheng Sean Ye
1130e4b86885SCheng Sean Ye if (!MCREG_FIELD_F_revFG(&sparectl, SwapDone))
1131e4b86885SCheng Sean Ye return (ETIME); /* Operation timed out */
1132e4b86885SCheng Sean Ye
1133e4b86885SCheng Sean Ye mcp->mcp_badcs = csnum;
1134e4b86885SCheng Sean Ye mc->mc_cfgregs.mcr_sparectl = MCREG_VAL32(&sparectl);
1135e4b86885SCheng Sean Ye mc->mc_spareswaptime = gethrtime();
1136e4b86885SCheng Sean Ye
1137e4b86885SCheng Sean Ye return (0);
1138e4b86885SCheng Sean Ye }
1139e4b86885SCheng Sean Ye
1140e4b86885SCheng Sean Ye /*ARGSUSED*/
1141e4b86885SCheng Sean Ye static int
mc_ioctl(dev_t dev,int cmd,intptr_t arg,int mode,cred_t * credp,int * rvalp)1142e4b86885SCheng Sean Ye mc_ioctl(dev_t dev, int cmd, intptr_t arg, int mode, cred_t *credp, int *rvalp)
1143e4b86885SCheng Sean Ye {
1144e4b86885SCheng Sean Ye int rc = 0;
1145e4b86885SCheng Sean Ye mc_t *mc;
1146e4b86885SCheng Sean Ye
1147e4b86885SCheng Sean Ye if (cmd != MC_IOC_SNAPSHOT_INFO && cmd != MC_IOC_SNAPSHOT &&
1148e4b86885SCheng Sean Ye cmd != MC_IOC_ONLINESPARE_EN)
1149e4b86885SCheng Sean Ye return (EINVAL);
1150e4b86885SCheng Sean Ye
1151e4b86885SCheng Sean Ye rw_enter(&mc_lock, RW_READER);
1152e4b86885SCheng Sean Ye
1153e4b86885SCheng Sean Ye if ((mc = mc_lookup_by_chipid(getminor(dev))) == NULL) {
1154e4b86885SCheng Sean Ye rw_exit(&mc_lock);
1155e4b86885SCheng Sean Ye return (EINVAL);
1156e4b86885SCheng Sean Ye }
1157e4b86885SCheng Sean Ye
1158e4b86885SCheng Sean Ye switch (cmd) {
1159e4b86885SCheng Sean Ye case MC_IOC_SNAPSHOT_INFO: {
1160e4b86885SCheng Sean Ye mc_snapshot_info_t mcs;
1161e4b86885SCheng Sean Ye
1162e4b86885SCheng Sean Ye if (mc_snapshot_update(mc) < 0) {
1163e4b86885SCheng Sean Ye rw_exit(&mc_lock);
1164e4b86885SCheng Sean Ye return (EIO);
1165e4b86885SCheng Sean Ye }
1166e4b86885SCheng Sean Ye
1167e4b86885SCheng Sean Ye mcs.mcs_size = mc->mc_snapshotsz;
1168e4b86885SCheng Sean Ye mcs.mcs_gen = mc->mc_snapshotgen;
1169e4b86885SCheng Sean Ye
1170e4b86885SCheng Sean Ye if (ddi_copyout(&mcs, (void *)arg, sizeof (mc_snapshot_info_t),
1171e4b86885SCheng Sean Ye mode) < 0)
1172e4b86885SCheng Sean Ye rc = EFAULT;
1173e4b86885SCheng Sean Ye break;
1174e4b86885SCheng Sean Ye }
1175e4b86885SCheng Sean Ye
1176e4b86885SCheng Sean Ye case MC_IOC_SNAPSHOT:
1177e4b86885SCheng Sean Ye if (mc_snapshot_update(mc) < 0) {
1178e4b86885SCheng Sean Ye rw_exit(&mc_lock);
1179e4b86885SCheng Sean Ye return (EIO);
1180e4b86885SCheng Sean Ye }
1181e4b86885SCheng Sean Ye
1182e4b86885SCheng Sean Ye if (ddi_copyout(mc->mc_snapshot, (void *)arg, mc->mc_snapshotsz,
1183e4b86885SCheng Sean Ye mode) < 0)
1184e4b86885SCheng Sean Ye rc = EFAULT;
1185e4b86885SCheng Sean Ye break;
1186e4b86885SCheng Sean Ye
1187e4b86885SCheng Sean Ye case MC_IOC_ONLINESPARE_EN:
1188e4b86885SCheng Sean Ye if (drv_priv(credp) != 0) {
1189e4b86885SCheng Sean Ye rw_exit(&mc_lock);
1190e4b86885SCheng Sean Ye return (EPERM);
1191e4b86885SCheng Sean Ye }
1192e4b86885SCheng Sean Ye
1193e4b86885SCheng Sean Ye if (!rw_tryupgrade(&mc_lock)) {
1194e4b86885SCheng Sean Ye rw_exit(&mc_lock);
1195e4b86885SCheng Sean Ye return (EAGAIN);
1196e4b86885SCheng Sean Ye }
1197e4b86885SCheng Sean Ye
1198e4b86885SCheng Sean Ye if ((rc = mc_onlinespare(mc, (int)arg)) == 0) {
1199e4b86885SCheng Sean Ye mc_snapshot_destroy(mc);
1200e4b86885SCheng Sean Ye nvlist_free(mc->mc_nvl);
1201e4b86885SCheng Sean Ye mc->mc_nvl = mc_nvl_create(mc);
1202e4b86885SCheng Sean Ye }
1203e4b86885SCheng Sean Ye
1204e4b86885SCheng Sean Ye break;
1205e4b86885SCheng Sean Ye }
1206e4b86885SCheng Sean Ye
1207e4b86885SCheng Sean Ye rw_exit(&mc_lock);
1208e4b86885SCheng Sean Ye
1209e4b86885SCheng Sean Ye return (rc);
1210e4b86885SCheng Sean Ye }
1211e4b86885SCheng Sean Ye
1212e4b86885SCheng Sean Ye static struct cb_ops mc_cb_ops = {
1213e4b86885SCheng Sean Ye mc_open,
1214e4b86885SCheng Sean Ye mc_close,
1215e4b86885SCheng Sean Ye nodev, /* not a block driver */
1216e4b86885SCheng Sean Ye nodev, /* no print routine */
1217e4b86885SCheng Sean Ye nodev, /* no dump routine */
1218e4b86885SCheng Sean Ye nodev, /* no read routine */
1219e4b86885SCheng Sean Ye nodev, /* no write routine */
