1 | /*␊ |
2 | * spd.c - serial presence detect memory information␊ |
3 | *␊ |
4 | * Originally restored from pcefi10.5␊ |
5 | * Dynamic mem detection original impl. by Rekursor␊ |
6 | * System profiler fix and other fixes by Mozodojo.␊ |
7 | */␊ |
8 | ␊ |
9 | #include "libsaio.h"␊ |
10 | #include "pci.h"␊ |
11 | #include "platform.h"␊ |
12 | #include "spd.h"␊ |
13 | #include "cpu.h"␊ |
14 | #include "saio_internal.h"␊ |
15 | #include "bootstruct.h"␊ |
16 | #include "memvendors.h"␊ |
17 | ␊ |
18 | #ifndef DEBUG_SPD␊ |
19 | #define DEBUG_SPD 0␊ |
20 | #endif␊ |
21 | ␊ |
22 | #if DEBUG_SPD␊ |
23 | #define DBG(x...)␉printf(x)␊ |
24 | #else␊ |
25 | #define DBG(x...)␉msglog(x)␊ |
26 | #endif␊ |
27 | ␊ |
28 | static const char *spd_memory_types[] =␊ |
29 | {␊ |
30 | ␉"RAM", /* 00h Undefined */␊ |
31 | ␉"FPM", /* 01h FPM */␊ |
32 | ␉"EDO", /* 02h EDO */␊ |
33 | ␉"",␉␉␉␉/* 03h PIPELINE NIBBLE */␊ |
34 | ␉"SDRAM", /* 04h SDRAM */␊ |
35 | ␉"",␉␉␉␉/* 05h MULTIPLEXED ROM */␊ |
36 | ␉"DDR SGRAM",␉/* 06h SGRAM DDR */␊ |
37 | ␉"DDR SDRAM",␉/* 07h SDRAM DDR */␊ |
38 | ␉"DDR2 SDRAM", /* 08h SDRAM DDR 2 */␊ |
39 | ␉"",␉␉␉␉/* 09h Undefined */␊ |
40 | ␉"",␉␉␉␉/* 0Ah Undefined */␊ |
41 | ␉"DDR3 SDRAM" /* 0Bh SDRAM DDR 3 */␊ |
42 | };␊ |
43 | ␊ |
44 | #define UNKNOWN_MEM_TYPE 2␊ |
45 | static uint8_t spd_mem_to_smbios[] =␊ |
46 | {␊ |
47 | ␉UNKNOWN_MEM_TYPE, /* 00h Undefined */␊ |
48 | ␉UNKNOWN_MEM_TYPE, /* 01h FPM */␊ |
49 | ␉UNKNOWN_MEM_TYPE, /* 02h EDO */␊ |
50 | ␉UNKNOWN_MEM_TYPE,␉ /* 03h PIPELINE NIBBLE */␊ |
51 | ␉SMB_MEM_TYPE_SDRAM, /* 04h SDRAM */␊ |
52 | ␉SMB_MEM_TYPE_ROM,␉ /* 05h MULTIPLEXED ROM */␊ |
53 | ␉SMB_MEM_TYPE_SGRAM, /* 06h SGRAM DDR */␊ |
54 | ␉SMB_MEM_TYPE_DDR, /* 07h SDRAM DDR */␊ |
55 | ␉SMB_MEM_TYPE_DDR2, /* 08h SDRAM DDR 2 */␊ |
56 | ␉UNKNOWN_MEM_TYPE, ␉ /* 09h Undefined */␊ |
57 | ␉UNKNOWN_MEM_TYPE,␉ /* 0Ah Undefined */␊ |
58 | ␉SMB_MEM_TYPE_DDR3 /* 0Bh SDRAM DDR 3 */␊ |
59 | };␊ |
60 | #define SPD_TO_SMBIOS_SIZE (sizeof(spd_mem_to_smbios)/sizeof(uint8_t))␊ |
61 | ␊ |
62 | #define rdtsc(low,high) \␊ |
63 | __asm__ __volatile__("rdtsc" : "=a" (low), "=d" (high))␊ |
64 | ␊ |
65 | #define SMBHSTSTS 0␊ |
66 | #define SMBHSTCNT 2␊ |
67 | #define SMBHSTCMD 3␊ |
68 | #define SMBHSTADD 4␊ |
69 | #define SMBHSTDAT 5␊ |
70 | #define SBMBLKDAT 7␊ |
71 | #if 0␊ |
