Merge branches 'release', 'acpi_pm_device_sleep_state' and 'battery' into release

[sfrench/cifs-2.6.git] / arch / powerpc / boot / dtc-src / checks.c

/*
 * (C) Copyright David Gibson <dwg@au1.ibm.com>, IBM Corporation.  2007.
 *
 *
 * 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
 */

#include "dtc.h"

#ifdef TRACE_CHECKS
#define TRACE(c, ...) \
        do { \
                fprintf(stderr, "=== %s: ", (c)->name); \
                fprintf(stderr, __VA_ARGS__); \
                fprintf(stderr, "\n"); \
        } while (0)
#else
#define TRACE(c, fmt, ...)      do { } while (0)
#endif

enum checklevel {
        IGNORE = 0,
        WARN = 1,
        ERROR = 2,
};

enum checkstatus {
        UNCHECKED = 0,
        PREREQ,
        PASSED,
        FAILED,
};

struct check;

typedef void (*tree_check_fn)(struct check *c, struct node *dt);
typedef void (*node_check_fn)(struct check *c, struct node *dt, struct node *node);
typedef void (*prop_check_fn)(struct check *c, struct node *dt,
                              struct node *node, struct property *prop);

struct check {
        const char *name;
        tree_check_fn tree_fn;
        node_check_fn node_fn;
        prop_check_fn prop_fn;
        void *data;
        enum checklevel level;
        enum checkstatus status;
        int inprogress;
        int num_prereqs;
        struct check **prereq;
};

#define CHECK(nm, tfn, nfn, pfn, d, lvl, ...) \
        static struct check *nm##_prereqs[] = { __VA_ARGS__ }; \
        static struct check nm = { \
                .name = #nm, \
                .tree_fn = (tfn), \
                .node_fn = (nfn), \
                .prop_fn = (pfn), \
                .data = (d), \
                .level = (lvl), \
                .status = UNCHECKED, \
                .num_prereqs = ARRAY_SIZE(nm##_prereqs), \
                .prereq = nm##_prereqs, \
        };

#define TREE_CHECK(nm, d, lvl, ...) \
        CHECK(nm, check_##nm, NULL, NULL, d, lvl, __VA_ARGS__)
#define NODE_CHECK(nm, d, lvl, ...) \
        CHECK(nm, NULL, check_##nm, NULL, d, lvl, __VA_ARGS__)
#define PROP_CHECK(nm, d, lvl, ...) \
        CHECK(nm, NULL, NULL, check_##nm, d, lvl, __VA_ARGS__)
#define BATCH_CHECK(nm, lvl, ...) \
        CHECK(nm, NULL, NULL, NULL, NULL, lvl, __VA_ARGS__)

#ifdef __GNUC__
static inline void check_msg(struct check *c, const char *fmt, ...) __attribute__((format (printf, 2, 3)));
#endif
static inline void check_msg(struct check *c, const char *fmt, ...)
{
        va_list ap;
        va_start(ap, fmt);

        if ((c->level < WARN) || (c->level <= quiet))
                return; /* Suppress message */

        fprintf(stderr, "%s (%s): ",
                (c->level == ERROR) ? "ERROR" : "Warning", c->name);
        vfprintf(stderr, fmt, ap);
        fprintf(stderr, "\n");
}

#define FAIL(c, ...) \
        do { \
                TRACE((c), "\t\tFAILED at %s:%d", __FILE__, __LINE__); \
                (c)->status = FAILED; \
                check_msg((c), __VA_ARGS__); \
        } while (0)

static void check_nodes_props(struct check *c, struct node *dt, struct node *node)
{
        struct node *child;
        struct property *prop;