1220e4b86885SCheng Sean Ye mc_ioctl,
1221e4b86885SCheng Sean Ye nodev, /* no devmap routine */
1222e4b86885SCheng Sean Ye nodev, /* no mmap routine */
1223e4b86885SCheng Sean Ye nodev, /* no segmap routine */
1224e4b86885SCheng Sean Ye nochpoll, /* no chpoll routine */
1225e4b86885SCheng Sean Ye ddi_prop_op,
1226e4b86885SCheng Sean Ye 0, /* not a STREAMS driver */
1227e4b86885SCheng Sean Ye D_NEW | D_MP, /* safe for multi-thread/multi-processor */
1228e4b86885SCheng Sean Ye };
1229e4b86885SCheng Sean Ye
1230e4b86885SCheng Sean Ye /*ARGSUSED*/
1231e4b86885SCheng Sean Ye static int
mc_getinfo(dev_info_t * dip,ddi_info_cmd_t infocmd,void * arg,void ** result)1232e4b86885SCheng Sean Ye mc_getinfo(dev_info_t *dip, ddi_info_cmd_t infocmd, void *arg, void **result)
1233e4b86885SCheng Sean Ye {
1234e4b86885SCheng Sean Ye int rc = DDI_SUCCESS;
1235e4b86885SCheng Sean Ye mc_t *mc;
1236e4b86885SCheng Sean Ye
1237e4b86885SCheng Sean Ye if (infocmd != DDI_INFO_DEVT2DEVINFO &&
1238e4b86885SCheng Sean Ye infocmd != DDI_INFO_DEVT2INSTANCE) {
1239e4b86885SCheng Sean Ye *result = NULL;
1240e4b86885SCheng Sean Ye return (DDI_FAILURE);
1241e4b86885SCheng Sean Ye }
1242e4b86885SCheng Sean Ye
1243e4b86885SCheng Sean Ye rw_enter(&mc_lock, RW_READER);
1244e4b86885SCheng Sean Ye
1245e4b86885SCheng Sean Ye if ((mc = mc_lookup_by_chipid(getminor((dev_t)arg))) == NULL ||
1246e4b86885SCheng Sean Ye mc->mc_funcs[MC_FUNC_DEVIMAP].mcf_devi == NULL) {
1247e4b86885SCheng Sean Ye rc = DDI_FAILURE;
1248e4b86885SCheng Sean Ye } else if (infocmd == DDI_INFO_DEVT2DEVINFO) {
1249e4b86885SCheng Sean Ye *result = mc->mc_funcs[MC_FUNC_DEVIMAP].mcf_devi;
1250e4b86885SCheng Sean Ye } else {
1251e4b86885SCheng Sean Ye *result = (void *)(uintptr_t)
1252e4b86885SCheng Sean Ye mc->mc_funcs[MC_FUNC_DEVIMAP].mcf_instance;
1253e4b86885SCheng Sean Ye }
1254e4b86885SCheng Sean Ye
1255e4b86885SCheng Sean Ye rw_exit(&mc_lock);
1256e4b86885SCheng Sean Ye
1257e4b86885SCheng Sean Ye return (rc);
1258e4b86885SCheng Sean Ye }
1259e4b86885SCheng Sean Ye
1260e4b86885SCheng Sean Ye /*ARGSUSED2*/
1261e4b86885SCheng Sean Ye static int
mc_fm_handle(dev_info_t * dip,ddi_fm_error_t * fmerr,const void * arg)1262e4b86885SCheng Sean Ye mc_fm_handle(dev_info_t *dip, ddi_fm_error_t *fmerr, const void *arg)
1263e4b86885SCheng Sean Ye {
1264e4b86885SCheng Sean Ye pci_ereport_post(dip, fmerr, NULL);
1265e4b86885SCheng Sean Ye return (fmerr->fme_status);
1266e4b86885SCheng Sean Ye }
1267e4b86885SCheng Sean Ye
1268e4b86885SCheng Sean Ye static void
mc_fm_init(dev_info_t * dip)1269e4b86885SCheng Sean Ye mc_fm_init(dev_info_t *dip)
1270e4b86885SCheng Sean Ye {
1271e4b86885SCheng Sean Ye int fmcap = DDI_FM_EREPORT_CAPABLE | DDI_FM_ERRCB_CAPABLE;
1272e4b86885SCheng Sean Ye ddi_fm_init(dip, &fmcap, NULL);
1273e4b86885SCheng Sean Ye pci_ereport_setup(dip);
1274e4b86885SCheng Sean Ye ddi_fm_handler_register(dip, mc_fm_handle, NULL);
1275e4b86885SCheng Sean Ye }
1276e4b86885SCheng Sean Ye
1277074bb90dSTom Pothier static void
mc_read_smbios(mc_t * mc,dev_info_t * dip)1278074bb90dSTom Pothier mc_read_smbios(mc_t *mc, dev_info_t *dip)
1279074bb90dSTom Pothier {
1280074bb90dSTom Pothier
1281074bb90dSTom Pothier uint16_t bdf;
1282f32a9dd1SSrihari Venkatesan pci_regspec_t *pci_rp = NULL;
1283074bb90dSTom Pothier uint32_t phys_hi;
1284f32a9dd1SSrihari Venkatesan int m = 0;
1285074bb90dSTom Pothier uint_t chip_inst;
1286074bb90dSTom Pothier int rc = 0;
1287074bb90dSTom Pothier
1288074bb90dSTom Pothier if (ddi_getlongprop(DDI_DEV_T_ANY, dip, DDI_PROP_DONTPASS, "reg",
1289074bb90dSTom Pothier (caddr_t)&pci_rp, &m) == DDI_SUCCESS) {
1290074bb90dSTom Pothier phys_hi = pci_rp->pci_phys_hi;
1291074bb90dSTom Pothier bdf = (uint16_t)(PCI_REG_BDFR_G(phys_hi) >>
1292074bb90dSTom Pothier PCI_REG_FUNC_SHIFT);
1293f32a9dd1SSrihari Venkatesan kmem_free(pci_rp, m);
1294f32a9dd1SSrihari Venkatesan pci_rp = NULL;
1295074bb90dSTom Pothier
1296074bb90dSTom Pothier rc = fm_smb_mc_chipinst(bdf, &chip_inst);
1297074bb90dSTom Pothier if (rc == 0) {
1298074bb90dSTom Pothier mc->smb_chipid = chip_inst;
1299074bb90dSTom Pothier } else {
1300074bb90dSTom Pothier #ifdef DEBUG
