URL
https://opencores.org/ocsvn/openrisc_2011-10-31/openrisc_2011-10-31/trunk
Subversion Repositories openrisc_2011-10-31
[/] [openrisc/] [trunk/] [gnu-src/] [gdb-7.1/] [sim/] [ppc/] [tree.c] - Rev 252
Go to most recent revision | Compare with Previous | Blame | View Log
/* This file is part of the program psim. Copyright (C) 1994-1997, Andrew Cagney <cagney@highland.com.au> This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #ifndef _PARSE_C_ #define _PARSE_C_ #include <stdio.h> #include <stdarg.h> #include "basics.h" #include "device.h" #include "tree.h" #ifdef HAVE_STDLIB_H #include <stdlib.h> #endif #ifdef HAVE_STRING_H #include <string.h> #else #ifdef HAVE_STRINGS_H #include <strings.h> #endif #endif #include <ctype.h> #include "libiberty.h" /* manipulate/lookup device names */ typedef struct _name_specifier { /* components in the full length name */ char *path; char *property; char *value; /* current device */ char *name; char *base; char *unit; char *args; /* previous device */ char *last_name; char *last_base; char *last_unit; char *last_args; /* work area */ char buf[1024]; } name_specifier; /* Given a device specifier, break it up into its main components: path (and if present) property name and property value. */ STATIC_INLINE_TREE\ (int) split_device_specifier(device *current, const char *device_specifier, name_specifier *spec) { char *chp = NULL; /* expand any leading alias if present */ if (current != NULL && *device_specifier != '\0' && *device_specifier != '.' && *device_specifier != '/') { device *aliases = tree_find_device(current, "/aliases"); char alias[32]; int len = 0; while (device_specifier[len] != '\0' && device_specifier[len] != '/' && device_specifier[len] != ':' && !isspace(device_specifier[len])) { alias[len] = device_specifier[len]; len++; if (len >= sizeof(alias)) error("split_device_specifier: buffer overflow"); } alias[len] = '\0'; if (aliases != NULL && device_find_property(aliases, alias)) { strcpy(spec->buf, device_find_string_property(aliases, alias)); strcat(spec->buf, device_specifier + len); } else { strcpy(spec->buf, device_specifier); } } else { strcpy(spec->buf, device_specifier); } /* check no overflow */ if (strlen(spec->buf) >= sizeof(spec->buf)) error("split_device_specifier: buffer overflow\n"); /* strip leading spaces */ chp = spec->buf; while (*chp != '\0' && isspace(*chp)) chp++; if (*chp == '\0') return 0; /* find the path and terminate it with null */ spec->path = chp; while (*chp != '\0' && !isspace(*chp)) chp++; if (*chp != '\0') { *chp = '\0'; chp++; } /* and any value */ while (*chp != '\0' && isspace(*chp)) chp++; spec->value = chp; /* now go back and chop the property off of the path */ if (spec->value[0] == '\0') { spec->property = NULL; /*not a property*/ spec->value = NULL; } else if (spec->value[0] == '>' || spec->value[0] == '<') { /* an interrupt spec */ spec->property = NULL; } else { chp = strrchr(spec->path, '/'); if (chp == NULL) { spec->property = spec->path; spec->path = strchr(spec->property, '\0'); } else { *chp = '\0'; spec->property = chp+1; } } /* and mark the rest as invalid */ spec->name = NULL; spec->base = NULL; spec->unit = NULL; spec->args = NULL; spec->last_name = NULL; spec->last_base = NULL; spec->last_unit = NULL; spec->last_args = NULL; return 1; } /* given a device specifier break it up into its main components - path and property name - assuming that the last `device' is a property name. */ STATIC_INLINE_DEVICE\ (int) split_property_specifier(device *current, const char *property_specifier, name_specifier *spec) { if (split_device_specifier(current, property_specifier, spec)) { if (spec->property == NULL) { /* force the last name to be a property name */ char *chp = strrchr(spec->path, '/'); if (chp == NULL) { spec->property = spec->path; spec->path = strrchr(spec->property, '\0');; } else { *chp = '\0'; spec->property = chp+1; } } return 1; } else return 0; } /* device the next device name and split it up, return 0 when no more names to device */ STATIC_INLINE_TREE\ (int) split_device_name(name_specifier *spec) { char *chp; /* remember what came before */ spec->last_name = spec->name; spec->last_base = spec->base; spec->last_unit = spec->unit; spec->last_args = spec->args; /* finished? */ if (spec->path[0] == '\0') { spec->name = NULL; spec->base = NULL; spec->unit = NULL; spec->args = NULL; return 0; } /* break the current device spec from the path */ spec->name = spec->path; chp = strchr(spec->name, '/'); if (chp == NULL) spec->path = strchr(spec->name, '\0'); else { spec->path = chp+1; *chp = '\0'; } /* break out the base */ if (spec->name[0] == '(') { chp = strchr(spec->name, ')'); if (chp == NULL) { spec->base = spec->name; } else { *chp = '\0'; spec->base = spec->name + 1; spec->name = chp + 1; } } else { spec->base = spec->name; } /* now break out the unit */ chp = strchr(spec->name, '@'); if (chp == NULL) { spec->unit = NULL; chp = spec->name; } else { *chp = '\0'; chp += 1; spec->unit = chp; } /* finally any args */ chp = strchr(chp, ':'); if (chp == NULL) spec->args = NULL; else { *chp = '\0'; spec->args = chp+1; } return 1; } /* device the value, returning the next non-space token */ STATIC_INLINE_TREE\ (char *) split_value(name_specifier *spec) { char *token; if (spec->value == NULL) return NULL; /* skip leading white space */ while (isspace(spec->value[0])) spec->value++; if (spec->value[0] == '\0') { spec->value = NULL; return NULL; } token = spec->value; /* find trailing space */ while (spec->value[0] != '\0' && !isspace(spec->value[0])) spec->value++; /* chop this value out */ if (spec->value[0] != '\0') { spec->value[0] = '\0'; spec->value++; } return token; } /* traverse the path specified by spec starting at current */ STATIC_INLINE_TREE\ (device *) split_find_device(device *current, name_specifier *spec) { /* strip off (and process) any leading ., .., ./ and / */ while (1) { if (strncmp(spec->path, "/", strlen("/")) == 0) { /* cd /... */ while (current != NULL && device_parent(current) != NULL) current = device_parent(current); spec->path += strlen("/"); } else if (strncmp(spec->path, "./", strlen("./")) == 0) { /* cd ./... */ current = current; spec->path += strlen("./"); } else if (strncmp(spec->path, "../", strlen("../")) == 0) { /* cd ../... */ if (current != NULL && device_parent(current) != NULL) current = device_parent(current); spec->path += strlen("../"); } else if (strcmp(spec->path, ".") == 0) { /* cd . */ current = current; spec->path += strlen("."); } else if (strcmp(spec->path, "..") == 0) { /* cd . */ if (current != NULL && device_parent(current) != NULL) current = device_parent(current); spec->path += strlen(".."); } else break; } /* now go through the path proper */ if (current == NULL) { split_device_name(spec); return NULL; } while (split_device_name(spec)) { device *child; for (child = device_child(current); child != NULL; child = device_sibling(child)) { if (strcmp(spec->name, device_name(child)) == 0) { if (spec->unit == NULL) break; else { device_unit phys; device_decode_unit(current, spec->unit, &phys); if (memcmp(&phys, device_unit_address(child), sizeof(device_unit)) == 0) break; } } } if (child == NULL) return current; /* search failed */ current = child; } return current; } STATIC_INLINE_TREE\ (device *) split_fill_path(device *current, const char *device_specifier, name_specifier *spec) { /* break it up */ if (!split_device_specifier(current, device_specifier, spec)) device_error(current, "error parsing %s\n", device_specifier); /* fill our tree with its contents */ current = split_find_device(current, spec); /* add any additional devices as needed */ if (spec->name != NULL) { do { current = device_create(current, spec->base, spec->name, spec->unit, spec->args); } while (split_device_name(spec)); } return current; } INLINE_TREE\ (void) tree_init(device *root, psim *system) { TRACE(trace_device_tree, ("tree_init(root=0x%lx, system=0x%lx)\n", (long)root, (long)system)); /* remove the old, rebuild the new */ tree_traverse(root, device_clean, NULL, system); tree_traverse(root, device_init_static_properties, NULL, system); tree_traverse(root, device_init_address, NULL, system); tree_traverse(root, device_init_runtime_properties, NULL, system); tree_traverse(root, device_init_data, NULL, system); } /* <non-white-space> */ STATIC_INLINE_TREE\ (const char *) skip_token(const char *chp) { while (!isspace(*chp) && *chp != '\0') chp++; while (isspace(*chp) && *chp != '\0') chp++; return chp; } /* count the number of entries */ STATIC_INLINE_TREE\ (int) count_entries(device *current, const char *property_name, const char *property_value, int modulo) { const char *chp = property_value; int nr_entries = 0; while (*chp != '\0') { nr_entries += 1; chp = skip_token(chp); } if ((nr_entries % modulo) != 0) { device_error(current, "incorrect number of entries for %s property %s, should be multiple of %d", property_name, property_value, modulo); } return nr_entries / modulo; } /* parse: <address> ::= <token> ; device dependant */ STATIC_INLINE_TREE\ (const char *) parse_address(device *current, device *bus, const char *chp, device_unit *address) { ASSERT(device_nr_address_cells(bus) > 0); if (device_decode_unit(bus, chp, address) < 0) device_error(current, "invalid unit address in %s", chp); return skip_token(chp); } /* parse: <size> ::= <number> { "," <number> } ; */ STATIC_INLINE_TREE\ (const char *) parse_size(device *current, device *bus, const char *chp, device_unit *size) { int i; int nr; const char *curr = chp; memset(size, 0, sizeof(*size)); /* parse the numeric list */ size->nr_cells = device_nr_size_cells(bus); nr = 0; ASSERT(size->nr_cells > 0); while (1) { char *next; size->cells[nr] = strtoul(curr, &next, 0); if (curr == next) device_error(current, "Problem parsing <size> %s", chp); nr += 1; if (next[0] != ',') break; if (nr == size->nr_cells) device_error(current, "Too many values in <size> %s", chp); curr = next + 1; } ASSERT(nr > 0 && nr <= size->nr_cells); /* right align the numbers */ for (i = 1; i <= size->nr_cells; i++) { if (i <= nr) size->cells[size->nr_cells - i] = size->cells[nr - i]; else size->cells[size->nr_cells - i] = 0; } return skip_token(chp); } /* parse: <reg> ::= { <address> <size> } ; */ STATIC_INLINE_TREE\ (void) parse_reg_property(device *current, const char *property_name, const char *property_value) { int nr_regs; int reg_nr; reg_property_spec *regs; const char *chp; device *bus = device_parent(current); /* determine the number of reg entries by counting tokens */ nr_regs = count_entries(current, property_name, property_value, 1 + (device_nr_size_cells(bus) > 0)); /* create working space */ regs = zalloc(nr_regs * sizeof(*regs)); /* fill it in */ chp = property_value; for (reg_nr = 0; reg_nr < nr_regs; reg_nr++) { chp = parse_address(current, bus, chp, ®s[reg_nr].address); if (device_nr_size_cells(bus) > 0) chp = parse_size(current, bus, chp, ®s[reg_nr].size); else memset(®s[reg_nr].size, 0, sizeof (®s[reg_nr].size)); } /* create it */ device_add_reg_array_property(current, property_name, regs, nr_regs); zfree(regs); } /* { <child-address> <parent-address> <child-size> }* */ STATIC_INLINE_TREE\ (void) parse_ranges_property(device *current, const char *property_name, const char *property_value) { int nr_ranges; int range_nr; range_property_spec *ranges; const char *chp; /* determine the number of ranges specified */ nr_ranges = count_entries(current, property_name, property_value, 3); /* create a property of that size */ ranges = zalloc(nr_ranges * sizeof(*ranges)); /* fill it in */ chp = property_value; for (range_nr = 0; range_nr < nr_ranges; range_nr++) { chp = parse_address(current, current, chp, &ranges[range_nr].child_address); chp = parse_address(current, device_parent(current), chp, &ranges[range_nr].parent_address); chp = parse_size(current, current, chp, &ranges[range_nr].size); } /* create it */ device_add_range_array_property(current, property_name, ranges, nr_ranges); zfree(ranges); } /* <integer> ... */ STATIC_INLINE_TREE\ (void) parse_integer_property(device *current, const char *property_name, const char *property_value) { int nr_entries; unsigned_cell words[1024]; /* integer or