72 | /** Read one byte from the intel i2c, used for reading SPD on intel chipsets only. */␊ |
73 | unsigned char smb_read_byte_intel(uint32_t base, uint8_t adr, uint8_t cmd)␊ |
74 | {␊ |
75 | int l1, h1, l2, h2;␊ |
76 | unsigned long long t;␊ |
77 | ␉␊ |
78 | #define Reg32(reg)␉␉␉␉␉(*(volatile uint32_t *)(base + reg))␊ |
79 | #define RegRead32(reg)␉␉␉␉(Reg32(reg))␊ |
80 | #define RegWrite32(reg, value)␉␉(Reg32(reg) = value)␊ |
81 | ␊ |
82 | RegWrite32(SMBHSTSTS, 0x1f);␉␉␉␉␉// reset SMBus Controller␊ |
83 | RegWrite32(SMBHSTDAT, 0xff);␊ |
84 | ␉␊ |
85 | while(RegRead32(SMBHSTSTS) & 0x01);␉␉␉// wait until ready␊ |
86 | ␉␊ |
87 | RegWrite32(SMBHSTCMD, cmd);␊ |
88 | RegWrite32(SMBHSTADD, (adr << 1) | 0x01 );␊ |
89 | RegWrite32(SMBHSTCNT, 0x48 );␊ |
90 | ␉␊ |
91 | rdtsc(l1, h1);␊ |
92 | ␉␊ |
93 | ␉while (!( RegRead32(SMBHSTSTS) & 0x02))␉␉// wait til command finished␊ |
94 | ␉{␉␊ |
95 | ␉␉rdtsc(l2, h2);␊ |
96 | ␉␉t = ((h2 - h1) * 0xffffffff + (l2 - l1)) / (Platform.CPU.TSCFrequency / 100);␊ |
97 | ␉␉if (t > 5)␊ |
98 | ␉␉␉break;␉␉␉␉␉␉␉␉␉// break after 5ms␊ |
99 | }␊ |
100 | return RegRead32(SMBHSTDAT);␊ |
101 | }␊ |
102 | #endif␊ |
103 | //#if 0␊ |
104 | /** Read one byte from the intel i2c, used for reading SPD on intel chipsets only. */␊ |
105 | unsigned char smb_read_byte_intel(uint32_t base, uint8_t adr, uint8_t cmd)␊ |
106 | {␊ |
107 | int l1, h1, l2, h2;␊ |
108 | unsigned long long t;␊ |
109 | ␉␊ |
110 | outb(base + SMBHSTSTS, 0x1f);␉␉␉␉␉// reset SMBus Controller␊ |
111 | outb(base + SMBHSTDAT, 0xff);␊ |
112 | ␉␊ |
113 | while( inb(base + SMBHSTSTS) & 0x01);␉␉␉// wait until ready␊ |
114 | ␉␊ |
115 | outb(base + SMBHSTCMD, cmd);␊ |
116 | outb(base + SMBHSTADD, (adr << 1) | 0x01 );␊ |
117 | outb(base + SMBHSTCNT, 0x48 );␊ |
118 | ␉␊ |
119 | rdtsc(l1, h1);␊ |
120 | ␉␊ |
121 | ␉while (!( inb(base + SMBHSTSTS) & 0x02))␉␉// wait til command finished␊ |
122 | ␉{␉␊ |
123 | ␉␉rdtsc(l2, h2);␊ |
124 | ␉␉t = ((h2 - h1) * 0xffffffff + (l2 - l1)) / (Platform.CPU.TSCFrequency / 100);␊ |
125 | ␉␉if (t > 5)␊ |
126 | ␉␉␉break;␉␉␉␉␉␉␉␉␉// break after 5ms␊ |
127 | }␊ |
128 | return inb(base + SMBHSTDAT);␊ |
129 | }␊ |
130 | //#endif␊ |
131 | ␊ |
132 | /* SPD i2c read optimization: prefetch only what we need, read non prefetcheable bytes on the fly */␊ |
