/* * The PCI Utilities -- Manipulate PCI Configuration Registers * * Copyright (c) 1998--2006 Martin Mares * * Can be freely distributed and used under the terms of the GNU GPL. */ #include #include #include #include #include #include "pciutils.h" static int force; /* Don't complain if no devices match */ static int verbose; /* Verbosity level */ static int demo_mode; /* Only show */ const char program_name[] = "setpci"; static struct pci_access *pacc; struct value { unsigned int value; unsigned int mask; }; struct op { struct op *next; struct pci_dev **dev_vector; unsigned int addr; unsigned int width; /* Byte width of the access */ int num_values; /* Number of values to write; <0=read */ struct value values[0]; }; static struct op *first_op, **last_op = &first_op; static unsigned int max_values[] = { 0, 0xff, 0xffff, 0, 0xffffffff }; static struct pci_dev ** select_devices(struct pci_filter *filt) { struct pci_dev *z, **a, **b; int cnt = 1; for(z=pacc->devices; z; z=z->next) if (pci_filter_match(filt, z)) cnt++; a = b = xmalloc(sizeof(struct device *) * cnt); for(z=pacc->devices; z; z=z->next) if (pci_filter_match(filt, z)) *a++ = z; *a = NULL; return b; } static void exec_op(struct op *op, struct pci_dev *dev) { char *formats[] = { NULL, "%02x", "%04x", NULL, "%08x" }; char *mask_formats[] = { NULL, "%02x->(%02x:%02x)->%02x", "%04x->(%04x:%04x)->%04x", NULL, "%08x->(%08x:%08x)->%08x" }; unsigned int x, y; int i, addr; int width = op->width; if (verbose) printf("%02x:%02x.%x:%02x", dev->bus, dev->dev, dev->func, op->addr); addr = op->addr; if (op->num_values >= 0) { for(i=0; inum_values; i++) { if ((op->values[i].mask & max_values[width]) == max_values[width]) { x = op->values[i].value; if (verbose) { putchar(' '); printf(formats[width], op->values[i].value); } } else { switch (width) { case 1: y = pci_read_byte(dev, addr); break; case 2: y = pci_read_word(dev, addr); break; default: y = pci_read_long(dev, addr); break; } x = (y & ~op->values[i].mask) | op->values[i].value; if (verbose) { putchar(' '); printf(mask_formats[width], y, op->values[i].value, op->values[i].mask, x); } } if (!demo_mode) { switch (width) { case 1: pci_write_byte(dev, addr, x); break; case 2: pci_write_word(dev, addr, x); break; default: pci_write_long(dev, addr, x); break; } } addr += width; } if (verbose) putchar('\n'); } else { if (verbose) printf(" = "); switch (width) { case 1: x = pci_read_byte(dev, addr); break; case 2: x = pci_read_word(dev, addr); break; default: x = pci_read_long(dev, addr); break; } printf(formats[width], x); putchar('\n'); } } static void execute(struct op *op) { struct pci_dev **vec = NULL; struct pci_dev **pdev, *dev; struct op *oops; while (op) { pdev = vec = op->dev_vector; while (dev = *pdev++) for(oops=op; oops && oops->dev_vector == vec; oops=oops->next) exec_op(oops, dev); while (op && op->dev_vector == vec) op = op->next; } } static void scan_ops(struct op *op) { while (op) { if (op->num_values >= 0) pacc->writeable = 1; op = op->next; } } struct reg_name { unsigned int offset; unsigned int