        TRACE(c, "%s", node->fullpath);
        if (c->node_fn)
                c->node_fn(c, dt, node);

        if (c->prop_fn)
                for_each_property(node, prop) {
                        TRACE(c, "%s\t'%s'", node->fullpath, prop->name);
                        c->prop_fn(c, dt, node, prop);
                }

        for_each_child(node, child)
                check_nodes_props(c, dt, child);
}

static int run_check(struct check *c, struct node *dt)
{
        int error = 0;
        int i;

        assert(!c->inprogress);

        if (c->status != UNCHECKED)
                goto out;

        c->inprogress = 1;

        for (i = 0; i < c->num_prereqs; i++) {
                struct check *prq = c->prereq[i];
                error |= run_check(prq, dt);
                if (prq->status != PASSED) {
                        c->status = PREREQ;
                        check_msg(c, "Failed prerequisite '%s'",
                                  c->prereq[i]->name);
                }
        }

        if (c->status != UNCHECKED)
                goto out;

        if (c->node_fn || c->prop_fn)
                check_nodes_props(c, dt, dt);

        if (c->tree_fn)
                c->tree_fn(c, dt);
        if (c->status == UNCHECKED)
                c->status = PASSED;

        TRACE(c, "\tCompleted, status %d", c->status);

out:
        c->inprogress = 0;
        if ((c->status != PASSED) && (c->level == ERROR))
                error = 1;
        return error;
}

/*
 * Utility check functions
 */

static void check_is_string(struct check *c, struct node *root,
                            struct node *node)
{
        struct property *prop;
        char *propname = c->data;

        prop = get_property(node, propname);
        if (!prop)
                return; /* Not present, assumed ok */

        if (!data_is_one_string(prop->val))
                FAIL(c, "\"%s\" property in %s is not a string",
                     propname, node->fullpath);
}
#define CHECK_IS_STRING(nm, propname, lvl) \
        CHECK(nm, NULL, check_is_string, NULL, (propname), (lvl))

static void check_is_cell(struct check *c, struct node *root,
                          struct node *node)
{
        struct property *prop;
        char *propname = c->data;

        prop = get_property(node, propname);
        if (!prop)
                return; /* Not present, assumed ok */

        if (prop->val.len != sizeof(cell_t))
                FAIL(c, "\"%s\" property in %s is not a single cell",
                     propname, node->fullpath);
}
#define CHECK_IS_CELL(nm, propname, lvl) \
        CHECK(nm, NULL, check_is_cell, NULL, (propname), (lvl))

/*
 * Structural check functions
 */

static void check_duplicate_node_names(struct check *c, struct node *dt,
                                       struct node *node)
{
        struct node *child, *child2;

        for_each_child(node, child)
                for (child2 = child->next_sibling;
                     child2;
                     child2 = child2->next_sibling)
                        if (streq(child->name, child2->name))
                                FAIL(c, "Duplicate node name %s",
                                     child->fullpath);
}
NODE_CHECK(duplicate_node_names, NULL, ERROR);

static void check_duplicate_property_names(struct check *c, struct node *dt,
                                           struct node *node)
{
        struct property *prop, *prop2;

        for_each_property(node, prop)
                for (prop2 = prop->next; prop2; prop2 = prop2->next)
                        if (streq(prop->name, prop2->name))
                                FAIL(c, "Duplicate property name %s in %s",
                                     prop->name, node->fullpath);
}
NODE_CHECK(duplicate_property_names, NULL, ERROR);

static void check_explicit_phandles(struct check *c, struct node *root,
                                          struct node *node)
{
        struct property *prop;
        struct node *other;
        cell_t phandle;

        prop = get_property(node, "linux,phandle");
        if (! prop)
                return; /* No phandle, that's fine */

        if (prop->val.len != sizeof(cell_t)) {
                FAIL(c, "%s has bad length (%d) linux,phandle property",
                     node->fullpath, prop->val.len);
                return;
        }

        phandle = propval_cell(prop);
        if ((phandle == 0) || (phandle == -1)) {
                FAIL(c, "%s has invalid linux,phandle value 0x%x",
                     node->fullpath, phandle);
                return;
        }