133 | #define READ_SPD(spd, base, slot, x) spd[x] = smb_read_byte_intel(base, 0x50 + slot, x)␊ |
134 | ␊ |
135 | int spd_indexes[] = {␊ |
136 | ␉SPD_MEMORY_TYPE,␊ |
137 | ␉SPD_DDR3_MEMORY_BANK,␊ |
138 | ␉SPD_DDR3_MEMORY_CODE,␊ |
139 | ␉SPD_NUM_ROWS,␊ |
140 | ␉SPD_NUM_COLUMNS,␊ |
141 | ␉SPD_NUM_DIMM_BANKS,␊ |
142 | ␉SPD_NUM_BANKS_PER_SDRAM,␊ |
143 | ␉4,7,8,9,12,64, /* TODO: give names to these values */␊ |
144 | ␉95,96,97,98, 122,123,124,125 /* UIS */␊ |
145 | };␊ |
146 | #define SPD_INDEXES_SIZE (sizeof(spd_indexes) / sizeof(int))␊ |
147 | ␊ |
148 | /** Read from spd *used* values only*/␊ |
149 | static void init_spd(char * spd, uint32_t base, int slot)␊ |
150 | {␊ |
151 | ␉int i;␊ |
152 | ␉for (i=0; i< SPD_INDEXES_SIZE; i++) {␊ |
153 | ␉␉READ_SPD(spd, base, slot, spd_indexes[i]);␊ |
154 | ␉}␊ |
155 | }␊ |
156 | ␊ |
157 | /** Get Vendor Name from spd, 2 cases handled DDR3 and DDR2, ␊ |
158 | have different formats, always return a valid ptr.*/␊ |
159 | const char * getVendorName(RamSlotInfo_t* slot, uint32_t base, int slot_num)␊ |
160 | {␊ |
161 | uint8_t bank = 0;␊ |
162 | uint8_t code = 0;␊ |
163 | int i = 0;␊ |
164 | uint8_t * spd = (uint8_t *) slot->spd;␊ |
165 | ␊ |
166 | if (spd[SPD_MEMORY_TYPE]==SPD_MEMORY_TYPE_SDRAM_DDR3) { // DDR3␊ |
167 | bank = (spd[SPD_DDR3_MEMORY_BANK] & 0x07f); // constructors like Patriot use b7=1␊ |
168 | code = spd[SPD_DDR3_MEMORY_CODE];␊ |
169 | for (i=0; i < VEN_MAP_SIZE; i++)␊ |
170 | if (bank==vendorMap[i].bank && code==vendorMap[i].code)␊ |
171 | return vendorMap[i].name;␊ |
172 | }␊ |
173 | else if (spd[SPD_MEMORY_TYPE]==SPD_MEMORY_TYPE_SDRAM_DDR2) {␊ |
174 | if(spd[64]==0x7f) {␊ |
175 | for (i=64; i<72 && spd[i]==0x7f;i++) {␊ |
176 | ␉␉␉ bank++;␊ |
177 | ␉␉␉ READ_SPD(spd, base, slot_num,i+1); // prefetch next spd byte to read for next loop␊ |
178 | ␉␉␉}␊ |
179 | ␉␉␉READ_SPD(spd, base, slot_num,i);␊ |
180 | code = spd[i];␊ |
181 | } else {␊ |
182 | code = spd[64]; ␊ |
183 | bank = 0;␊ |
184 | }␊ |
185 | for (i=0; i < VEN_MAP_SIZE; i++)␊ |
186 | if (bank==vendorMap[i].bank && code==vendorMap[i].code)␊ |
187 | return vendorMap[i].name;␊ |
188 | }␊ |
189 | /* OK there is no vendor id here lets try to match the partnum if it exists */␊ |
190 | if (strstr(slot->PartNo,"GU332") == slot->PartNo) // Unifosa fingerprint␊ |
191 | return "Unifosa";␊ |
192 | return "NoName";␊ |