1301*97689f66SSrihari Venkatesan cmn_err(CE_NOTE, "!mc read smbios chip info failed");
1302074bb90dSTom Pothier #endif /* DEBUG */
1303074bb90dSTom Pothier return;
1304074bb90dSTom Pothier }
1305074bb90dSTom Pothier mc->smb_bboard = fm_smb_mc_bboards(bdf);
1306074bb90dSTom Pothier #ifdef DEBUG
1307074bb90dSTom Pothier if (mc->smb_bboard == NULL)
1308074bb90dSTom Pothier cmn_err(CE_NOTE,
1309*97689f66SSrihari Venkatesan "!mc read smbios base boards info failed");
1310074bb90dSTom Pothier #endif /* DEBUG */
1311074bb90dSTom Pothier }
1312f32a9dd1SSrihari Venkatesan
1313f32a9dd1SSrihari Venkatesan if (pci_rp != NULL)
1314f32a9dd1SSrihari Venkatesan kmem_free(pci_rp, m);
1315074bb90dSTom Pothier }
1316074bb90dSTom Pothier
1317e4b86885SCheng Sean Ye /*ARGSUSED*/
1318e4b86885SCheng Sean Ye static int
mc_create_cb(cmi_hdl_t whdl,void * arg1,void * arg2,void * arg3)1319e4b86885SCheng Sean Ye mc_create_cb(cmi_hdl_t whdl, void *arg1, void *arg2, void *arg3)
1320e4b86885SCheng Sean Ye {
1321e4b86885SCheng Sean Ye chipid_t chipid = *((chipid_t *)arg1);
1322e4b86885SCheng Sean Ye cmi_hdl_t *hdlp = (cmi_hdl_t *)arg2;
1323e4b86885SCheng Sean Ye
1324e4b86885SCheng Sean Ye if (cmi_hdl_chipid(whdl) == chipid) {
1325e4b86885SCheng Sean Ye cmi_hdl_hold(whdl); /* short-term hold */
1326e4b86885SCheng Sean Ye *hdlp = whdl;
1327e4b86885SCheng Sean Ye return (CMI_HDL_WALK_DONE);
1328e4b86885SCheng Sean Ye } else {
1329e4b86885SCheng Sean Ye return (CMI_HDL_WALK_NEXT);
1330e4b86885SCheng Sean Ye }
1331e4b86885SCheng Sean Ye }
1332e4b86885SCheng Sean Ye
1333e4b86885SCheng Sean Ye static mc_t *
mc_create(chipid_t chipid,dev_info_t * dip)1334074bb90dSTom Pothier mc_create(chipid_t chipid, dev_info_t *dip)
1335e4b86885SCheng Sean Ye {
1336e4b86885SCheng Sean Ye mc_t *mc;
1337e4b86885SCheng Sean Ye cmi_hdl_t hdl = NULL;
1338e4b86885SCheng Sean Ye
1339e4b86885SCheng Sean Ye ASSERT(RW_WRITE_HELD(&mc_lock));
1340e4b86885SCheng Sean Ye
1341e4b86885SCheng Sean Ye /*
1342e4b86885SCheng Sean Ye * Find a handle for one of a chip's CPU.
1343e4b86885SCheng Sean Ye *
1344e4b86885SCheng Sean Ye * We can use one of the chip's CPUs since all cores
1345e4b86885SCheng Sean Ye * of a chip share the same revision and socket type.
1346e4b86885SCheng Sean Ye */
1347e4b86885SCheng Sean Ye cmi_hdl_walk(mc_create_cb, (void *)&chipid, (void *)&hdl, NULL);
1348e4b86885SCheng Sean Ye if (hdl == NULL)
1349e4b86885SCheng Sean Ye return (NULL); /* no cpu for this chipid found! */
1350e4b86885SCheng Sean Ye
1351e4b86885SCheng Sean Ye mc = kmem_zalloc(sizeof (mc_t), KM_SLEEP);
1352e4b86885SCheng Sean Ye
1353e4b86885SCheng Sean Ye mc->mc_hdr.mch_type = MC_NT_MC;
1354e4b86885SCheng Sean Ye mc->mc_props.mcp_num = chipid;
1355e4b86885SCheng Sean Ye mc->mc_props.mcp_sparecs = MC_INVALNUM;
1356e4b86885SCheng Sean Ye mc->mc_props.mcp_badcs = MC_INVALNUM;
1357e4b86885SCheng Sean Ye
1358e4b86885SCheng Sean Ye mc->mc_props.mcp_rev = cmi_hdl_chiprev(hdl);
1359e4b86885SCheng Sean Ye mc->mc_revname = cmi_hdl_chiprevstr(hdl);
1360e4b86885SCheng Sean Ye mc->mc_socket = cmi_hdl_getsockettype(hdl);
1361e4b86885SCheng Sean Ye
1362074bb90dSTom Pothier mc_read_smbios(mc, dip);
1363074bb90dSTom Pothier
1364e4b86885SCheng Sean Ye if (mc_list == NULL)
1365e4b86885SCheng Sean Ye mc_list = mc;
1366e4b86885SCheng Sean Ye if (mc_last != NULL)
1367e4b86885SCheng Sean Ye mc_last->mc_next = mc;
1368e4b86885SCheng Sean Ye
1369e4b86885SCheng Sean Ye mc->mc_next = NULL;
1370e4b86885SCheng Sean Ye mc_last = mc;
1371e4b86885SCheng Sean Ye
1372e4b86885SCheng Sean Ye cmi_hdl_rele(hdl);
1373e4b86885SCheng Sean Ye
1374e4b86885SCheng Sean Ye return (mc);
1375e4b86885SCheng Sean Ye }
1376e4b86885SCheng Sean Ye
1377e4b86885SCheng Sean Ye /*
1378e4b86885SCheng Sean Ye * Return the maximum scrubbing rate between r1 and r2, where r2 is extracted
1379e4b86885SCheng Sean Ye * from the specified 'cfg' register value using 'mask' and 'shift'. If a
1380e4b86885SCheng Sean Ye * value is zero, scrubbing is off so return the opposite value. Otherwise
1381e4b86885SCheng Sean Ye * the maximum rate is the smallest non-zero value of the two values.
