--- /dev/null
+/*
+ * This file is part of the coreboot project.
+ *
+ * Copyright (C) 2008 Advanced Micro Devices, Inc.
+ *
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License as published by
+ * the Free Software Foundation; version 2 of the License.
+ *
+ * This program is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ * GNU General Public License for more details.
+ *
+ * You should have received a copy of the GNU General Public License
+ * along with this program; if not, write to the Free Software
+ * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
+ */
+
+/* This file defines the processor and performance state capability
+ * for each core in the system. It is included into the DSDT for each
+ * core. It assumes that each core of the system has the same performance
+ * characteristics.
+*/
+/*
+DefinitionBlock ("DSDT.AML","DSDT",0x01,"XXXXXX","XXXXXXXX",0x00010001)
+ {
+ Scope (\_PR) {
+ Processor(CPU0,0,0x808,0x06) {
+ Include ("cpstate.asl")
+ }
+ Processor(CPU1,1,0x0,0x0) {
+ Include ("cpstate.asl")
+ }
+ Processor(CPU2,2,0x0,0x0) {
+ Include ("cpstate.asl")
+ }
+ Processor(CPU3,3,0x0,0x0) {
+ Include ("cpstate.asl")
+ }
+ }
+*/
+/*
+ * 1. Get the CPUID to know what the version of the CPU is. (or see what powernow
+ * reports)
+ * 2. Find how many P-states the CPU supports, power and frequecy in each
+ * P-states in 'Power and Thermal Data Sheet.' (PTDS)
+ * 3. Go to BIOS and Kernel Developer's Guide (BKDG) and find Low FID Frequency
+ * Table & High FID Frequency Table. Find Fid for each frequency.
+ * 4. In PTDS, got the Voltage for each P-state. In table VID Code Voltages of BKDG,
+ * find the VID for each Voltage.
+ * Is that clear?
+ */
+
+ /* P-state support: The maximum number of P-states supported by the */
+ /* CPUs we'll use is 6. */
+ Name(_PSS, Package(){
+ /* The processor core clock PLL lock time is 2 us for AMD NPT Family 0Fh Processors.*/
+ /* vst=100us*/
+ /* 3<<31|2<<28|1<<27|2<<20|0<<18|5<<11|0x13<<6|0xD, 0x13<<6|0xD */
+ /* 3<<31|2<<28|1<<27|2<<20|0<<18|5<<11|0x14<<6|0xC, 0x14<<6|0xC */
+ /* 3<<31|2<<28|1<<27|2<<20|0<<18|5<<11|0x15<<6|0xA, 0x15<<6|0xA */
+ /* 3<<31|2<<28|1<<27|2<<20|0<<18|5<<11|0x16<<6|0x8, 0x16<<6|0x8 */
+ /* 3<<31|2<<28|1<<27|2<<20|0<<18|5<<11|0x1E<<6|0x0, 0x1E<<6|0x0 */
+ /*
+ * Package() {2100, 35000, 100, 7, 0xE8202CCD, 0x04CD},
+ * Package() {2000, 30100, 100, 7, 0xE8202D0C, 0x050C},
+ * Package() {1800, 26400, 100, 7, 0xE8202D4A, 0x054A},
+ * Package() {1600, 23000, 100, 7, 0xE8202D88, 0x0588},
+ * Package() { 800, 9400, 100, 7, 0xE8202F80, 0x0780},
+ */
+ /*Use this tricky method to reserve 8 Pstates space*/
+ Package() {0x1FFFFFFF, 0x2FFFFFFF, 0x3FFFFFFF, 0x4FFFFFFF, 0x5FFFFFFF, 0x6FFFFFFF},
+ Package() {0x7FFFFFFF, 0x8FFFFFFF, 0x9FFFFFFF, 0xAFFFFFFF, 0xBFFFFFFF, 0xCFFFFFFF},
+ Package() {0xDFFFFFFF, 0xEFFFFFFF, 0x1FFFFFFF, 0x2FFFFFFF, 0x3FFFFFFF, 0x4FFFFFFF},
+ Package() {0x5FFFFFFF, 0x6FFFFFFF, 0x7FFFFFFF, 0x8FFFFFFF, 0x9FFFFFFF, 0xAFFFFFFF},
+ Package() {0xBFFFFFFF, 0xCFFFFFFF, 0xDFFFFFFF, 0xEFFFFFFF, 0x1FFFFFFF, 0x2FFFFFFF},
+ Package() {0x3FFFFFFF, 0x4FFFFFFF, 0x5FFFFFFF, 0x6FFFFFFF, 0x7FFFFFFF, 0x8FFFFFFF},
+ Package() {0x9FFFFFFF, 0xAFFFFFFF, 0xBFFFFFFF, 0xCFFFFFFF, 0xDFFFFFFF, 0xEFFFFFFF},
+ Package() {0x1FFFFFFF, 0x2FFFFFFF, 0x3FFFFFFF, 0x4FFFFFFF, 0x5FFFFFFF, 0x6FFFFFFF},
+ })
+
+ Name(_PCT, Package(){
+ ResourceTemplate(){Register(FFixedHW, 0, 0, 0)},
+ ResourceTemplate(){Register(FFixedHW, 0, 0, 0)}
+ })
+
+ Method(_PPC, 0){
+ Return(0)
+ }
--- /dev/null
+/*
+ * This file is part of the coreboot project.
+ *
+ * Copyright (C) 2008 Advanced Micro Devices, Inc.
+ *
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License as published by
+ * the Free Software Foundation; version 2 of the License.
+ *
+ * This program is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ * GNU General Public License for more details.
+ *
+ * You should have received a copy of the GNU General Public License
+ * along with this program; if not, write to the Free Software
+ * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
+ */
+
+/*
+ DefinitionBlock (
+ "DSDT.AML",
+ "DSDT",
+ 0x01,
+ "XXXXXX",
+ "XXXXXXXX",
+ 0x00010001
+ )
+ {
+ Include ("debug.asl")
+ }
+*/
+
+/*
+* 0x80: POST_BASE
+* 0x3F8: DEBCOM_BASE
+* X80: POST_REGION
+* P80: PORT80
+*
+* CREG: DEBCOM_REGION
+* CUAR: DEBCOM_UART
+* CDAT: DEBCOM_DATA
+* CDLM: DEBCOM_DLM
+* DLCR: DEBCOM_LCR
+* CMCR: DEBCOM_MCR
+* CLSR: DEBCOM_LSR
+*
+* DEBUG_INIT DINI
+*/
+
+OperationRegion(X80, SystemIO, 0x80, 1)
+ Field(X80, ByteAcc, NoLock, Preserve)
+{
+ P80, 8
+}
+
+OperationRegion(CREG, SystemIO, 0x3F8, 8)
+ Field(CREG, ByteAcc, NoLock, Preserve)
+{
+ CDAT, 8,
+ CDLM, 8,, 8, DLCR, 8, CMCR, 8, CLSR, 8
+}
+
+/*
+* DINI
+* Initialize the COM port to 115,200 8-N-1
+*/
+Method(DINI)
+{
+ store(0x83, DLCR)
+ store(0x01, CDAT) /* 115200 baud (low) */
+ store(0x00, CDLM) /* 115200 baud (high) */
+ store(0x03, DLCR) /* word=8 stop=1 parity=none */
+ store(0x03, CMCR) /* DTR=1 RTS=1 Out2=Off Loop=Off */
+ store(0x00, CDLM) /* turn off interrupts */
+}
+
+/*
+* THRE
+* Wait for COM port transmitter holding register to go empty
+*/
+Method(THRE)
+{
+ and(CLSR, 0x20, local0)
+ while (Lequal(local0, Zero)) {
+ and(CLSR, 0x20, local0)
+ }
+}
+
+/*
+* OUTX
+* Send a single raw character
+*/
+Method(OUTX, 1)
+{
+ THRE()
+ store(Arg0, CDAT)
+}
+
+/*
+* OUTC
+* Send a single character, expanding LF into CR/LF
+*/
+Method(OUTC, 1)
+{
+ if (LEqual(Arg0, 0x0a)) {
+ OUTX(0x0d)
+ }
+ OUTX(Arg0)
+}
+
+/*
+* DBGN
+* Send a single hex nibble
+*/
+Method(DBGN, 1)
+{
+ and(Arg0, 0x0f, Local0)
+ if (LLess(Local0, 10)) {
+ add(Local0, 0x30, Local0)
+ } else {
+ add(Local0, 0x37, Local0)
+ }
+ OUTC(Local0)
+}
+
+/*
+* DBGB
+* Send a hex byte
+*/
+Method(DBGB, 1)
+{
+ ShiftRight(Arg0, 4, Local0)
+ DBGN(Local0)
+ DBGN(Arg0)
+}
+
+/*
+* DBGW
+* Send a hex word
+*/
+Method(DBGW, 1)
+{
+ ShiftRight(Arg0, 8, Local0)
+ DBGB(Local0)
+ DBGB(Arg0)
+}
+
+/*
+* DBGD
+* Send a hex Dword
+*/
+Method(DBGD, 1)
+{
+ ShiftRight(Arg0, 16, Local0)
+ DBGW(Local0)
+ DBGW(Arg0)
+}
+
+/*
+* DBGO
+* Send either a string or an integer
+*/
+Method(DBGO, 1)
+{
+ /* DINI() */
+ if (LEqual(ObjectType(Arg0), 1)) {
+ if (LGreater(Arg0, 0xffff)) {
+ DBGD(Arg0)
+ } else {
+ if (LGreater(Arg0, 0xff)) {
+ DBGW(Arg0)
+ } else {
+ DBGB(Arg0)
+ }
+ }
+ } else {
+ Name(BDBG, Buffer(80) {})
+ store(Arg0, BDBG)
+ store(0, Local1)
+ while (One) {
+ store(GETC(BDBG, Local1), Local0)
+ if (LEqual(Local0, 0)) {
+ return (0)
+ }
+ OUTC(Local0)
+ Increment(Local1)
+ }
+ }
+ return (0)
+}
+
+/* Get a char from a string */
+Method(GETC, 2)
+{
+ CreateByteField(Arg0, Arg1, DBGC)
+ return (DBGC)
+}
--- /dev/null
+#!/bin/bash
+#cpp -P dsdt.asl > dsdt.i
+iasl dsdt.asl
--- /dev/null
+/*
+ * This file is part of the coreboot project.
+ *
+ * Copyright (C) 2008 Advanced Micro Devices, Inc.
+ *
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License as published by
+ * the Free Software Foundation; version 2 of the License.
+ *
+ * This program is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ * GNU General Public License for more details.
+ *
+ * You should have received a copy of the GNU General Public License
+ * along with this program; if not, write to the Free Software
+ * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
+ */
+
+/* DefinitionBlock Statement */
+DefinitionBlock (
+ "DSDT.AML", /* Output filename */
+ "DSDT", /* Signature */
+ 0x01, /* DSDT Revision */
+ "AMD ", /* OEMID */
+ "DBM690T ", /* TABLE ID */
+ 0x00010001 /* OEM Revision */
+ )
+{ /* Start of ASL file */
+ /* Include ("debug.asl") */ /* Include global debug methods if needed */
+
+ /* Data to be patched by the BIOS during POST */
+ /* Memory related values */
+ Name(TOM, 0x40000000)/* Top of RAM memory below 4GB */
+ Name(TOM2, 0x0) /* Top of RAM memory above 4GB (>> 16) */
+ Name(LOMH, 0x0) /* Start of unused memory in C0000-E0000 range */
+ Name(PBAD, 0x0) /* Address of BIOS area (If TOM2 != 0, Addr >> 16) */
+ Name(PBLN, 0x0) /* Length of BIOS area */
+
+ Name(PCBA, 0xE0000000) /* Base address of PCIe config space */
+ Name(HPBA, 0xFED00000) /* Base address of HPET table */
+
+ Name(SSFG, 0x0D) /* S1 support: bit 0, S2 Support: bit 1, etc. S0 & S5 assumed */
+
+ /* USB overcurrent mapping pins. */
+ Name(UOM0, 0)
+ Name(UOM1, 2)
+ Name(UOM2, 0)
+ Name(UOM3, 7)
+ Name(UOM4, 2)
+ Name(UOM5, 2)
+ Name(UOM6, 6)
+ Name(UOM7, 2)
+ Name(UOM8, 6)
+ Name(UOM9, 6)
+
+ /*
+ * Processor Object
+ *
+ */
+ Scope (\_PR) { /* define processor scope */
+ Processor(
+ CPU0, /* name space name */
+ 0, /* Unique number for this processor */
+ 0x808, /* PBLK system I/O address !hardcoded! */
+ 0x06 /* PBLKLEN for boot processor */
+ ) {
+ Include ("cpstate.asl")
+ }
+
+ Processor(
+ CPU1, /* name space name */
+ 1, /* Unique number for this processor */
+ 0x0000, /* PBLK system I/O address !hardcoded! */
+ 0x00 /* PBLKLEN for boot processor */
+ ) {
+ Include ("cpstate.asl")
+ }
+
+ Processor(
+ CPU2, /* name space name */
+ 2, /* Unique number for this processor */
+ 0x0000, /* PBLK system I/O address !hardcoded! */
+ 0x00 /* PBLKLEN for boot processor */
+ ) {
+ Include ("cpstate.asl")
+ }
+
+ Processor(
+ CPU3, /* name space name */
+ 3, /* Unique number for this processor */
+ 0x0000, /* PBLK system I/O address !hardcoded! */
+ 0x00 /* PBLKLEN for boot processor */
+ ) {
+ Include ("cpstate.asl")
+ }
+ } /* End _PR scope */
+
+ /* Some global data */
+ Name(OSTP, 3) /* Assume nothing. WinXp = 1, Vista = 2, Linux = 3, WinCE = 4 */
+ Name(OSV, Ones) /* Assume nothing */
+ Name(PMOD, One) /* Assume APIC */
+
+ /* PIC IRQ mapping registers, C00h-C01h */
+ OperationRegion(PRQM, SystemIO, 0x00000C00, 0x00000002)
+ Field(PRQM, ByteAcc, NoLock, Preserve) {
+ PRQI, 0x00000008,
+ PRQD, 0x00000008, /* Offset: 1h */
+ }
+ IndexField(PRQI, PRQD, ByteAcc, NoLock, Preserve) {
+ PINA, 0x00000008, /* Index 0 */
+ PINB, 0x00000008, /* Index 1 */
+ PINC, 0x00000008, /* Index 2 */
+ PIND, 0x00000008, /* Index 3 */
+ AINT, 0x00000008, /* Index 4 */
+ SINT, 0x00000008, /* Index 5 */
+ , 0x00000008, /* Index 6 */
+ AAUD, 0x00000008, /* Index 7 */
+ AMOD, 0x00000008, /* Index 8 */
+ PINE, 0x00000008, /* Index 9 */
+ PINF, 0x00000008, /* Index A */
+ PING, 0x00000008, /* Index B */
+ PINH, 0x00000008, /* Index C */
+ }
+
+ /* PCI Error control register */
+ OperationRegion(PERC, SystemIO, 0x00000C14, 0x00000001)
+ Field(PERC, ByteAcc, NoLock, Preserve) {
+ SENS, 0x00000001,
+ PENS, 0x00000001,
+ SENE, 0x00000001,
+ PENE, 0x00000001,
+ }
+
+ /* Client Management index/data registers */
+ OperationRegion(CMT, SystemIO, 0x00000C50, 0x00000002)
+ Field(CMT, ByteAcc, NoLock, Preserve) {
+ CMTI, 8,
+ /* Client Management Data register */
+ G64E, 1,
+ G64O, 1,
+ G32O, 2,
+ , 2,
+ GPSL, 2,
+ }
+
+ /* GPM Port register */
+ OperationRegion(GPT, SystemIO, 0x00000C52, 0x00000001)
+ Field(GPT, ByteAcc, NoLock, Preserve) {
+ GPB0,1,
+ GPB1,1,
+ GPB2,1,
+ GPB3,1,
+ GPB4,1,
+ GPB5,1,
+ GPB6,1,
+ GPB7,1,
+ }
+
+ /* Flash ROM program enable register */
+ OperationRegion(FRE, SystemIO, 0x00000C6F, 0x00000001)
+ Field(FRE, ByteAcc, NoLock, Preserve) {
+ , 0x00000006,
+ FLRE, 0x00000001,
+ }
+
+ /* PM2 index/data registers */
+ OperationRegion(PM2R, SystemIO, 0x00000CD0, 0x00000002)
+ Field(PM2R, ByteAcc, NoLock, Preserve) {
+ PM2I, 0x00000008,
+ PM2D, 0x00000008,
+ }
+
+ /* Power Management I/O registers */
+ OperationRegion(PIOR, SystemIO, 0x00000CD6, 0x00000002)
+ Field(PIOR, ByteAcc, NoLock, Preserve) {
+ PIOI, 0x00000008,
+ PIOD, 0x00000008,
+ }
+ IndexField (PIOI, PIOD, ByteAcc, NoLock, Preserve) {
+ Offset(0x00), /* MiscControl */
+ , 1,
+ T1EE, 1,
+ T2EE, 1,
+ Offset(0x01), /* MiscStatus */
+ , 1,
+ T1E, 1,
+ T2E, 1,
+ Offset(0x04), /* SmiWakeUpEventEnable3 */
+ , 7,
+ SSEN, 1,
+ Offset(0x07), /* SmiWakeUpEventStatus3 */
+ , 7,
+ CSSM, 1,
+ Offset(0x10), /* AcpiEnable */
+ , 6,
+ PWDE, 1,
+ Offset(0x1C), /* ProgramIoEnable */
+ , 3,
+ MKME, 1,
+ IO3E, 1,
+ IO2E, 1,
+ IO1E, 1,
+ IO0E, 1,
+ Offset(0x1D), /* IOMonitorStatus */
+ , 3,
+ MKMS, 1,
+ IO3S, 1,
+ IO2S, 1,
+ IO1S, 1,
+ IO0S,1,
+ Offset(0x20), /* AcpiPmEvtBlk */
+ APEB, 16,
+ Offset(0x36), /* GEvtLevelConfig */
+ , 6,
+ ELC6, 1,
+ ELC7, 1,
+ Offset(0x37), /* GPMLevelConfig0 */
+ , 3,
+ PLC0, 1,
+ PLC1, 1,
+ PLC2, 1,
+ PLC3, 1,
+ PLC8, 1,
+ Offset(0x38), /* GPMLevelConfig1 */
+ , 1,
+ PLC4, 1,
+ PLC5, 1,
+ , 1,
+ PLC6, 1,
+ PLC7, 1,
+ Offset(0x3B), /* PMEStatus1 */
+ GP0S, 1,
+ GM4S, 1,
+ GM5S, 1,
+ APS, 1,
+ GM6S, 1,
+ GM7S, 1,
+ GP2S, 1,
+ STSS, 1,
+ Offset(0x55), /* SoftPciRst */
+ SPRE, 1,
+ , 1,
+ , 1,
+ PNAT, 1,
+ PWMK, 1,
+ PWNS, 1,
+
+ /* Offset(0x61), */ /* Options_1 */
+ /* ,7, */
+ /* R617,1, */
+
+ Offset(0x65), /* UsbPMControl */
+ , 4,
+ URRE, 1,
+ Offset(0x68), /* MiscEnable68 */
+ , 3,
+ TMTE, 1,
+ , 1,
+ Offset(0x92), /* GEVENTIN */