        other = get_node_by_phandle(root, phandle);
        if (other) {
                FAIL(c, "%s has duplicated phandle 0x%x (seen before at %s)",
                     node->fullpath, phandle, other->fullpath);
                return;
        }

        node->phandle = phandle;
}
NODE_CHECK(explicit_phandles, NULL, ERROR);

static void check_name_properties(struct check *c, struct node *root,
                                  struct node *node)
{
        struct property *prop;

        prop = get_property(node, "name");
        if (!prop)
                return; /* No name property, that's fine */

        if ((prop->val.len != node->basenamelen+1)
            || (memcmp(prop->val.val, node->name, node->basenamelen) != 0))
                FAIL(c, "\"name\" property in %s is incorrect (\"%s\" instead"
                     " of base node name)", node->fullpath, prop->val.val);
}
CHECK_IS_STRING(name_is_string, "name", ERROR);
NODE_CHECK(name_properties, NULL, ERROR, &name_is_string);

/*
 * Reference fixup functions
 */

static void fixup_phandle_references(struct check *c, struct node *dt,
                                     struct node *node, struct property *prop)
{
      struct marker *m = prop->val.markers;
      struct node *refnode;
      cell_t phandle;

      for_each_marker_of_type(m, REF_PHANDLE) {
              assert(m->offset + sizeof(cell_t) <= prop->val.len);

              refnode = get_node_by_ref(dt, m->ref);
              if (! refnode) {
                      FAIL(c, "Reference to non-existent node or label \"%s\"\n",
                           m->ref);
                      continue;
              }

              phandle = get_node_phandle(dt, refnode);
              *((cell_t *)(prop->val.val + m->offset)) = cpu_to_be32(phandle);
      }
}
CHECK(phandle_references, NULL, NULL, fixup_phandle_references, NULL, ERROR,
      &duplicate_node_names, &explicit_phandles);

static void fixup_path_references(struct check *c, struct node *dt,
                                  struct node *node, struct property *prop)
{
        struct marker *m = prop->val.markers;
        struct node *refnode;
        char *path;

        for_each_marker_of_type(m, REF_PATH) {
                assert(m->offset <= prop->val.len);

                refnode = get_node_by_ref(dt, m->ref);
                if (!refnode) {
                        FAIL(c, "Reference to non-existent node or label \"%s\"\n",
                             m->ref);
                        continue;
                }

                path = refnode->fullpath;
                prop->val = data_insert_at_marker(prop->val, m, path,
                                                  strlen(path) + 1);
        }
}
CHECK(path_references, NULL, NULL, fixup_path_references, NULL, ERROR,
      &duplicate_node_names);

/*
 * Semantic checks
 */
CHECK_IS_CELL(address_cells_is_cell, "#address-cells", WARN);
CHECK_IS_CELL(size_cells_is_cell, "#size-cells", WARN);
CHECK_IS_CELL(interrupt_cells_is_cell, "#interrupt-cells", WARN);

CHECK_IS_STRING(device_type_is_string, "device_type", WARN);
CHECK_IS_STRING(model_is_string, "model", WARN);
CHECK_IS_STRING(status_is_string, "status", WARN);

static void fixup_addr_size_cells(struct check *c, struct node *dt,
                                  struct node *node)
{
        struct property *prop;

        node->addr_cells = -1;
        node->size_cells = -1;

        prop = get_property(node, "#address-cells");
        if (prop)
                node->addr_cells = propval_cell(prop);

        prop = get_property(node, "#size-cells");
        if (prop)
                node->size_cells = propval_cell(prop);
}
CHECK(addr_size_cells, NULL, fixup_addr_size_cells, NULL, NULL, WARN,
      &address_cells_is_cell, &size_cells_is_cell);