1382e4b86885SCheng Sean Ye */
1383e4b86885SCheng Sean Ye static uint32_t
mc_scrubber_max(uint32_t r1,uint32_t cfg,uint32_t mask,uint32_t shift)1384e4b86885SCheng Sean Ye mc_scrubber_max(uint32_t r1, uint32_t cfg, uint32_t mask, uint32_t shift)
1385e4b86885SCheng Sean Ye {
1386e4b86885SCheng Sean Ye uint32_t r2 = (cfg & mask) >> shift;
1387e4b86885SCheng Sean Ye
1388e4b86885SCheng Sean Ye if (r1 != 0 && r2 != 0)
1389e4b86885SCheng Sean Ye return (MIN(r1, r2));
1390e4b86885SCheng Sean Ye
1391e4b86885SCheng Sean Ye return (r1 ? r1 : r2);
1392e4b86885SCheng Sean Ye }
1393e4b86885SCheng Sean Ye
1394e4b86885SCheng Sean Ye
1395e4b86885SCheng Sean Ye /*
1396e4b86885SCheng Sean Ye * Enable the memory scrubber. We must use the mc_pcicfg_{get32,put32}_nohdl
1397e4b86885SCheng Sean Ye * interfaces since we do not bind to function 3.
1398e4b86885SCheng Sean Ye */
1399e4b86885SCheng Sean Ye cmi_errno_t
mc_scrubber_enable(mc_t * mc)1400e4b86885SCheng Sean Ye mc_scrubber_enable(mc_t *mc)
1401e4b86885SCheng Sean Ye {
1402e4b86885SCheng Sean Ye mc_props_t *mcp = &mc->mc_props;
140392420f62SSurya Prakki chipid_t chipid = (chipid_t)mcp->mcp_num;
140492420f62SSurya Prakki uint32_t rev = (uint32_t)mcp->mcp_rev;
1405e4b86885SCheng Sean Ye mc_cfgregs_t *mcr = &mc->mc_cfgregs;
1406e4b86885SCheng Sean Ye union mcreg_scrubctl scrubctl;
1407e4b86885SCheng Sean Ye union mcreg_dramscrublo dalo;
1408e4b86885SCheng Sean Ye union mcreg_dramscrubhi dahi;
1409e4b86885SCheng Sean Ye
1410e4b86885SCheng Sean Ye mcr->mcr_scrubctl = MCREG_VAL32(&scrubctl) =
1411e4b86885SCheng Sean Ye mc_pcicfg_get32_nohdl(mc, MC_FUNC_MISCCTL, MC_CTL_REG_SCRUBCTL);
1412e4b86885SCheng Sean Ye
1413e4b86885SCheng Sean Ye mcr->mcr_scrubaddrlo = MCREG_VAL32(&dalo) =
1414e4b86885SCheng Sean Ye mc_pcicfg_get32_nohdl(mc, MC_FUNC_MISCCTL, MC_CTL_REG_SCRUBADDR_LO);
1415e4b86885SCheng Sean Ye
1416e4b86885SCheng Sean Ye mcr->mcr_scrubaddrhi = MCREG_VAL32(&dahi) =
1417e4b86885SCheng Sean Ye mc_pcicfg_get32_nohdl(mc, MC_FUNC_MISCCTL, MC_CTL_REG_SCRUBADDR_HI);
1418e4b86885SCheng Sean Ye
1419e4b86885SCheng Sean Ye if (mc_scrub_policy == MC_SCRUB_BIOSDEFAULT)
1420e4b86885SCheng Sean Ye return (MCREG_FIELD_CMN(&scrubctl, DramScrub) !=
1421e4b86885SCheng Sean Ye AMD_NB_SCRUBCTL_RATE_NONE ?
1422e4b86885SCheng Sean Ye CMI_SUCCESS : CMIERR_MC_NOMEMSCRUB);
1423e4b86885SCheng Sean Ye
1424e4b86885SCheng Sean Ye /*
1425e4b86885SCheng Sean Ye * Disable DRAM scrubbing while we fiddle.
1426e4b86885SCheng Sean Ye */
1427e4b86885SCheng Sean Ye MCREG_FIELD_CMN(&scrubctl, DramScrub) = AMD_NB_SCRUBCTL_RATE_NONE;
1428e4b86885SCheng Sean Ye mc_pcicfg_put32_nohdl(mc, MC_FUNC_MISCCTL, MC_CTL_REG_SCRUBCTL,
1429e4b86885SCheng Sean Ye MCREG_VAL32(&scrubctl));
1430e4b86885SCheng Sean Ye
1431e4b86885SCheng Sean Ye /*
1432e4b86885SCheng Sean Ye * Setup DRAM Scrub Address Low and High registers for the
1433e4b86885SCheng Sean Ye * base address of this node, and to select srubber redirect.
1434e4b86885SCheng Sean Ye */
1435e4b86885SCheng Sean Ye MCREG_FIELD_CMN(&dalo, ScrubReDirEn) = 1;
1436e4b86885SCheng Sean Ye MCREG_FIELD_CMN(&dalo, ScrubAddrLo) =
1437e4b86885SCheng Sean Ye AMD_NB_SCRUBADDR_MKLO(mcp->mcp_base);
1438e4b86885SCheng Sean Ye
1439e4b86885SCheng Sean Ye MCREG_FIELD_CMN(&dahi, ScrubAddrHi) =
1440e4b86885SCheng Sean Ye AMD_NB_SCRUBADDR_MKHI(mcp->mcp_base);
1441e4b86885SCheng Sean Ye
1442e4b86885SCheng Sean Ye mc_pcicfg_put32_nohdl(mc, MC_FUNC_MISCCTL, MC_CTL_REG_SCRUBADDR_LO,
1443e4b86885SCheng Sean Ye MCREG_VAL32(&dalo));
1444e4b86885SCheng Sean Ye mc_pcicfg_put32_nohdl(mc, MC_FUNC_MISCCTL, MC_CTL_REG_SCRUBADDR_HI,
1445e4b86885SCheng Sean Ye MCREG_VAL32(&dahi));
1446e4b86885SCheng Sean Ye
1447e4b86885SCheng Sean Ye if (mc_scrub_rate_dram > AMD_NB_SCRUBCTL_RATE_MAX) {
1448e4b86885SCheng Sean Ye cmn_err(CE_WARN, "mc_scrub_rate_dram is too large; "
1449e4b86885SCheng Sean Ye "resetting to 0x%x\n", AMD_NB_SCRUBCTL_RATE_MAX);
1450e4b86885SCheng Sean Ye mc_scrub_rate_dram = AMD_NB_SCRUBCTL_RATE_MAX;
1451e4b86885SCheng Sean Ye }
1452e4b86885SCheng Sean Ye
1453e4b86885SCheng Sean Ye switch (mc_scrub_policy) {
1454e4b86885SCheng Sean Ye case MC_SCRUB_FIXED:
1455e4b86885SCheng Sean Ye /* Use the system value checked above */
1456e4b86885SCheng Sean Ye break;
1457e4b86885SCheng Sean Ye
1458e4b86885SCheng Sean Ye default:
1459e4b86885SCheng Sean Ye cmn_err(CE_WARN, "Unknown mc_scrub_policy value %d - "
1460e4b86885SCheng Sean Ye "using default policy of MC_SCRUB_MAX", mc_scrub_policy);
1461e4b86885SCheng Sean Ye /*FALLTHRU*/
1462e4b86885SCheng Sean Ye
1463e4b86885SCheng Sean Ye case MC_SCRUB_MAX:
1464e4b86885SCheng Sean Ye mc_scrub_rate_dram = mc_scrubber_max(mc_scrub_rate_dram,
1465e4b86885SCheng Sean Ye mcr->mcr_scrubctl, AMD_NB_SCRUBCTL_DRAM_MASK,
1466e4b86885SCheng Sean Ye AMD_NB_SCRUBCTL_DRAM_SHIFT);
1467e4b86885SCheng Sean Ye break;
1468e4b86885SCheng Sean Ye }
1469e4b86885SCheng Sean Ye
1470e4b86885SCheng Sean Ye /*
147192420f62SSurya Prakki * OPTERON_ERRATUM_99:
1472e4b86885SCheng Sean Ye * This erratum applies on revisions D and earlier.