193 | }␊ |
194 | ␊ |
195 | /** Get Default Memory Module Speed (no overclocking handled) */␊ |
196 | int getDDRspeedMhz(const char * spd)␊ |
197 | {␊ |
198 | if (spd[SPD_MEMORY_TYPE]==SPD_MEMORY_TYPE_SDRAM_DDR3) { ␊ |
199 | switch(spd[12]) {␊ |
200 | case 0x0f:␊ |
201 | return 1066;␊ |
202 | case 0x0c:␊ |
203 | return 1333;␊ |
204 | case 0x0a:␊ |
205 | return 1600;␊ |
206 | case 0x14:␊ |
207 | default:␊ |
208 | return 800;␊ |
209 | }␊ |
210 | } ␊ |
211 | else if (spd[SPD_MEMORY_TYPE]==SPD_MEMORY_TYPE_SDRAM_DDR2) {␊ |
212 | switch(spd[9]) {␊ |
213 | case 0x50:␊ |
214 | return 400;␊ |
215 | case 0x3d:␊ |
216 | return 533;␊ |
217 | case 0x30:␊ |
218 | return 667;␊ |
219 | case 0x25:␊ |
220 | default:␊ |
221 | return 800;␊ |
222 | }␊ |
223 | }␊ |
224 | return 800; // default freq for unknown types␊ |
225 | }␊ |
226 | ␊ |
227 | #define SMST(a) ((uint8_t)((spd[a] & 0xf0) >> 4))␊ |
228 | #define SLST(a) ((uint8_t)(spd[a] & 0x0f))␊ |
229 | ␊ |
230 | /** Get DDR3 or DDR2 serial number, 0 most of the times, always return a valid ptr */␊ |
231 | const char *getDDRSerial(const char* spd)␊ |
232 | {␊ |
233 | static char asciiSerial[16];␊ |
234 | ␊ |
235 | if (spd[SPD_MEMORY_TYPE]==SPD_MEMORY_TYPE_SDRAM_DDR3) // DDR3␊ |
236 | {␊ |
237 | ␉sprintf(asciiSerial, "%X%X%X%X%X%X%X%X", SMST(122) /*& 0x7*/, SLST(122), SMST(123), SLST(123), SMST(124), SLST(124), SMST(125), SLST(125));␊ |
238 | }␊ |
239 | else if (spd[SPD_MEMORY_TYPE]==SPD_MEMORY_TYPE_SDRAM_DDR2) // DDR2 or DDR␊ |
240 | { ␊ |
241 | ␉sprintf(asciiSerial, "%X%X%X%X%X%X%X%X", SMST(95) /*& 0x7*/, SLST(95), SMST(96), SLST(96), SMST(97), SLST(97), SMST(98), SLST(98));␊ |
242 | }␊ |
243 | ␊ |
244 | return strdup(asciiSerial);␊ |
245 | }␊ |
246 | ␊ |
247 | /** Get DDR3 or DDR2 Part Number, always return a valid ptr */␊ |
248 | const char * getDDRPartNum(char* spd, uint32_t base, int slot)␊ |
249 | {␊ |
250 | ␉static char asciiPartNo[32];␊ |
251 | ␉int i, start=0, index = 0;␊ |
252 | ␊ |
253 | if (spd[SPD_MEMORY_TYPE]==SPD_MEMORY_TYPE_SDRAM_DDR3) {␊ |
254 | ␉␉start = 128;␊ |
255 | ␉}␊ |
256 | else if (spd[SPD_MEMORY_TYPE]==SPD_MEMORY_TYPE_SDRAM_DDR2) {␊ |
257 | ␉␉start = 73;␊ |
258 | ␉}␊ |
259 | ␉␊ |
260 | // Check that the spd part name is zero terminated and that it is ascii:␊ |
261 | bzero(asciiPartNo, sizeof(asciiPartNo));␊ |