+ , 7,
+ E7IS, 1,
+ Offset(0x96), /* GPM98IN */
+ G8IS, 1,
+ G9IS, 1,
+ Offset(0x9A), /* EnhanceControl */
+ ,7,
+ HPDE, 1,
+ Offset(0xA8), /* PIO7654Enable */
+ IO4E, 1,
+ IO5E, 1,
+ IO6E, 1,
+ IO7E, 1,
+ Offset(0xA9), /* PIO7654Status */
+ IO4S, 1,
+ IO5S, 1,
+ IO6S, 1,
+ IO7S, 1,
+ }
+
+ /* PM1 Event Block
+ * First word is PM1_Status, Second word is PM1_Enable
+ */
+ OperationRegion(P1EB, SystemIO, APEB, 0x04)
+ Field(P1EB, ByteAcc, NoLock, Preserve) {
+ TMST, 1,
+ , 3,
+ BMST, 1,
+ GBST, 1,
+ Offset(0x01),
+ PBST, 1,
+ , 1,
+ RTST, 1,
+ , 3,
+ PWST, 1,
+ SPWS, 1,
+ Offset(0x02),
+ TMEN, 1,
+ , 4,
+ GBEN, 1,
+ Offset(0x03),
+ PBEN, 1,
+ , 1,
+ RTEN, 1,
+ , 3,
+ PWDA, 1,
+ }
+
+ Scope(\_SB) {
+
+ /* PCIe Configuration Space for 16 busses */
+ OperationRegion(PCFG, SystemMemory, PCBA, 0x01000000) /* Each bus consumes 1MB */
+ Field(PCFG, ByteAcc, NoLock, Preserve) {
+ /* Byte offsets are computed using the following technique:
+ * ((bus number + 1) * ((device number * 8) * 4096)) + register offset
+ * The 8 comes from 8 functions per device, and 4096 bytes per function config space
+ */
+ Offset(0x00090024), /* Byte offset to SATA register 24h - Bus 0, Device 18, Function 0 */
+ STB5, 32,
+ Offset(0x00098042), /* Byte offset to OHCI0 register 42h - Bus 0, Device 19, Function 0 */
+ PT0D, 1,
+ PT1D, 1,
+ PT2D, 1,
+ PT3D, 1,
+ PT4D, 1,
+ PT5D, 1,
+ PT6D, 1,
+ PT7D, 1,
+ PT8D, 1,
+ PT9D, 1,
+ Offset(0x000A0004), /* Byte offset to SMBUS register 4h - Bus 0, Device 20, Function 0 */
+ SBIE, 1,
+ SBME, 1,
+ Offset(0x000A0008), /* Byte offset to SMBUS register 8h - Bus 0, Device 20, Function 0 */
+ SBRI, 8,
+ Offset(0x000A0014), /* Byte offset to SMBUS register 14h - Bus 0, Device 20, Function 0 */
+ SBB1, 32,
+ Offset(0x000A0078), /* Byte offset to SMBUS register 78h - Bus 0, Device 20, Function 0 */
+ ,14,
+ P92E, 1, /* Port92 decode enable */
+ }
+
+ OperationRegion(SB5, SystemMemory, STB5, 0x1000)
+ Field(SB5, AnyAcc, NoLock, Preserve)
+ {
+ /* Port 0 */
+ Offset(0x120), /* Port 0 Task file status */
+ P0ER, 1,
+ , 2,
+ P0DQ, 1,
+ , 3,
+ P0BY, 1,
+ Offset(0x128), /* Port 0 Serial ATA status */
+ P0DD, 4,
+ , 4,
+ P0IS, 4,
+ Offset(0x12C), /* Port 0 Serial ATA control */
+ P0DI, 4,
+ Offset(0x130), /* Port 0 Serial ATA error */
+ , 16,
+ P0PR, 1,
+
+ /* Port 1 */
+ offset(0x1A0), /* Port 1 Task file status */
+ P1ER, 1,
+ , 2,
+ P1DQ, 1,
+ , 3,
+ P1BY, 1,
+ Offset(0x1A8), /* Port 1 Serial ATA status */
+ P1DD, 4,
+ , 4,
+ P1IS, 4,
+ Offset(0x1AC), /* Port 1 Serial ATA control */
+ P1DI, 4,
+ Offset(0x1B0), /* Port 1 Serial ATA error */
+ , 16,
+ P1PR, 1,
+
+ /* Port 2 */
+ Offset(0x220), /* Port 2 Task file status */
+ P2ER, 1,
+ , 2,
+ P2DQ, 1,
+ , 3,
+ P2BY, 1,
+ Offset(0x228), /* Port 2 Serial ATA status */
+ P2DD, 4,
+ , 4,
+ P2IS, 4,
+ Offset(0x22C), /* Port 2 Serial ATA control */
+ P2DI, 4,
+ Offset(0x230), /* Port 2 Serial ATA error */
+ , 16,
+ P2PR, 1,
+
+ /* Port 3 */
+ Offset(0x2A0), /* Port 3 Task file status */
+ P3ER, 1,
+ , 2,
+ P3DQ, 1,
+ , 3,
+ P3BY, 1,
+ Offset(0x2A8), /* Port 3 Serial ATA status */
+ P3DD, 4,
+ , 4,
+ P3IS, 4,
+ Offset(0x2AC), /* Port 3 Serial ATA control */
+ P3DI, 4,
+ Offset(0x2B0), /* Port 3 Serial ATA error */
+ , 16,
+ P3PR, 1,
+ }
+ }
+
+ Include ("routing.asl")
+
+ Scope(\_SB) {
+
+ Method(CkOT, 0){
+
+ if(LNotEqual(OSTP, Ones)) {Return(OSTP)} /* OS version was already detected */
+
+ if(CondRefOf(\_OSI,Local1))
+ {
+ Store(1, OSTP) /* Assume some form of XP */
+ if (\_OSI("Windows 2006")) /* Vista */
+ {
+ Store(2, OSTP)
+ }
+ } else {
+ If(WCMP(\_OS,"Linux")) {
+ Store(3, OSTP) /* Linux */
+ } Else {
+ Store(4, OSTP) /* Gotta be WinCE */
+ }
+ }
+ Return(OSTP)
+ }
+
+ Method(_PIC, 0x01, NotSerialized)
+ {
+ If (Arg0)
+ {
+ \_SB.CIRQ()
+ }
+ Store(Arg0, PMOD)
+ }
+
+ Method(CIRQ, 0x00, NotSerialized)
+ {
+ Store(0, PINA)
+ Store(0, PINB)
+ Store(0, PINC)
+ Store(0, PIND)
+ Store(0, PINE)
+ Store(0, PINF)
+ Store(0, PING)
+ Store(0, PINH)
+ }
+
+ Name(IRQB, ResourceTemplate(){
+ IRQ(Level,ActiveLow,Shared){15}
+ })
+
+ Name(IRQP, ResourceTemplate(){
+ IRQ(Level,ActiveLow,Exclusive){3, 4, 5, 7, 10, 11, 12, 15}
+ })
+
+ Name(PITF, ResourceTemplate(){
+ IRQ(Level,ActiveLow,Exclusive){9}
+ })
+
+ Device(INTA) {
+ Name(_HID, EISAID("PNP0C0F"))
+ Name(_UID, 1)
+
+ Method(_STA, 0) {
+ if (PINA) {
+ Return(0x0B) /* sata is invisible */
+ } else {
+ Return(0x09) /* sata is disabled */
+ }
+ } /* End Method(_SB.INTA._STA) */
+
+ Method(_DIS ,0) {
+ /* DBGO("\\_SB\\LNKA\\_DIS\n") */
+ Store(0, PINA)
+ } /* End Method(_SB.INTA._DIS) */
+
+ Method(_PRS ,0) {
+ /* DBGO("\\_SB\\LNKA\\_PRS\n") */
+ Return(IRQP)
+ } /* Method(_SB.INTA._PRS) */
+
+ Method(_CRS ,0) {
+ /* DBGO("\\_SB\\LNKA\\_CRS\n") */
+ CreateWordField(IRQB, 0x1, IRQN)
+ ShiftLeft(1, PINA, IRQN)
+ Return(IRQB)
+ } /* Method(_SB.INTA._CRS) */
+
+ Method(_SRS, 1) {
+ /* DBGO("\\_SB\\LNKA\\_CRS\n") */
+ CreateWordField(ARG0, 1, IRQM)
+
+ /* Use lowest available IRQ */
+ FindSetRightBit(IRQM, Local0)
+ if (Local0) {
+ Decrement(Local0)
+ }
+ Store(Local0, PINA)
+ } /* End Method(_SB.INTA._SRS) */
+ } /* End Device(INTA) */
+
+ Device(INTB) {
+ Name(_HID, EISAID("PNP0C0F"))
+ Name(_UID, 2)
+
+ Method(_STA, 0) {
+ if (PINB) {
+ Return(0x0B) /* sata is invisible */
+ } else {
+ Return(0x09) /* sata is disabled */
+ }
+ } /* End Method(_SB.INTB._STA) */
+
+ Method(_DIS ,0) {
+ /* DBGO("\\_SB\\LNKB\\_DIS\n") */
+ Store(0, PINB)
+ } /* End Method(_SB.INTB._DIS) */
+
+ Method(_PRS ,0) {
+ /* DBGO("\\_SB\\LNKB\\_PRS\n") */
+ Return(IRQP)
+ } /* Method(_SB.INTB._PRS) */
+
+ Method(_CRS ,0) {
+ /* DBGO("\\_SB\\LNKB\\_CRS\n") */
+ CreateWordField(IRQB, 0x1, IRQN)
+ ShiftLeft(1, PINB, IRQN)
+ Return(IRQB)
+ } /* Method(_SB.INTB._CRS) */
+
+ Method(_SRS, 1) {
+ /* DBGO("\\_SB\\LNKB\\_CRS\n") */
+ CreateWordField(ARG0, 1, IRQM)
+
+ /* Use lowest available IRQ */
+ FindSetRightBit(IRQM, Local0)
+ if (Local0) {
+ Decrement(Local0)
+ }
+ Store(Local0, PINB)
+ } /* End Method(_SB.INTB._SRS) */
+ } /* End Device(INTB) */
+
+ Device(INTC) {
+ Name(_HID, EISAID("PNP0C0F"))
+ Name(_UID, 3)
+
+ Method(_STA, 0) {
+ if (PINC) {
+ Return(0x0B) /* sata is invisible */
+ } else {
+ Return(0x09) /* sata is disabled */
+ }
+ } /* End Method(_SB.INTC._STA) */
+
+ Method(_DIS ,0) {
+ /* DBGO("\\_SB\\LNKC\\_DIS\n") */
+ Store(0, PINC)
+ } /* End Method(_SB.INTC._DIS) */
+
+ Method(_PRS ,0) {
+ /* DBGO("\\_SB\\LNKC\\_PRS\n") */
+ Return(IRQP)
+ } /* Method(_SB.INTC._PRS) */
+
+ Method(_CRS ,0) {
+ /* DBGO("\\_SB\\LNKC\\_CRS\n") */
+ CreateWordField(IRQB, 0x1, IRQN)
+ ShiftLeft(1, PINC, IRQN)
+ Return(IRQB)
+ } /* Method(_SB.INTC._CRS) */
+
+ Method(_SRS, 1) {
+ /* DBGO("\\_SB\\LNKC\\_CRS\n") */
+ CreateWordField(ARG0, 1, IRQM)
+
+ /* Use lowest available IRQ */
+ FindSetRightBit(IRQM, Local0)
+ if (Local0) {
+ Decrement(Local0)
+ }
+ Store(Local0, PINC)
+ } /* End Method(_SB.INTC._SRS) */
+ } /* End Device(INTC) */
+
+ Device(INTD) {
+ Name(_HID, EISAID("PNP0C0F"))
+ Name(_UID, 4)
+
+ Method(_STA, 0) {
+ if (PIND) {
+ Return(0x0B) /* sata is invisible */
+ } else {
+ Return(0x09) /* sata is disabled */
+ }
+ } /* End Method(_SB.INTD._STA) */
+
+ Method(_DIS ,0) {
+ /* DBGO("\\_SB\\LNKD\\_DIS\n") */
+ Store(0, PIND)
+ } /* End Method(_SB.INTD._DIS) */
+
+ Method(_PRS ,0) {
+ /* DBGO("\\_SB\\LNKD\\_PRS\n") */
+ Return(IRQP)
+ } /* Method(_SB.INTD._PRS) */
+
+ Method(_CRS ,0) {
+ /* DBGO("\\_SB\\LNKD\\_CRS\n") */
+ CreateWordField(IRQB, 0x1, IRQN)
+ ShiftLeft(1, PIND, IRQN)
+ Return(IRQB)
+ } /* Method(_SB.INTD._CRS) */
+
+ Method(_SRS, 1) {
+ /* DBGO("\\_SB\\LNKD\\_CRS\n") */
+ CreateWordField(ARG0, 1, IRQM)
+
+ /* Use lowest available IRQ */
+ FindSetRightBit(IRQM, Local0)
+ if (Local0) {
+ Decrement(Local0)
+ }
+ Store(Local0, PIND)
+ } /* End Method(_SB.INTD._SRS) */
+ } /* End Device(INTD) */
+
+ Device(INTE) {
+ Name(_HID, EISAID("PNP0C0F"))
+ Name(_UID, 5)
+
+ Method(_STA, 0) {
+ if (PINE) {
+ Return(0x0B) /* sata is invisible */
+ } else {
+ Return(0x09) /* sata is disabled */
+ }
+ } /* End Method(_SB.INTE._STA) */
+
+ Method(_DIS ,0) {
+ /* DBGO("\\_SB\\LNKE\\_DIS\n") */
+ Store(0, PINE)
+ } /* End Method(_SB.INTE._DIS) */
+
+ Method(_PRS ,0) {
+ /* DBGO("\\_SB\\LNKE\\_PRS\n") */
+ Return(IRQP)
+ } /* Method(_SB.INTE._PRS) */
+
+ Method(_CRS ,0) {
+ /* DBGO("\\_SB\\LNKE\\_CRS\n") */
+ CreateWordField(IRQB, 0x1, IRQN)
+ ShiftLeft(1, PINE, IRQN)
+ Return(IRQB)
+ } /* Method(_SB.INTE._CRS) */
+
+ Method(_SRS, 1) {
+ /* DBGO("\\_SB\\LNKE\\_CRS\n") */
+ CreateWordField(ARG0, 1, IRQM)
+
+ /* Use lowest available IRQ */
+ FindSetRightBit(IRQM, Local0)
+ if (Local0) {
+ Decrement(Local0)
+ }
+ Store(Local0, PINE)
+ } /* End Method(_SB.INTE._SRS) */
+ } /* End Device(INTE) */
+
+ Device(INTF) {
+ Name(_HID, EISAID("PNP0C0F"))
+ Name(_UID, 6)
+
+ Method(_STA, 0) {
+ if (PINF) {
+ Return(0x0B) /* sata is invisible */
+ } else {
+ Return(0x09) /* sata is disabled */
+ }
+ } /* End Method(_SB.INTF._STA) */
+
+ Method(_DIS ,0) {
+ /* DBGO("\\_SB\\LNKF\\_DIS\n") */
+ Store(0, PINF)
+ } /* End Method(_SB.INTF._DIS) */
+
+ Method(_PRS ,0) {
+ /* DBGO("\\_SB\\LNKF\\_PRS\n") */
+ Return(PITF)
+ } /* Method(_SB.INTF._PRS) */
+
+ Method(_CRS ,0) {
+ /* DBGO("\\_SB\\LNKF\\_CRS\n") */
+ CreateWordField(IRQB, 0x1, IRQN)
+ ShiftLeft(1, PINF, IRQN)
+ Return(IRQB)
+ } /* Method(_SB.INTF._CRS) */
+
+ Method(_SRS, 1) {
+ /* DBGO("\\_SB\\LNKF\\_CRS\n") */
+ CreateWordField(ARG0, 1, IRQM)
+
+ /* Use lowest available IRQ */
+ FindSetRightBit(IRQM, Local0)
+ if (Local0) {
+ Decrement(Local0)
+ }
+ Store(Local0, PINF)
+ } /* End Method(_SB.INTF._SRS) */
+ } /* End Device(INTF) */
+
+ Device(INTG) {
+ Name(_HID, EISAID("PNP0C0F"))
+ Name(_UID, 7)
+
+ Method(_STA, 0) {
+ if (PING) {
+ Return(0x0B) /* sata is invisible */
+ } else {
+ Return(0x09) /* sata is disabled */
+ }
+ } /* End Method(_SB.INTG._STA) */
+
+ Method(_DIS ,0) {
+ /* DBGO("\\_SB\\LNKG\\_DIS\n") */
+ Store(0, PING)
+ } /* End Method(_SB.INTG._DIS) */
+
+ Method(_PRS ,0) {
+ /* DBGO("\\_SB\\LNKG\\_PRS\n") */
+ Return(IRQP)
+ } /* Method(_SB.INTG._CRS) */
+
+ Method(_CRS ,0) {
+ /* DBGO("\\_SB\\LNKG\\_CRS\n") */
+ CreateWordField(IRQB, 0x1, IRQN)
+ ShiftLeft(1, PING, IRQN)
+ Return(IRQB)
+ } /* Method(_SB.INTG._CRS) */
+
+ Method(_SRS, 1) {
+ /* DBGO("\\_SB\\LNKG\\_CRS\n") */
+ CreateWordField(ARG0, 1, IRQM)
+
+ /* Use lowest available IRQ */
+ FindSetRightBit(IRQM, Local0)
+ if (Local0) {
+ Decrement(Local0)
+ }
+ Store(Local0, PING)
+ } /* End Method(_SB.INTG._SRS) */
+ } /* End Device(INTG) */
+
+ Device(INTH) {
+ Name(_HID, EISAID("PNP0C0F"))
+ Name(_UID, 8)
+
+ Method(_STA, 0) {
+ if (PINH) {
+ Return(0x0B) /* sata is invisible */
+ } else {
+ Return(0x09) /* sata is disabled */
+ }
+ } /* End Method(_SB.INTH._STA) */
+
+ Method(_DIS ,0) {
+ /* DBGO("\\_SB\\LNKH\\_DIS\n") */
+ Store(0, PINH)
+ } /* End Method(_SB.INTH._DIS) */
+
+ Method(_PRS ,0) {
+ /* DBGO("\\_SB\\LNKH\\_PRS\n") */
+ Return(IRQP)
+ } /* Method(_SB.INTH._CRS) */
+
+ Method(_CRS ,0) {
+ /* DBGO("\\_SB\\LNKH\\_CRS\n") */
+ CreateWordField(IRQB, 0x1, IRQN)
+ ShiftLeft(1, PINH, IRQN)
+ Return(IRQB)
+ } /* Method(_SB.INTH._CRS) */
+
+ Method(_SRS, 1) {
+ /* DBGO("\\_SB\\LNKH\\_CRS\n") */
+ CreateWordField(ARG0, 1, IRQM)
+
+ /* Use lowest available IRQ */
+ FindSetRightBit(IRQM, Local0)
+ if (Local0) {
+ Decrement(Local0)
+ }
+ Store(Local0, PINH)
+ } /* End Method(_SB.INTH._SRS) */
+ } /* End Device(INTH) */
+
+ } /* End Scope(_SB) */
+
+
+ /* Supported sleep states: */
+ Name(\_S0, Package () {0x00, 0x00, 0x00, 0x00} ) /* (S0) - working state */
+
+ If (LAnd(SSFG, 0x01)) {
+ Name(\_S1, Package () {0x01, 0x01, 0x00, 0x00} ) /* (S1) - sleeping w/CPU context */
+ }
+ If (LAnd(SSFG, 0x02)) {
+ Name(\_S2, Package () {0x02, 0x02, 0x00, 0x00} ) /* (S2) - "light" Suspend to RAM */
+ }
+ If (LAnd(SSFG, 0x04)) {
+ Name(\_S3, Package () {0x03, 0x03, 0x00, 0x00} ) /* (S3) - Suspend to RAM */
+ }
+ If (LAnd(SSFG, 0x08)) {
+ Name(\_S4, Package () {0x04, 0x04, 0x00, 0x00} ) /* (S4) - Suspend to Disk */
+ }
+
+ Name(\_S5, Package () {0x05, 0x05, 0x00, 0x00} ) /* (S5) - Soft Off */
+
+ Name(\_SB.CSPS ,0) /* Current Sleep State (S0, S1, S2, S3, S4, S5) */
+ Name(CSMS, 0) /* Current System State */
+
+ /* Wake status package */
+ Name(WKST,Package(){Zero, Zero})
+
+ /*
+ * \_PTS - Prepare to Sleep method
+ *
+ * Entry:
+ * Arg0=The value of the sleeping state S1=1, S2=2, etc
+ *
+ * Exit:
+ * -none-
+ *
+ * The _PTS control method is executed at the beginning of the sleep process
+ * for S1-S5. The sleeping value is passed to the _PTS control method. This
+ * control method may be executed a relatively long time before entering the
+ * sleep state and the OS may abort the operation without notification to
+ * the ACPI driver. This method cannot modify the configuration or power
+ * state of any device in the system.
