Exemple #1
0
static bool __memory_parse(struct dt_node *root)
{
	struct HDIF_common_hdr *ms_vpd;
	const struct msvpd_ms_addr_config *msac;
	const struct msvpd_total_config_ms *tcms;
	unsigned int size;

	ms_vpd = get_hdif(&spira.ntuples.ms_vpd, MSVPD_HDIF_SIG);
	if (!ms_vpd) {
		prerror("MS VPD: invalid\n");
		op_display(OP_FATAL, OP_MOD_MEM, 0x0000);
		return false;
	}
	if (be32_to_cpu(spira.ntuples.ms_vpd.act_len) < sizeof(*ms_vpd)) {
		prerror("MS VPD: invalid size %u\n",
			be32_to_cpu(spira.ntuples.ms_vpd.act_len));
		op_display(OP_FATAL, OP_MOD_MEM, 0x0001);
		return false;
	}

	prlog(PR_DEBUG, "MS VPD: is at %p\n", ms_vpd);

	msac = HDIF_get_idata(ms_vpd, MSVPD_IDATA_MS_ADDR_CONFIG, &size);
	if (!CHECK_SPPTR(msac) || size < sizeof(*msac)) {
		prerror("MS VPD: bad msac size %u @ %p\n", size, msac);
		op_display(OP_FATAL, OP_MOD_MEM, 0x0002);
		return false;
	}
	prlog(PR_DEBUG, "MS VPD: MSAC is at %p\n", msac);

	dt_add_property_u64(dt_root, DT_PRIVATE "maxmem",
			    be64_to_cpu(msac->max_configured_ms_address));

	tcms = HDIF_get_idata(ms_vpd, MSVPD_IDATA_TOTAL_CONFIG_MS, &size);
	if (!CHECK_SPPTR(tcms) || size < sizeof(*tcms)) {
		prerror("MS VPD: Bad tcms size %u @ %p\n", size, tcms);
		op_display(OP_FATAL, OP_MOD_MEM, 0x0003);
		return false;
	}
	prlog(PR_DEBUG, "MS VPD: TCMS is at %p\n", tcms);

	prlog(PR_DEBUG, "MS VPD: Maximum configured address: 0x%llx\n",
	      (long long)be64_to_cpu(msac->max_configured_ms_address));
	prlog(PR_DEBUG, "MS VPD: Maximum possible address: 0x%llx\n",
	      (long long)be64_to_cpu(msac->max_possible_ms_address));

	get_msareas(root, ms_vpd);

	prlog(PR_INFO, "MS VPD: Total MB of RAM: 0x%llx\n",
	       (long long)be64_to_cpu(tcms->total_in_mb));

	return true;
}
Exemple #2
0
void ibm_fsp_init(void)
{
	/* Early initializations of the FSP interface */
	fsp_init();
	map_debug_areas();
	fsp_sysparam_init();

	/* Get ready to receive E0 class messages. We need to respond
	 * to some of these for the init sequence to make forward progress
	 */
	fsp_console_preinit();

	/* Get ready to receive OCC related messages */
	occ_fsp_init();

	/* Get ready to receive Memory [Un]corretable Error messages. */
	fsp_memory_err_init();

	/* Initialize elog access */
	fsp_elog_read_init();
	fsp_elog_write_init();

	/* Initiate dump service */
	fsp_dump_init();

	/* Start FSP/HV state controller & perform OPL */
	fsp_opl();

	/* Preload hostservices lids */
	hservices_lid_preload();

	/* Initialize SP attention area */
	fsp_attn_init();

	/* Initialize monitoring of TOD topology change event notification */
	fsp_chiptod_init();

	/* Send MDST table notification to FSP */
	op_display(OP_LOG, OP_MOD_INIT, 0x0000);
	fsp_mdst_table_init();

	/* Initialize the panel */
	op_display(OP_LOG, OP_MOD_INIT, 0x0001);
	fsp_oppanel_init();

	/* Start the surveillance process */
	op_display(OP_LOG, OP_MOD_INIT, 0x0002);
	fsp_init_surveillance();

	/* IPMI */
	fsp_ipmi_init();
	ipmi_opal_init();

	/* Initialize sensor access */
	op_display(OP_LOG, OP_MOD_INIT, 0x0003);
	fsp_init_sensor();

	/* LED */
	op_display(OP_LOG, OP_MOD_INIT, 0x0004);
	fsp_led_init();

	/* Monitor for DIAG events */
	op_display(OP_LOG, OP_MOD_INIT, 0x0005);
	fsp_init_diag();

	/* Finish initializing the console */
	op_display(OP_LOG, OP_MOD_INIT, 0x0006);
	fsp_console_init();

	/* Read our initial RTC value */
	op_display(OP_LOG, OP_MOD_INIT, 0x0008);
	fsp_rtc_init();

	/* Initialize code update access */
	op_display(OP_LOG, OP_MOD_INIT, 0x0009);
	fsp_code_update_init();

	/* EPOW */
	op_display(OP_LOG, OP_MOD_INIT, 0x000A);
	fsp_epow_init();

	/* EPOW */
	op_display(OP_LOG, OP_MOD_INIT, 0x000B);
	fsp_dpo_init();

	/* Setup console */
	if (fsp_present())
		fsp_console_add_nodes();

	if (proc_gen >= proc_gen_p9)
		prd_init();
}