262 | ␉char c;␊ |
263 | ␉for (i=start; i < start + sizeof(asciiPartNo); i++) {␊ |
264 | ␉␉READ_SPD(spd, base, slot, i); // only read once the corresponding model part (ddr3 or ddr2)␊ |
265 | ␉␉c = spd[i];␊ |
266 | ␉␉if (isalpha(c) || isdigit(c) || ispunct(c)) // It seems that System Profiler likes only letters and digits...␊ |
267 | ␉␉␉asciiPartNo[index++] = c;␊ |
268 | ␉␉else if (!isascii(c))␊ |
269 | ␉␉␉break;␊ |
270 | ␉}␊ |
271 | ␉␊ |
272 | ␉return strdup(asciiPartNo);␊ |
273 | return NULL;␊ |
274 | }␊ |
275 | ␊ |
276 | int mapping []= {0,2,1,3,4,6,5,7,8,10,9,11};␊ |
277 | ␊ |
278 | ␊ |
279 | /** Read from smbus the SPD content and interpret it for detecting memory attributes */␊ |
280 | static void read_smb_intel(pci_dt_t *smbus_dev)␊ |
281 | { ␊ |
282 | int i, speed;␊ |
283 | uint8_t spd_size, spd_type;␊ |
284 | uint32_t base, mmio, hostc;␊ |
285 | bool dump = false;␊ |
286 | RamSlotInfo_t* slot;␊ |
287 | ␊ |
288 | ␉uint16_t cmd = pci_config_read16(smbus_dev->dev.addr, 0x04);␊ |
289 | ␉DBG("SMBus CmdReg: 0x%x\n", cmd);␊ |
290 | ␉pci_config_write16(smbus_dev->dev.addr, 0x04, cmd | 1);␊ |
291 | ␊ |
292 | ␉mmio = pci_config_read32(smbus_dev->dev.addr, 0x10);// & ~0x0f;␊ |
293 | base = pci_config_read16(smbus_dev->dev.addr, 0x20) & 0xFFFE;␊ |
294 | ␉hostc = pci_config_read8(smbus_dev->dev.addr, 0x40);␊ |
295 | verbose("Scanning SMBus [%04x:%04x], mmio: 0x%x, ioport: 0x%x, hostc: 0x%x\n", ␊ |
296 | ␉␉smbus_dev->vendor_id, smbus_dev->device_id, mmio, base, hostc);␊ |
297 | ␊ |
298 | getBoolForKey("DumpSPD", &dump, &bootInfo->bootConfig);␊ |
299 | ␉// needed at least for laptops␊ |
300 | bool fullBanks = Platform.DMI.MemoryModules == Platform.DMI.CntMemorySlots;␊ |
301 | ␊ |
302 | ␉char spdbuf[MAX_SPD_SIZE];␊ |
303 | // Search MAX_RAM_SLOTS slots␊ |
304 | for (i = 0; i < MAX_RAM_SLOTS; i++){␊ |
305 | slot = &Platform.RAM.DIMM[i];␊ |
306 | spd_size = smb_read_byte_intel(base, 0x50 + i, 0);␊ |
307 | ␉␉DBG("SPD[0] (size): %d @0x%x\n", spd_size, 0x50 + i);␊ |
308 | // Check spd is present␊ |
309 | if (spd_size && (spd_size != 0xff))␊ |
310 | {␊ |
311 | ␊ |
312 | ␉␉␉slot->spd = spdbuf;␊ |
313 | slot->InUse = true;␊ |
314 | ␊ |
315 | bzero(slot->spd, spd_size);␊ |
316 | ␊ |
317 | // Copy spd data into buffer␊ |
318 | ␊ |
319 | ␉␉␉//for (x = 0; x < spd_size; x++) slot->spd[x] = smb_read_byte_intel(base, 0x50 + i, x);␊ |