+ */
+ Method(\_PTS, 1) {
+ /* DBGO("\\_PTS\n") */
+ /* DBGO("From S0 to S") */
+ /* DBGO(Arg0) */
+ /* DBGO("\n") */
+
+ /* Don't allow PCIRST# to reset USB */
+ if (LEqual(Arg0,3)){
+ Store(0,URRE)
+ }
+
+ /* Clear sleep SMI status flag and enable sleep SMI trap. */
+ /*Store(One, CSSM)
+ Store(One, SSEN)*/
+
+ /* On older chips, clear PciExpWakeDisEn */
+ /*if (LLessEqual(\_SB.SBRI, 0x13)) {
+ * Store(0,\_SB.PWDE)
+ *}
+ */
+
+ /* Clear wake status structure. */
+ Store(0, Index(WKST,0))
+ Store(0, Index(WKST,1))
+ \_SB.PCI0.SIOS (Arg0)
+ } /* End Method(\_PTS) */
+
+ /*
+ * The following method results in a "not a valid reserved NameSeg"
+ * warning so I have commented it out for the duration. It isn't
+ * used, so it could be removed.
+ *
+ *
+ * \_GTS OEM Going To Sleep method
+ *
+ * Entry:
+ * Arg0=The value of the sleeping state S1=1, S2=2
+ *
+ * Exit:
+ * -none-
+ *
+ * Method(\_GTS, 1) {
+ * DBGO("\\_GTS\n")
+ * DBGO("From S0 to S")
+ * DBGO(Arg0)
+ * DBGO("\n")
+ * }
+ */
+
+ /*
+ * \_BFS OEM Back From Sleep method
+ *
+ * Entry:
+ * Arg0=The value of the sleeping state S1=1, S2=2
+ *
+ * Exit:
+ * -none-
+ */
+ Method(\_BFS, 1) {
+ /* DBGO("\\_BFS\n") */
+ /* DBGO("From S") */
+ /* DBGO(Arg0) */
+ /* DBGO(" to S0\n") */
+ }
+
+ /*
+ * \_WAK System Wake method
+ *
+ * Entry:
+ * Arg0=The value of the sleeping state S1=1, S2=2
+ *
+ * Exit:
+ * Return package of 2 DWords
+ * Dword 1 - Status
+ * 0x00000000 wake succeeded
+ * 0x00000001 Wake was signaled but failed due to lack of power
+ * 0x00000002 Wake was signaled but failed due to thermal condition
+ * Dword 2 - Power Supply state
+ * if non-zero the effective S-state the power supply entered
+ */
+ Method(\_WAK, 1) {
+ /* DBGO("\\_WAK\n") */
+ /* DBGO("From S") */
+ /* DBGO(Arg0) */
+ /* DBGO(" to S0\n") */
+
+ /* Re-enable HPET */
+ Store(1,HPDE)
+
+ /* Restore PCIRST# so it resets USB */
+ if (LEqual(Arg0,3)){
+ Store(1,URRE)
+ }
+
+ /* Arbitrarily clear PciExpWakeStatus */
+ Store(PWST, PWST)
+
+ /* if(DeRefOf(Index(WKST,0))) {
+ * Store(0, Index(WKST,1))
+ * } else {
+ * Store(Arg0, Index(WKST,1))
+ * }
+ */
+ \_SB.PCI0.SIOW (Arg0)
+ Return(WKST)
+ } /* End Method(\_WAK) */
+
+ Scope(\_GPE) { /* Start Scope GPE */
+ /* General event 0 */
+ /* Method(_L00) {
+ * DBGO("\\_GPE\\_L00\n")
+ * }
+ */
+
+ /* General event 1 */
+ /* Method(_L01) {
+ * DBGO("\\_GPE\\_L00\n")
+ * }
+ */
+
+ /* General event 2 */
+ /* Method(_L02) {
+ * DBGO("\\_GPE\\_L00\n")
+ * }
+ */
+
+ /* General event 3 */
+ Method(_L03) {
+ /* DBGO("\\_GPE\\_L00\n") */
+ Notify(\_SB.PWRB, 0x02) /* NOTIFY_DEVICE_WAKE */
+ }
+
+ /* General event 4 */
+ /* Method(_L04) {
+ * DBGO("\\_GPE\\_L00\n")
+ * }
+ */
+
+ /* General event 5 */
+ /* Method(_L05) {
+ * DBGO("\\_GPE\\_L00\n")
+ * }
+ */
+
+ /* General event 6 - Used for GPM6, moved to USB.asl */
+ /* Method(_L06) {
+ * DBGO("\\_GPE\\_L00\n")
+ * }
+ */
+
+ /* General event 7 - Used for GPM7, moved to USB.asl */
+ /* Method(_L07) {
+ * DBGO("\\_GPE\\_L07\n")
+ * }
+ */
+
+ /* Legacy PM event */
+ Method(_L08) {
+ /* DBGO("\\_GPE\\_L08\n") */
+ }
+
+ /* Temp warning (TWarn) event */
+ Method(_L09) {
+ /* DBGO("\\_GPE\\_L09\n") */
+ Notify (\_TZ.TZ00, 0x80)
+ }
+
+ /* Reserved */
+ /* Method(_L0A) {
+ * DBGO("\\_GPE\\_L0A\n")
+ * }
+ */
+
+ /* USB controller PME# */
+ Method(_L0B) {
+ /* DBGO("\\_GPE\\_L0B\n") */
+ Notify(\_SB.PCI0.UOH1, 0x02) /* NOTIFY_DEVICE_WAKE */
+ Notify(\_SB.PCI0.UOH2, 0x02) /* NOTIFY_DEVICE_WAKE */
+ Notify(\_SB.PCI0.UOH3, 0x02) /* NOTIFY_DEVICE_WAKE */
+ Notify(\_SB.PCI0.UOH4, 0x02) /* NOTIFY_DEVICE_WAKE */
+ Notify(\_SB.PCI0.UOH5, 0x02) /* NOTIFY_DEVICE_WAKE */
+ Notify(\_SB.PCI0.UEH1, 0x02) /* NOTIFY_DEVICE_WAKE */
+ Notify(\_SB.PWRB, 0x02) /* NOTIFY_DEVICE_WAKE */
+ }
+
+ /* AC97 controller PME# */
+ /* Method(_L0C) {
+ * DBGO("\\_GPE\\_L0C\n")
+ * }
+ */
+
+ /* OtherTherm PME# */
+ /* Method(_L0D) {
+ * DBGO("\\_GPE\\_L0D\n")
+ * }
+ */
+
+ /* GPM9 SCI event - Moved to USB.asl */
+ /* Method(_L0E) {
+ * DBGO("\\_GPE\\_L0E\n")
+ * }
+ */
+
+ /* PCIe HotPlug event */
+ /* Method(_L0F) {
+ * DBGO("\\_GPE\\_L0F\n")
+ * }
+ */
+
+ /* ExtEvent0 SCI event */
+ Method(_L10) {
+ /* DBGO("\\_GPE\\_L10\n") */
+ }
+
+
+ /* ExtEvent1 SCI event */
+ Method(_L11) {
+ /* DBGO("\\_GPE\\_L11\n") */
+ }
+
+ /* PCIe PME# event */
+ /* Method(_L12) {
+ * DBGO("\\_GPE\\_L12\n")
+ * }
+ */
+
+ /* GPM0 SCI event - Moved to USB.asl */
+ /* Method(_L13) {
+ * DBGO("\\_GPE\\_L13\n")
+ * }
+ */
+
+ /* GPM1 SCI event - Moved to USB.asl */
+ /* Method(_L14) {
+ * DBGO("\\_GPE\\_L14\n")
+ * }
+ */
+
+ /* GPM2 SCI event - Moved to USB.asl */
+ /* Method(_L15) {
+ * DBGO("\\_GPE\\_L15\n")
+ * }
+ */
+
+ /* GPM3 SCI event - Moved to USB.asl */
+ /* Method(_L16) {
+ * DBGO("\\_GPE\\_L16\n")
+ * }
+ */
+
+ /* GPM8 SCI event - Moved to USB.asl */
+ /* Method(_L17) {
+ * DBGO("\\_GPE\\_L17\n")
+ * }
+ */
+
+ /* GPIO0 or GEvent8 event */
+ Method(_L18) {
+ /* DBGO("\\_GPE\\_L18\n") */
+ Notify(\_SB.PCI0.PBR2, 0x02) /* NOTIFY_DEVICE_WAKE */
+ Notify(\_SB.PCI0.PBR4, 0x02) /* NOTIFY_DEVICE_WAKE */
+ Notify(\_SB.PCI0.PBR5, 0x02) /* NOTIFY_DEVICE_WAKE */
+ Notify(\_SB.PCI0.PBR6, 0x02) /* NOTIFY_DEVICE_WAKE */
+ Notify(\_SB.PCI0.PBR7, 0x02) /* NOTIFY_DEVICE_WAKE */
+ Notify(\_SB.PWRB, 0x02) /* NOTIFY_DEVICE_WAKE */
+ }
+
+ /* GPM4 SCI event - Moved to USB.asl */
+ /* Method(_L19) {
+ * DBGO("\\_GPE\\_L19\n")
+ * }
+ */
+
+ /* GPM5 SCI event - Moved to USB.asl */
+ /* Method(_L1A) {
+ * DBGO("\\_GPE\\_L1A\n")
+ * }
+ */
+
+ /* Azalia SCI event */
+ Method(_L1B) {
+ /* DBGO("\\_GPE\\_L1B\n") */
+ Notify(\_SB.PCI0.AZHD, 0x02) /* NOTIFY_DEVICE_WAKE */
+ Notify(\_SB.PWRB, 0x02) /* NOTIFY_DEVICE_WAKE */
+ }
+
+ /* GPM6 SCI event - Reassigned to _L06 */
+ /* Method(_L1C) {
+ * DBGO("\\_GPE\\_L1C\n")
+ * }
+ */
+
+ /* GPM7 SCI event - Reassigned to _L07 */
+ /* Method(_L1D) {
+ * DBGO("\\_GPE\\_L1D\n")
+ * }
+ */
+
+ /* GPIO2 or GPIO66 SCI event */
+ /* Method(_L1E) {
+ * DBGO("\\_GPE\\_L1E\n")
+ * }
+ */
+
+ /* SATA SCI event - Moved to sata.asl */
+ /* Method(_L1F) {
+ * DBGO("\\_GPE\\_L1F\n")
+ * }
+ */
+
+ } /* End Scope GPE */
+
+ Include ("usb.asl")
+
+ /* South Bridge */
+ Scope(\_SB) { /* Start \_SB scope */
+ Include ("globutil.asl") /* global utility methods expected within the \_SB scope */
+
+ /* _SB.PCI0 */
+ /* Note: Only need HID on Primary Bus */
+ Device(PCI0) {
+ Name(_HID, EISAID("PNP0A03"))
+ Name(_ADR, 0x00180000) /* Dev# = BSP Dev#, Func# = 0 */
+ Method(_BBN, 0) { /* Bus number = 0 */
+ Return(0)
+ }
+ Method(_STA, 0) {
+ /* DBGO("\\_SB\\PCI0\\_STA\n") */
+ Return(0x0B) /* Status is visible */
+ }
+
+ Method(_PRT,0) {
+ If(PMOD){ Return(APR0) } /* APIC mode */
+ Return (PR0) /* PIC Mode */
+ } /* end _PRT */
+
+ /* Describe the Northbridge devices */
+ Device(AMRT) {
+ Name(_ADR, 0x00000000)
+ } /* end AMRT */
+
+ /* The internal GFX bridge */
+ Device(AGPB) {
+ Name(_ADR, 0x00010000)
+ Name(_PRW, Package() {0x18, 4})
+ Method(_PRT,0) {
+ Return (APR1)
+ }
+ } /* end AGPB */
+
+ /* The external GFX bridge */
+ Device(PBR2) {
+ Name(_ADR, 0x00020000)
+ Name(_PRW, Package() {0x18, 4})
+ Method(_PRT,0) {
+ If(PMOD){ Return(APS2) } /* APIC mode */
+ Return (PS2) /* PIC Mode */
+ } /* end _PRT */
+ } /* end PBR2 */
+
+ /* Dev3 is also an external GFX bridge, not used in Herring */
+
+ Device(PBR4) {
+ Name(_ADR, 0x00040000)
+ Name(_PRW, Package() {0x18, 4})
+ Method(_PRT,0) {
+ If(PMOD){ Return(APS4) } /* APIC mode */
+ Return (PS4) /* PIC Mode */
+ } /* end _PRT */
+ } /* end PBR4 */
+
+ Device(PBR5) {
+ Name(_ADR, 0x00050000)
+ Name(_PRW, Package() {0x18, 4})
+ Method(_PRT,0) {
+ If(PMOD){ Return(APS5) } /* APIC mode */
+ Return (PS5) /* PIC Mode */
+ } /* end _PRT */
+ } /* end PBR5 */
+
+ Device(PBR6) {
+ Name(_ADR, 0x00060000)
+ Name(_PRW, Package() {0x18, 4})
+ Method(_PRT,0) {
+ If(PMOD){ Return(APS6) } /* APIC mode */
+ Return (PS6) /* PIC Mode */
+ } /* end _PRT */
+ } /* end PBR6 */
+
+ /* The onboard EtherNet chip */
+ Device(PBR7) {
+ Name(_ADR, 0x00070000)
+ Name(_PRW, Package() {0x18, 4})
+ Method(_PRT,0) {
+ If(PMOD){ Return(APS7) } /* APIC mode */
+ Return (PS7) /* PIC Mode */
+ } /* end _PRT */
+ } /* end PBR7 */
+
+
+ /* PCI slot 1, 2, 3 */
+ Device(PIBR) {
+ Name(_ADR, 0x00140004)
+ Name(_PRW, Package() {0x18, 4})
+
+ Method(_PRT, 0) {
+ Return (PCIB)
+ }
+ }
+
+ /* Describe the Southbridge devices */
+ Device(STCR) {
+ Name(_ADR, 0x00120000)
+ Include ("sata.asl")
+ } /* end STCR */
+
+ Device(UOH1) {
+ Name(_ADR, 0x00130000)
+ Name(_PRW, Package() {0x0B, 3})
+ } /* end UOH1 */
+
+ Device(UOH2) {
+ Name(_ADR, 0x00130001)
+ Name(_PRW, Package() {0x0B, 3})
+ } /* end UOH2 */
+
+ Device(UOH3) {
+ Name(_ADR, 0x00130002)
+ Name(_PRW, Package() {0x0B, 3})
+ } /* end UOH3 */
+
+ Device(UOH4) {
+ Name(_ADR, 0x00130003)
+ Name(_PRW, Package() {0x0B, 3})
+ } /* end UOH4 */
+
+ Device(UOH5) {
+ Name(_ADR, 0x00130004)
+ Name(_PRW, Package() {0x0B, 3})
+ } /* end UOH5 */
+
+ Device(UEH1) {
+ Name(_ADR, 0x00130005)
+ Name(_PRW, Package() {0x0B, 3})
+ } /* end UEH1 */
+
+ Device(SBUS) {
+ Name(_ADR, 0x00140000)
+ } /* end SBUS */
+
+ /* Primary (and only) IDE channel */
+ Device(IDEC) {
+ Name(_ADR, 0x00140001)
+ Include ("ide.asl")
+ } /* end IDEC */
+
+ Device(AZHD) {
+ Name(_ADR, 0x00140002)
+ OperationRegion(AZPD, PCI_Config, 0x00, 0x100)
+ Field(AZPD, AnyAcc, NoLock, Preserve) {
+ offset (0x42),
+ NSDI, 1,
+ NSDO, 1,
+ NSEN, 1,
+ offset (0x44),
+ IPCR, 4,
+ offset (0x54),
+ PWST, 2,
+ , 6,
+ PMEB, 1,
+ , 6,
+ PMST, 1,
+ offset (0x62),
+ MMCR, 1,
+ offset (0x64),
+ MMLA, 32,
+ offset (0x68),
+ MMHA, 32,
+ offset (0x6C),
+ MMDT, 16,
+ }
+
+ Method(_INI) {
+ If(LEqual(OSTP,3)){ /* If we are running Linux */
+ Store(zero, NSEN)
+ Store(one, NSDO)
+ Store(one, NSDI)
+ }
+ }
+ } /* end AZHD */
+
+ Device(LIBR) {
+ Name(_ADR, 0x00140003)
+ /* Method(_INI) {
+ * DBGO("\\_SB\\PCI0\\LpcIsaBr\\_INI\n")
+ } */ /* End Method(_SB.SBRDG._INI) */
+
+ /* Real Time Clock Device */
+ Device(RTC0) {
+ Name(_HID, EISAID("PNP0B01")) /* AT Real Time Clock */
+ Name(_CRS, ResourceTemplate() {
+ IRQNoFlags(){8}
+ IO(Decode16,0x0070, 0x0070, 0, 2)
+ /* IO(Decode16,0x0070, 0x0070, 0, 4) */
+ })
+ } /* End Device(_SB.PCI0.LpcIsaBr.RTC0) */
+
+ Device(TMR) { /* Timer */
+ Name(_HID,EISAID("PNP0100")) /* System Timer */
+ Name(_CRS, ResourceTemplate() {
+ IRQNoFlags(){0}
+ IO(Decode16, 0x0040, 0x0040, 0, 4)
+ /* IO(Decode16, 0x0048, 0x0048, 0, 4) */
+ })
+ } /* End Device(_SB.PCI0.LpcIsaBr.TMR) */
+
+ Device(SPKR) { /* Speaker */
+ Name(_HID,EISAID("PNP0800")) /* AT style speaker */
+ Name(_CRS, ResourceTemplate() {
+ IO(Decode16, 0x0061, 0x0061, 0, 1)
+ })
+ } /* End Device(_SB.PCI0.LpcIsaBr.SPKR) */
+
+ Device(PIC) {
+ Name(_HID,EISAID("PNP0000")) /* AT Interrupt Controller */
+ Name(_CRS, ResourceTemplate() {
+ IRQNoFlags(){2}
+ IO(Decode16,0x0020, 0x0020, 0, 2)
+ IO(Decode16,0x00A0, 0x00A0, 0, 2)
+ /* IO(Decode16, 0x00D0, 0x00D0, 0x10, 0x02) */
+ /* IO(Decode16, 0x04D0, 0x04D0, 0x10, 0x02) */
+ })
+ } /* End Device(_SB.PCI0.LpcIsaBr.PIC) */
+
+ Device(MAD) { /* 8257 DMA */
+ Name(_HID,EISAID("PNP0200")) /* Hardware Device ID */