width; const char *name; }; static const struct reg_name pci_reg_names[] = { { 0x00, 2, "VENDOR_ID", }, { 0x02, 2, "DEVICE_ID", }, { 0x04, 2, "COMMAND", }, { 0x06, 2, "STATUS", }, { 0x08, 1, "REVISION", }, { 0x09, 1, "CLASS_PROG", }, { 0x0a, 2, "CLASS_DEVICE", }, { 0x0c, 1, "CACHE_LINE_SIZE", }, { 0x0d, 1, "LATENCY_TIMER", }, { 0x0e, 1, "HEADER_TYPE", }, { 0x0f, 1, "BIST", }, { 0x10, 4, "BASE_ADDRESS_0", }, { 0x14, 4, "BASE_ADDRESS_1", }, { 0x18, 4, "BASE_ADDRESS_2", }, { 0x1c, 4, "BASE_ADDRESS_3", }, { 0x20, 4, "BASE_ADDRESS_4", }, { 0x24, 4, "BASE_ADDRESS_5", }, { 0x28, 4, "CARDBUS_CIS", }, { 0x2c, 4, "SUBSYSTEM_VENDOR_ID", }, { 0x2e, 2, "SUBSYSTEM_ID", }, { 0x30, 4, "ROM_ADDRESS", }, { 0x3c, 1, "INTERRUPT_LINE", }, { 0x3d, 1, "INTERRUPT_PIN", }, { 0x3e, 1, "MIN_GNT", }, { 0x3f, 1, "MAX_LAT", }, { 0x18, 1, "PRIMARY_BUS", }, { 0x19, 1, "SECONDARY_BUS", }, { 0x1a, 1, "SUBORDINATE_BUS", }, { 0x1b, 1, "SEC_LATENCY_TIMER", }, { 0x1c, 1, "IO_BASE", }, { 0x1d, 1, "IO_LIMIT", }, { 0x1e, 2, "SEC_STATUS", }, { 0x20, 2, "MEMORY_BASE", }, { 0x22, 2, "MEMORY_LIMIT", }, { 0x24, 2, "PREF_MEMORY_BASE", }, { 0x26, 2, "PREF_MEMORY_LIMIT", }, { 0x28, 4, "PREF_BASE_UPPER32", }, { 0x2c, 4, "PREF_LIMIT_UPPER32", }, { 0x30, 2, "IO_BASE_UPPER16", }, { 0x32, 2, "IO_LIMIT_UPPER16", }, { 0x38, 4, "BRIDGE_ROM_ADDRESS", }, { 0x3e, 2, "BRIDGE_CONTROL", }, { 0x10, 4, "CB_CARDBUS_BASE", }, { 0x14, 2, "CB_CAPABILITIES", }, { 0x16, 2, "CB_SEC_STATUS", }, { 0x18, 1, "CB_BUS_NUMBER", }, { 0x19, 1, "CB_CARDBUS_NUMBER", }, { 0x1a, 1, "CB_SUBORDINATE_BUS", }, { 0x1b, 1, "CB_CARDBUS_LATENCY", }, { 0x1c, 4, "CB_MEMORY_BASE_0", }, { 0x20, 4, "CB_MEMORY_LIMIT_0", }, { 0x24, 4, "CB_MEMORY_BASE_1", }, { 0x28, 4, "CB_MEMORY_LIMIT_1", }, { 0x2c, 2, "CB_IO_BASE_0", }, { 0x2e, 2, "CB_IO_BASE_0_HI", }, { 0x30, 2, "CB_IO_LIMIT_0", }, { 0x32, 2, "CB_IO_LIMIT_0_HI", }, { 0x34, 2, "CB_IO_BASE_1", }, { 0x36, 2, "CB_IO_BASE_1_HI", }, { 0x38, 2, "CB_IO_LIMIT_1", }, { 0x3a, 2, "CB_IO_LIMIT_1_HI", }, { 0x40, 2, "CB_SUBSYSTEM_VENDOR_ID", }, { 0x42, 2, "CB_SUBSYSTEM_ID", }, { 0x44, 4, "CB_LEGACY_MODE_BASE", }, { 0x00, 0, NULL } }; static void NONRET usage(char *msg, ...) { va_list args; va_start(args, msg); if (msg) { fprintf(stderr, "setpci: "); vfprintf(stderr, msg, args); fprintf(stderr, "\n\n"); } fprintf(stderr, "Usage: setpci [] (+ [=]*)*\n\ -f\t\tDon't complain if there's nothing to do\n\ -v\t\tBe verbose\n\ -D\t\tList changes, don't commit them\n" GENERIC_HELP ":\t-s [[[]:][]:][][.[]]\n" "\t|\t-d []:[]\n" ":\t\t[.(B|W|L)]\n" " |\t\t\n" ":\t[,...]\n" ":\t\n" " |\t:\n"); exit(1); } int main(int argc, char **argv) { enum { STATE_INIT, STATE_GOT_FILTER, STATE_GOT_OP } state = STATE_INIT; struct pci_filter filter; struct pci_dev **selected_devices = NULL; char *opts = GENERIC_OPTIONS ; if (argc == 2 && !strcmp(argv[1], "--version")) { puts("setpci version " PCIUTILS_VERSION); return 0; } argc--; argv++; pacc = pci_alloc(); pacc->error = die; while (argc && argv[0][0] == '-') { char *c = argv[0]+1; char *d = c; char *e; while (*c) switch (*c) { case 