/* ----------------------------------------------------------------------- * * * Copyright 2011 Erwan Velu - All Rights Reserved * * Permission is hereby granted, free of charge, to any person * obtaining a copy of this software and associated documentation * files (the "Software"), to deal in the Software without * restriction, including without limitation the rights to use, * copy, modify, merge, publish, distribute, sublicense, and/or * sell copies of the Software, and to permit persons to whom * the Software is furnished to do so, subject to the following * conditions: * * The above copyright notice and this permission notice shall * be included in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT * HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, * WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR * OTHER DEALINGS IN THE SOFTWARE. * * ----------------------------------------------------------------------- */ #include "hdt-common.h" #include "hdt-dump.h" void show_header(char *name, void *address, s_acpi_description_header *h, ZZJSON_CONFIG *config, ZZJSON **item) { char signature[10]={0}; char revision[10]={0}; char s_address[16]={0}; char oem_id[16]={0}; char oem_table_id[16]={0}; char oem_revision[16]={0}; char creator_revision[16]={0}; char creator_id[16]={0}; snprintf(signature,sizeof(signature),"%s",h->signature); snprintf(revision,sizeof(revision),"0x%03x",h->revision); snprintf(oem_id,sizeof(oem_id),"%s",h->oem_id); snprintf(oem_table_id,sizeof(oem_table_id),"%s",h->oem_table_id); snprintf(creator_id,sizeof(creator_id),"%s",h->creator_id); snprintf(oem_revision,sizeof(oem_revision),"0x%08x",h->oem_revision); snprintf(creator_revision,sizeof(creator_revision),"0x%08x",h->creator_revision); snprintf(s_address,sizeof(s_address),"%p",address); char address_name[32]={0}; char signature_name[32]={0}; char revision_name[32]={0}; char oem_id_name[32]={0}; char oem_table_id_name[32]={0}; char oem_revision_name[32]={0}; char creator_revision_name[32]={0}; char creator_id_name[32]={0}; snprintf(signature_name,sizeof(signature_name),"acpi.%s.signature",name); snprintf(revision_name,sizeof(revision_name),"acpi.%s.revision",name); snprintf(address_name,sizeof(address_name),"acpi.%s.address",name); snprintf(oem_id_name,sizeof(oem_id_name),"acpi.%s.oem_id",name); snprintf(oem_table_id_name,sizeof(oem_table_id_name),"acpi.%s.oem_table_id",name); snprintf(oem_revision_name,sizeof(oem_revision_name),"acpi.%s.oem_revision",name); snprintf(creator_revision_name,sizeof(creator_revision_name),"acpi.%s.creator_revision",name); snprintf(creator_id_name,sizeof(creator_id_name),"acpi.