+ Name(_CRS, ResourceTemplate() {
+ DMA(Compatibility,BusMaster,Transfer8){4}
+ IO(Decode16, 0x0000, 0x0000, 0x10, 0x10)
+ IO(Decode16, 0x0081, 0x0081, 0x10, 0x03)
+ IO(Decode16, 0x0087, 0x0087, 0x10, 0x01)
+ IO(Decode16, 0x0089, 0x0089, 0x10, 0x03)
+ IO(Decode16, 0x008F, 0x008F, 0x10, 0x01)
+ IO(Decode16, 0x00C0, 0x00C0, 0x10, 0x20)
+ }) /* End Name(_SB.PCI0.LpcIsaBr.MAD._CRS) */
+ } /* End Device(_SB.PCI0.LpcIsaBr.MAD) */
+
+ Device(COPR) {
+ Name(_HID,EISAID("PNP0C04")) /* Math Coprocessor */
+ Name(_CRS, ResourceTemplate() {
+ IO(Decode16, 0x00F0, 0x00F0, 0, 0x10)
+ IRQNoFlags(){13}
+ })
+ } /* End Device(_SB.PCI0.LpcIsaBr.COPR) */
+
+ Device(HPTM) {
+ Name(_HID,EISAID("PNP0103"))
+ Name(CRS,ResourceTemplate() {
+ Memory32Fixed(ReadOnly,0xFED00000, 0x00000400, HPT) /* 1kb reserved space */
+ })
+ Method(_STA, 0) {
+ Return(0x0F) /* sata is visible */
+ }
+ Method(_CRS, 0) {
+ CreateDwordField(CRS, ^HPT._BAS, HPBA)
+ Store(HPBA, HPBA)
+ Return(CRS)
+ }
+ } /* End Device(_SB.PCI0.LpcIsaBr.COPR) */
+ } /* end LIBR */
+
+ Device(HPBR) {
+ Name(_ADR, 0x00140004)
+ } /* end HostPciBr */
+
+ Device(ACAD) {
+ Name(_ADR, 0x00140005)
+ } /* end Ac97audio */
+
+ Device(ACMD) {
+ Name(_ADR, 0x00140006)
+ } /* end Ac97modem */
+
+ /* ITE87427 Support */
+ OperationRegion (IOID, SystemIO, 0x2E, 0x02) /* sometimes it is 0x4E */
+ Field (IOID, ByteAcc, NoLock, Preserve)
+ {
+ SIOI, 8, SIOD, 8 /* 0x2E and 0x2F */
+ }
+
+ IndexField (SIOI, SIOD, ByteAcc, NoLock, Preserve)
+ {
+ Offset (0x07),
+ LDN, 8, /* Logical Device Number */
+ Offset (0x20),
+ CID1, 8, /* Chip ID Byte 1, 0x87 */
+ CID2, 8, /* Chip ID Byte 2, 0x12 */
+ Offset (0x30),
+ ACTR, 8, /* Function activate */
+ Offset (0xF0),
+ APC0, 8, /* APC/PME Event Enable Register */
+ APC1, 8, /* APC/PME Status Register */
+ APC2, 8, /* APC/PME Control Register 1 */
+ APC3, 8, /* Environment Controller Special Configuration Register */
+ APC4, 8 /* APC/PME Control Register 2 */
+ }
+
+ /* Enter the 87427 MB PnP Mode */
+ Method (EPNP)
+ {
+ Store(0x87, SIOI)
+ Store(0x01, SIOI)
+ Store(0x55, SIOI)
+ Store(0x55, SIOI) /* 87427 magic number */
+ }
+ /* Exit the 87427 MB PnP Mode */
+ Method (XPNP)
+ {
+ Store (0x02, SIOI)
+ Store (0x02, SIOD)
+ }
+
+ /*
+ * Keyboard PME is routed to SB600 Gevent3. We can wake
+ * up the system by pressing the key.
+ */
+ Method (SIOS, 1)
+ {
+ /* We only enable KBD PME for S5. */
+ If (LLess (Arg0, 0x05))
+ {
+ EPNP()
+ /* DBGO("87427F\n") */
+
+ Store (0x4, LDN)
+ Store (One, ACTR) /* Enable EC */
+ /*
+ Store (0x4, LDN)
+ Store (0x04, APC4)
+ */ /* falling edge. which mode? Not sure. */
+
+ Store (0x4, LDN)
+ Store (0x08, APC1) /* clear PME status, Use 0x18 for mouse & KBD */
+ Store (0x4, LDN)
+ Store (0x08, APC0) /* enable PME, Use 0x18 for mouse & KBD */
+
+ XPNP()
+ }
+ }
+ Method (SIOW, 1)
+ {
+ EPNP()
+ Store (0x4, LDN)
+ Store (Zero, APC0) /* disable keyboard PME */
+ Store (0x4, LDN)
+ Store (0xFF, APC1) /* clear keyboard PME status */
+ XPNP()
+ }
+
+ Name(CRES, ResourceTemplate() {
+ IO(Decode16, 0x0CF8, 0x0CF8, 1, 8)
+
+ WORDIO(ResourceProducer, MinFixed, MaxFixed, PosDecode, EntireRange,
+ 0x0000, /* address granularity */
+ 0x0000, /* range minimum */
+ 0x0CF7, /* range maximum */
+ 0x0000, /* translation */
+ 0x0CF8 /* Resource source index */
+ )
+
+ WORDIO(ResourceProducer, MinFixed, MaxFixed, PosDecode, EntireRange,
+ 0x0000, /* address granularity */
+ 0x0D00, /* range minimum */
+ 0xFFFF, /* range maximum */
+ 0x0000, /* translation */
+ 0xF300 /* length */
+ )
+
+ Memory32Fixed(READWRITE, 0, 0xA0000, BSMM)
+ Memory32Fixed(READONLY, 0x000A0000, 0x00020000, VGAM) /* VGA memory space */
+ Memory32Fixed(READONLY, 0x000C0000, 0x00020000, EMM1) /* Assume C0000-E0000 empty */
+ Memory32Fixed(READONLY, 0x000E0000, 0x00020000, RDBS) /* BIOS ROM area */
+
+ /* DRAM Memory from 1MB to TopMem */
+ Memory32Fixed(READWRITE, 0x00100000, 0, DMLO) /* 1MB to TopMem */
+
+ /* BIOS space just below 4GB */
+ DWORDMemory(
+ ResourceProducer, PosDecode, MinFixed, MaxFixed, Cacheable, ReadWrite,
+ 0x00, /* Granularity */
+ 0x00000000, /* Min */
+ 0x00000000, /* Max */
+ 0x00000000, /* Translation */
+ 0x00000000, /* Max-Min, RLEN */
+ ,,
+ PCBM
+ )
+
+ /* DRAM memory from 4GB to TopMem2 */
+ QWORDMemory(ResourceProducer, PosDecode, MinFixed, MaxFixed, Cacheable, ReadWrite,
+ 0xFFFFFFFF, /* Granularity */
+ 0x00000000, /* Min */
+ 0x00000000, /* Max */
+ 0x00000000, /* Translation */
+ 0x00000000, /* Max-Min, RLEN */
+ ,,
+ DMHI
+ )
+
+ /* BIOS space just below 16EB */
+ QWORDMemory(ResourceProducer, PosDecode, MinFixed, MaxFixed, Cacheable, ReadWrite,
+ 0xFFFFFFFF, /* Granularity */
+ 0x00000000, /* Min */
+ 0x00000000, /* Max */
+ 0x00000000, /* Translation */
+ 0x00000000, /* Max-Min, RLEN */
+ ,,
+ PEBM
+ )
+
+ }) /* End Name(_SB.PCI0.CRES) */
+
+ Method(_CRS, 0) {
+ /* DBGO("\\_SB\\PCI0\\_CRS\n") */
+
+ CreateDWordField(CRES, ^EMM1._BAS, EM1B)
+ CreateDWordField(CRES, ^EMM1._LEN, EM1L)
+ CreateDWordField(CRES, ^DMLO._BAS, DMLB)
+ CreateDWordField(CRES, ^DMLO._LEN, DMLL)
+ CreateDWordField(CRES, ^PCBM._MIN, PBMB)
+ CreateDWordField(CRES, ^PCBM._LEN, PBML)
+
+ CreateQWordField(CRES, ^DMHI._MIN, DMHB)
+ CreateQWordField(CRES, ^DMHI._LEN, DMHL)
+ CreateQWordField(CRES, ^PEBM._MIN, EBMB)
+ CreateQWordField(CRES, ^PEBM._LEN, EBML)
+
+ If(LGreater(LOMH, 0xC0000)){
+ Store(0xC0000, EM1B) /* Hole above C0000 and below E0000 */
+ Subtract(LOMH, 0xC0000, EM1L) /* subtract start, assumes allocation from C0000 going up */
+ }
+
+ /* Set size of memory from 1MB to TopMem */
+ Subtract(TOM, 0x100000, DMLL)
+
+ /*
+ * If(LNotEqual(TOM2, 0x00000000)){
+ * Store(0x100000000,DMHB) DRAM from 4GB to TopMem2
+ * Subtract(TOM2, 0x100000000, DMHL)
+ * }
+ */
+
+ /* If there is no memory above 4GB, put the BIOS just below 4GB */
+ If(LEqual(TOM2, 0x00000000)){
+ Store(PBAD,PBMB) /* Reserve the "BIOS" space */
+ Store(PBLN,PBML)
+ }
+ Else { /* Otherwise, put the BIOS just below 16EB */
+ ShiftLeft(PBAD,16,EBMB) /* Reserve the "BIOS" space */
+ Store(PBLN,EBML)
+ }
+
+ Return(CRES) /* note to change the Name buffer */
+ } /* end of Method(_SB.PCI0._CRS) */
+
+ /*
+ *
+ * FIRST METHOD CALLED UPON BOOT
+ *
+ * 1. If debugging, print current OS and ACPI interpreter.
+ * 2. Get PCI Interrupt routing from ACPI VSM, this
+ * value is based on user choice in BIOS setup.
+ */
+ Method(_INI, 0) {
+ /* DBGO("\\_SB\\_INI\n") */
+ /* DBGO(" DSDT.ASL code from ") */
+ /* DBGO(__DATE__) */
+ /* DBGO(" ") */
+ /* DBGO(__TIME__) */
+ /* DBGO("\n Sleep states supported: ") */
+ /* DBGO("\n") */
+ /* DBGO(" \\_OS=") */
+ /* DBGO(\_OS) */
+ /* DBGO("\n \\_REV=") */
+ /* DBGO(\_REV) */
+ /* DBGO("\n") */
+
+ /* Determine the OS we're running on */
+ CkOT()
+
+ /* On older chips, clear PciExpWakeDisEn */
+ /*if (LLessEqual(\SBRI, 0x13)) {
+ * Store(0,\PWDE)
+ * }
+ */
+ } /* End Method(_SB._INI) */
+ } /* End Device(PCI0) */
+
+ Device(PWRB) { /* Start Power button device */
+ Name(_HID, EISAID("PNP0C0C"))
+ Name(_UID, 0xAA)
+ Name(_PRW, Package () {3, 0x04}) /* wake from S1-S4 */
+ Name(_STA, 0x0B) /* sata is invisible */
+ }
+ } /* End \_SB scope */
+
+ Scope(\_SI) {
+ Method(_SST, 1) {
+ /* DBGO("\\_SI\\_SST\n") */
+ /* DBGO(" New Indicator state: ") */
+ /* DBGO(Arg0) */
+ /* DBGO("\n") */
+ }
+ } /* End Scope SI */
+
+ Mutex (SBX0, 0x00)
+ OperationRegion (SMB0, SystemIO, 0xB00, 0x0C)
+ Field (SMB0, ByteAcc, NoLock, Preserve) {
+ HSTS, 8, /* SMBUS status */
+ SSTS, 8, /* SMBUS slave status */
+ HCNT, 8, /* SMBUS control */
+ HCMD, 8, /* SMBUS host cmd */
+ HADD, 8, /* SMBUS address */
+ DAT0, 8, /* SMBUS data0 */
+ DAT1, 8, /* SMBUS data1 */
+ BLKD, 8, /* SMBUS block data */
+ SCNT, 8, /* SMBUS slave control */
+ SCMD, 8, /* SMBUS shaow cmd */
+ SEVT, 8, /* SMBUS slave event */
+ SDAT, 8 /* SMBUS slave data */
+ }
+
+ Method (WCLR, 0, NotSerialized) { /* clear SMBUS status register */
+ Store (0x1E, HSTS)
+ Store (0xFA, Local0)
+ While (LAnd (LNotEqual (And (HSTS, 0x1E), Zero), LGreater (Local0, Zero))) {
+ Stall (0x64)
+ Decrement (Local0)
+ }
+
+ Return (Local0)
+ }
+
+ Method (SWTC, 1, NotSerialized) {
+ Store (Arg0, Local0)
+ Store (0x07, Local2)
+ Store (One, Local1)
+ While (LEqual (Local1, One)) {
+ Store (And (HSTS, 0x1E), Local3)
+ If (LNotEqual (Local3, Zero)) { /* read sucess */
+ If (LEqual (Local3, 0x02)) {
+ Store (Zero, Local2)
+ }
+
+ Store (Zero, Local1)
+ }
+ Else {
+ If (LLess (Local0, 0x0A)) { /* read failure */
+ Store (0x10, Local2)
+ Store (Zero, Local1)
+ }
+ Else {
+ Sleep (0x0A) /* 10 ms, try again */
+ Subtract (Local0, 0x0A, Local0)
+ }
+ }
+ }
+
+ Return (Local2)
+ }
+
+ Method (SMBR, 3, NotSerialized) {
+ Store (0x07, Local0)
+ If (LEqual (Acquire (SBX0, 0xFFFF), Zero)) {
+ Store (WCLR (), Local0) /* clear SMBUS status register before read data */
+ If (LEqual (Local0, Zero)) {
+ Release (SBX0)
+ Return (0x0)
+ }
+
+ Store (0x1F, HSTS)
+ Store (Or (ShiftLeft (Arg1, One), One), HADD)
+ Store (Arg2, HCMD)
+ If (LEqual (Arg0, 0x07)) {
+ Store (0x48, HCNT) /* read byte */
+ }
+
+ Store (SWTC (0x03E8), Local1) /* 1000 ms */
+ If (LEqual (Local1, Zero)) {
+ If (LEqual (Arg0, 0x07)) {
+ Store (DAT0, Local0)
+ }
+ }
+ Else {
+ Store (Local1, Local0)
+ }
+
+ Release (SBX0)
+ }
+
+ /* DBGO("the value of SMBusData0 register ") */
+ /* DBGO(Arg2) */
+ /* DBGO(" is ") */
+ /* DBGO(Local0) */
+ /* DBGO("\n") */
+
+ Return (Local0)
+ }
+
+ /* THERMAL */
+ Scope(\_TZ) {
+ Name (KELV, 2732)
+ Name (THOT, 800)
+ Name (TCRT, 850)
+
+ ThermalZone(TZ00) {
+ Method(_AC0,0) { /* Active Cooling 0 (0=highest fan speed) */
+ /* DBGO("\\_TZ\\TZ00\\_AC0\n") */
+ Return(Add(0, 2730))
+ }
+ Method(_AL0,0) { /* Returns package of cooling device to turn on */
+ /* DBGO("\\_TZ\\TZ00\\_AL0\n") */
+ Return(Package() {\_TZ.TZ00.FAN0})
+ }
+ Device (FAN0) {
+ Name(_HID, EISAID("PNP0C0B"))
+ Name(_PR0, Package() {PFN0})
+ }
+
+ PowerResource(PFN0,0,0) {
+ Method(_STA) {
+ Store(0xF,Local0)
+ Return(Local0)
+ }
+ Method(_ON) {
+ /* DBGO("\\_TZ\\TZ00\\FAN0 _ON\n") */
+ }
+ Method(_OFF) {
+ /* DBGO("\\_TZ\\TZ00\\FAN0 _OFF\n") */
+ }
+ }
+
+ Method(_HOT,0) { /* return hot temp in tenths degree Kelvin */
+ /* DBGO("\\_TZ\\TZ00\\_HOT\n") */
+ Return (Add (THOT, KELV))
+ }
+ Method(_CRT,0) { /* return critical temp in tenths degree Kelvin */
+ /* DBGO("\\_TZ\\TZ00\\_CRT\n") */
+ Return (Add (TCRT, KELV))
+ }
+ Method(_TMP,0) { /* return current temp of this zone */
+ Store (SMBR (0x07, 0x4C,, 0x00), Local0)
+ If (LGreater (Local0, 0x10)) {
+ Store (Local0, Local1)
+ }
+ Else {
+ Add (Local0, THOT, Local0)
+ Return (Add (400, KELV))
+ }
+
+ Store (SMBR (0x07, 0x4C, 0x01), Local0)
+ /* only the two MSBs in the external temperature low byte are used, resolution 0.25. We ignore it */
+ /* Store (SMBR (0x07, 0x4C, 0x10), Local2) */
+ If (LGreater (Local0, 0x10)) {
+ If (LGreater (Local0, Local1)) {
+ Store (Local0, Local1)
+ }
+
+ Multiply (Local1, 10, Local1)
+ Return (Add (Local1, KELV))
+ }
+ Else {
+ Add (Local0, THOT, Local0)
+ Return (Add (400 , KELV))
+ }
+ } /* end of _TMP */
+ } /* end of TZ00 */
+ }
+}
+/* End of ASL file */
--- /dev/null
+/*
+ * This file is part of the coreboot project.