#define node_addr_cells(n) \
        (((n)->addr_cells == -1) ? 2 : (n)->addr_cells)
#define node_size_cells(n) \
        (((n)->size_cells == -1) ? 1 : (n)->size_cells)

static void check_reg_format(struct check *c, struct node *dt,
                             struct node *node)
{
        struct property *prop;
        int addr_cells, size_cells, entrylen;

        prop = get_property(node, "reg");
        if (!prop)
                return; /* No "reg", that's fine */

        if (!node->parent) {
                FAIL(c, "Root node has a \"reg\" property");
                return;
        }

        if (prop->val.len == 0)
                FAIL(c, "\"reg\" property in %s is empty", node->fullpath);

        addr_cells = node_addr_cells(node->parent);
        size_cells = node_size_cells(node->parent);
        entrylen = (addr_cells + size_cells) * sizeof(cell_t);

        if ((prop->val.len % entrylen) != 0)
                FAIL(c, "\"reg\" property in %s has invalid length (%d bytes) "
                     "(#address-cells == %d, #size-cells == %d)",
                     node->fullpath, prop->val.len, addr_cells, size_cells);
}
NODE_CHECK(reg_format, NULL, WARN, &addr_size_cells);

static void check_ranges_format(struct check *c, struct node *dt,
                                struct node *node)
{
        struct property *prop;
        int c_addr_cells, p_addr_cells, c_size_cells, p_size_cells, entrylen;

        prop = get_property(node, "ranges");
        if (!prop)
                return;

        if (!node->parent) {
                FAIL(c, "Root node has a \"ranges\" property");
                return;
        }

        p_addr_cells = node_addr_cells(node->parent);
        p_size_cells = node_size_cells(node->parent);
        c_addr_cells = node_addr_cells(node);
        c_size_cells = node_size_cells(node);
        entrylen = (p_addr_cells + c_addr_cells + c_size_cells) * sizeof(cell_t);

        if (prop->val.len == 0) {
                if (p_addr_cells != c_addr_cells)
                        FAIL(c, "%s has empty \"ranges\" property but its "
                             "#address-cells (%d) differs from %s (%d)",
                             node->fullpath, c_addr_cells, node->parent->fullpath,
                             p_addr_cells);
                if (p_size_cells != c_size_cells)
                        FAIL(c, "%s has empty \"ranges\" property but its "
                             "#size-cells (%d) differs from %s (%d)",
                             node->fullpath, c_size_cells, node->parent->fullpath,
                             p_size_cells);
        } else if ((prop->val.len % entrylen) != 0) {
                FAIL(c, "\"ranges\" property in %s has invalid length (%d bytes) "
                     "(parent #address-cells == %d, child #address-cells == %d, "
                     "#size-cells == %d)", node->fullpath, prop->val.len,
                     p_addr_cells, c_addr_cells, c_size_cells);
        }
}
NODE_CHECK(ranges_format, NULL, WARN, &addr_size_cells);

/*
 * Style checks
 */
static void check_avoid_default_addr_size(struct check *c, struct node *dt,
                                          struct node *node)
{
        struct property *reg, *ranges;

        if (!node->parent)
                return; /* Ignore root node */

        reg = get_property(node, "reg");
        ranges = get_property(node, "ranges");

        if (!reg && !ranges)
                return;

        if ((node->parent->addr_cells == -1))
                FAIL(c, "Relying on default #address-cells value for %s",
                     node->fullpath);

        if ((node->parent->size_cells == -1))
                FAIL(c, "Relying on default #size-cells value for %s",
                     node->fullpath);
}
NODE_CHECK(avoid_default_addr_size, NULL, WARN, &addr_size_cells);

static void check_obsolete_chosen_interrupt_controller(struct check *c,
                                                       struct node *dt)
{
        struct node *chosen;
        struct property *prop;

        chosen = get_node_by_path(dt, "/chosen");
        if (!chosen)
                return;

        prop = get_property(chosen, "interrupt-controller");
        if (prop)
                FAIL(c, "/chosen has obsolete \"interrupt-controller\" "
                     "property");
}
TREE_CHECK(obsolete_chosen_interrupt_controller, NULL, WARN);

static struct check *check_table[] = {
        &duplicate_node_names, &duplicate_property_names,
        &name_is_string, &name_properties,
        &explicit_phandles,
        &phandle_references, &path_references,

