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path: root/com32/lib/pci/scan.c
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/* ----------------------------------------------------------------------- *
 *
 *   Copyright 2006-2007 Erwan Velu - All Rights Reserved
 *
 *   Permission is hereby granted, free of charge, to any person
 *   obtaining a copy of this software and associated documentation
 *   files (the "Software"), to deal in the Software without
 *   restriction, including without limitation the rights to use,
 *   copy, modify, merge, publish, distribute, sublicense, and/or
 *   sell copies of the Software, and to permit persons to whom
 *   the Software is furnished to do so, subject to the following
 *   conditions:
 *
 *   The above copyright notice and this permission notice shall
 *   be included in all copies or substantial portions of the Software.
 *
 *   THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
 *   EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES
 *   OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
 *   NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT
 *   HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
 *   WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
 *   FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
 *   OTHER DEALINGS IN THE SOFTWARE.
 *
 * ----------------------------------------------------------------------- */

/*
 * pci.c
 *
 * A module to extract pci informations
 */

#include <inttypes.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <console.h>
#include <sys/pci.h>
#include <com32.h>
#include <stdbool.h>

#ifdef DEBUG
# define dprintf printf
#else
# define dprintf(...) ((void)0)
#endif

#define MAX_LINE 512

/* searching the next char that is not a space */
static char *skipspace(char *p)
{
  while (*p && *p <= ' ')
    p++;

  return p;
}

/* removing any \n found in a string */
static void remove_eol(char *string)
{
 int j = strlen(string);
 int i = 0;
 for(i = 0; i < j; i++) if(string[i] == '\n') string[i] = 0;
}

/* converting a hexa string into its numerical value */
static int hex_to_int(char *hexa)
{
  return strtoul(hexa, NULL, 16);
}

/* Try to match any pci device to the appropriate kernel module */
/* it uses the modules.pcimap from the boot device */
int get_module_name_from_pci_ids(struct pci_domain *domain)
{
  char line[MAX_LINE];
  char module_name[21]; // the module name field is 21 char long
  char delims[]=" ";    // colums are separated by spaces
  char vendor_id[16];
  char product_id[16];
  char sub_vendor_id[16];
  char sub_product_id[16];
  FILE *f;
  struct pci_device *dev;

  /* Intializing the linux_kernel_module for each pci device to "unknown" */
  /* adding a dev_info member if needed */
  for_each_pci_func(dev, domain) {
    /* initialize the dev_info structure if it doesn't exist yet. */
    if (! dev->dev_info) {
      dev->dev_info = zalloc(sizeof *dev->dev_info);
      if (!dev->dev_info)
	return -1;
    }
    strcpy(dev->dev_info->linux_kernel_module, "unknown");
  }

  /* Opening the modules.pcimap (of a linux kernel) from the boot device */
  f=fopen("modules.pcimap", "r");
  if (!f)
    return -1;

  strcpy(vendor_id,"0000");
  strcpy(product_id,"0000");
  strcpy(sub_product_id,"0000");
  strcpy(sub_vendor_id,"0000");

  /* for each line we found in the modules.pcimap */
  while ( fgets(line, sizeof line, f) ) {
    /* skipping unecessary lines */
    if ((line[0] == '#') || (line[0] == ' ') || (line[0] == 10))
        continue;

    char *result = NULL;
    int field=0;

    /* looking for the next field */
    result = strtok(line, delims);
    while( result != NULL ) {
       /* if the column is larger than 1 char */
       /* multiple spaces generates some empty fields */
       if (strlen(result)>1) {
	 switch (field) {
	 case 0:strcpy(module_name,result); break;
	 case 1:strcpy(vendor_id,result); break;
	 case 2:strcpy(product_id,result); break;
	 case 3:strcpy(sub_vendor_id,result); break;
	 case 4:strcpy(sub_product_id,result); break;
	 }
	 field++;
       }
       /* Searching the next field */
       result = strtok( NULL, delims );
   }
    /* if a pci_device matches an entry, fill the linux_kernel_module with
       the appropriate kernel module */
    for_each_pci_func(dev, domain) {
      if (hex_to_int(vendor_id) == dev->vendor &&
	  hex_to_int(product_id) == dev->product &&
	  (hex_to_int(sub_product_id) & dev->sub_product)
	  == dev->sub_product &&
	  (hex_to_int(sub_vendor_id) & dev->sub_vendor)
	  == dev->sub_vendor)
	strcpy(dev->dev_info->linux_kernel_module, module_name);
    }
  }
  fclose(f);
  return 0;
}