+ *
+ * Copyright (C) 2008 Advanced Micro Devices, Inc.
+ *
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License as published by
+ * the Free Software Foundation; version 2 of the License.
+ *
+ * This program is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ * GNU General Public License for more details.
+ *
+ * You should have received a copy of the GNU General Public License
+ * along with this program; if not, write to the Free Software
+ * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
+ */
+
+/*
+Scope(\_SB) {
+ Include ("globutil.asl")
+}
+*/
+
+/* string compare functions */
+Method(MIN, 2)
+{
+ if (LLess(Arg0, Arg1)) {
+ Return(Arg0)
+ } else {
+ Return(Arg1)
+ }
+}
+
+Method(SLEN, 1)
+{
+ Store(Arg0, Local0)
+ Return(Sizeof(Local0))
+}
+
+Method(S2BF, 1)
+{
+ Add(SLEN(Arg0), One, Local0)
+ Name(BUFF, Buffer(Local0) {})
+ Store(Arg0, BUFF)
+ Return(BUFF)
+}
+
+/* Strong string compare. Checks both length and content */
+Method(SCMP, 2)
+{
+ Store(S2BF(Arg0), Local0)
+ Store(S2BF(Arg1), Local1)
+ Store(Zero, Local4)
+ Store(SLEN(Arg0), Local5)
+ Store(SLEN(Arg1), Local6)
+ Store(MIN(Local5, Local6), Local7)
+
+ While(LLess(Local4, Local7)) {
+ Store(Derefof(Index(Local0, Local4)), Local2)
+ Store(Derefof(Index(Local1, Local4)), Local3)
+ if (LGreater(Local2, Local3)) {
+ Return(One)
+ } else {
+ if (LLess(Local2, Local3)) {
+ Return(Ones)
+ }
+ }
+ Increment(Local4)
+ }
+ if (LLess(Local4, Local5)) {
+ Return(One)
+ } else {
+ if (LLess(Local4, Local6)) {
+ Return(Ones)
+ } else {
+ Return(Zero)
+ }
+ }
+}
+
+/* Weak string compare. Checks to find Arg1 at beginning of Arg0.
+* Fails if length(Arg0) < length(Arg1). Returns 0 on Fail, 1 on
+* Pass.
+*/
+Method(WCMP, 2)
+{
+ Store(S2BF(Arg0), Local0)
+ Store(S2BF(Arg1), Local1)
+ if (LLess(SLEN(Arg0), SLEN(Arg1))) {
+ Return(0)
+ }
+ Store(Zero, Local2)
+ Store(SLEN(Arg1), Local3)
+
+ While(LLess(Local2, Local3)) {
+ if (LNotEqual(Derefof(Index(Local0, Local2)),
+ Derefof(Index(Local1, Local2)))) {
+ Return(0)
+ }
+ Increment(Local2)
+ }
+ Return(One)
+}
+
+/* ARG0 = IRQ Number(0-15)
+* Returns Bit Map
+*/
+Method(I2BM, 1)
+{
+ Store(0, Local0)
+ if (LNotEqual(ARG0, 0)) {
+ Store(1, Local1)
+ ShiftLeft(Local1, ARG0, Local0)
+ }
+ Return(Local0)
+}
--- /dev/null
+/*
+ * This file is part of the coreboot project.
+ *
+ * Copyright (C) 2008 Advanced Micro Devices, Inc.
+ *
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License as published by
+ * the Free Software Foundation; version 2 of the License.
+ *
+ * This program is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ * GNU General Public License for more details.
+ *
+ * You should have received a copy of the GNU General Public License
+ * along with this program; if not, write to the Free Software
+ * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
+ */
+
+/*
+Scope (_SB) {
+ Device(PCI0) {
+ Device(IDEC) {
+ Name(_ADR, 0x00140001)
+ Include ("ide.asl")
+ }
+ }
+}
+*/
+
+/* Some timing tables */
+Name(UDTT, Package(){ /* Udma timing table */
+ 120, 90, 60, 45, 30, 20, 15, 0 /* UDMA modes 0 -> 6 */
+})
+
+Name(MDTT, Package(){ /* MWDma timing table */
+ 480, 150, 120, 0 /* Legacy DMA modes 0 -> 2 */
+})
+
+Name(POTT, Package(){ /* Pio timing table */
+ 600, 390, 270, 180, 120, 0 /* PIO modes 0 -> 4 */
+})
+
+/* Some timing register value tables */
+Name(MDRT, Package(){ /* MWDma timing register table */
+ 0x77, 0x21, 0x20, 0xFF /* Legacy DMA modes 0 -> 2 */
+})
+
+Name(PORT, Package(){
+ 0x99, 0x47, 0x34, 0x22, 0x20, 0x99 /* PIO modes 0 -> 4 */
+})
+
+OperationRegion(ICRG, PCI_Config, 0x40, 0x20) /* ide control registers */
+ Field(ICRG, AnyAcc, NoLock, Preserve)
+{
+ PPTS, 8, /* Primary PIO Slave Timing */
+ PPTM, 8, /* Primary PIO Master Timing */
+ OFFSET(0x04), PMTS, 8, /* Primary MWDMA Slave Timing */
+ PMTM, 8, /* Primary MWDMA Master Timing */
+ OFFSET(0x08), PPCR, 8, /* Primary PIO Control */
+ OFFSET(0x0A), PPMM, 4, /* Primary PIO master Mode */
+ PPSM, 4, /* Primary PIO slave Mode */
+ OFFSET(0x14), PDCR, 2, /* Primary UDMA Control */
+ OFFSET(0x16), PDMM, 4, /* Primary UltraDMA Mode */
+ PDSM, 4, /* Primary UltraDMA Mode */
+}
+
+Method(GTTM, 1) /* get total time*/
+{
+ Store(And(Arg0, 0x0F), Local0) /* Recovery Width */
+ Increment(Local0)
+ Store(ShiftRight(Arg0, 4), Local1) /* Command Width */
+ Increment(Local1)
+ Return(Multiply(30, Add(Local0, Local1)))
+}
+
+Device(PRID)
+{
+ Name (_ADR, Zero)
+ Method(_GTM, 0)
+ {
+ NAME(OTBF, Buffer(20) { /* out buffer */
+ 0xFF, 0xFF, 0xFF, 0xFF,
+ 0xFF, 0xFF, 0xFF, 0xFF,
+ 0xFF, 0xFF, 0xFF, 0xFF,
+ 0xFF, 0xFF, 0xFF, 0xFF, 0x00, 0x00, 0x00, 0x00
+ })
+
+ CreateDwordField(OTBF, 0, PSD0) /* PIO spd0 */
+ CreateDwordField(OTBF, 4, DSD0) /* DMA spd0 */
+ CreateDwordField(OTBF, 8, PSD1) /* PIO spd1 */
+ CreateDwordField(OTBF, 12, DSD1) /* DMA spd1 */
+ CreateDwordField(OTBF, 16, BFFG) /* buffer flags */
+
+ /* Just return if the channel is disabled */
+ If(And(PPCR, 0x01)) { /* primary PIO control */
+ Return(OTBF)
+ }
+
+ /* Always tell them independent timing available and IOChannelReady used on both drives */
+ Or(BFFG, 0x1A, BFFG)
+
+ Store(GTTM(PPTM), PSD0) /* save total time of primary PIO master timming to PIO spd0 */
+ Store(GTTM(PPTS), PSD1) /* save total time of primary PIO slave Timing to PIO spd1 */
+
+ If(And(PDCR, 0x01)) { /* It's under UDMA mode */
+ Or(BFFG, 0x01, BFFG)
+ Store(DerefOf(Index(UDTT, PDMM)), DSD0)
+ }
+ Else {
+ Store(GTTM(PMTM), DSD0) /* Primary MWDMA Master Timing, DmaSpd0 */
+ }
+
+ If(And(PDCR, 0x02)) { /* It's under UDMA mode */
+ Or(BFFG, 0x04, BFFG)
+ Store(DerefOf(Index(UDTT, PDSM)), DSD1)
+ }
+ Else {
+ Store(GTTM(PMTS), DSD1) /* Primary MWDMA Slave Timing, DmaSpd0 */
+ }
+
+ Return(OTBF) /* out buffer */
+ } /* End Method(_GTM) */
+
+ Method(_STM, 3, NotSerialized)
+ {
+ NAME(INBF, Buffer(20) { /* in buffer */
+ 0xFF, 0xFF, 0xFF, 0xFF,
+ 0xFF, 0xFF, 0xFF, 0xFF,
+ 0xFF, 0xFF, 0xFF, 0xFF,
+ 0xFF, 0xFF, 0xFF, 0xFF, 0x00, 0x00, 0x00, 0x00
+ })
+
+ CreateDwordField(INBF, 0, PSD0) /* PIO spd0 */
+ CreateDwordField(INBF, 4, DSD0) /* PIO spd0 */
+ CreateDwordField(INBF, 8, PSD1) /* PIO spd1 */
+ CreateDwordField(INBF, 12, DSD1) /* DMA spd1 */
+ CreateDwordField(INBF, 16, BFFG) /*buffer flag */
+
+ Store(Match(POTT, MLE, PSD0, MTR, 0, 0), Local0)
+ Divide(Local0, 5, PPMM,) /* Primary PIO master Mode */
+ Store(Match(POTT, MLE, PSD1, MTR, 0, 0), Local1)
+ Divide(Local1, 5, PPSM,) /* Primary PIO slave Mode */
+
+ Store(DerefOf(Index(PORT, Local0)), PPTM) /* Primary PIO Master Timing */
+ Store(DerefOf(Index(PORT, Local1)), PPTS) /* Primary PIO Slave Timing */
+
+ If(And(BFFG, 0x01)) { /* Drive 0 is under UDMA mode */
+ Store(Match(UDTT, MLE, DSD0, MTR, 0, 0), Local0)
+ Divide(Local0, 7, PDMM,)
+ Or(PDCR, 0x01, PDCR)
+ }
+ Else {
+ If(LNotEqual(DSD0, 0xFFFFFFFF)) {
+ Store(Match(MDTT, MLE, DSD0, MTR, 0, 0), Local0)
+ Store(DerefOf(Index(MDRT, Local0)), PMTM)
+ }
+ }
+
+ If(And(BFFG, 0x04)) { /* Drive 1 is under UDMA mode */
+ Store(Match(UDTT, MLE, DSD1, MTR, 0, 0), Local0)
+ Divide(Local0, 7, PDSM,)
+ Or(PDCR, 0x02, PDCR)
+ }
+ Else {
+ If(LNotEqual(DSD1, 0xFFFFFFFF)) {
+ Store(Match(MDTT, MLE, DSD1, MTR, 0, 0), Local0)
+ Store(DerefOf(Index(MDRT, Local0)), PMTS)
+ }
+ }
+ /* Return(INBF) */
+ } /*End Method(_STM) */
+ Device(MST)
+ {
+ Name(_ADR, 0)
+ Method(_GTF) {
+ Name(CMBF, Buffer(21) {
+ 0x03, 0x00, 0x00, 0x00, 0x00, 0xFF, 0xEF,
+ 0x03, 0x00, 0x00, 0x00, 0x00, 0xFF, 0xEF,
+ 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0xF5
+ })
+ CreateByteField(CMBF, 1, POMD)
+ CreateByteField(CMBF, 8, DMMD)
+ CreateByteField(CMBF, 5, CMDA)
+ CreateByteField(CMBF, 12, CMDB)
+ CreateByteField(CMBF, 19, CMDC)
+
+ Store(0xA0, CMDA)
+ Store(0xA0, CMDB)
+ Store(0xA0, CMDC)
+
+ Or(PPMM, 0x08, POMD)
+
+ If(And(PDCR, 0x01)) {
+ Or(PDMM, 0x40, DMMD)
+ }
+ Else {
+ Store(Match
+ (MDTT, MLE, GTTM(PMTM),
+ MTR, 0, 0), Local0)
+ If(LLess(Local0, 3)) {
+ Or(0x20, Local0, DMMD)
+ }
+ }
+ Return(CMBF)
+ }
+ } /* End Device(MST) */
+
+ Device(SLAV)
+ {
+ Name(_ADR, 1)
+ Method(_GTF) {
+ Name(CMBF, Buffer(21) {
+ 0x03, 0x00, 0x00, 0x00, 0x00, 0xFF, 0xEF,
+ 0x03, 0x00, 0x00, 0x00, 0x00, 0xFF, 0xEF,
+ 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0xF5
+ })
+ CreateByteField(CMBF, 1, POMD)
+ CreateByteField(CMBF, 8, DMMD)
+ CreateByteField(CMBF, 5, CMDA)
+ CreateByteField(CMBF, 12, CMDB)
+ CreateByteField(CMBF, 19, CMDC)
+
+ Store(0xB0, CMDA)
+ Store(0xB0, CMDB)
+ Store(0xB0, CMDC)
+
+ Or(PPSM, 0x08, POMD)
+
+ If(And(PDCR, 0x02)) {
+ Or(PDSM, 0x40, DMMD)
+ }
+ Else {
+ Store(Match
+ (MDTT, MLE, GTTM(PMTS),
+ MTR, 0, 0), Local0)
+ If(LLess(Local0, 3)) {
+ Or(0x20, Local0, DMMD)
+ }
+ }
+ Return(CMBF)
+ }
+ } /* End Device(SLAV) */
+}
--- /dev/null
+/*
+ * This file is part of the coreboot project.
+ *
+ * Copyright (C) 2008 Advanced Micro Devices, Inc.
+ *
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License as published by
+ * the Free Software Foundation; version 2 of the License.
+ *
+ * This program is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ * GNU General Public License for more details.