        &address_cells_is_cell, &size_cells_is_cell, &interrupt_cells_is_cell,
        &device_type_is_string, &model_is_string, &status_is_string,

        &addr_size_cells, &reg_format, &ranges_format,

        &avoid_default_addr_size,
        &obsolete_chosen_interrupt_controller,
};

int check_semantics(struct node *dt, int outversion, int boot_cpuid_phys);

void process_checks(int force, struct boot_info *bi,
                    int checkflag, int outversion, int boot_cpuid_phys)
{
        struct node *dt = bi->dt;
        int i;
        int error = 0;

        for (i = 0; i < ARRAY_SIZE(check_table); i++) {
                struct check *c = check_table[i];

                if (c->level != IGNORE)
                        error = error || run_check(c, dt);
        }

        if (error) {
                if (!force) {
                        fprintf(stderr, "ERROR: Input tree has errors, aborting "
                                "(use -f to force output)\n");
                        exit(2);
                } else if (quiet < 3) {
                        fprintf(stderr, "Warning: Input tree has errors, "
                                "output forced\n");
                }
        }

        if (checkflag) {
                if (error) {
                        fprintf(stderr, "Warning: Skipping semantic checks due to structural errors\n");
                } else {
                        if (!check_semantics(bi->dt, outversion,
                                             boot_cpuid_phys))
                                fprintf(stderr, "Warning: Input tree has semantic errors\n");
                }
        }
}

/*
 * Semantic check functions
 */

#define ERRMSG(...) if (quiet < 2) fprintf(stderr, "ERROR: " __VA_ARGS__)
#define WARNMSG(...) if (quiet < 1) fprintf(stderr, "Warning: " __VA_ARGS__)

#define DO_ERR(...) do {ERRMSG(__VA_ARGS__); ok = 0; } while (0)

#define CHECK_HAVE(node, propname) \
        do { \
                if (! (prop = get_property((node), (propname)))) \
                        DO_ERR("Missing \"%s\" property in %s\n", (propname), \
                                (node)->fullpath); \
        } while (0);

#define CHECK_HAVE_WARN(node, propname) \
        do { \
                if (! (prop  = get_property((node), (propname)))) \
                        WARNMSG("%s has no \"%s\" property\n", \
                                (node)->fullpath, (propname)); \
        } while (0)

#define CHECK_HAVE_STRING(node, propname) \
        do { \
                CHECK_HAVE((node), (propname)); \
                if (prop && !data_is_one_string(prop->val)) \
                        DO_ERR("\"%s\" property in %s is not a string\n", \
                                (propname), (node)->fullpath); \
        } while (0)

#define CHECK_HAVE_STREQ(node, propname, value) \
        do { \
                CHECK_HAVE_STRING((node), (propname)); \
                if (prop && !streq(prop->val.val, (value))) \
                        DO_ERR("%s has wrong %s, %s (should be %s\n", \
                                (node)->fullpath, (propname), \
                                prop->val.val, (value)); \
        } while (0)

#define CHECK_HAVE_ONECELL(node, propname) \
        do { \
                CHECK_HAVE((node), (propname)); \
                if (prop && (prop->val.len != sizeof(cell_t))) \
                        DO_ERR("\"%s\" property in %s has wrong size %d (should be 1 cell)\n", (propname), (node)->fullpath, prop->val.len); \
        } while (0)

#define CHECK_HAVE_WARN_ONECELL(node, propname) \
        do { \
                CHECK_HAVE_WARN((node), (propname)); \
                if (prop && (prop->val.len != sizeof(cell_t))) \
                        DO_ERR("\"%s\" property in %s has wrong size %d (should be 1 cell)\n", (propname), (node)->fullpath, prop->val.len); \
        } while (0)