320 | init_spd(slot->spd, base, i);␊ |
321 | ␉␉␊ |
322 | switch (slot->spd[SPD_MEMORY_TYPE]) {␊ |
323 | case SPD_MEMORY_TYPE_SDRAM_DDR2:␊ |
324 | ␊ |
325 | slot->ModuleSize = ((1 << (slot->spd[SPD_NUM_ROWS] & 0x0f) + (slot->spd[SPD_NUM_COLUMNS] & 0x0f) - 17) * ␊ |
326 | ((slot->spd[SPD_NUM_DIMM_BANKS] & 0x7) + 1) * slot->spd[SPD_NUM_BANKS_PER_SDRAM]);␊ |
327 | break;␊ |
328 | ␊ |
329 | case SPD_MEMORY_TYPE_SDRAM_DDR3:␊ |
330 | ␊ |
331 | slot->ModuleSize = ((slot->spd[4] & 0x0f) + 28 ) + ((slot->spd[8] & 0x7) + 3 );␊ |
332 | slot->ModuleSize -= (slot->spd[7] & 0x7) + 25;␊ |
333 | slot->ModuleSize = ((1 << slot->ModuleSize) * (((slot->spd[7] >> 3) & 0x1f) + 1));␊ |
334 | ␊ |
335 | break;␊ |
336 | }␊ |
337 | ␊ |
338 | spd_type = (slot->spd[SPD_MEMORY_TYPE] < ((char) 12) ? slot->spd[SPD_MEMORY_TYPE] : 0);␊ |
339 | slot->Type = spd_mem_to_smbios[spd_type];␊ |
340 | slot->PartNo = getDDRPartNum(slot->spd, base, i);␊ |
341 | slot->Vendor = getVendorName(slot, base, i);␊ |
342 | slot->SerialNo = getDDRSerial(slot->spd);␊ |
343 | ␊ |
344 | // determine spd speed␊ |
345 | speed = getDDRspeedMhz(slot->spd);␊ |
346 | if (slot->Frequency<speed) slot->Frequency = speed;␊ |
347 | ␉␉␉␊ |
348 | ␉␉␉// pci memory controller if available, is more reliable␊ |
349 | ␉␉␉if (Platform.RAM.Frequency > 0) {␊ |
350 | ␉␉␉␉uint32_t freq = (uint32_t)Platform.RAM.Frequency / 500000;␊ |
351 | ␉␉␉␉// now round off special cases␊ |
352 | ␉␉␉␉uint32_t fmod100 = freq %100;␊ |
353 | ␉␉␉␉switch(fmod100) {␊ |
354 | ␉␉␉␉␉case 1:␉freq--;␉break;␊ |
355 | ␉␉␉␉␉case 32:␉freq++;␉break;␊ |
356 | ␉␉␉␉␉case 65:␉freq++; break;␊ |
357 | ␉␉␉␉␉case 98:␉freq+=2;break;␊ |
358 | ␉␉␉␉␉case 99:␉freq++; break;␊ |
359 | ␉␉␉␉}␊ |
360 | ␉␉␉␉slot->Frequency = freq;␊ |
361 | ␉␉␉}␊ |
362 | ␊ |
363 | ␉␉␉verbose("Slot: %d Type %d %dMB (%s) %dMHz Vendor=%s\n PartNo=%s SerialNo=%s\n", ␊ |
364 | i, ␊ |
365 | (int)slot->Type,␊ |
366 | slot->ModuleSize, ␊ |
367 | spd_memory_types[spd_type],␊ |
368 | slot->Frequency,␊ |
369 | slot->Vendor,␊ |
370 | slot->PartNo,␊ |
371 | slot->SerialNo); ␊ |
372 | ␊ |
373 | #if DEBUG_SPD␊ |
374 | dumpPhysAddr("spd content: ", slot->spd, spd_size);␊ |
375 | getc();␊ |
376 | #endif␊ |
377 | }␊ |
378 | ␊ |
379 | // laptops sometimes show slot 0 and 2 with slot 1 empty when only 2 slots are presents so:␊ |
