/* getpir.c : This software is released under GPL * For coreboot use only * Aug 26 2001 , Nikolai Vladychevski, * 2007.04.09 Jeremy Jackson * updated for amd64 and general 64 bit portability * 2010.04.24 Marc Bertens * Added functionality to read a image file for checking the checksum of the PIR */ #include #include #include #include #include #include #include #include #include "pirq_routing.h" #include "checksum.h" #include "code_gen.h" #if defined (__sun) && (defined(__i386) || defined(__amd64)) # define MEM_DEV "/dev/xsvc" #else # define MEM_DEV "/dev/mem" #endif /** * The probe_table() is now called with the pointer to the memory, * this is to handle both the assessing memory and a file. * * This function now dumps the table found to the stdout, with * descriptions, it is special handy when building a PIRQ table * for a board to check the checksum. */ static struct irq_routing_table *probe_table(char* ptr) { /** * Signature to search for $PIR<2-byte-version> * * this is to be sure that we find the correct table. */ char signature[] = "$PIR\x00\x01"; /** cast the pointer */ struct irq_routing_table *rt = (struct irq_routing_table *)ptr; int size = 16; int checksum_result; do { /** find the PIRQ table */ rt = (struct irq_routing_table *) memmem(ptr + size, 16, signature, 6); if (rt != NULL) { /** found the table */ int i, ts = (rt->size - 32) / 16; struct irq_info *se_arr; se_arr = (struct irq_info *) ((char *) rt + 32); /** Dump the table information to the stdout */ printf("Found PCI IRQ routing table signature at %p.\n", (void *) ((char *) rt - ptr + 0xf0000)); printf("SIGNATURE = %s\n", (char*)&rt->signature); printf("VERSION = %04x\n", rt->version); printf("SIZE = %i\n", rt->size); printf("MAX_DEVICES_ON_BUS = 32 + 16 * %d\n", ts); printf("INT_ROUTER_BUS = 0x%02x\n", rt->rtr_bus); printf("INT_ROUTER DEVICE = (0x%02x << 3) | 0x%01x\n", rt->rtr_devfn >> 3, rt->rtr_devfn & 7); printf("IRQ_DEVOTED_TO_PCI = %#x\n", rt->exclusive_irqs); printf("VENDOR = %#x\n", rt->rtr_vendor); printf("DEVICE = %#x\n", rt->rtr_device); printf("MINIPORT = %#x\n", rt->miniport_data); printf("CHECKSUM = %#x\n", rt->checksum); printf("\tbus , dev | fn, {link, bitmap}, {link, bitmap}, {link, bitmap}, {link, bitmap}, slot, rfu\n"); for (i = 0; i < ts; i++) { printf("\t0x%02x, (0x%02x << 3) | 0x%01x, {{0x%02x, 0x%04x}, {0x%02x, 0x%04x}, {0x%02x, 0x%04x}, {0x%02x, 0x%04x}}, 0x%x, 0x%x},\n", (se_arr+i)->bus, (se_arr+i)->devfn >> 3, (se_arr+i)->devfn & 7, (se_arr+i)->irq[0].link, (se_arr+i)->irq[0].bitmap, (se_arr+i)->irq[1].link, (se_arr+i)->irq[1].bitmap, (se_arr+i)->irq[2].link, (se_arr+i)->irq[2].bitmap, (se_arr+i)->irq[3].link, (se_arr+i)->irq[3].bitmap, (se_arr+i)->slot, (se_arr+i)->rfu); } /** A table should not be over 0x400 bytes */ if (rt->size > 0x400) { return NULL; } printf("Validating...\n"); /** Calculate the checksum value */ checksum_result = calc_checksum(rt); /** Show the calculatedchecksum value */ printf("CHECKSUM = %#x\n", 0x100-((checksum_result - rt->checksum) & 0xFF)); /** and the result of the calculation */ if (!checksum_result) { printf("checksum is ok.\n"); break; } else { printf("checksum is wrong.\n"); } } size += 16; } while (size < 0xFFFF); if (size >= 0xFFFF) { /** When the functions comes here there is no PIRQ table found. */ printf("No PCI IRQ routing table signature found.\n"); return NULL; } return rt; } int main(int argc, char* argv[]) { char* ptr; int fd_mem = -1; struct irq_routing_table* rt = NULL; void* bios_image = NULL; if ( argc > 1 ) { /** there a paramater passed to the program, assume that it is a menory file */ printf("Opening memory image file '%s'\n", argv[1]); /** Open the file */ fd_mem = open(argv[1], O_RDONLY); if (fd_mem > 0) { /** get tyhe size of the file */ int file_size = lseek(fd_mem, 0, SEEK_END); printf("Memory image '%i'\n", file_size); /** get a memory block for it. */ bios_image = malloc(file_size); if (bios_image) { /** Fill the created buffer */ lseek(fd_mem, 0, SEEK_SET); read(fd_mem, bios_image, file_size); /** set the pointer for the probe function */ ptr = (char*)bios_image; } else { /* no memory available ? */ perror("Failed to open imagefile\n"); return (-3); } } else { /** An error occourd, just exit with a message */ perror("Failed to open imagefile"); return (-2); } } else { /** No paramaters means that the program will access the system memory */ printf("Accessing memory\n"); if (getuid()) { /** i'm not root message !!!! */ fprintf(stderr, "Run me as root, I need access to " MEM_DEV ".\n"); } /** open the system memory */ fd_mem = open(MEM_DEV, O_RDONLY); if (fd_mem < 0) { /** could not open the system memory, exit with a message */ perror("Could not open " MEM_DEV ":"); exit(1); } printf("Probing PIRQ table in memory.\n"); ptr = mmap(0, 0x10000, PROT_READ, MAP_SHARED, fd_mem, (off_t)0xf0000); if (ptr == MAP_FAILED) { /** could not map the system memory, exit with a message */ perror("Mapping system memory failed: "); close(fd_mem); return (1); } } if (ptr) { /** now do the actual probe function */ rt = probe_table(ptr); if (rt != NULL && bios_image == NULL) { /** when probing system memory we write the 'irq_tables.c' code file */ printf("Creating irq_tables.c ...\n"); code_gen("irq_tables.c", rt); printf("Done, you can move the file to the coreboot tree now.\n"); } } else { printf("invalid memory pointer\n"); } if (bios_image) { /** when we are reading from a file the memory must be released */ free(bios_image); } else { /** when reading from the system memory, it must be unmapped */ munmap(ptr, 0x10000); } /** Close the file handle */ close(fd_mem); /** return 0 as OK ) */ return 0; }