integer array? */ nr_entries = 0; while (1) { char *end; words[nr_entries] = strtoul(property_value, &end, 0); if (property_value == end) break; nr_entries += 1; if (nr_entries * sizeof(words[0]) >= sizeof(words)) device_error(current, "buffer overflow"); property_value = end; } if (nr_entries == 0) device_error(current, "error parsing integer property %s (%s)", property_name, property_value); else if (nr_entries == 1) device_add_integer_property(current, property_name, words[0]); else { int i; for (i = 0; i < nr_entries; i++) { H2BE(words[i]); } /* perhaps integer array property is better */ device_add_array_property(current, property_name, words, sizeof(words[0]) * nr_entries); } } /* PROPERTY_VALUE is a raw property value. Quote it as required by parse_string_property. It is the caller's responsibility to free the memory returned. */ EXTERN_TREE\ (char *) tree_quote_property(const char *property_value) { char *p; char *ret; const char *chp; int quotees; /* Count characters needing quotes in PROPERTY_VALUE. */ quotees = 0; for (chp = property_value; *chp; ++chp) if (*chp == '\\' || *chp == '"') ++quotees; ret = (char *) xmalloc (strlen (property_value) + 2 /* quotes */ + quotees + 1 /* terminator */); p = ret; /* Add the opening quote. */ *p++ = '"'; /* Copy the value. */ for (chp = property_value; *chp; ++chp) if (*chp == '\\' || *chp == '"') { /* Quote this character. */ *p++ = '\\'; *p++ = *chp; } else *p++ = *chp; /* Add the closing quote. */ *p++ = '"'; /* Terminate the string. */ *p++ = '\0'; return ret; } /* <string> ... */ STATIC_INLINE_TREE\ (void) parse_string_property(device *current, const char *property_name, const char *property_value) { char **strings; const char *chp; int nr_strings; int approx_nr_strings; /* get an estimate as to the number of strings by counting double quotes */ approx_nr_strings = 2; for (chp = property_value; *chp; chp++) { if (*chp == '"') approx_nr_strings++; } approx_nr_strings = (approx_nr_strings) / 2; /* create a string buffer for that many (plus a null) */ strings = (char**)zalloc((approx_nr_strings + 1) * sizeof(char*)); /* now find all the strings */ chp = property_value; nr_strings = 0; while (1) { /* skip leading space */ while (*chp != '\0' && isspace(*chp)) chp += 1; if (*chp == '\0') break; /* copy it in */ if (*chp == '"') { /* a quoted string - watch for '\' et.al. */ /* estimate the size and allocate space for it */ int pos; chp++; pos = 0; while (chp[pos] != '\0' && chp[pos] != '"') { if (chp[pos] == '\\' && chp[pos+1] != '\0') pos += 2; else pos += 1; } strings[nr_strings] = zalloc(pos + 1); /* copy the string over */ pos = 0; while (*chp != '\0' && *chp != '"') { if (*chp == '\\' && *(chp+1) != '\0') { strings[nr_strings][pos] = *(chp+1); chp += 2; pos++; } else { strings[nr_strings][pos] = *chp; chp += 1; pos++; } } if (*chp != '\0') chp++; strings[nr_strings][pos] = '\0'; } else { /* copy over a single unquoted token */ int len = 0; while (chp[len] != '\0' && !isspace(chp[len])) len++; strings[nr_strings] = zalloc(len + 1); strncpy(strings[nr_strings], chp, len); strings[nr_strings][len] = '\0'; chp += len; } nr_strings++; if (nr_strings > approx_nr_strings) device_error(current, "String property %s badly formatted", property_name); } ASSERT(strings[nr_strings] == NULL); /* from zalloc */ /* install it */ if (nr_strings == 0) device_add_string_property(current, property_name, ""); else if (nr_strings == 1) device_add_string_property(current, property_name, strings[0]); else { const char **specs = (const char**)strings; /* stop a bogus error */ device_add_string_array_property(current, property_name, specs, nr_strings); } /* flush the created string */ while (nr_strings > 0) { nr_strings--; zfree(strings[nr_strings]); } zfree(strings); } /* <path-to-ihandle-device> */ STATIC_INLINE_TREE\ (void) parse_ihandle_property(device *current, const char *property, const char *value) { ihandle_runtime_property_spec ihandle; /* pass the full path */ ihandle.full_path = value; /* save this ready for the ihandle create */ device_add_ihandle_runtime_property(current, property, &ihandle); } EXTERN_TREE\ (device *) tree_parse(device *current, const char *fmt, ...) { char device_specifier[1024]; name_specifier spec; /* format the path */ { va_list ap; va_start(ap, fmt); vsprintf(device_specifier, fmt, ap); va_end(ap); if (strlen(device_specifier) >= sizeof(device_specifier)) error("device_tree_add_deviced: buffer overflow\n"); } /* construct the tree down to the final device */ current = split_fill_path(current, device_specifier, &spec); /* is there an interrupt spec */ if (spec.property == NULL && spec.value != NULL) { char *op = split_value(&spec); switch (op[0]) { case '>': { char *my_port_name = split_value(&spec); int my_port; char *dest_port_name = split_value(&spec); int dest_port; name_specifier dest_spec; char *dest_device_name = split_value(&spec); device *dest; /* find my name */ my_port = device_interrupt_decode(current, my_port_name, output_port); /* find the dest device and port */ dest = split_fill_path(current, dest_device_name, &dest_spec); dest_port = device_interrupt_decode(dest, dest_port_name, input_port); /* connect the two */ device_interrupt_attach(current, my_port, dest, dest_port, permenant_object); } break; default: device_error(current, "unreconised interrupt spec %s\n", spec.value); break; } } /* is there a property */ if (spec.property != NULL) { if (strcmp(spec.value, "true") == 0) device_add_boolean_property(current, spec.property, 1); else if (strcmp(spec.value, "false") == 0) device_add_boolean_property(current, spec.property, 0); else { const device_property *property; switch (spec.value[0]) { case '*': parse_ihandle_property(current, spec.property, spec.value + 1); break; case '[': { unsigned8 words[1024]; char *curr = spec.value + 1; int nr_words = 0; while (1) { char *next; words[nr_words] = H2BE_1(strtoul(curr, &next, 0)); if (curr == next) break; curr = next; nr_words += 1; } device_add_array_property(current, spec.property, words, sizeof(words[0]) * nr_words); } break; case '"': parse_string_property(current, spec.property, spec.value); break; case '!': spec.value++; property = tree_find_property(current, spec.value); if (property == NULL) device_error(current, "property %s not found\n", spec.value); device_add_duplicate_property(current, spec.property, property); break; default: if (strcmp(spec.property, "reg") == 0 || strcmp(spec.property, "assigned-addresses") == 0 || strcmp(spec.property, "alternate-reg") == 0){ parse_reg_property(current, spec.property, spec.value); } else if (strcmp(spec.property, "ranges") == 0) { parse_ranges_property(current, spec.property, spec.value); } else if (isdigit(spec.value[0]) || (spec.value[0] == '-' && isdigit(spec.value[1])) || (spec.value[0] == '+' && isdigit(spec.value[1]))) { parse_integer_property(current, spec.property, spec.value); } else parse_string_property(current, spec.property, spec.value); break; } } } return current; } INLINE_TREE\ (void) tree_traverse(device *root, tree_traverse_function *prefix, tree_traverse_function *postfix, void *data) { device *child; if (prefix != NULL) prefix(root, data); for (child = device_child(root); child != NULL; child = device_sibling(child)) { tree_traverse(child, prefix, postfix, data); } if (postfix != NULL) postfix(root, data); } STATIC_INLINE_TREE\ (void) print_address(device *bus, const device_unit *phys) { char unit[32]; device_encode_unit(bus, phys, unit, sizeof(unit)); printf_filtered(" %s", unit); } STATIC_INLINE_TREE\ (void) print_size(device *bus, const device_unit *size) { int i; for (i = 0; i < size->nr_cells; i++) if (size->cells[i] != 0) break; if (i < size->nr_cells) { printf_filtered(" 0x%lx", (unsigned long)size->cells[i]); i++; for (; i < size->nr_cells; i++) printf_filtered(",0x%lx", (unsigned long)size->cells[i]); } else printf_filtered(" 0"); } STATIC_INLINE_TREE\ (void) print_reg_property(device *me, const device_property *property) { int reg_nr; reg_property_spec reg; for (reg_nr = 0; device_find_reg_array_property(me, property->name, reg_nr, ®); reg_nr++) { print_address(device_parent(me), ®.address); print_size(me, ®.size); } } STATIC_INLINE_TREE\ (void) print_ranges_property(device *me, const device_property *property) { int range_nr; range_property_spec range; for (range_nr = 0; device_find_range_array_property(me, property->name, range_nr, &range); range_nr++) { print_address(me, &range.child_address); print_address(device_parent(me), &range.parent_address); print_size(me, &range.size); } } STATIC_INLINE_TREE\ (void) print_string(const char *string) { printf_filtered(" \""); while (*string != '\0') { switch (*string) { case '"': printf_filtered("\\\""); break; case '\\': printf_filtered("\\\\"); break; default: printf_filtered("%c", *string); break; } string++; } printf_filtered("\""); } STATIC_INLINE_TREE\ (void) print_string_array_property(device *me, const device_property *property) { int nr; string_property_spec string; for (nr = 0; device_find_string_array_property(me, property->name, nr, &string); nr++) { print_string(string); } } STATIC_INLINE_TREE\ (void) print_properties(device *me) { const device_property *property; for (property = device_find_property(me, NULL); property != NULL; property = device_next_property(property)) { printf_filtered("%s/%s", device_path(me), property->name); if (property->original != NULL) { printf_filtered(" !"); printf_filtered("%s/%s", device_path(property->original->owner), property->original->name); } else { switch (property->type) { case array_property: if ((property->sizeof_array % sizeof(signed_cell)) == 0) { unsigned_cell *w = (unsigned_cell*)property->array; int cell_nr; for (cell_nr = 0; cell_nr < (property->sizeof_array / sizeof(unsigned_cell)); cell_nr++) { printf_filtered(" 0x%lx", (unsigned long)BE2H_cell(w[cell_nr])); } } else { unsigned8 *w = (unsigned8*)property->array; printf_filtered(" ["); while ((char*)w - (char*)property->array < property->sizeof_array) { printf_filtered(" 0x%2x", BE2H_1(*w)); w++; } } break; case boolean_property: { int b = device_find_boolean_property(me, property->name); printf_filtered(" %s", b ? "true" : "false"); } break; case ihandle_property: { if (property->array != NULL) { device_instance *instance = device_find_ihandle_property(me, property->name); printf_filtered(" *%s", device_instance_path(instance)); } else { /* not yet initialized, ask the device for the path */ ihandle_runtime_property_spec spec; device_find_ihandle_runtime_property(me, property->name, &spec); printf_filtered(" *%s", spec.full_path); } } break; case integer_property: { unsigned_word w = device_find_integer_property(me, property->name); printf_filtered(" 0x%lx", (unsigned long)w); } break; case range_array_property: print_ranges_property(me, property); break; case reg_array_property: print_reg_property(me, property); break; case string_property: { const char *s = device_find_string_property(me, property->name); print_string(s); } break; case string_array_property: print_string_array_property(me, property); break; } } printf_filtered("\n"); } } STATIC_INLINE_TREE\ (void) print_interrupts(device *me, int my_port, device *dest, int dest_port, void *ignore_or_null) { char src[32]; char dst[32]; device_interrupt_encode(me, my_port, src, sizeof(src), output_port); device_interrupt_encode(dest, dest_port, dst, sizeof(dst), input_port); printf_filtered("%s > %s %s %s\n", device_path(me), src, dst, device_path(dest)); } STATIC_INLINE_TREE\ (void) print_device(device *me, void *ignore_or_null) { printf_filtered("%s\n", device_path(me)); print_properties(me); device_interrupt_traverse(me, print_interrupts, NULL); } INLINE_TREE\ (void) tree_print(device *root) { tree_traverse(root, print_device, NULL, NULL); } INLINE_TREE\ (void) tree_usage(int verbose) { if (verbose == 1) { printf_filtered("\n"); printf_filtered("A device/property specifier has the form:\n"); printf_filtered("\n"); printf_filtered(" /path/to/a/device [ property-value ]\n"); printf_filtered("\n"); printf_filtered("and a possible device is\n"); printf_filtered("\n"); } if (verbose > 1) { printf_filtered("\n"); printf_filtered("A device/property