%s.creator_id",name); APPEND_ARRAY add_as(signature_name,signature) add_as(revision_name,revision) add_as(oem_id_name,oem_id) add_as(oem_table_id_name,oem_table_id) add_as(oem_revision_name,oem_revision) add_as(creator_id_name,creator_id) add_as(creator_revision_name,creator_revision) add_as(address_name,s_address) END_OF_APPEND; FLUSH_OBJECT; } void dump_rsdt(s_acpi * acpi, ZZJSON_CONFIG * config, ZZJSON ** item) { char valid[8]={0}; snprintf(valid,sizeof(valid),"%s","false"); if (acpi->rsdt.valid) { snprintf(valid,sizeof(valid),"%s","true"); } CREATE_ARRAY add_as("acpi.item","rsdt") add_as("acpi.rsdt.is_valid",valid) END_OF_ARRAY; if (acpi->rsdt.valid==false) { FLUSH_OBJECT; return; } show_header("rsdt",acpi->rsdt.address, &acpi->rsdt.header, config, item); } void dump_xsdt(s_acpi * acpi, ZZJSON_CONFIG * config, ZZJSON ** item) { char valid[8]={0}; snprintf(valid,sizeof(valid),"%s","false"); if (acpi->xsdt.valid) { snprintf(valid,sizeof(valid),"%s","true"); } CREATE_ARRAY add_as("acpi.item","xsdt") add_as("acpi.xsdt.is_valid",valid) END_OF_ARRAY; if (acpi->xsdt.valid==false) { FLUSH_OBJECT; return; } show_header("xsdt",acpi->xsdt.address, &acpi->xsdt.header, config, item); } void dump_fadt(s_acpi * acpi, ZZJSON_CONFIG * config, ZZJSON ** item) { char valid[8]={0}; snprintf(valid,sizeof(valid),"%s","false"); if (acpi->rsdt.valid) { snprintf(valid,sizeof(valid),"%s","true"); } CREATE_ARRAY add_as("acpi.item","fadt") add_as("acpi.fadt.is_valid",valid) END_OF_ARRAY; if (acpi->fadt.valid==false) { FLUSH_OBJECT; return; } show_header("fadt",acpi->fadt.address, &acpi->fadt.header, config, item); } void dump_dsdt(s_acpi * acpi, ZZJSON_CONFIG * config, ZZJSON ** item) { char valid[8]={0}; snprintf(valid,sizeof(valid),"%s","false"); if (acpi->dsdt.valid) { snprintf(valid,sizeof(valid),"%s","true"); } CREATE_ARRAY add_as("acpi.item","dsdt") add_as("acpi.dsdt.is_valid",valid) END_OF_ARRAY; if (acpi->dsdt.valid==false) { FLUSH_OBJECT; return; } show_header("dsdt",acpi->dsdt.address, &acpi->dsdt.header, config, item); } void dump_sbst(s_acpi * acpi, ZZJSON_CONFIG * config, ZZJSON ** item) { char valid[8]={0}; snprintf(valid,sizeof(valid),"%s","false"); if (acpi->sbst.valid) { snprintf(valid,sizeof(valid),"%s","true"); } CREATE_ARRAY add_as("acpi.item","sbst") add_as("acpi.sbst.is_valid",valid) END_OF_ARRAY; if (acpi->sbst.valid==false) { FLUSH_OBJECT; return; } show_header("sbst",acpi->sbst.address, &acpi->sbst.header, config, item); } void dump_ecdt(s_acpi * acpi, ZZJSON_CONFIG * config, ZZJSON ** item) { char valid[8]={0}; snprintf(valid,sizeof(valid),"%s","false"); if (acpi->ecdt.valid) { snprintf(valid,sizeof(valid),"%s","true"); } CREATE_ARRAY add_as("acpi.item","ecdt") add_as("acpi.ecdt.is_valid",valid) END_OF_ARRAY; if (acpi->ecdt.valid==false) { FLUSH_OBJECT; return; } show_header("ecdt",acpi->ecdt.address, &acpi->ecdt.header, config, item); } void dump_hpet(s_acpi * acpi, ZZJSON_CONFIG * config, ZZJSON ** item) { char valid[8]={0}; snprintf(valid,sizeof(valid),"%s","false"); if (acpi->hpet.valid) { snprintf(valid,sizeof(valid),"%s","true"); } CREATE_ARRAY add_as("acpi.item","hpet") add_as("acpi.hpet.is_valid",valid) END_OF_ARRAY; if (acpi->hpet.valid==false) { FLUSH_OBJECT; return; } show_header("hpet",acpi->hpet.address, &acpi->hpet.header, config, item); } void dump_tcpa(s_acpi * acpi, ZZJSON_CONFIG * config, ZZJSON ** item) { char valid[8]={0}; snprintf(valid,sizeof(valid),"%s","false"); if (acpi->tcpa.valid) { snprintf(valid,sizeof(valid),"%s","true"); } CREATE_ARRAY add_as("acpi.item","tcpa") add_as("acpi.tcpa.is_valid",valid) END_OF_ARRAY; if (acpi->tcpa.valid==false) { FLUSH_OBJECT; return; } show_header("tcpa",acpi->tcpa.address, &acpi->tcpa.header, config, item); } void dump_mcfg(s_acpi * acpi, ZZJSON_CONFIG * config, ZZJSON ** item) { char valid[8]={0}; snprintf(valid,sizeof(valid),"%s","false"); if (acpi->mcfg.valid) { snprintf(valid,sizeof(valid),"%s","true"); } CREATE_ARRAY add_as("acpi.item","mcfg") add_as("acpi.mcfg.is_valid",valid) END_OF_ARRAY; if (acpi->mcfg.valid==false) { FLUSH_OBJECT; return; } show_header("mcfg",acpi->mcfg.address, &acpi->mcfg.header, config, item); } void dump_slic(s_acpi * acpi, ZZJSON_CONFIG * config, ZZJSON ** item) { char valid[8]={0}; snprintf(valid,sizeof(valid),"%s","false"); if (acpi->slic.valid) { snprintf(valid,sizeof(valid),"%s","true"); } CREATE_ARRAY add_as("acpi.item","slic") add_as("acpi.slic.is_valid",valid) END_OF_ARRAY; if (acpi->slic.valid==false) { FLUSH_OBJECT; return; } show_header("slic",acpi->slic.address, &acpi->slic.header, config, item); } void dump_boot(s_acpi * acpi, ZZJSON_CONFIG * config, ZZJSON ** item) { char valid[8]={0}; snprintf(valid,sizeof(valid),"%s","false"); if (acpi->boot.valid) { snprintf(valid,sizeof(valid),"%s","true"); } CREATE_ARRAY add_as("acpi.item","boot") add_as("acpi.boot.is_valid",valid) END_OF_ARRAY; if (acpi->boot.valid==false) { FLUSH_OBJECT; return; } show_header("boot",acpi->boot.address, &acpi->boot.header, config, item); } void dump_madt(s_acpi * acpi, ZZJSON_CONFIG * config, ZZJSON ** item) { char valid[8]={0}; snprintf(valid,sizeof(valid),"%s","false"); if (acpi->madt.valid) { snprintf(valid,sizeof(valid),"%s","true"); } CREATE_ARRAY add_as("acpi.item","madt") add_as("acpi.madt.is_valid",valid) END_OF_ARRAY; if (acpi->madt.valid==false) { FLUSH_OBJECT; return; } show_header("madt",acpi->madt.address, &acpi->madt.header, config, item); } void dump_ssdt(s_ssdt *ssdt, ZZJSON_CONFIG * config, ZZJSON ** item) { char valid[8]={0}; snprintf(valid,sizeof(valid),"%s","false"); if (ssdt->valid) { snprintf(valid,sizeof(valid),"%s","true"); } CREATE_ARRAY add_as("acpi.item","ssdt") add_as("acpi.ssdt.is_valid",valid) END_OF_ARRAY; if (ssdt->valid==false) { FLUSH_OBJECT; return; } show_header("ssdt",ssdt->address, &ssdt->header, config, item); } void dump_rsdp(s_acpi * acpi, ZZJSON_CONFIG * config, ZZJSON ** item) { char valid[8]={0}; snprintf(valid,sizeof(valid),"%s","false"); if (acpi->rsdp.valid) { snprintf(valid,sizeof(valid),"%s","true"); } CREATE_ARRAY add_as("acpi.item","rsdp") add_as("acpi.rsdp.is_valid",valid) END_OF_ARRAY; if (acpi->rsdp.valid==false) { FLUSH_OBJECT; return; } s_rsdp *r = &acpi->rsdp; char revision[10]={0}; char address[16]={0}; char oem_id[16]={0}; snprintf(revision,sizeof(revision),"0x%03x",r->revision); snprintf(address,sizeof(address),"%p",r->address); snprintf(oem_id,sizeof(oem_id),"%s",r->oem_id); APPEND_ARRAY