+/* here is programming for the various MSRs.*/
+#define IM_QWAIT 0x100000
+
+#define DMCF_WRITE_SERIALIZE_REQUEST (2<<12) /* 2 outstanding */ /* in high */
+#define DMCF_SERIAL_LOAD_MISSES (2) /* enabled */
+
+/* these are the 8-bit attributes for controlling RCONF registers */
+#define CACHE_DISABLE (1<<0)
+#define WRITE_ALLOCATE (1<<1)
+#define WRITE_PROTECT (1<<2)
+#define WRITE_THROUGH (1<<3)
+#define WRITE_COMBINE (1<<4)
+#define WRITE_SERIALIZE (1<<5)
+
+/* ram has none of this stuff */
+#define RAM_PROPERTIES (0)
+#define DEVICE_PROPERTIES (WRITE_SERIALIZE|CACHE_DISABLE)
+#define ROM_PROPERTIES (WRITE_SERIALIZE|WRITE_PROTECT|CACHE_DISABLE)
+#define MSR_WS_CD_DEFAULT (0x21212121)
+
+/* 1810-1817 give you 8 registers with which to program protection regions */
+/* the are region configuration range registers, or RRCF */
+/* in msr terms, the are a straight base, top address assign, since they are 4k aligned. */
+/* so no left-shift needed for top or base */
+#define RRCF_LOW(base,properties) (base|(1<<8)|properties)
+#define RRCF_LOW_CD(base) RRCF_LOW(base, CACHE_DISABLE)
+
+/* build initializer for P2D MSR */
+#define P2D_BM(msr, pdid1, bizarro, pbase, pmask) {msr, {.hi=(pdid1<<29)|(bizarro<<28)|(pbase>>24), .lo=(pbase<<8)|pmask}}
+#define P2D_BMO(msr, pdid1, bizarro, poffset, pbase, pmask) {msr, {.hi=(pdid1<<29)|(bizarro<<28)|(poffset<<8)|(pbase>>24), .lo=(pbase<<8)|pmask}}
+#define P2D_R(msr, pdid1, bizarro, pmax, pmin) {msr, {.hi=(pdid1<<29)|(bizarro<<28)|(pmax>>12), .lo=(pmax<<20)|pmin}}
+#define P2D_RO(msr, pdid1, bizarro, poffset, pmax, pmin) {msr, {.hi=(pdid1<<29)|(bizarro<<28)|(poffset<<8)|(pmax>>12), .lo=(pmax<<20)|pmin}}
+#define P2D_SC(msr, pdid1, bizarro, wen, ren,pscbase) {msr, {.hi=(pdid1<<29)|(bizarro<<28)|(wen), .lo=(ren<<16)|(pscbase>>18)}}
+#define IOD_BM(msr, pdid1, bizarro, ibase, imask) {msr, {.hi=(pdid1<<29)|(bizarro<<28)|(ibase>>12), .lo=(ibase<<20)|imask}}
+#define IOD_SC(msr, pdid1, bizarro, en, wen, ren, ibase) {msr, {.hi=(pdid1<<29)|(bizarro<<28), .lo=(en<<24)|(wen<<21)|(ren<<20)|(ibase<<3)}}
+
+
+
+struct msr_defaults {
+ int msr_no;
+ msr_t msr;
+} msr_defaults [] = {
+ {0x1700, {.hi = 0, .lo = IM_QWAIT}},
+ {0x1800, {.hi = DMCF_WRITE_SERIALIZE_REQUEST, .lo = DMCF_SERIAL_LOAD_MISSES}},
+ /* 1808 will be done down below, so we have to do 180a->1817 (well, 1813 really) */
+ /* for 180a, for now, we assume VSM will configure it */
+ /* 180b is left at reset value,a0000-bffff is non-cacheable */
+ /* 180c, c0000-dffff is set to write serialize and non-cachable */
+ /* oops, 180c will be set by cpu bug handling in cpubug.c */
+ //{0x180c, {.hi = MSR_WS_CD_DEFAULT, .lo = MSR_WS_CD_DEFAULT}},
+ /* 180d is left at default, e0000-fffff is non-cached */
+
+ /* we will assume 180e, the ssm region configuration, is left at default or set by VSM */
+ /* we will not set 0x180f, the DMM,yet */
+ //{0x1810, {.hi=0xee7ff000, .lo=RRCF_LOW(0xee000000, WRITE_COMBINE|CACHE_DISABLE)}},
+ //{0x1811, {.hi = 0xefffb000, .lo = RRCF_LOW_CD(0xefff8000)}},
+ //{0x1812, {.hi = 0xefff7000, .lo = RRCF_LOW_CD(0xefff4000)}},
+ //{0x1813, {.hi = 0xefff3000, .lo = RRCF_LOW_CD(0xefff0000)}},
+ /* now for GLPCI routing */
+ /* GLIU0 */
+ P2D_BM(0x10000020, 0x1, 0x0, 0x0, 0xfff80),
+ P2D_BM(0x10000021, 0x1, 0x0, 0x80000, 0xfffe0),
+ P2D_SC(0x1000002c, 0x1, 0x0, 0x0, 0xff03, 0xC0000),
+ /* GLIU1 */
+ P2D_BM(0x40000020, 0x1, 0x0, 0x0, 0xfff80),
+ P2D_BM(0x40000021, 0x1, 0x0, 0x80000, 0xfffe0),
+ P2D_SC(0x4000002d, 0x1, 0x0, 0x0, 0xff03, 0xC0000),
+ {0}
+};
+
+/* note that dev is NOT used -- yet */
+static void irq_init_steering(struct device *dev, u16 irq_map) {
+ /* Set up IRQ steering */
+ u32 pciAddr = 0x80000000 | (CHIPSET_DEV_NUM << 11) | 0x5C;
+
+ printk(BIOS_DEBUG, "%s(%p [%08X], %04X)\n", __func__, dev, pciAddr, irq_map);
+
+ /* The IRQ steering values (in hex) are effectively dcba, where:
+ * <a> represents the IRQ for INTA,
+ * <b> represents the IRQ for INTB,
+ * <c> represents the IRQ for INTC, and
+ * <d> represents the IRQ for INTD.
+ * Thus, a value of irq_map = 0xAA5B translates to:
+ * INTA = IRQB (IRQ 11)
+ * INTB = IRQ5 (IRQ 5)
+ * INTC = IRQA (IRQ 10)
+ * INTD = IRQA (IRQ 10)
+ */
+ outl(pciAddr & ~3, 0xCF8);
+ outl(irq_map, 0xCFC);
+}