+ *
+ * You should have received a copy of the GNU General Public License
+ * along with this program; if not, write to the Free Software
+ * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
+ */
+
+/*
+DefinitionBlock ("DSDT.AML","DSDT",0x01,"XXXXXX","XXXXXXXX",0x00010001
+ )
+ {
+ Include ("routing.asl")
+ }
+*/
+
+/* Routing is in System Bus scope */
+Scope(\_SB) {
+ Name(PR0, Package(){
+ /* NB devices */
+ /* Bus 0, Dev 0 - RS690 Host Controller */
+ /* Bus 0, Dev 1 - PCI Bridge for Internal Graphics */
+ /* Bus 0, Dev 2 - PCIe Bridge for x8 PCIe Slot (GFX0) */
+ Package(){0x0002FFFF, 0, INTC, 0 },
+ Package(){0x0002FFFF, 1, INTD, 0 },
+ Package(){0x0002FFFF, 2, INTA, 0 },
+ Package(){0x0002FFFF, 3, INTB, 0 },
+ /* Bus 0, Dev 3 - PCIe graphics port 1 bridge */
+ /* Bus 0, Dev 4 - PCIe Bridge for Express Card Slot */
+ Package(){0x0004FFFF, 0, INTA, 0 },
+ Package(){0x0004FFFF, 1, INTB, 0 },
+ Package(){0x0004FFFF, 2, INTC, 0 },
+ Package(){0x0004FFFF, 3, INTD, 0 },
+ /* Bus 0, Dev 5 - General purpose PCIe bridge 5 */
+ /* Package(){0x0005FFFF, 0, INTB, 0 }, */
+ /* Package(){0x0005FFFF, 1, INTC, 0 }, */
+ /* Package(){0x0005FFFF, 2, INTD, 0 }, */
+ /* Package(){0x0005FFFF, 3, INTA, 0 }, */
+ /* Bus 0, Dev 6 - PCIe Bridge for Ethernet Chip */
+ Package(){0x0006FFFF, 0, INTC, 0 },
+ Package(){0x0006FFFF, 1, INTD, 0 },
+ Package(){0x0006FFFF, 2, INTA, 0 },
+ Package(){0x0006FFFF, 3, INTB, 0 },
+ /* Bus 0, Dev 7 - PCIe Bridge for x1 PCIe Slot */
+ Package(){0x0007FFFF, 0, INTD, 0 },
+ Package(){0x0007FFFF, 1, INTA, 0 },
+ Package(){0x0007FFFF, 2, INTB, 0 },
+ Package(){0x0007FFFF, 3, INTC, 0 },
+ /* Bus 0, Funct 8 - Southbridge port (normally hidden) */
+
+ /* SB devices */
+ /* Bus 0, Dev 17 - SATA controller #2 */
+ /* Bus 0, Dev 18 - SATA controller #1 */
+ Package(){0x0012FFFF, 1, INTA, 0 },
+
+ /* Bus 0, Dev 19 - USB: OHCI, funct 0-4; EHCI, funct 5 */
+ Package(){0x0013FFFF, 0, INTA, 0 },
+ Package(){0x0013FFFF, 1, INTB, 0 },
+ Package(){0x0013FFFF, 2, INTC, 0 },
+ Package(){0x0013FFFF, 3, INTD, 0 },
+
+ /* Bus 0, Dev 20 - F0:SMBus/ACPI,F1:IDE;F2:HDAudio;F3:LPC;F4:PCIBridge;F5:AC97 Audio;F6:AC97 Modem */
+ Package(){0x0014FFFF, 0, INTA, 0 },
+ Package(){0x0014FFFF, 1, INTB, 0 },
+ Package(){0x0014FFFF, 2, INTC, 0 },
+ Package(){0x0014FFFF, 3, INTD, 0 },
+ })
+
+ Name(APR0, Package(){
+ /* NB devices in APIC mode */
+ /* Bus 0, Dev 0 - RS690 Host Controller */
+
+ /* Bus 0, Dev 1 - PCI Bridge for Internal Graphics */
+ /* Package(){0x0001FFFF, 0, 0, 18 }, */
+ /* package(){0x0001FFFF, 1, 0, 19 }, */
+
+ /* Bus 0, Dev 2 - PCIe Bridge for x8 PCIe Slot (GFX0) */
+ Package(){0x0002FFFF, 0, 0, 18 },
+ /* Package(){0x0002FFFF, 1, 0, 19 }, */
+ /* Package(){0x0002FFFF, 2, 0, 16 }, */
+ /* Package(){0x0002FFFF, 3, 0, 17 }, */
+
+ /* Bus 0, Dev 3 - PCIe graphics port 1 bridge */
+ Package(){0x0003FFFF, 0, 0, 19 },
+
+ /* Bus 0, Dev 4 - PCIe Bridge for Express Card Slot */
+ Package(){0x0004FFFF, 0, 0, 16 },
+ /* Package(){0x0004FFFF, 1, 0, 17 }, */
+ /* Package(){0x0004FFFF, 2, 0, 18 }, */
+ /* Package(){0x0004FFFF, 3, 0, 19 }, */
+
+ /* Bus 0, Dev 5 - General purpose PCIe bridge 5 */
+ Package(){0x0005FFFF, 0, 0, 17 },
+ /* Package(){0x0005FFFF, 1, 0, 18 }, */
+ /* Package(){0x0005FFFF, 2, 0, 19 }, */
+ /* Package(){0x0005FFFF, 3, 0, 16 }, */
+
+ /* Bus 0, Dev 6 - General purpose PCIe bridge 6 */
+ Package(){0x0006FFFF, 0, 0, 18 },
+ /* Package(){0x0006FFFF, 1, 0, 19 }, */
+ /* Package(){0x0006FFFF, 2, 0, 16 }, */
+ /* Package(){0x0006FFFF, 3, 0, 17 }, */
+
+ /* Bus 0, Dev 7 - PCIe Bridge for network card */
+ Package(){0x0007FFFF, 0, 0, 19 },
+ /* Package(){0x0007FFFF, 1, 0, 16 }, */
+ /* Package(){0x0007FFFF, 2, 0, 17 }, */
+ /* Package(){0x0007FFFF, 3, 0, 18 }, */
+
+ /* Bus 0, Funct 8 - Southbridge port (normally hidden) */
+
+ /* SB devices in APIC mode */
+ /* Bus 0, Dev 17 - SATA controller #2 */
+ /* Bus 0, Dev 18 - SATA controller #1 */
+ Package(){0x0012FFFF, 0, 0, 22 },
+
+ /* Bus 0, Dev 19 - USB: OHCI, funct 0-4; EHCI, funct 5 */
+ Package(){0x0013FFFF, 0, 0, 16 },
+ Package(){0x0013FFFF, 1, 0, 17 },
+ Package(){0x0013FFFF, 2, 0, 18 },
+ Package(){0x0013FFFF, 3, 0, 19 },
+ /* Package(){0x00130004, 2, 0, 18 }, */
+ /* Package(){0x00130005, 3, 0, 19 }, */
+
+ /* Bus 0, Dev 20 - F0:SMBus/ACPI, F1:IDE; F2:HDAudio; F3:LPC; F4:PCIBridge; F5:AC97 Audio; F6:AC97 Modem */
+ Package(){0x0014FFFF, 0, 0, 16 },
+ Package(){0x0014FFFF, 1, 0, 17 },
+ Package(){0x0014FFFF, 2, 0, 18 },
+ Package(){0x0014FFFF, 3, 0, 19 },
+ /* Package(){0x00140004, 2, 0, 18 }, */
+ /* Package(){0x00140004, 3, 0, 19 }, */
+ /* Package(){0x00140005, 1, 0, 17 }, */
+ /* Package(){0x00140006, 1, 0, 17 }, */
+ })
+
+ Name(PR1, Package(){
+ /* Internal graphics - RS690 VGA, Bus1, Dev5 */
+ Package(){0x0005FFFF, 0, INTA, 0 },
+ Package(){0x0005FFFF, 1, INTB, 0 },
+ Package(){0x0005FFFF, 2, INTC, 0 },
+ Package(){0x0005FFFF, 3, INTD, 0 },
+ })
+
+ Name(APR1, Package(){
+ /* Internal graphics - RS690 VGA, Bus1, Dev5 */
+ Package(){0x0005FFFF, 0, 0, 18 },
+ Package(){0x0005FFFF, 1, 0, 19 },
+ /* Package(){0x0005FFFF, 2, 0, 20 }, */
+ /* Package(){0x0005FFFF, 3, 0, 17 }, */
+ })
+
+ Name(PS2, Package(){
+ /* The external GFX - Hooked to PCIe slot 2 */
+ Package(){0x0000FFFF, 0, INTC, 0 },
+ Package(){0x0000FFFF, 1, INTD, 0 },
+ Package(){0x0000FFFF, 2, INTA, 0 },
+ Package(){0x0000FFFF, 3, INTB, 0 },
+ })
+
+ Name(APS2, Package(){
+ /* The external GFX - Hooked to PCIe slot 2 */
+ Package(){0x0000FFFF, 0, 0, 18 },
+ Package(){0x0000FFFF, 1, 0, 19 },
+ Package(){0x0000FFFF, 2, 0, 16 },
+ Package(){0x0000FFFF, 3, 0, 17 },
+ })
+
+ Name(PS4, Package(){
+ /* PCIe slot - Hooked to PCIe slot 4 */
+ Package(){0x0000FFFF, 0, INTA, 0 },
+ Package(){0x0000FFFF, 1, INTB, 0 },
+ Package(){0x0000FFFF, 2, INTC, 0 },
+ Package(){0x0000FFFF, 3, INTD, 0 },
+ })
+
+ Name(APS4, Package(){
+ /* PCIe slot - Hooked to PCIe slot 4 */
+ Package(){0x0000FFFF, 0, 0, 16 },
+ Package(){0x0000FFFF, 1, 0, 17 },
+ Package(){0x0000FFFF, 2, 0, 18 },
+ Package(){0x0000FFFF, 3, 0, 19 },
+ })
+
+ Name(PS5, Package(){
+ /* PCIe slot - Hooked to PCIe slot 5 */
+ Package(){0x0000FFFF, 0, INTB, 0 },
+ Package(){0x0000FFFF, 1, INTC, 0 },
+ Package(){0x0000FFFF, 2, INTD, 0 },
+ Package(){0x0000FFFF, 3, INTA, 0 },
+ })
+
+ Name(APS5, Package(){
+ /* PCIe slot - Hooked to PCIe slot 5 */
+ Package(){0x0000FFFF, 0, 0, 17 },
+ Package(){0x0000FFFF, 1, 0, 18 },
+ Package(){0x0000FFFF, 2, 0, 19 },
+ Package(){0x0000FFFF, 3, 0, 16 },
+ })
+
+ Name(PS6, Package(){
+ /* PCIe slot - Hooked to PCIe slot 6 */
+ Package(){0x0000FFFF, 0, INTC, 0 },
+ Package(){0x0000FFFF, 1, INTD, 0 },
+ Package(){0x0000FFFF, 2, INTA, 0 },
+ Package(){0x0000FFFF, 3, INTB, 0 },
+ })
+
+ Name(APS6, Package(){
+ /* PCIe slot - Hooked to PCIe slot 6 */
+ Package(){0x0000FFFF, 0, 0, 18 },
+ Package(){0x0000FFFF, 1, 0, 19 },
+ Package(){0x0000FFFF, 2, 0, 16 },
+ Package(){0x0000FFFF, 3, 0, 17 },
+ })
+
+ Name(PS7, Package(){
+ /* The onboard Ethernet chip - Hooked to PCIe slot 7 */
+ Package(){0x0000FFFF, 0, INTD, 0 },
+ Package(){0x0000FFFF, 1, INTA, 0 },
+ Package(){0x0000FFFF, 2, INTB, 0 },
+ Package(){0x0000FFFF, 3, INTC, 0 },
+ })
+
+ Name(APS7, Package(){
+ /* The onboard Ethernet chip - Hooked to PCIe slot 7 */
+ Package(){0x0000FFFF, 0, 0, 19 },
+ Package(){0x0000FFFF, 1, 0, 16 },
+ Package(){0x0000FFFF, 2, 0, 17 },
+ Package(){0x0000FFFF, 3, 0, 18 },
+ })
+
+ Name(PCIB, Package(){
+ /* PCI slots: slot 0, slot 1, slot 2 behind Dev14, Fun4. */
+ Package(){0x0005FFFF, 0, 0, 0x14 },
+ Package(){0x0005FFFF, 1, 0, 0x15 },
+ Package(){0x0005FFFF, 2, 0, 0x16 },
+ Package(){0x0005FFFF, 3, 0, 0x17 },
+ Package(){0x0006FFFF, 0, 0, 0x15 },
+ Package(){0x0006FFFF, 1, 0, 0x16 },
+ Package(){0x0006FFFF, 2, 0, 0x17 },
+ Package(){0x0006FFFF, 3, 0, 0x14 },
+ Package(){0x0007FFFF, 0, 0, 0x16 },
+ Package(){0x0007FFFF, 1, 0, 0x17 },
+ Package(){0x0007FFFF, 2, 0, 0x14 },
+ Package(){0x0007FFFF, 3, 0, 0x15 },
+ })
+}
--- /dev/null
+/*
+ * This file is part of the coreboot project.
+ *
+ * Copyright (C) 2008 Advanced Micro Devices, Inc.
+ *
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License as published by
+ * the Free Software Foundation; version 2 of the License.
+ *
+ * This program is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ * GNU General Public License for more details.
+ *
+ * You should have received a copy of the GNU General Public License
+ * along with this program; if not, write to the Free Software
+ * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
+ */
+
+/* simple name description */
+
+/*
+Scope (_SB) {
+ Device(PCI0) {
+ Device(SATA) {
+ Name(_ADR, 0x00120000)
+ Include ("sata.asl")
+ }
+ }
+}
+*/
+
+Name(STTM, Buffer(20) {
+ 0x78, 0x00, 0x00, 0x00, 0x0f, 0x00, 0x00, 0x00,
+ 0x78, 0x00, 0x00, 0x00, 0x0f, 0x00, 0x00, 0x00,
+ 0x1f, 0x00, 0x00, 0x00
+})
+
+/* Start by clearing the PhyRdyChg bits */
+Method(_INI) {
+ \_GPE._L1F()
+}
+
+Device(PMRY)
+{
+ Name(_ADR, 0)
+ Method(_GTM, 0x0, NotSerialized) {
+ Return(STTM)
+ }
+ Method(_STM, 0x3, NotSerialized) {}
+
+ Device(PMST) {
+ Name(_ADR, 0)
+ Method(_STA,0) {
+ if (LGreater(P0IS,0)) {
+ return (0x0F) /* sata is visible */
+ }
+ else {
+ return (0x00) /* sata is missing */
+ }
+ }
+ }/* end of PMST */
+
+ Device(PSLA)
+ {
+ Name(_ADR, 1)
+ Method(_STA,0) {
+ if (LGreater(P1IS,0)) {
+ return (0x0F) /* sata is visible */
+ }
+ else {
+ return (0x00) /* sata is missing */
+ }
+ }
+ } /* end of PSLA */
+} /* end of PMRY */
+
+
+Device(SEDY)
+{
+ Name(_ADR, 1) /* IDE Scondary Channel */
+ Method(_GTM, 0x0, NotSerialized) {
+ Return(STTM)
+ }
+ Method(_STM, 0x3, NotSerialized) {}
+
+ Device(SMST)
+ {
+ Name(_ADR, 0)
+ Method(_STA,0) {
+ if (LGreater(P2IS,0)) {
+ return (0x0F) /* sata is visible */
+ }
+ else {
+ return (0x00) /* sata is missing */
+ }
+ }
+ } /* end of SMST */
+
+ Device(SSLA)
+ {
+ Name(_ADR, 1)
+ Method(_STA,0) {
+ if (LGreater(P3IS,0)) {
+ return (0x0F) /* sata is visible */
+ }
+ else {
+ return (0x00) /* sata is missing */
+ }
+ }
+ } /* end of SSLA */
+} /* end of SEDY */
+
+/* SATA Hot Plug Support */
+Scope(\_GPE) {
+ Method(_L1F,0x0,NotSerialized) {
+ if (\_SB.P0PR) {
+ if (LGreater(\_SB.P0IS,0)) {
+ sleep(32)
+ }
+ Notify(\_SB.PCI0.STCR.PMRY.PMST, 0x01) /* NOTIFY_DEVICE_CHECK */
+ store(one, \_SB.P0PR)
+ }
+
+ if (\_SB.P1PR) {
+ if (LGreater(\_SB.P1IS,0)) {
+ sleep(32)
+ }
+ Notify(\_SB.PCI0.STCR.PMRY.PSLA, 0x01) /* NOTIFY_DEVICE_CHECK */
+ store(one, \_SB.P1PR)
+ }
+
+ if (\_SB.P2PR) {
+ if (LGreater(\_SB.P2IS,0)) {
+ sleep(32)
+ }
+ Notify(\_SB.PCI0.STCR.SEDY.SMST, 0x01) /* NOTIFY_DEVICE_CHECK */
+ store(one, \_SB.P2PR)
+ }
+
+ if (\_SB.P3PR) {
+ if (LGreater(\_SB.P3IS,0)) {
+ sleep(32)
+ }
+ Notify(\_SB.PCI0.STCR.SEDY.SSLA, 0x01) /* NOTIFY_DEVICE_CHECK */
+ store(one, \_SB.P3PR)
+ }
+ }
+}
--- /dev/null
+/*
+ * This file is part of the coreboot project.
+ *
+ * Copyright (C) 2008 Advanced Micro Devices, Inc.
+ *
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License as published by
+ * the Free Software Foundation; version 2 of the License.
+ *
+ * This program is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ * GNU General Public License for more details.
+ *
+ * You should have received a copy of the GNU General Public License
+ * along with this program; if not, write to the Free Software
+ * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
+ */
+
+
+/* Status and notification definitions */
+
+#define STA_MISSING 0x00
+#define STA_PRESENT 0x01
+#define STA_ENABLED 0x03
+#define STA_DISABLED 0x09
+#define STA_INVISIBLE 0x0B
+#define STA_UNAVAILABLE 0x0D
+#define STA_VISIBLE 0x0F
+
+/* SMBus status codes */
+#define SMB_OK 0x00
+#define SMB_UnknownFail 0x07
+#define SMB_DevAddrNAK 0x10
+#define SMB_DeviceError 0x11
+#define SMB_DevCmdDenied 0x12
+#define SMB_UnknownErr 0x13
+#define SMB_DevAccDenied 0x17
+#define SMB_Timeout 0x18
+#define SMB_HstUnsuppProtocol 0x19
+#define SMB_Busy 0x1A
+#define SMB_PktChkError 0x1F
+
+/* Device Object Notification Values */
+#define NOTIFY_BUS_CHECK 0x00
+#define NOTIFY_DEVICE_CHECK 0x01
+#define NOTIFY_DEVICE_WAKE 0x02
+#define NOTIFY_EJECT_REQUEST 0x03
+#define NOTIFY_DEVICE_CHECK_JR 0x04
+#define NOTIFY_FREQUENCY_ERROR 0x05
+#define NOTIFY_BUS_MODE 0x06
+#define NOTIFY_POWER_FAULT 0x07
+#define NOTIFY_CAPABILITIES 0x08
+#define NOTIFY_PLD_CHECK 0x09
+#define NOTIFY_SLIT_UPDATE 0x0B
+
+/* Battery Device Notification Values */
+#define NOTIFY_BAT_STATUSCHG 0x80
+#define NOTIFY_BAT_INFOCHG 0x81
+#define NOTIFY_BAT_MAINTDATA 0x82
+
+/* Power Source Object Notification Values */
+#define NOTIFY_PWR_STATUSCHG 0x80
+
+/* Thermal Zone Object Notification Values */
+#define NOTIFY_TZ_STATUSCHG 0x80
+#define NOTIFY_TZ_TRIPPTCHG 0x81
+#define NOTIFY_TZ_DEVLISTCHG 0x82
+#define NOTIFY_TZ_RELTBLCHG 0x83
+
+/* Power Button Notification Values */
+#define NOTIFY_POWER_BUTTON 0x80
+
+/* Sleep Button Notification Values */
+#define NOTIFY_SLEEP_BUTTON 0x80
+
+/* Lid Notification Values */
+#define NOTIFY_LID_STATUSCHG 0x80
+
+/* Processor Device Notification Values */
+#define NOTIFY_CPU_PPCCHG 0x80
+#define NOTIFY_CPU_CSTATECHG 0x81
+#define NOTIFY_CPU_THROTLCHG 0x82
+
+/* User Presence Device Notification Values */
+#define NOTIFY_USR_PRESNCECHG 0x80
+
+/* Battery Device Notification Values */
+#define NOTIFY_ALS_ILLUMCHG 0x80
+#define NOTIFY_ALS_COLORTMPCHG 0x81
+#define NOTIFY_ALS_RESPCHG 0x82
+
+
--- /dev/null
+/*
+ * This file is part of the coreboot project.
