#include #include #include #include #include #include #include #include #include #include #include #include "chip.h" struct mem_range *sizeram(void) { static struct mem_range mem[4]; /* the units of tolm are 64 KB */ /* the units of drb16 are 64 MB */ uint16_t tolm, remapbase, remaplimit, drb16; uint16_t tolm_r, remapbase_r, remaplimit_r; uint8_t drb; int remap_high; device_t dev; dev = dev_find_slot(0, 0); // d0f0 if (!dev) { printk_err("Cannot find PCI: 0:0\n"); return 0; } /* Calculate and report the top of low memory and * any remapping. */ /* Test if the remap memory high option is set */ remap_high = 0; // if(get_option(&remap_high, "remap_memory_high")){ // remap_high = 0; // } printk_debug("remap_high is %d\n", remap_high); /* get out the value of the highest DRB. This tells the end of * physical memory. The units are ticks of 64 MB i.e. 1 means * 64 MB. */ drb = pci_read_config8(dev, 0x67); drb16 = (uint16_t)drb; if(remap_high && (drb16 > 0x08)) { /* We only come here if we have at least 512MB of memory, * so it is safe to hard code tolm. * 0x2000 means 512MB */ tolm = 0x2000; /* i.e 0x40 * 0x40 is 0x1000 which is 4 GB */ if(drb16 > 0x0040) { /* There is more than 4GB of memory put * the remap window at the end of ram. */ remapbase = drb16; remaplimit = remapbase + 0x38; } else { remapbase = 0x0040; remaplimit = remapbase + (drb16-8); } } else { tolm = (uint16_t)((dev_root.resource[1].base >> 16)&0x0f800); if((tolm>>8) >= (drb16<<2)) { tolm = (drb16<<10); remapbase = 0x3ff; remaplimit = 0; } else { remapbase = drb16; remaplimit = remapbase + ((0x0040-(tolm>>10))-1); } } /* Write the ram configruation registers, * preserving the reserved bits. */ tolm_r = pci_read_config16(dev, 0xc4); tolm |= (tolm_r & 0x7ff); pci_write_config16(dev, 0xc4, tolm); remapbase_r = pci_read_config16(dev, 0xc6); remapbase |= (remapbase_r & 0xfc00); pci_write_config16(dev, 0xc6, remapbase); remaplimit_r = pci_read_config16(dev, 0xc8); remaplimit |= (remaplimit_r & 0xfc00); pci_write_config16(dev, 0xc8, remaplimit); #if 0 printk_debug("mem info tolm = %x, drb = %x, pci_memory_base = %x, remap = %x-%x\n",tolm,drb,pci_memory_base,remapbase,remaplimit); #endif mem[0].basek = 0; mem[0].sizek = 640; mem[1].basek = 768; /* Convert size in 64K bytes to size in K bytes */ mem[1].sizek = (tolm << 6) - mem[1].basek; mem[2].basek = 0; mem[2].sizek = 0; if ((drb << 16) > (tolm << 6)) { /* We don't need to consider the remap window * here because we put it immediately after the * rest of ram. * All we must do is calculate the amount * of unused memory and report it at 4GB. */ mem[2].basek = 4096*1024; mem[2].sizek = (drb << 16) - (tolm << 6); } mem[3].basek = 0; mem[3].sizek = 0; return mem; } static void enumerate(struct chip *chip) { extern struct device_operations default_pci_ops_bus; chip_enumerate(chip); chip->dev->ops = &default_pci_ops_bus; } #if 0 static void northbridge_init(struct chip *chip, enum chip_pass pass) { struct northbridge_intel_i855pm_config *conf = (struct northbridge_intel_i855pm_config *)chip->chip_info; switch (pass) { case CONF_PASS_PRE_PCI: break; case CONF_PASS_POST_PCI: break; case CONF_PASS_PRE_BOOT: break; default: /* nothing yet */ break; } } #endif struct chip_control northbridge_intel_i855pm_control = { .enumerate = enumerate, // .enable = northbridge_init, .name = "intel i855pm Northbridge", };