14737d586c73SSurya Prakki * This erratum also applies on revisions E and later,
14747d586c73SSurya Prakki * if BIOS uses chip-select hoisting instead of DRAM hole
14757d586c73SSurya Prakki * mapping.
1476e4b86885SCheng Sean Ye *
14777d586c73SSurya Prakki * Do not enable the dram scrubber if the chip-select ranges
1478e4b86885SCheng Sean Ye * for the node are not contiguous.
1479e4b86885SCheng Sean Ye */
1480e4b86885SCheng Sean Ye if (mc_scrub_rate_dram != AMD_NB_SCRUBCTL_RATE_NONE &&
148192420f62SSurya Prakki mc->mc_csdiscontig) {
1482e4b86885SCheng Sean Ye cmn_err(CE_CONT, "?Opteron DRAM scrubber disabled on revision "
1483e4b86885SCheng Sean Ye "%s chip %d because DRAM hole is present on this node",
1484e4b86885SCheng Sean Ye mc->mc_revname, chipid);
1485e4b86885SCheng Sean Ye mc_scrub_rate_dram = AMD_NB_SCRUBCTL_RATE_NONE;
1486e4b86885SCheng Sean Ye }
1487e4b86885SCheng Sean Ye
1488e4b86885SCheng Sean Ye /*
148992420f62SSurya Prakki * OPTERON_ERRATUM_101:
1490e4b86885SCheng Sean Ye * This erratum applies on revisions D and earlier.
1491e4b86885SCheng Sean Ye *
1492e4b86885SCheng Sean Ye * If the DRAM Base Address register's IntlvEn field indicates that
1493e4b86885SCheng Sean Ye * node interleaving is enabled, we must disable the DRAM scrubber
1494e4b86885SCheng Sean Ye * and return zero to indicate that Solaris should use s/w instead.
1495e4b86885SCheng Sean Ye */
1496e4b86885SCheng Sean Ye if (mc_scrub_rate_dram != AMD_NB_SCRUBCTL_RATE_NONE &&
1497e4b86885SCheng Sean Ye mcp->mcp_ilen != 0 &&
1498e4b86885SCheng Sean Ye !X86_CHIPREV_ATLEAST(rev, X86_CHIPREV_AMD_F_REV_E)) {
1499e4b86885SCheng Sean Ye cmn_err(CE_CONT, "?Opteron DRAM scrubber disabled on revision "
1500e4b86885SCheng Sean Ye "%s chip %d because DRAM memory is node-interleaved",
1501e4b86885SCheng Sean Ye mc->mc_revname, chipid);
1502e4b86885SCheng Sean Ye mc_scrub_rate_dram = AMD_NB_SCRUBCTL_RATE_NONE;
1503e4b86885SCheng Sean Ye }
1504e4b86885SCheng Sean Ye
1505e4b86885SCheng Sean Ye if (mc_scrub_rate_dram != AMD_NB_SCRUBCTL_RATE_NONE) {
1506e4b86885SCheng Sean Ye MCREG_FIELD_CMN(&scrubctl, DramScrub) = mc_scrub_rate_dram;
1507e4b86885SCheng Sean Ye mc_pcicfg_put32_nohdl(mc, MC_FUNC_MISCCTL, MC_CTL_REG_SCRUBCTL,
1508e4b86885SCheng Sean Ye MCREG_VAL32(&scrubctl));
1509e4b86885SCheng Sean Ye }
1510e4b86885SCheng Sean Ye
1511e4b86885SCheng Sean Ye return (mc_scrub_rate_dram != AMD_NB_SCRUBCTL_RATE_NONE ?
1512e4b86885SCheng Sean Ye CMI_SUCCESS : CMIERR_MC_NOMEMSCRUB);
1513e4b86885SCheng Sean Ye }
1514e4b86885SCheng Sean Ye
1515e4b86885SCheng Sean Ye /*ARGSUSED*/
1516e4b86885SCheng Sean Ye static int
mc_attach_cb(cmi_hdl_t whdl,void * arg1,void * arg2,void * arg3)1517e4b86885SCheng Sean Ye mc_attach_cb(cmi_hdl_t whdl, void *arg1, void *arg2, void *arg3)
1518e4b86885SCheng Sean Ye {
1519e4b86885SCheng Sean Ye mc_t *mc = (mc_t *)arg1;
1520e4b86885SCheng Sean Ye mcamd_prop_t chipid = *((mcamd_prop_t *)arg2);
1521e4b86885SCheng Sean Ye
1522e4b86885SCheng Sean Ye if (cmi_hdl_chipid(whdl) == chipid) {
1523e4b86885SCheng Sean Ye mcamd_mc_register(whdl, mc);
1524e4b86885SCheng Sean Ye }
1525e4b86885SCheng Sean Ye
1526e4b86885SCheng Sean Ye return (CMI_HDL_WALK_NEXT);
1527e4b86885SCheng Sean Ye }
1528e4b86885SCheng Sean Ye
1529e4b86885SCheng Sean Ye static int mc_sw_scrub_disabled = 0;
1530e4b86885SCheng Sean Ye
1531e4b86885SCheng Sean Ye static int
mc_attach(dev_info_t * dip,ddi_attach_cmd_t cmd)1532e4b86885SCheng Sean Ye mc_attach(dev_info_t *dip, ddi_attach_cmd_t cmd)
1533e4b86885SCheng Sean Ye {
1534e4b86885SCheng Sean Ye mc_pcicfg_hdl_t cfghdl;
1535e4b86885SCheng Sean Ye const mc_bind_map_t *bm;
1536e4b86885SCheng Sean Ye const char *bindnm;
1537e4b86885SCheng Sean Ye char *unitstr = NULL;
1538e4b86885SCheng Sean Ye enum mc_funcnum func;
1539e4b86885SCheng Sean Ye long unitaddr;
1540e4b86885SCheng Sean Ye int chipid, rc;
1541e4b86885SCheng Sean Ye mc_t *mc;
1542e4b86885SCheng Sean Ye
1543e4b86885SCheng Sean Ye /*
1544e4b86885SCheng Sean Ye * This driver has no hardware state, but does
1545e4b86885SCheng Sean Ye * claim to have a reg property, so it will be
1546e4b86885SCheng Sean Ye * called on suspend. It is probably better to
1547e4b86885SCheng Sean Ye * make sure it doesn't get called on suspend,
1548e4b86885SCheng Sean Ye * but it is just as easy to make sure we just
1549e4b86885SCheng Sean Ye * return DDI_SUCCESS if called.