+ *
+ * Copyright (C) 2008 Advanced Micro Devices, Inc.
+ *
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License as published by
+ * the Free Software Foundation; version 2 of the License.
+ *
+ * This program is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ * GNU General Public License for more details.
+ *
+ * You should have received a copy of the GNU General Public License
+ * along with this program; if not, write to the Free Software
+ * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
+ */
+
+/* simple name description */
+/*
+DefinitionBlock ("DSDT.AML","DSDT",0x01,"XXXXXX","XXXXXXXX",0x00010001
+ )
+ {
+ Include ("usb.asl")
+ }
+*/
+Method(UCOC, 0) {
+ Sleep(20)
+ Store(0x13,CMTI)
+ Store(0,GPSL)
+}
+
+/* USB Port 0 overcurrent uses Gpm 0 */
+If(LLessEqual(UOM0,9)) {
+ Scope (\_GPE) {
+ Method (_L13) {
+ UCOC()
+ if(LEqual(GPB0,PLC0)) {
+ Not(PLC0,PLC0)
+ Store(PLC0, \_SB.PT0D)
+ }
+ }
+ }
+}
+
+/* USB Port 1 overcurrent uses Gpm 1 */
+If (LLessEqual(UOM1,9)) {
+ Scope (\_GPE) {
+ Method (_L14) {
+ UCOC()
+ if (LEqual(GPB1,PLC1)) {
+ Not(PLC1,PLC1)
+ Store(PLC1, \_SB.PT1D)
+ }
+ }
+ }
+}
+
+/* USB Port 2 overcurrent uses Gpm 2 */
+If (LLessEqual(UOM2,9)) {
+ Scope (\_GPE) {
+ Method (_L15) {
+ UCOC()
+ if (LEqual(GPB2,PLC2)) {
+ Not(PLC2,PLC2)
+ Store(PLC2, \_SB.PT2D)
+ }
+ }
+ }
+}
+
+/* USB Port 3 overcurrent uses Gpm 3 */
+If (LLessEqual(UOM3,9)) {
+ Scope (\_GPE) {
+ Method (_L16) {
+ UCOC()
+ if (LEqual(GPB3,PLC3)) {
+ Not(PLC3,PLC3)
+ Store(PLC3, \_SB.PT3D)
+ }
+ }
+ }
+}
+
+/* USB Port 4 overcurrent uses Gpm 4 */
+If (LLessEqual(UOM4,9)) {
+ Scope (\_GPE) {
+ Method (_L19) {
+ UCOC()
+ if (LEqual(GPB4,PLC4)) {
+ Not(PLC4,PLC4)
+ Store(PLC4, \_SB.PT4D)
+ }
+ }
+ }
+}
+
+/* USB Port 5 overcurrent uses Gpm 5 */
+If (LLessEqual(UOM5,9)) {
+ Scope (\_GPE) {
+ Method (_L1A) {
+ UCOC()
+ if (LEqual(GPB5,PLC5)) {
+ Not(PLC5,PLC5)
+ Store(PLC5, \_SB.PT5D)
+ }
+ }
+ }
+}
+
+/* USB Port 6 overcurrent uses Gpm 6 */
+If (LLessEqual(UOM6,9)) {
+ Scope (\_GPE) {
+ /* Method (_L1C) { */
+ Method (_L06) {
+ UCOC()
+ if (LEqual(GPB6,PLC6)) {
+ Not(PLC6,PLC6)
+ Store(PLC6, \_SB.PT6D)
+ }
+ }
+ }
+}
+
+/* USB Port 7 overcurrent uses Gpm 7 */
+If (LLessEqual(UOM7,9)) {
+ Scope (\_GPE) {
+ /* Method (_L1D) { */
+ Method (_L07) {
+ UCOC()
+ if (LEqual(GPB7,PLC7)) {
+ Not(PLC7,PLC7)
+ Store(PLC7, \_SB.PT7D)
+ }
+ }
+ }
+}
+
+/* USB Port 8 overcurrent uses Gpm 8 */
+If (LLessEqual(UOM8,9)) {
+ Scope (\_GPE) {
+ Method (_L17) {
+ if (LEqual(G8IS,PLC8)) {
+ Not(PLC8,PLC8)
+ Store(PLC8, \_SB.PT8D)
+ }
+ }
+ }
+}
+
+/* USB Port 9 overcurrent uses Gpm 9 */
+If (LLessEqual(UOM9,9)) {
+ Scope (\_GPE) {
+ Method (_L0E) {
+ if (LEqual(G9IS,0)) {
+ Store(1,\_SB.PT9D)
+ }
+ }
+ }
+}
--- /dev/null
+/*
+ * This file is part of the coreboot project.
+ *
+ * Copyright (C) 2008 Advanced Micro Devices, Inc.
+ *
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License as published by
+ * the Free Software Foundation; version 2 of the License.
+ *
+ * This program is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ * GNU General Public License for more details.
+ *
+ * You should have received a copy of the GNU General Public License
+ * along with this program; if not, write to the Free Software
+ * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
+ */
+
+#include <console/console.h>
+#include <string.h>
+#include <arch/acpi.h>
+#include <device/pci.h>
+#include <device/pci_ids.h>
+#include <cpu/x86/msr.h>
+#include <cpu/amd/mtrr.h>
+#include <cpu/amd/amdk8_sysconf.h>
+
+#include <arch/cpu.h>
+
+#define DUMP_ACPI_TABLES 0
+
+/*
+* Assume the max pstate number is 8
+* 0x21(33 bytes) is one package length of _PSS package
+*/
+
+#define Maxpstate 8
+#define Defpkglength 0x21
+
+#if DUMP_ACPI_TABLES == 1
+static void dump_mem(u32 start, u32 end)
+{
+
+ u32 i;
+ print_debug("dump_mem:");
+ for (i = start; i < end; i++) {
+ if ((i & 0xf) == 0) {
+ printk_debug("\n%08x:", i);
+ }
+ printk_debug(" %02x", (u8)*((u8 *)i));
+ }
+ print_debug("\n");
+}
+#endif
+
+extern u8 AmlCode[];
+extern u8 AmlCode_ssdt[];
+
+#if ACPI_SSDTX_NUM >= 1
+extern u8 AmlCode_ssdt2[];
+extern u8 AmlCode_ssdt3[];
+extern u8 AmlCode_ssdt4[];
+extern u8 AmlCode_ssdt5[];
+#endif
+
+#define IO_APIC_ADDR 0xfec00000UL
+
+unsigned long acpi_fill_mcfg(unsigned long current)
+{
+ /* Just a dummy */
+ return current;
+}
+
+unsigned long acpi_fill_madt(unsigned long current)
+{
+ /* create all subtables for processors */
+ current = acpi_create_madt_lapics(current);
+
+ /* Write SB600 IOAPIC, only one */
+ current += acpi_create_madt_ioapic((acpi_madt_ioapic_t *) current, 2,
+ IO_APIC_ADDR, 0);
+
+ current += acpi_create_madt_irqoverride((acpi_madt_irqoverride_t *)
+ current, 0, 0, 2, 0);
+ current += acpi_create_madt_irqoverride((acpi_madt_irqoverride_t *)
+ current, 0, 9, 9, 0xF);
+ /* 0: mean bus 0--->ISA */
+ /* 0: PIC 0 */
+ /* 2: APIC 2 */
+ /* 5 mean: 0101 --> Edige-triggered, Active high */
+
+ /* create all subtables for processors */
+ /* current = acpi_create_madt_lapic_nmis(current, 5, 1); */
+ /* 1: LINT1 connect to NMI */
+
+ return current;
+}
+
+extern void get_bus_conf(void);
+
+extern void update_ssdt(void *ssdt);
+
+void update_ssdtx(void *ssdtx, int i)
+{
+ uint8_t *PCI;
+ uint8_t *HCIN;
+ uint8_t *UID;
+
+ PCI = ssdtx + 0x32;
+ HCIN = ssdtx + 0x39;
+ UID = ssdtx + 0x40;
+
+ if (i < 7) {
+ *PCI = (uint8_t) ('4' + i - 1);
+ } else {
+ *PCI = (uint8_t) ('A' + i - 1 - 6);
+ }
+ *HCIN = (uint8_t) i;
+ *UID = (uint8_t) (i + 3);
+
+ /* FIXME: need to update the GSI id in the ssdtx too */
+
+}
+
+/*
+* Details about this algorithm , refert to BDKG 10.5.1
+* Two parts are included, the another is the DSDT reconstruction process
+*/
+u32 pstates_algorithm(acpi_header_t * dsdt)
+{
+ u8 processor_brand[49];
+ u32 *v;
+ struct cpuid_result cpuid1;
+
+ typedef struct power_limit_encoding {
+ u8 socket_type;
+ u8 cmp_cap;
+ u8 pwr_lmt;
+ u32 power_limit;
+ };
+ u8 Max_fid, Max_vid, Start_fid, Start_vid, Min_fid, Min_vid;
+ u16 Max_feq;
+ u8 Pstate_fid[10];
+ u16 Pstate_feq[10];
+ u8 Pstate_vid[10];
+ u32 Pstate_power[10];
+ u32 Pstate_volt[10];
+ u8 PstateStep, PstateStep_coef;
+ u8 IntPstateSup;
+ u8 Pstate_num;
+ u16 Cur_feq;
+ u8 Cur_fid;
+ u8 cmp_cap, pwr_lmt;
+ u32 power_limit = 0;
+ u8 index;
+ u32 i, j;
+ u32 processor_length, scope_length;
+ msr_t msr;
+ u8 *dsdt_pointer;
+ u8 *pointer1;
+ u8 *pointer2;
+ u8 byte_index;
+ u32 old_dsdt_length, new_dsdt_length;
+ u32 corefeq, power, transitionlatency, busmasterlatency, control,
+ status;
+ u32 new_package_length;
+ u8 sum, checksum;
+ u32 fid_multiplier;
+ static struct power_limit_encoding TDP[20] = {
+ {0x11, 0x0, 0x8, 62},
+ {0x11, 0x1, 0x8, 89},
+ {0x11, 0x1, 0xa, 103},
+ {0x11, 0x1, 0xc, 125},
+ {0x11, 0x0, 0x2, 15},
+ {0x11, 0x0, 0x4, 35},
+ {0x11, 0x1, 0x2, 35},
+ {0x11, 0x0, 0x5, 45},
+ {0x11, 0x1, 0x7, 76},
+ {0x11, 0x1, 0x6, 65},
+ {0x11, 0x1, 0x8, 89},
+ {0x11, 0x0, 0x1, 8},
+ {0x11, 0x1, 0x1, 22},
+ {0x12, 0x0, 0x6, 25},
+ {0x12, 0x0, 0x1, 8},
+ {0x12, 0x0, 0x2, 9},
+ {0x12, 0x0, 0x4, 15},
+ {0x12, 0x0, 0xc, 35},
+ {0x12, 0x1, 0xc, 35},
+ {0x12, 0x1, 0x4, 20}
+ };
+
+ /* Get the Processor Brand String using cpuid(0x8000000x) command x=2,3,4 */
+ cpuid1 = cpuid(0x80000002);
+ v = (u32 *) processor_brand;
+ v[0] = cpuid1.eax;
+ v[1] = cpuid1.ebx;
+ v[2] = cpuid1.ecx;
+ v[3] = cpuid1.edx;
+ cpuid1 = cpuid(0x80000003);
+ v[4] = cpuid1.eax;
+ v[5] = cpuid1.ebx;
+ v[6] = cpuid1.ecx;
+ v[7] = cpuid1.edx;
+ cpuid1 = cpuid(0x80000004);
+ v[8] = cpuid1.eax;
+ v[9] = cpuid1.ebx;
+ v[10] = cpuid1.ecx;
+ v[11] = cpuid1.edx;
+ processor_brand[48] = 0;
+ printk_info("processor_brand=%s\n", processor_brand);
+
+ /*
+ * Based on the CPU socket type,cmp_cap and pwr_lmt , get the power limit.
+ * socket_type : 0x10 SocketF; 0x11 AM2/ASB1 ; 0x12 S1G1
+ * cmp_cap : 0x0 SingleCore ; 0x1 DualCore
+ */
+ printk_info("Pstates Algorithm ...\n");
+ cmp_cap =
+ (pci_read_config16(dev_find_slot(0, PCI_DEVFN(0x18, 3)), 0xE8) &
+ 0x3000) >> 12;
+ cpuid1 = cpuid(0x80000001);
+ pwr_lmt = ((cpuid1.ebx & 0x1C0) >> 5) | ((cpuid1.ebx & 0x4000) >> 14);
+ for (index = 0; index <= sizeof(TDP) / sizeof(TDP[0]); index++)
+ if (TDP[index].socket_type == CPU_SOCKET_TYPE &&
+ TDP[index].cmp_cap == cmp_cap &&
+ TDP[index].pwr_lmt == pwr_lmt) {
+ power_limit = TDP[index].power_limit;
+ }
+
+ /* See if the CPUID(0x80000007) returned EDX[2:1]==11b */
+ cpuid1 = cpuid(0x80000007);
+ if ((cpuid1.edx & 0x6) != 0x6) {
+ printk_info("No valid set of P-states\n");
+ return 0;
+ }
+
+ msr = rdmsr(0xc0010042);
+ Max_fid = (msr.lo & 0x3F0000) >> 16;
+ Start_fid = (msr.lo & 0x3F00) >> 8;
+ Max_vid = (msr.hi & 0x3F0000) >> 16;
+ Start_vid = (msr.hi & 0x3F00) >> 8;
+ PstateStep = (msr.hi & 0x1000000) >> 24;
+ IntPstateSup = (msr.hi & 0x20000000) >> 29;
+
+ /*
+ * The P1...P[Min+1] VID need PstateStep to calculate
+ * P[N] = P[N-1]VID + 2^PstateStep
+ * PstateStep_coef = 2^PstateStep
+ */
+ if (PstateStep == 0)
+ PstateStep_coef = 1;
+ else
+ PstateStep_coef = 2;
+
+ if (IntPstateSup == 0) {
+ printk_info("No intermediate P-states are supported\n");
+ return 0;
+ }
+
+ /*get the multipier of the fid frequency */
+ /*
+ * In RevG, 100MHz step is added
+ */
+ cpuid1 = cpuid(0x80000007);
+ fid_multiplier = ((cpuid1.edx & 0x40) >> 6) * 100;
+
+ /*
+ * Formula1: CPUFreq = FID * fid_multiplier + 800
+ * Formula2: CPUVolt = 1550 - VID * 25 (mv)
+ * Formula3: Power = (PwrLmt * P[N]Frequency*(P[N]Voltage^2))/(P[0]Frequency * P[0]Voltage^2))
+ */
+
+ /* Construct P0(P[Max]) state */
+ Pstate_num = 0;
+ Max_feq = Max_fid * fid_multiplier + 800;
+ if (Max_fid == 0x2A && Max_vid != 0x0) {
+ Min_fid = 0x2;
+ Pstate_fid[0] = Start_fid + 0xA; /* Start Frequency + 1GHz */
+ Pstate_feq[0] = Pstate_fid[0] * fid_multiplier + 800;
+ Min_vid = Start_vid;
+ Pstate_vid[0] = Max_vid + 0x2; /* Maximum Voltage - 50mV */
+ Pstate_volt[0] = 1550 - Pstate_vid[0] * 25;
+ Pstate_power[0] = power_limit * 1000; /* mw */
+ Pstate_num++;
+ } else {
+ Min_fid = Start_fid;
+ Pstate_fid[0] = Max_fid;
+ Pstate_feq[0] = Max_feq;
+ Min_vid = Start_vid;
+ Pstate_vid[0] = Max_vid + 0x2;
+ Pstate_volt[0] = 1550 - Pstate_vid[0] * 25;
+ Pstate_power[0] = power_limit * 1000; /* mw */
+ Pstate_num++;
+ }
+
+ Cur_feq = Max_feq;
+ Cur_fid = Max_fid;
+ /* Construct P1 state */
+ if (((Max_fid & 0x1) != 0) && ((Max_fid - 0x1) >= (Min_fid + 0x8))) { /* odd value */
+ Pstate_fid[1] = Max_fid - 0x1;
+ Pstate_feq[1] = Pstate_fid[1] * fid_multiplier + 800;
+ Cur_fid = Pstate_fid[1];
+ Cur_feq = Pstate_feq[1];
+ if (((Pstate_vid[0] & 0x1) != 0) && ((Pstate_vid[0] - 0x1) < Min_vid)) { /* odd value */
+ Pstate_vid[1] = Pstate_vid[0] + 0x1;
+ Pstate_volt[1] = 1550 - Pstate_vid[1] * 25;
+ Pstate_power[1] =
+ (unsigned long long)Pstate_power[0] *
+ Pstate_feq[1] * Pstate_volt[1] * Pstate_volt[1] /
+ (Pstate_feq[0] * Pstate_volt[0] * Pstate_volt[0]);
+ }
+ if (((Pstate_vid[0] & 0x1) == 0) && ((Pstate_vid[0] - 0x1) < Min_vid)) { /* even value */
+ Pstate_vid[1] = Pstate_vid[0] + PstateStep_coef;
+ Pstate_volt[1] = 1550 - Pstate_vid[1] * 25;
+ Pstate_power[1] =
+ (unsigned long long)Pstate_power[0] *
+ Pstate_feq[1] * Pstate_volt[1] * Pstate_volt[1] /
+ (Pstate_feq[0] * Pstate_volt[0] * Pstate_volt[0]);
+ }
+ Pstate_num++;
+ }
+
+ if (((Max_fid & 0x1) == 0) && ((Max_fid - 0x2) >= (Min_fid + 0x8))) { /* even value */
+ Pstate_fid[1] = Max_fid - 0x2;
+ Pstate_feq[1] = Pstate_fid[1] * fid_multiplier + 800;
+ Cur_fid = Pstate_fid[1];
+ Cur_feq = Pstate_feq[1];
+ if (((Pstate_vid[0] & 0x1) != 0) && ((Pstate_vid[0] - 0x1) < Min_vid)) { /* odd value */
+ Pstate_vid[1] = Pstate_vid[0] + 0x1;
+ Pstate_volt[1] = 1550 - Pstate_vid[1] * 25;
+ Pstate_power[1] =
+ (unsigned long long)Pstate_power[0] *
+ Pstate_feq[1] * Pstate_volt[1] * Pstate_volt[1] /
+ (Pstate_feq[0] * Pstate_volt[0] * Pstate_volt[0]);
+ }
+ if (((Pstate_vid[0] & 0x1) == 0) && ((Pstate_vid[0] - 0x1) < Min_vid)) { /* even value */
+ Pstate_vid[1] = Pstate_vid[0] + PstateStep_coef;
+ Pstate_volt[1] = 1550 - Pstate_vid[1] * 25;
+ Pstate_power[1] =
+ (unsigned long long)Pstate_power[0] *
+ Pstate_feq[1] * Pstate_volt[1] * Pstate_volt[1] /
+ (Pstate_feq[0] * Pstate_volt[0] * Pstate_volt[0]);
+ }
+
+ Pstate_num++;
+ }
+
+ /* Construct P2...P[Min-1] state */
+ Cur_fid = Cur_fid - 0x2;
+ Cur_feq = Cur_fid * fid_multiplier + 800;
+ while (Cur_feq >= ((Min_fid * fid_multiplier) + 800) * 2) {
+ Pstate_fid[Pstate_num] = Cur_fid;
+ Pstate_feq[Pstate_num] =
+ Pstate_fid[Pstate_num] * fid_multiplier + 800;
+ Cur_fid = Cur_fid - 0x2;
+ Cur_feq = Cur_fid * fid_multiplier + 800;
+ if (Pstate_vid[Pstate_num - 1] >= Min_vid) {
+ Pstate_vid[Pstate_num] = Pstate_vid[Pstate_num - 1];
+ Pstate_volt[Pstate_num] = Pstate_volt[Pstate_num - 1];
+ Pstate_power[Pstate_num] = Pstate_power[Pstate_num - 1];
+ } else {
+ Pstate_vid[Pstate_num] =
+ Pstate_vid[Pstate_num - 1] + PstateStep_coef;
+ Pstate_volt[Pstate_num] =
+ 1550 - Pstate_vid[Pstate_num] * 25;
+ Pstate_power[Pstate_num] =
+ (unsigned long long)Pstate_power[0] *
+ Pstate_feq[Pstate_num] * Pstate_volt[Pstate_num] *
+ Pstate_volt[Pstate_num] / (Pstate_feq[0] *
+ Pstate_volt[0] *
+ Pstate_volt[0]);
+ }
+ Pstate_num++;
+ }
+
+ /* Constuct P[Min] State */
+ if (Max_fid == 0x2A && Max_vid != 0x0) {
+ Pstate_fid[Pstate_num] = 0x2;
+ Pstate_feq[Pstate_num] =
+ Pstate_fid[Pstate_num] * fid_multiplier + 800;
+ Pstate_vid[Pstate_num] = Min_vid;
+ Pstate_volt[Pstate_num] = 1550 - Pstate_vid[Pstate_num] * 25;
+ Pstate_power[Pstate_num] =
+ (unsigned long long)Pstate_power[0] *
+ Pstate_feq[Pstate_num] * Pstate_volt[Pstate_num] *
+ Pstate_volt[Pstate_num] / (Pstate_feq[0] * Pstate_volt[0] *
+ Pstate_volt[0]);
+ Pstate_num++;
+ } else {
+ Pstate_fid[Pstate_num] = Start_fid;
+ Pstate_feq[Pstate_num] =
+ Pstate_fid[Pstate_num] * fid_multiplier + 800;
+ Pstate_vid[Pstate_num] = Min_vid;
+ Pstate_volt[Pstate_num] = 1550 - Pstate_vid[Pstate_num] * 25;
+ Pstate_power[Pstate_num] =
+ (unsigned long long)Pstate_power[0] *
+ Pstate_feq[Pstate_num] * Pstate_volt[Pstate_num] *
+ Pstate_volt[Pstate_num] / (Pstate_feq[0] * Pstate_volt[0] *
+ Pstate_volt[0]);
+ Pstate_num++;
+ }
+
+ /* Print Pstate feq,vid,volt,power */
+
+ for (index = 0; index < Pstate_num; index++) {
+ printk_info("Pstate_feq[%d] = %dMHz\t", index,
+ Pstate_feq[index]);
+ printk_info("Pstate_vid[%d] = %d\t", index, Pstate_vid[index]);
+ printk_info("Pstate_volt[%d] = %dmv\t", index,
+ Pstate_volt[index]);
+ printk_info("Pstate_power[%d] = %dmw\n", index,
+ Pstate_power[index]);
+ }
+
+ /*
+ * Modify the DSDT Table to put the actural _PSS package
+ * corefeq-->Pstate_feq[index] power-->Pstate_power[index] transitionlatency-->0x64 busmasterlatency-->0x7,
+ * control-->0xE8202C00| Pstate_vid[index]<<6 | Pstate_fid[index]
+ * status --> Pstate_vid[index]<<6 | Pstate_fid[index]
+ * Get the _PSS control method Sig.