380 | Platform.DMI.DIMM[i]= ␊ |
381 | i>0 && Platform.RAM.DIMM[1].InUse==false && fullBanks && Platform.DMI.CntMemorySlots == 2 ? ␊ |
382 | mapping[i] : i; // for laptops case, mapping setup would need to be more generic than this␊ |
383 | ␊ |
384 | ␉␉slot->spd = NULL;␊ |
385 | ␊ |
386 | } // for␊ |
387 | }␊ |
388 | ␊ |
389 | static struct smbus_controllers_t smbus_controllers[] = {␊ |
390 | ␊ |
391 | ␉{0x8086, 0x269B, "ESB2", read_smb_intel },␊ |
392 | ␉{0x8086, 0x25A4, "6300ESB", read_smb_intel },␊ |
393 | ␉{0x8086, 0x24C3, "ICH4", read_smb_intel },␊ |
394 | ␉{0x8086, 0x24D3, "ICH5", read_smb_intel },␊ |
395 | ␉{0x8086, 0x266A, "ICH6", read_smb_intel },␊ |
396 | ␉{0x8086, 0x27DA, "ICH7", read_smb_intel },␊ |
397 | ␉{0x8086, 0x283E, "ICH8", read_smb_intel },␊ |
398 | ␉{0x8086, 0x2930, "ICH9", read_smb_intel },␉␊ |
399 | ␉{0x8086, 0x3A30, "ICH10R", read_smb_intel },␊ |
400 | ␉{0x8086, 0x3A60, "ICH10B", read_smb_intel },␊ |
401 | ␉{0x8086, 0x3B30, "P55", read_smb_intel },␊ |
402 | ␉{0x8086, 0x5032, "EP80579", read_smb_intel }␊ |
403 | ␊ |
404 | };␊ |
405 | ␊ |
406 | // initial call : pci_dt = root_pci_dev;␊ |
407 | // find_and_read_smbus_controller(root_pci_dev);␊ |
408 | bool find_and_read_smbus_controller(pci_dt_t* pci_dt)␊ |
409 | {␊ |
410 | pci_dt_t␉*current = pci_dt;␊ |
411 | int i;␊ |
412 | ␊ |
413 | while (current) {␊ |
414 | #if 0␊ |
415 | printf("%02x:%02x.%x [%04x] [%04x:%04x] :: %s\n", ␊ |
416 | current->dev.bits.bus, current->dev.bits.dev, current->dev.bits.func, ␊ |
417 | current->class_id, current->vendor_id, current->device_id, ␊ |
418 | get_pci_dev_path(current));␊ |
419 | #endif␊ |
420 | ␉for ( i = 0; i < sizeof(smbus_controllers) / sizeof(smbus_controllers[0]); i++ )␊ |
421 | {␊ |
422 | if (current->vendor_id == smbus_controllers[i].vendor &&␊ |
423 | current->device_id == smbus_controllers[i].device)␊ |
424 | {␊ |
425 | smbus_controllers[i].read_smb(current); // read smb␊ |
426 | return true;␊ |
427 | } ␊ |
428 | }␊ |
429 | find_and_read_smbus_controller(current->children);␊ |
430 | current = current->next;␊ |
431 | }␊ |
432 | return false; // not found␊ |
433 | }␊ |
434 | ␊ |
435 | void scan_spd(PlatformInfo_t *p)␊ |
436 | {␊ |
437 | find_and_read_smbus_controller(root_pci_dev);␊ |
438 | }␊ |
439 | ␊ |
440 | |