1550e4b86885SCheng Sean Ye */
1551e4b86885SCheng Sean Ye if (cmd == DDI_RESUME)
1552e4b86885SCheng Sean Ye return (DDI_SUCCESS);
1553e4b86885SCheng Sean Ye
1554e4b86885SCheng Sean Ye if (cmd != DDI_ATTACH || mc_no_attach != 0)
1555e4b86885SCheng Sean Ye return (DDI_FAILURE);
1556e4b86885SCheng Sean Ye
1557e4b86885SCheng Sean Ye bindnm = ddi_binding_name(dip);
1558e4b86885SCheng Sean Ye for (bm = mc_bind_map; bm->bm_bindnm != NULL; bm++) {
1559e4b86885SCheng Sean Ye if (strcmp(bindnm, bm->bm_bindnm) == 0) {
1560e4b86885SCheng Sean Ye func = bm->bm_func;
1561e4b86885SCheng Sean Ye break;
1562e4b86885SCheng Sean Ye }
1563e4b86885SCheng Sean Ye }
1564e4b86885SCheng Sean Ye
1565e4b86885SCheng Sean Ye if (bm->bm_bindnm == NULL)
1566e4b86885SCheng Sean Ye return (DDI_FAILURE);
1567e4b86885SCheng Sean Ye
1568e4b86885SCheng Sean Ye /*
1569e4b86885SCheng Sean Ye * We need the device number, which corresponds to the processor node
1570e4b86885SCheng Sean Ye * number plus 24. The node number can then be used to associate this
1571e4b86885SCheng Sean Ye * memory controller device with a given processor chip.
1572e4b86885SCheng Sean Ye */
1573e4b86885SCheng Sean Ye if (ddi_prop_lookup_string(DDI_DEV_T_ANY, dip,
1574e4b86885SCheng Sean Ye DDI_PROP_DONTPASS, "unit-address", &unitstr) != DDI_PROP_SUCCESS) {
1575e4b86885SCheng Sean Ye cmn_err(CE_WARN, "failed to find unit-address for %s", bindnm);
1576e4b86885SCheng Sean Ye return (DDI_FAILURE);
1577e4b86885SCheng Sean Ye }
1578e4b86885SCheng Sean Ye
1579e4b86885SCheng Sean Ye rc = ddi_strtol(unitstr, NULL, 16, &unitaddr);
1580e4b86885SCheng Sean Ye ASSERT(rc == 0 && unitaddr >= MC_AMD_DEV_OFFSET);
1581e4b86885SCheng Sean Ye
1582e4b86885SCheng Sean Ye if (rc != 0 || unitaddr < MC_AMD_DEV_OFFSET) {
1583e4b86885SCheng Sean Ye cmn_err(CE_WARN, "failed to parse unit address %s for %s\n",
1584e4b86885SCheng Sean Ye unitstr, bindnm);
1585e4b86885SCheng Sean Ye ddi_prop_free(unitstr);
1586e4b86885SCheng Sean Ye return (DDI_FAILURE);
1587e4b86885SCheng Sean Ye }
1588e4b86885SCheng Sean Ye ddi_prop_free(unitstr);
1589e4b86885SCheng Sean Ye
1590e4b86885SCheng Sean Ye chipid = unitaddr - MC_AMD_DEV_OFFSET;
1591e4b86885SCheng Sean Ye
1592e4b86885SCheng Sean Ye rw_enter(&mc_lock, RW_WRITER);
1593e4b86885SCheng Sean Ye
1594e4b86885SCheng Sean Ye for (mc = mc_list; mc != NULL; mc = mc->mc_next) {
1595e4b86885SCheng Sean Ye if (mc->mc_props.mcp_num == chipid)
1596e4b86885SCheng Sean Ye break;
1597e4b86885SCheng Sean Ye }
1598e4b86885SCheng Sean Ye
1599e4b86885SCheng Sean Ye /* Integrate this memory controller device into existing set */
1600e4b86885SCheng Sean Ye if (mc == NULL) {
1601074bb90dSTom Pothier mc = mc_create(chipid, dip);
1602e4b86885SCheng Sean Ye
1603e4b86885SCheng Sean Ye if (mc == NULL) {
1604e4b86885SCheng Sean Ye /*
1605e4b86885SCheng Sean Ye * We don't complain here because this is a legitimate
1606e4b86885SCheng Sean Ye * path for MP systems. On those machines, we'll attach
1607e4b86885SCheng Sean Ye * before all CPUs have been initialized, and thus the
1608e4b86885SCheng Sean Ye * chip verification in mc_create will fail. We'll be
1609e4b86885SCheng Sean Ye * reattached later for those CPUs.