add_as("acpi.rsdp.revision",revision) add_as("acpi.rsdp.oem_id",oem_id) add_as("acpi.rsdp.address",address) END_OF_APPEND; FLUSH_OBJECT; } void dump_facs(s_acpi * acpi, ZZJSON_CONFIG * config, ZZJSON ** item) { char valid[8]={0}; snprintf(valid,sizeof(valid),"%s","false"); if (acpi->facs.valid) { snprintf(valid,sizeof(valid),"%s","true"); } CREATE_ARRAY add_as("acpi.item","facs") add_as("acpi.facs.is_valid",valid) END_OF_ARRAY; if (acpi->facs.valid==false) { FLUSH_OBJECT; return; } s_facs *fa = &acpi->facs; char address[16]={0}; snprintf(address,sizeof(address),"%p",fa->address); APPEND_ARRAY add_as("acpi.facs.address",address) END_OF_APPEND; FLUSH_OBJECT; } void dump_interrupt_source_override(s_madt * madt, ZZJSON_CONFIG * config, ZZJSON ** item) { CREATE_ARRAY add_as("acpi.item","interrupt_source_override") add_ai("acpi.interrupt_source_override.count", madt->interrupt_source_override_count) END_OF_ARRAY; if (madt->interrupt_source_override_count == 0) { FLUSH_OBJECT; return; } /* Let's process each interrupt source override */ for (int i = 0; i < madt->interrupt_source_override_count; i++) { s_interrupt_source_override *siso = &madt->interrupt_source_override[i]; char buffer[20] = {0}; char bus_type[10]= {0}; /* Spec report bus type 0 as ISA */ if (siso->bus == 0) strcpy(bus_type, "ISA"); else strcpy(bus_type, "unknown"); APPEND_ARRAY add_as("acpi.interrupt_source_override.bus_type",bus_type) add_ai("acpi.interrupt_source_override.bus",siso->bus) add_ai("acpi.interrupt_source_override.bus_irq",siso->source) add_ai("acpi.interrupt_source_override.global_irq",siso->global_system_interrupt) add_as("acpi.interrupt_source_override.flags",flags_to_string(buffer,siso->flags)) END_OF_APPEND; } FLUSH_OBJECT; } void dump_io_apic(s_madt * madt, ZZJSON_CONFIG * config, ZZJSON ** item) { CREATE_ARRAY add_as("acpi.item","io_apic") add_ai("acpi.io_apic.count", madt->io_apic_count) END_OF_ARRAY; if (madt->io_apic_count == 0) { FLUSH_OBJECT; return; } /* For all IO APICS */ for (int i = 0; i < madt->io_apic_count; i++) { s_io_apic *sio = &madt->io_apic[i]; char buffer[15]={0}; memset(buffer, 0, sizeof(buffer)); /* GSI base reports the GSI configuration * Let's interpret it as string */ switch (sio->global_system_interrupt_base) { case 0: strcpy(buffer, "0-23"); break; case 24: strcpy(buffer,"24-39"); break; case 40: strcpy(buffer, "40-55"); break; default: strcpy(buffer,"Unknown"); break; } char apic_id[16] = { 0 }; char address[16] = { 0 }; snprintf(apic_id,sizeof(apic_id),"0x%02x",sio->io_apic_id); snprintf(address,sizeof(address),"0x%08x",sio->io_apic_address); APPEND_ARRAY add_ai("acpi.io_apic.number",i) add_as("acpi.io_apic.apic_id",apic_id) add_as("acpi.io_apic.adress",address) add_as("acpi.io_apic.gsi",buffer) END_OF_APPEND; } FLUSH_OBJECT; } void dump_local_apic_nmi(s_madt * madt, ZZJSON_CONFIG * config, ZZJSON ** item) { CREATE_ARRAY add_as("acpi.item","local_apic_nmi") add_ai("acpi.local_apic_nmi.count", madt->local_apic_nmi_count) END_OF_ARRAY; if (madt->local_apic_nmi_count == 0) { FLUSH_OBJECT; return; } for (int i = 0; i < madt->local_apic_nmi_count; i++) { s_local_apic_nmi *slan = &madt->local_apic_nmi[i]; char buffer[20]={0}; char acpi_id[16] = { 0 }; char local_apic_lint[16] = { 0 }; snprintf(acpi_id, sizeof(acpi_id), "0x%02x", slan->acpi_processor_id); snprintf(local_apic_lint, sizeof(local_apic_lint), "0x%02x", slan->local_apic_lint); APPEND_ARRAY add_as("acpi.processor_id", acpi_id) add_as("acpi.local_apic_nmi.flags", flags_to_string(buffer,slan->flags)) add_as("acpi.local_apic_nmi.lint",local_apic_lint) END_OF_APPEND; } FLUSH_OBJECT; } void dump_local_apic(s_madt * madt, ZZJSON_CONFIG * config, ZZJSON ** item) { char buffer[16] = { 0 }; snprintf(buffer, sizeof(buffer), "0x%08x", madt->local_apic_address); CREATE_ARRAY add_as("acpi.item","local_apic") add_as("acpi.local_apic.address", buffer) add_ai("acpi.processor_local_apic.count", madt->processor_local_apic_count) END_OF_ARRAY; if (madt->processor_local_apic_count ==0) { FLUSH_OBJECT; return; } /* For all detected logical CPU */ for (int i = 0; i < madt->processor_local_apic_count; i++) { s_processor_local_apic *sla = &madt->processor_local_apic[i]; char lapic_status[16] = { 0 }; char acpi_id[16] = { 0 }; char apic_id[16] = { 0 }; snprintf(lapic_status,sizeof(lapic_status),"%s","disabled"); /* Let's check if the flags reports the cpu as enabled */ if ((sla->flags & PROCESSOR_LOCAL_APIC_ENABLE) == PROCESSOR_LOCAL_APIC_ENABLE) snprintf(lapic_status,sizeof(lapic_status),"%s","enabled"); snprintf(acpi_id, sizeof(acpi_id), "0x%02x", sla->acpi_id); snprintf(apic_id, sizeof(apic_id), "0x%02x", sla->apic_id); APPEND_ARRAY add_ai("acpi.cpu.apic_id", sla->apic_id) add_as("acpi.cpu.apic_id (hex)", apic_id) add_as("acpi.cpu.acpi_id (hex)", acpi_id) add_as("acpi.lapic.enabled", lapic_status) END_OF_APPEND; } FLUSH_OBJECT; } void dump_acpi(struct s_hardware *hardware, ZZJSON_CONFIG * config, ZZJSON ** item) { CREATE_NEW_OBJECT; add_hb(is_acpi_valid); if (hardware->is_acpi_valid == false) goto exit; s_madt *madt = &hardware->acpi.madt; add_b("acpi.apic.detected", madt->valid); if (madt->valid == false) { goto exit; } FLUSH_OBJECT; dump_local_apic(madt, config, item); dump_local_apic_nmi(madt, config, item); dump_io_apic(madt, config, item); dump_interrupt_source_override(madt, config, item); dump_rsdp(&hardware->acpi,config,item); dump_rsdt(&hardware->acpi,config,item); dump_xsdt(&hardware->acpi,config,item); dump_fadt(&hardware->acpi,config,item); dump_dsdt(&hardware->acpi,config,item); dump_sbst(&hardware->acpi,config,item); dump_ecdt(&hardware->acpi,config,item); dump_hpet(&hardware->acpi,config,item); dump_tcpa(&hardware->acpi,config,item); dump_mcfg(&hardware->acpi,config,item); dump_slic(&hardware->acpi,config,item); dump_boot(&hardware->acpi,config,item); dump_madt(&hardware->acpi,config,item); for (int i = 0; i < hardware->acpi.ssdt_count; i++) { if ((hardware->acpi.ssdt[i] != NULL) && (hardware->acpi.ssdt[i]->valid)) dump_ssdt(hardware->acpi.ssdt[i], config, item); } dump_facs(&hardware->acpi,config,item); exit: to_cpio("acpi"); }