specifier (<spec>) has the format:\n"); printf_filtered("\n"); printf_filtered(" <spec> ::= <path> [ <value> ] ;\n"); printf_filtered(" <path> ::= { <prefix> } { <node> \"/\" } <node> ;\n"); printf_filtered(" <prefix> ::= ( | \"/\" | \"../\" | \"./\" ) ;\n"); printf_filtered(" <node> ::= <name> [ \"@\" <unit> ] [ \":\" <args> ] ;\n"); printf_filtered(" <unit> ::= <number> { \",\" <number> } ;\n"); printf_filtered("\n"); printf_filtered("Where:\n"); printf_filtered("\n"); printf_filtered(" <name> is the name of a device (list below)\n"); printf_filtered(" <unit> is the unit-address relative to the parent bus\n"); printf_filtered(" <args> additional arguments used when creating the device\n"); printf_filtered(" <value> ::= ( <number> # integer property\n"); printf_filtered(" | \"[\" { <number> } # array property (byte)\n"); printf_filtered(" | \"{\" { <number> } # array property (cell)\n"); printf_filtered(" | [ \"true\" | \"false\" ] # boolean property\n"); printf_filtered(" | \"*\" <path> # ihandle property\n"); printf_filtered(" | \"!\" <path> # copy property\n"); printf_filtered(" | \">\" [ <number> ] <path> # attach interrupt\n"); printf_filtered(" | \"<\" <path> # attach child interrupt\n"); printf_filtered(" | \"\\\"\" <text> # string property\n"); printf_filtered(" | <text> # string property\n"); printf_filtered(" ) ;\n"); printf_filtered("\n"); printf_filtered("And the following are valid device names:\n"); printf_filtered("\n"); } } INLINE_TREE\ (device_instance *) tree_instance(device *root, const char *device_specifier) { /* find the device node */ device *me; name_specifier spec; if (!split_device_specifier(root, device_specifier, &spec)) return NULL; me = split_find_device(root, &spec); if (spec.name != NULL) return NULL; /* create the instance */ return device_create_instance(me, device_specifier, spec.last_args); } INLINE_TREE\ (device *) tree_find_device(device *root, const char *path_to_device) { device *node; name_specifier spec; /* parse the path */ split_device_specifier(root, path_to_device, &spec); if (spec.value != NULL) return NULL; /* something wierd */ /* now find it */ node = split_find_device(root, &spec); if (spec.name != NULL) return NULL; /* not a leaf */ return node; } INLINE_TREE\ (const device_property *) tree_find_property(device *root, const char *path_to_property) { name_specifier spec; if (!split_property_specifier(root, path_to_property, &spec)) device_error(root, "Invalid property path %s", path_to_property); root = split_find_device(root, &spec); return device_find_property(root, spec.property); } INLINE_TREE\ (int) tree_find_boolean_property(device *root, const char *path_to_property) { name_specifier spec; if (!split_property_specifier(root, path_to_property, &spec)) device_error(root, "Invalid property path %s", path_to_property); root = split_find_device(root, &spec); return device_find_boolean_property(root, spec.property); } INLINE_TREE\ (signed_cell) tree_find_integer_property(device *root, const char *path_to_property) { name_specifier spec; if (!split_property_specifier(root, path_to_property, &spec)) device_error(root, "Invalid property path %s", path_to_property); root = split_find_device(root, &spec); return device_find_integer_property(root, spec.property); } INLINE_TREE\ (device_instance *) tree_find_ihandle_property(device *root, const char *path_to_property) { name_specifier spec; if (!split_property_specifier(root, path_to_property, &spec)) device_error(root, "Invalid property path %s", path_to_property); root = split_find_device(root, &spec); return device_find_ihandle_property(root, spec.property); } INLINE_TREE\ (const char *) tree_find_string_property(device *root, const char *path_to_property) { name_specifier spec; if (!split_property_specifier(root, path_to_property, &spec)) device_error(root, "Invalid property path %s", path_to_property); root = split_find_device(root, &spec); return device_find_string_property(root, spec.property); } #endif /* _PARSE_C_ */
Go to most recent revision | Compare with Previous | Blame | View Log