/* Try to match any pci device to the appropriate vendor and product name */
/* it uses the pci.ids from the boot device */
int get_name_from_pci_ids(struct pci_domain *domain)
{
  char line[MAX_LINE];
  char vendor[255];
  char vendor_id[5];
  char product[255];
  char product_id[5];
  char sub_product_id[5];
  char sub_vendor_id[5];
  FILE *f;
  struct pci_device *dev;

  /* Intializing the vendor/product name for each pci device to "unknown" */
  /* adding a dev_info member if needed */
  for_each_pci_func(dev, domain) {
    /* initialize the dev_info structure if it doesn't exist yet. */
    if (! dev->dev_info) {
      dev->dev_info = zalloc(sizeof *dev->dev_info);
      if (!dev->dev_info)
	return -1;
    }
    strcpy(dev->dev_info->vendor_name,"unknown");
    strcpy(dev->dev_info->product_name,"unknown");
  }

  /* Opening the pci.ids from the boot device */
  f = fopen("pci.ids","r");
  if (!f)
    return -1;

  strcpy(vendor_id,"0000");
  strcpy(product_id,"0000");
  strcpy(sub_product_id,"0000");
  strcpy(sub_vendor_id,"0000");

  /* for each line we found in the pci.ids */
  while ( fgets(line, sizeof line, f) ) {
    /* Skipping uncessary lines */
    if ((line[0] == '#') || (line[0] == ' ') || (line[0] == 'C') ||
	(line[0] == 10))
      continue;
    /* If the line doesn't start with a tab, it means that's a vendor id */
    if (line[0] != '\t') {

      /* the 4 first chars are the vendor_id */
      strlcpy(vendor_id,line,4);

      /* the vendor name is the next field */
      vendor_id[4]=0;
      strlcpy(vendor,skipspace(strstr(line," ")),255);

      remove_eol(vendor);
      /* init product_id, sub_product and sub_vendor */
      strcpy(product_id,"0000");
      strcpy(sub_product_id,"0000");
      strcpy(sub_vendor_id,"0000");

      /* ffff is an invalid vendor id */
      if (strstr(vendor_id,"ffff")) break;
      /* assign the vendor_name to any matching pci device */
      for_each_pci_func(dev, domain) {
	if (hex_to_int(vendor_id) == dev->vendor)
	  strlcpy(dev->dev_info->vendor_name,vendor,255);
      }
      /* if we have a tab + a char, it means this is a product id */
    } else if ((line[0] == '\t') && (line[1] != '\t')) {

      /* the product name the second field */
      strlcpy(product,skipspace(strstr(line," ")),255);
      remove_eol(product);

      /* the product id is first field */
      strlcpy(product_id,&line[1],4);
      product_id[4]=0;

      /* init sub_product and sub_vendor */
      strcpy(sub_product_id,"0000");
      strcpy(sub_vendor_id,"0000");

      /* assign the product_name to any matching pci device */
      for_each_pci_func(dev, domain) {
	if (hex_to_int(vendor_id) == dev->vendor &&
	    hex_to_int(product_id) == dev->product)
	  strlcpy(dev->dev_info->product_name,product,255);
      }

      /* if we have two tabs, it means this is a sub product */
    } else if ((line[0] == '\t') && (line[1] == '\t')) {

      /* the product name is last field */
      strlcpy(product,skipspace(strstr(line," ")),255);
      strlcpy(product,skipspace(strstr(product," ")),255);
      remove_eol(product);

      /* the sub_vendor id is first field */
      strlcpy(sub_vendor_id,&line[2],4);
      sub_vendor_id[4]=0;

      /* the sub_vendor id is second field */
      strlcpy(sub_product_id,&line[7],4);
      sub_product_id[4]=0;

      /* assign the product_name to any matching pci device */
      for_each_pci_func(dev, domain) {
	if (hex_to_int(vendor_id) == dev->vendor &&
	    hex_to_int(product_id) == dev->product &&
	    hex_to_int(sub_product_id) == dev->sub_product &&
	    hex_to_int(sub_vendor_id) == dev->sub_vendor)
	  strlcpy(dev->dev_info->product_name,product,255);
      }
    }
  }
  fclose(f);
  return 0;
}

/* searching if any pcidevice match our query */
struct match *find_pci_device(const struct pci_domain *domain,
			      struct match *list)
{
  uint32_t did, sid;
  struct match *m;
  const struct pci_device *dev;