+ */
+
+ dsdt_pointer = (u8 *) dsdt;
+ old_dsdt_length = dsdt->length;
+ new_dsdt_length = old_dsdt_length;
+ printk_info("DSDT reconstruction...\n");
+ for (i = 0x20; i < new_dsdt_length; i++)
+ if ((*(dsdt_pointer + i) == '_')
+ && (*(dsdt_pointer + i + 1) == 'P')
+ && (*(dsdt_pointer + i + 2) == 'S')
+ && (*(dsdt_pointer + i + 3) == 'S')) {
+
+ if ((*(dsdt_pointer + i + 4) !=
+ 0x12) | (*(dsdt_pointer + i + 5) !=
+ 0x4B) | (*(dsdt_pointer + i + 6) !=
+ 0x10)) {
+ printk_info
+ ("Error:No _PSS package leader byte!\n");
+ } else {
+ new_package_length =
+ 0x10B - Defpkglength * (Maxpstate -
+ Pstate_num);
+ /* two Pstates length will larger than 63, so we need not worry about the length */
+ if (new_package_length > 63) {
+ *(dsdt_pointer + i + 5) =
+ 0x40 | (new_package_length & 0xf);
+ *(dsdt_pointer + i + 6) =
+ (new_package_length & 0xff0) >> 4;
+ }
+ *(dsdt_pointer + i + 7) = Pstate_num;
+ }
+
+ if ((*(dsdt_pointer + i + 8) !=
+ 0x12) | (*(dsdt_pointer + i + 9) !=
+ 0x20) | (*(dsdt_pointer + i + 10) != 0x6))
+ printk_info
+ ("Error:No package leader for the first Pstate!\n");
+ for (index = 0; index < Pstate_num; index++) {
+ corefeq = Pstate_feq[index];
+ power = Pstate_power[index];
+ transitionlatency = 0x64;
+ busmasterlatency = 0x7;
+ control =
+ 0xE8202C00 | (Pstate_vid[index] << 6) |
+ Pstate_fid[index];
+ status =
+ (Pstate_vid[index] << 6) |
+ Pstate_fid[index];
+ for (byte_index = 0; byte_index < 4;
+ byte_index++) {
+ *(dsdt_pointer + i + 0xC +
+ Defpkglength * index + byte_index) =
+ corefeq >> (8 * byte_index);
+ *(dsdt_pointer + i + 0xC +
+ Defpkglength * index + 0x5 +
+ byte_index) =
+ power >> (8 * byte_index);
+ *(dsdt_pointer + i + 0xC +
+ Defpkglength * index + 0x5 * 2 +
+ byte_index) =
+ transitionlatency >> (8 * byte_index);
+ *(dsdt_pointer + i + 0xC +
+ Defpkglength * index + 0x5 * 3 +
+ byte_index) =
+ busmasterlatency >> (8 * byte_index);
+ *(dsdt_pointer + i + 0xC +
+ Defpkglength * index + 0x5 * 4 +
+ byte_index) =
+ control >> (8 * byte_index);
+ *(dsdt_pointer + i + 0xC +
+ Defpkglength * index + 0x5 * 5 +
+ byte_index) =
+ status >> (8 * byte_index);
+ }
+ }
+ pointer1 =
+ dsdt_pointer + i + 8 + Pstate_num * Defpkglength;
+ pointer2 =
+ dsdt_pointer + i + 8 + Maxpstate * Defpkglength;
+ while (pointer2 < dsdt_pointer + new_dsdt_length) {
+ *pointer1 = *pointer2;
+ pointer1++;
+ pointer2++;
+ }
+ /* Recalcute the DSDT length */
+ new_dsdt_length =
+ new_dsdt_length - Defpkglength * (Maxpstate -
+ Pstate_num);
+
+ /* Search the first processor(CPUx) item and recalculate the processor length */
+ for (j = 0; (dsdt_pointer + i - j) > dsdt_pointer; j++) {
+ if ((*(dsdt_pointer + i - j) == 'C')
+ && (*(dsdt_pointer + i - j + 1) == 'P')
+ && (*(dsdt_pointer + i - j + 2) == 'U')) {
+ processor_length =
+ ((*(dsdt_pointer + i - j - 1) << 4)
+ | (*(dsdt_pointer + i - j - 2) &
+ 0xf));
+ processor_length =
+ processor_length -
+ Defpkglength * (Maxpstate -
+ Pstate_num);
+ *(dsdt_pointer + i - j - 2) =
+ (processor_length & 0xf) | 0x40;
+ *(dsdt_pointer + i - j - 1) =
+ (processor_length & 0xff0) >> 4;
+ break;
+ }
+ }
+
+ /* Search the first scope(_PR_) item and recalculate the scope length */
+ for (j = 0; (dsdt_pointer + i - j) > dsdt_pointer; j++) {
+ if ((*(dsdt_pointer + i - j) == '_')
+ && (*(dsdt_pointer + i - j + 1) == 'P')
+ && (*(dsdt_pointer + i - j + 2) == 'R')
+ && (*(dsdt_pointer + i - j + 3) == '_')) {
+ scope_length =
+ ((*(dsdt_pointer + i - j - 1) << 4)
+ | (*(dsdt_pointer + i - j - 2) &
+ 0xf));
+ scope_length =
+ scope_length -
+ Defpkglength * (Maxpstate -
+ Pstate_num);
+ *(dsdt_pointer + i - j - 2) =
+ (scope_length & 0xf) | 0x40;
+ *(dsdt_pointer + i - j - 1) =
+ (scope_length & 0xff0) >> 4;
+ break;
+ }
+ }
+
+ }
+
+ /* Recalculate the DSDT length and fill back to the table */
+ *(dsdt_pointer + 0x4) = new_dsdt_length;
+ *(dsdt_pointer + 0x5) = new_dsdt_length >> 8;
+
+ /*
+ * Recalculate the DSDT checksum and fill back to the table
+ * We must make sure the sum of the whole table is 0
+ */
+ sum = 0;
+ for (i = 0; i < new_dsdt_length; i++)
+ if (i != 9)
+ sum = sum + *(dsdt_pointer + i);
+ checksum = 0x100 - sum;
+ *(dsdt_pointer + 0x9) = checksum;
+
+ /*Check the DSDT Table */
+ /*
+ * printk_info("The new DSDT table length is %x\n", new_dsdt_length);
+ * printk_info("Details is as below:\n");
+ * for(i=0; i< new_dsdt_length; i++){
+ * printk_info("%x\t",(unsigned char)*(dsdt_pointer+i));
+ * if( ((i+1)&0x7) == 0x0)
+ * printk_info("**0x%x**\n",i-7);
+ *}
+ */
+
+ return 1;
+
+}
+
+unsigned long write_acpi_tables(unsigned long start)
+{
+ unsigned long current;
+ acpi_rsdp_t *rsdp;
+ acpi_rsdt_t *rsdt;
+ acpi_hpet_t *hpet;
+ acpi_madt_t *madt;
+ acpi_fadt_t *fadt;
+ acpi_facs_t *facs;
+ acpi_header_t *dsdt;
+ acpi_header_t *ssdt;
+
+ get_bus_conf(); /* it will get sblk, pci1234, hcdn, and sbdn */
+
+ /* Align ACPI tables to 16byte */
+ start = (start + 0x0f) & -0x10;
+ current = start;
+
+ printk_info("ACPI: Writing ACPI tables at %lx...\n", start);
+
+ /* We need at least an RSDP and an RSDT Table */
+ rsdp = (acpi_rsdp_t *) current;
+ current += sizeof(acpi_rsdp_t);
+ rsdt = (acpi_rsdt_t *) current;
+ current += sizeof(acpi_rsdt_t);
+
+ /* clear all table memory */
+ memset((void *)start, 0, current - start);
+
+ acpi_write_rsdp(rsdp, rsdt);
+ acpi_write_rsdt(rsdt);
+
+ /*
+ * We explicitly add these tables later on:
+ */
+ /* If we want to use HPET Timers Linux wants an MADT */
+ printk_debug("ACPI: * HPET\n");
+ hpet = (acpi_hpet_t *) current;
+ current += sizeof(acpi_hpet_t);
+ acpi_create_hpet(hpet);
+ acpi_add_table(rsdt, hpet);
+
+ printk_debug("ACPI: * MADT\n");
+ madt = (acpi_madt_t *) current;
+ acpi_create_madt(madt);
+ current += madt->header.length;
+ acpi_add_table(rsdt, madt);
+
+#if 0
+ /* SRAT */
+ printk_debug("ACPI: * SRAT\n");
+ srat = (acpi_srat_t *) current;
+ acpi_create_srat(srat);
+ current += srat->header.length;
+ acpi_add_table(rsdt, srat);
+
+ /* SLIT */
+ printk_debug("ACPI: * SLIT\n");
+ slit = (acpi_slit_t *) current;
+ acpi_create_slit(slit);
+ current += slit->header.length;
+ acpi_add_table(rsdt, slit);
+#endif
+
+ /* SSDT */
+ printk_debug("ACPI: * SSDT\n");
+ ssdt = (acpi_header_t *) current;
+ current += ((acpi_header_t *) AmlCode_ssdt)->length;
+ memcpy((void *)ssdt, (void *)AmlCode_ssdt,
+ ((acpi_header_t *) AmlCode_ssdt)->length);
+ /* Here you need to set value in pci1234, sblk and sbdn in get_bus_conf.c */
+ update_ssdt((void *)ssdt);
+ /* recalculate checksum */
+ ssdt->checksum = 0;
+ ssdt->checksum = acpi_checksum((u8 *)ssdt, ssdt->length);
+ acpi_add_table(rsdt, ssdt);
+
+#if ACPI_SSDTX_NUM >= 1
+
+ /* same htio, but different position? We may have to copy, change HCIN, and recalculate the checknum and add_table */
+
+ for (i = 1; i < sysconf.hc_possible_num; i++) { /* 0: is hc sblink */
+ if ((sysconf.pci1234[i] & 1) != 1)
+ continue;
+ uint8_t c;
+ if (i < 7) {
+ c = (uint8_t) ('4' + i - 1);
+ } else {
+ c = (uint8_t) ('A' + i - 1 - 6);
+ }
+ printk_debug("ACPI: * SSDT for PCI%c Aka hcid = %d\n", c, sysconf.hcid[i]); /* pci0 and pci1 are in dsdt */
+ current = (current + 0x07) & -0x08;
+ ssdtx = (acpi_header_t *) current;
+ switch (sysconf.hcid[i]) {
+ case 1: /* 8132 */
+ p = AmlCode_ssdt2;
+ break;
+ case 2: /* 8151 */
+ p = AmlCode_ssdt3;
+ break;
+ case 3: /* 8131 */
+ p = AmlCode_ssdt4;
+ break;
+ default:
+ /* HTX no io apic */
+ p = AmlCode_ssdt5;
+ break;
+ }
+ current += ((acpi_header_t *) p)->length;
+ memcpy((void *)ssdtx, (void *)p, ((acpi_header_t *) p)->length);
+ update_ssdtx((void *)ssdtx, i);
+ ssdtx->checksum = 0;
+ ssdtx->checksum =
+ acpi_checksum((u8 *)ssdtx, ssdtx->length);
+ acpi_add_table(rsdt, ssdtx);
+ }
+#endif
+
+ /* FACS */
+ printk_debug("ACPI: * FACS\n");
+ facs = (acpi_facs_t *) current;
+ current += sizeof(acpi_facs_t);
+ acpi_create_facs(facs);
+
+ /* DSDT */
+ printk_debug("ACPI: * DSDT\n");
+ dsdt = (acpi_header_t *) current;
+ memcpy((void *)dsdt, (void *)AmlCode,
+ ((acpi_header_t *) AmlCode)->length);
+ if (!pstates_algorithm(dsdt))
+ printk_debug("pstates_algorithm error!\n");
+ else
+ printk_debug("pstates_algorithm success.\n");
+
+ current += dsdt->length;
+ printk_debug("ACPI: * DSDT @ %08x Length %x\n", dsdt, dsdt->length);
+ /* FDAT */
+ printk_debug("ACPI: * FADT\n");
+ fadt = (acpi_fadt_t *) current;
+ current += sizeof(acpi_fadt_t);
+
+ acpi_create_fadt(fadt, facs, dsdt);
+ acpi_add_table(rsdt, fadt);
+
+#if DUMP_ACPI_TABLES == 1
+ printk_debug("rsdp\n");
+ dump_mem(rsdp, ((void *)rsdp) + sizeof(acpi_rsdp_t));
+
+ printk_debug("rsdt\n");
+ dump_mem(rsdt, ((void *)rsdt) + sizeof(acpi_rsdt_t));
+
+ printk_debug("madt\n");
+ dump_mem(madt, ((void *)madt) + madt->header.length);
+
+ printk_debug("srat\n");
+ dump_mem(srat, ((void *)srat) + srat->header.length);
+
+ printk_debug("slit\n");
+ dump_mem(slit, ((void *)slit) + slit->header.length);
+
+ printk_debug("ssdt\n");
+ dump_mem(ssdt, ((void *)ssdt) + ssdt->length);
+
+ printk_debug("fadt\n");
+ dump_mem(fadt, ((void *)fadt) + fadt->header.length);
+#endif
+
+ printk_info("ACPI: done.\n");
+ return current;
+}
projects / coreboot.git / commitdiff