'v': verbose++; c++; break; case 'f': force++; c++; break; case 'D': demo_mode++; c++; break; case 0: break; default: if (e = strchr(opts, *c)) { char *arg; c++; if (e[1] == ':') { if (*c) arg = c; else if (argc > 1) { arg = argv[1]; argc--; argv++; } else usage(NULL); c = ""; } else arg = NULL; if (!parse_generic_option(*e, pacc, arg)) usage(NULL); } else { if (c != d) usage(NULL); goto next; } } argc--; argv++; } next: pci_init(pacc); pci_scan_bus(pacc); while (argc) { char *c = argv[0]; char *d, *e, *f; int n, i; struct op *op; unsigned long ll; unsigned int lim; if (*c == '-') { if (!c[1] || !strchr("sd", c[1])) usage(NULL); if (c[2]) d = (c[2] == '=') ? c+3 : c+2; else if (argc > 1) { argc--; argv++; d = argv[0]; } else usage(NULL); if (state != STATE_GOT_FILTER) { pci_filter_init(pacc, &filter); state = STATE_GOT_FILTER; } switch (c[1]) { case 's': if (d = pci_filter_parse_slot(&filter, d)) die("-s: %s", d); break; case 'd': if (d = pci_filter_parse_id(&filter, d)) die("-d: %s", d); break; default: usage(NULL); } } else if (state == STATE_INIT) usage(NULL); else { if (state == STATE_GOT_FILTER) selected_devices = select_devices(&filter); if (!selected_devices[0] && !force) fprintf(stderr, "setpci: Warning: No devices selected for `%s'.\n", c); state = STATE_GOT_OP; /* look for setting of values and count how many */ d = strchr(c, '='); if (d) { *d++ = 0; if (!*d) usage("Missing value"); for(e=d, n=1; *e; e++) if (*e == ',') n++; op = xmalloc(sizeof(struct op) + n*sizeof(struct value)); } else { n = -1; op = xmalloc(sizeof(struct op)); } op->dev_vector = selected_devices; op->num_values = n; e = strchr(c, '.'); if (e) { *e++ = 0; if (e[1]) usage("Missing width"); switch (*e & 0xdf) { case 'B': op->width = 1; break; case 'W': op->width = 2; break; case 'L': op->width = 4; break; default: usage("Invalid width \"%c\"", *e); } } else op->width = 1; ll = strtol(c, &f, 16); if (f && *f) { const struct reg_name *r; for(r = pci_reg_names; r->name; r++) if (!strcasecmp(r->name, c)) break; if (!r->name) usage("Unknown register \"%s\"", c); if (e && op->width != r->width) usage("Explicit width doesn't correspond with the named register \"%s\"", c); ll = r->offset; op->width = r->width; } if (ll > 0x1000 || ll + op->width*((n < 0) ? 1 : n) > 0x1000) die("Register number out of range!"); if (ll & (op->width - 1)) die("Unaligned register address!"); op->addr = ll; /* read in all the values to be set */ for(i=0; iwidth]; if (f && *f && *f != ':') usage("Invalid value \"%s\"", d); if (ll > lim && ll < ~0UL - lim) usage("Value \"%s\" is out of range", d); op->values[i].value = ll; if (f && *f == ':') { d = ++f; ll = strtoul(d, &f, 16); if (f && *f) usage("Invalid mask \"%s\"", d); if (ll > lim && ll < ~0UL - lim) usage("Mask \"%s\" is out of range", d); op->values[i].mask = ll; op->values[i].value &= ll; } else op->values[i].mask = ~0U; d = e; } *last_op = op; last_op = &op->next; op->next = NULL; } argc--; argv++; } if (state == STATE_INIT) usage("No operation specified"); scan_ops(first_op); execute(first_op); return 0; }