  /* for all matches we have to search */
  for (m = list; m; m = m->next) {
    /* for each pci device we know */
    for_each_pci_func(dev, domain) {
      /* sid & did are the easiest way to compare devices */
      /* they are made of vendor/product subvendor/subproduct ids */
      sid = dev->svid_sdid;
      did = dev->vid_did;
      /* if the current device match */
      if (((did ^ m->did) & m->did_mask) == 0 &&
	  ((sid ^ m->sid) & m->sid_mask) == 0 &&
	  dev->revision >= m->rid_min
	  && dev->revision <= m->rid_max) {
	dprintf("PCI Match: Vendor=%04x Product=%04x Sub_vendor=%04x Sub_Product=%04x Release=%02x\n",
		dev->vendor, dev->product,
		dev->sub_vendor,
		dev->sub_product,
		dev->revision);
	/* returning the matched pci device */
	return m;
      }
    }
  }
  return NULL;
}

/* scanning the pci bus to find pci devices */
struct pci_domain *pci_scan(void)
{
  struct pci_domain *domain = NULL;
  struct pci_bus    *bus    = NULL;
  struct pci_slot   *slot   = NULL;
  struct pci_device *func   = NULL;
  unsigned int nbus, ndev, nfunc, maxfunc;
  uint32_t did, sid, rcid;
  uint8_t hdrtype;
  pciaddr_t a;
  int cfgtype;

  cfgtype = pci_set_config_type(PCI_CFG_AUTO);
  (void)cfgtype;

  dprintf("PCI configuration type %d\n", cfgtype);
  dprintf("Scanning PCI Buses\n");

  for (nbus = 0; nbus < MAX_PCI_BUSES; nbus++) {
    dprintf("Probing bus 0x%02x... \n", nbus);
    bus = NULL;

    for (ndev = 0; ndev < MAX_PCI_DEVICES; ndev++) {
      maxfunc = 1;		/* Assume a single-function device */
      slot = NULL;

      for (nfunc = 0; nfunc < maxfunc; nfunc++) {
	a = pci_mkaddr(nbus, ndev, nfunc, 0);
	did = pci_readl(a);

	if (did == 0xffffffff || did == 0xffff0000 ||
	    did == 0x0000ffff || did == 0x00000000)
	  continue;

	hdrtype = pci_readb(a + 0x0e);

	if (hdrtype & 0x80)
	  maxfunc = MAX_PCI_FUNC; /* Multifunction device */

	rcid = pci_readl(a + 0x08);
	sid  = pci_readl(a + 0x2c);

	if (!domain) {
	  domain = zalloc(sizeof *domain);
	  if (!domain)
	    goto bail;
	}
	if (!bus) {
	  bus = zalloc(sizeof *bus);
	  if (!bus)
	    goto bail;
	  domain->bus[nbus] = bus;
	}
	if (!slot) {
	  slot = zalloc(sizeof *slot);
	  if (!slot)
	    goto bail;
	  bus->slot[ndev] = slot;
	}
	func = zalloc(sizeof *func);
	if (!func)
	  goto bail;

	slot->func[nfunc] = func;

	func->vid_did   = did;
	func->svid_sdid = sid;
	func->rid_class = rcid;

	dprintf
	  ("Scanning: BUS %02x DID %08x (%04x:%04x) SID %08x RID %02x\n",
	   nbus, did, did >> 16, (did << 16) >> 16,
	   sid, rcid & 0xff);
      }
    }
  }

  return domain;

 bail:
  free_pci_domain(domain);
  return NULL;
}

void free_pci_domain(struct pci_domain *domain)
{
  struct pci_bus    *bus;
  struct pci_slot   *slot;
  struct pci_device *func;
  unsigned int nbus, ndev, nfunc;

  if (domain) {
    for (nbus = 0; nbus < MAX_PCI_BUSES; nbus++) {
      bus = domain->bus[nbus];
      if (bus) {
	for (ndev = 0; ndev < MAX_PCI_DEVICES; ndev++) {
	  slot = bus->slot[ndev];
	  if (slot) {
	    for (nfunc = 0; nfunc < MAX_PCI_FUNC; nfunc++) {
	      func = slot->func[nfunc];
	      if (func) {
		if (func->dev_info)
		  free(func->dev_info);
		free(func);
	      }
	      free(slot);
	    }
	  }
	  free(bus);
	}
      }
      free(domain);
    }
  }
}