1610e4b86885SCheng Sean Ye */
1611e4b86885SCheng Sean Ye rw_exit(&mc_lock);
1612e4b86885SCheng Sean Ye return (DDI_FAILURE);
1613e4b86885SCheng Sean Ye }
1614e4b86885SCheng Sean Ye } else {
1615e4b86885SCheng Sean Ye mc_snapshot_destroy(mc);
1616e4b86885SCheng Sean Ye }
1617e4b86885SCheng Sean Ye
1618e4b86885SCheng Sean Ye /* Beyond this point, we're committed to creating this node */
1619e4b86885SCheng Sean Ye
1620e4b86885SCheng Sean Ye mc_fm_init(dip);
1621e4b86885SCheng Sean Ye
1622e4b86885SCheng Sean Ye ASSERT(mc->mc_funcs[func].mcf_devi == NULL);
1623e4b86885SCheng Sean Ye mc->mc_funcs[func].mcf_devi = dip;
1624e4b86885SCheng Sean Ye mc->mc_funcs[func].mcf_instance = ddi_get_instance(dip);
1625e4b86885SCheng Sean Ye
1626e4b86885SCheng Sean Ye mc->mc_ref++;
1627e4b86885SCheng Sean Ye
1628e4b86885SCheng Sean Ye /*
1629e4b86885SCheng Sean Ye * Add the common properties to this node, and then add any properties
1630e4b86885SCheng Sean Ye * that are specific to this node based upon its configuration space.
1631e4b86885SCheng Sean Ye */
1632e4b86885SCheng Sean Ye (void) ddi_prop_update_string(DDI_DEV_T_NONE,
1633e4b86885SCheng Sean Ye dip, "model", (char *)bm->bm_model);
1634e4b86885SCheng Sean Ye
1635e4b86885SCheng Sean Ye (void) ddi_prop_update_int(DDI_DEV_T_NONE,
1636e4b86885SCheng Sean Ye dip, "chip-id", mc->mc_props.mcp_num);
1637e4b86885SCheng Sean Ye
1638e4b86885SCheng Sean Ye if (bm->bm_mkprops != NULL &&
1639e4b86885SCheng Sean Ye mc_pcicfg_setup(mc, bm->bm_func, &cfghdl) == DDI_SUCCESS) {
1640e4b86885SCheng Sean Ye bm->bm_mkprops(cfghdl, mc);
1641e4b86885SCheng Sean Ye mc_pcicfg_teardown(cfghdl);
1642e4b86885SCheng Sean Ye }
1643e4b86885SCheng Sean Ye
1644e4b86885SCheng Sean Ye /*
1645e4b86885SCheng Sean Ye * If this is the last node to be attached for this memory controller,
1646e4b86885SCheng Sean Ye * then create the minor node, enable scrubbers, and register with
1647e4b86885SCheng Sean Ye * cpu module(s) for this chip.
1648e4b86885SCheng Sean Ye */
1649e4b86885SCheng Sean Ye if (func == MC_FUNC_DEVIMAP) {
1650e4b86885SCheng Sean Ye mc_props_t *mcp = &mc->mc_props;
1651e4b86885SCheng Sean Ye int dram_present = 0;
1652e4b86885SCheng Sean Ye
1653e4b86885SCheng Sean Ye if (ddi_create_minor_node(dip, "mc-amd", S_IFCHR,
1654e4b86885SCheng Sean Ye mcp->mcp_num, "ddi_mem_ctrl",
1655e4b86885SCheng Sean Ye 0) != DDI_SUCCESS) {
1656e4b86885SCheng Sean Ye cmn_err(CE_WARN, "failed to create minor node for chip "
1657e4b86885SCheng Sean Ye "%d memory controller\n",
1658e4b86885SCheng Sean Ye (chipid_t)mcp->mcp_num);
1659e4b86885SCheng Sean Ye }
1660e4b86885SCheng Sean Ye
1661e4b86885SCheng Sean Ye /*
1662e4b86885SCheng Sean Ye * Register the memory controller for every CPU of this chip.
1663e4b86885SCheng Sean Ye *
1664e4b86885SCheng Sean Ye * If there is memory present on this node and ECC is enabled
1665e4b86885SCheng Sean Ye * attempt to enable h/w memory scrubbers for this node.
1666e4b86885SCheng Sean Ye * If we are successful in enabling *any* hardware scrubbers,
1667e4b86885SCheng Sean Ye * disable the software memory scrubber.
1668e4b86885SCheng Sean Ye */
1669e4b86885SCheng Sean Ye cmi_hdl_walk(mc_attach_cb, (void *)mc, (void *)&mcp->mcp_num,
1670e4b86885SCheng Sean Ye NULL);
1671e4b86885SCheng Sean Ye
1672e4b86885SCheng Sean Ye if (mcp->mcp_lim != mcp->mcp_base) {
1673e4b86885SCheng Sean Ye /*
1674e4b86885SCheng Sean Ye * This node may map non-dram memory alone, so we
1675e4b86885SCheng Sean Ye * must check for an enabled chip-select to be
1676e4b86885SCheng Sean Ye * sure there is dram present.
1677e4b86885SCheng Sean Ye */
1678e4b86885SCheng Sean Ye mc_cs_t *mccs;
1679e4b86885SCheng Sean Ye
1680e4b86885SCheng Sean Ye for (mccs = mc->mc_cslist; mccs != NULL;
1681e4b86885SCheng Sean Ye mccs = mccs->mccs_next) {
1682e4b86885SCheng Sean Ye if (mccs->mccs_props.csp_csbe) {
1683e4b86885SCheng Sean Ye dram_present = 1;
1684e4b86885SCheng Sean Ye break;
1685e4b86885SCheng Sean Ye }
1686e4b86885SCheng Sean Ye }
1687e4b86885SCheng Sean Ye }
1688e4b86885SCheng Sean Ye
1689e4b86885SCheng Sean Ye if (dram_present && !mc_ecc_enabled(mc)) {
1690e4b86885SCheng Sean Ye /*
1691e4b86885SCheng Sean Ye * On a single chip system there is no point in
1692e4b86885SCheng Sean Ye * scrubbing if there is no ECC on the single node.
1693e4b86885SCheng Sean Ye * On a multichip system, necessarily Opteron using
1694e4b86885SCheng Sean Ye * registered ECC-capable DIMMs, if there is memory
1695e4b86885SCheng Sean Ye * present on a node but no ECC there then we'll assume
1696e4b86885SCheng Sean Ye * ECC is disabled for all nodes and we will not enable
1697e4b86885SCheng Sean Ye * the scrubber and wll also disable the software
1698e4b86885SCheng Sean Ye * memscrub thread.
1699e4b86885SCheng Sean Ye */
1700e4b86885SCheng Sean Ye rc = 1;
1701e4b86885SCheng Sean Ye } else if (!dram_present) {
1702e4b86885SCheng Sean Ye /* No memory on this node - others decide memscrub */
1703e4b86885SCheng Sean Ye rc = 0;
1704e4b86885SCheng Sean Ye } else {
1705e4b86885SCheng Sean Ye /*
1706e4b86885SCheng Sean Ye * There is memory on this node and ECC is enabled.
1707e4b86885SCheng Sean Ye * Call via the cpu module to enable memory scrubbing
1708e4b86885SCheng Sean Ye * on this node - we could call directly but then
1709e4b86885SCheng Sean Ye * we may overlap with a request to enable chip-cache
1710e4b86885SCheng Sean Ye * scrubbing.
1711e4b86885SCheng Sean Ye */
1712e4b86885SCheng Sean Ye rc = mc_scrubber_enable(mc);
1713e4b86885SCheng Sean Ye }
1714e4b86885SCheng Sean Ye
1715e4b86885SCheng Sean Ye if (rc == CMI_SUCCESS && !mc_sw_scrub_disabled++)
1716e4b86885SCheng Sean Ye cmi_mc_sw_memscrub_disable();
1717e4b86885SCheng Sean Ye
1718e4b86885SCheng Sean Ye mc_report_testfails(mc);
1719e4b86885SCheng Sean Ye }
1720e4b86885SCheng Sean Ye
1721e4b86885SCheng Sean Ye /*
1722e4b86885SCheng Sean Ye * Update nvlist for as far as we have gotten in attach/init.
1723e4b86885SCheng Sean Ye */
1724e4b86885SCheng Sean Ye nvlist_free(mc->mc_nvl);
1725e4b86885SCheng Sean Ye mc->mc_nvl = mc_nvl_create(mc);
1726e4b86885SCheng Sean Ye
1727e4b86885SCheng Sean Ye rw_exit(&mc_lock);
1728e4b86885SCheng Sean Ye return (DDI_SUCCESS);
1729e4b86885SCheng Sean Ye }
1730e4b86885SCheng Sean Ye
1731e4b86885SCheng Sean Ye /*ARGSUSED*/
1732e4b86885SCheng Sean Ye static int
mc_detach(dev_info_t * dip,ddi_detach_cmd_t cmd)1733e4b86885SCheng Sean Ye mc_detach(dev_info_t *dip, ddi_detach_cmd_t cmd)
1734e4b86885SCheng Sean Ye {
1735e4b86885SCheng Sean Ye /*
1736e4b86885SCheng Sean Ye * See the comment about suspend in
1737e4b86885SCheng Sean Ye * mc_attach().
1738e4b86885SCheng Sean Ye */
1739e4b86885SCheng Sean Ye if (cmd == DDI_SUSPEND)
1740e4b86885SCheng Sean Ye return (DDI_SUCCESS);
1741e4b86885SCheng Sean Ye else
1742e4b86885SCheng Sean Ye return (DDI_FAILURE);
1743e4b86885SCheng Sean Ye }
1744e4b86885SCheng Sean Ye
174519397407SSherry Moore
1746e4b86885SCheng Sean Ye static struct dev_ops mc_ops = {
1747e4b86885SCheng Sean Ye DEVO_REV, /* devo_rev */
1748e4b86885SCheng Sean Ye 0, /* devo_refcnt */
1749e4b86885SCheng Sean Ye mc_getinfo, /* devo_getinfo */
1750e4b86885SCheng Sean Ye nulldev, /* devo_identify */
1751e4b86885SCheng Sean Ye nulldev, /* devo_probe */
1752e4b86885SCheng Sean Ye mc_attach, /* devo_attach */
1753e4b86885SCheng Sean Ye mc_detach, /* devo_detach */
1754e4b86885SCheng Sean Ye nodev, /* devo_reset */
1755e4b86885SCheng Sean Ye &mc_cb_ops, /* devo_cb_ops */
1756e4b86885SCheng Sean Ye NULL, /* devo_bus_ops */
175719397407SSherry Moore NULL, /* devo_power */
175819397407SSherry Moore ddi_quiesce_not_needed, /* devo_quiesce */
1759e4b86885SCheng Sean Ye };
1760e4b86885SCheng Sean Ye
1761e4b86885SCheng Sean Ye static struct modldrv modldrv = {
1762e4b86885SCheng Sean Ye &mod_driverops,
1763e4b86885SCheng Sean Ye "Memory Controller for AMD processors",
1764e4b86885SCheng Sean Ye &mc_ops
1765e4b86885SCheng Sean Ye };
1766e4b86885SCheng Sean Ye
1767e4b86885SCheng Sean Ye static struct modlinkage modlinkage = {
1768e4b86885SCheng Sean Ye MODREV_1,
1769e4b86885SCheng Sean Ye (void *)&modldrv,
1770e4b86885SCheng Sean Ye NULL
1771e4b86885SCheng Sean Ye };
1772e4b86885SCheng Sean Ye
1773e4b86885SCheng Sean Ye int
_init(void)1774e4b86885SCheng Sean Ye _init(void)
1775e4b86885SCheng Sean Ye {
1776e4b86885SCheng Sean Ye /*
1777e4b86885SCheng Sean Ye * Refuse to load if there is no PCI config space support.
1778e4b86885SCheng Sean Ye */
1779e4b86885SCheng Sean Ye if (pci_getl_func == NULL)
1780e4b86885SCheng Sean Ye return (ENOTSUP);
1781e4b86885SCheng Sean Ye
1782e4b86885SCheng Sean Ye rw_init(&mc_lock, NULL, RW_DRIVER, NULL);
1783e4b86885SCheng Sean Ye return (mod_install(&modlinkage));
1784e4b86885SCheng Sean Ye }
1785e4b86885SCheng Sean Ye
1786e4b86885SCheng Sean Ye int
_info(struct modinfo * modinfop)1787e4b86885SCheng Sean Ye _info(struct modinfo *modinfop)
1788e4b86885SCheng Sean Ye {
1789e4b86885SCheng Sean Ye return (mod_info(&modlinkage, modinfop));
1790e4b86885SCheng Sean Ye }
1791e4b86885SCheng Sean Ye
1792e4b86885SCheng Sean Ye int
_fini(void)1793e4b86885SCheng Sean Ye _fini(void)
1794e4b86885SCheng Sean Ye {
1795e4b86885SCheng Sean Ye int rc;
1796e4b86885SCheng Sean Ye
1797e4b86885SCheng Sean Ye if ((rc = mod_remove(&modlinkage)) != 0)
1798e4b86885SCheng Sean Ye return (rc);
1799e4b86885SCheng Sean Ye
1800e4b86885SCheng Sean Ye rw_destroy(&mc_lock);
1801e4b86885SCheng Sean Ye return (0);
1802e4b86885SCheng Sean Ye }
1803