#define CHECK_HAVE_WARN_PHANDLE(xnode, propname, root) \
        do { \
                struct node *ref; \
                CHECK_HAVE_WARN_ONECELL((xnode), (propname)); \
                if (prop) {\
                        cell_t phandle = propval_cell(prop); \
                        if ((phandle == 0) || (phandle == -1)) { \
                                DO_ERR("\"%s\" property in %s contains an invalid phandle %x\n", (propname), (xnode)->fullpath, phandle); \
                        } else { \
                                ref = get_node_by_phandle((root), propval_cell(prop)); \
                                if (! ref) \
                                        DO_ERR("\"%s\" property in %s refers to non-existant phandle %x\n", (propname), (xnode)->fullpath, propval_cell(prop)); \
                        } \
                } \
        } while (0)

#define CHECK_HAVE_WARN_STRING(node, propname) \
        do { \
                CHECK_HAVE_WARN((node), (propname)); \
                if (prop && !data_is_one_string(prop->val)) \
                        DO_ERR("\"%s\" property in %s is not a string\n", \
                                (propname), (node)->fullpath); \
        } while (0)

static int check_root(struct node *root)
{
        struct property *prop;
        int ok = 1;

        CHECK_HAVE_STRING(root, "model");
        CHECK_HAVE_WARN(root, "compatible");

        return ok;
}

static int check_cpus(struct node *root, int outversion, int boot_cpuid_phys)
{
        struct node *cpus, *cpu;
        struct property *prop;
        struct node *bootcpu = NULL;
        int ok = 1;

        cpus = get_subnode(root, "cpus");
        if (! cpus) {
                ERRMSG("Missing /cpus node\n");
                return 0;
        }

        if (cpus->addr_cells != 1)
                DO_ERR("%s has bad #address-cells value %d (should be 1)\n",
                       cpus->fullpath, cpus->addr_cells);
        if (cpus->size_cells != 0)
                DO_ERR("%s has bad #size-cells value %d (should be 0)\n",
                       cpus->fullpath, cpus->size_cells);

        for_each_child(cpus, cpu) {
                CHECK_HAVE_STREQ(cpu, "device_type", "cpu");

                CHECK_HAVE_ONECELL(cpu, "reg");
                if (prop) {
                        cell_t unitnum;
                        char *eptr;

                        unitnum = strtol(get_unitname(cpu), &eptr, 16);
                        if (*eptr) {
                                WARNMSG("%s has bad format unit name %s (should be CPU number\n",
                                        cpu->fullpath, get_unitname(cpu));
                        } else if (unitnum != propval_cell(prop)) {
                                WARNMSG("%s unit name \"%s\" does not match \"reg\" property <%x>\n",
                                       cpu->fullpath, get_unitname(cpu),
                                       propval_cell(prop));
                        }
                }

/*              CHECK_HAVE_ONECELL(cpu, "d-cache-line-size"); */
/*              CHECK_HAVE_ONECELL(cpu, "i-cache-line-size"); */
                CHECK_HAVE_ONECELL(cpu, "d-cache-size");
                CHECK_HAVE_ONECELL(cpu, "i-cache-size");

                CHECK_HAVE_WARN_ONECELL(cpu, "clock-frequency");
                CHECK_HAVE_WARN_ONECELL(cpu, "timebase-frequency");

                prop = get_property(cpu, "linux,boot-cpu");
                if (prop) {
                        if (prop->val.len)
                                WARNMSG("\"linux,boot-cpu\" property in %s is non-empty\n",
                                        cpu->fullpath);
                        if (bootcpu)
                                DO_ERR("Multiple boot cpus (%s and %s)\n",
                                       bootcpu->fullpath, cpu->fullpath);
                        else
                                bootcpu = cpu;
                }
        }

        if (outversion < 2) {
                if (! bootcpu)
                        WARNMSG("No cpu has \"linux,boot-cpu\" property\n");
        } else {
                if (bootcpu)
                        WARNMSG("\"linux,boot-cpu\" property is deprecated in blob version 2 or higher\n");
                if (boot_cpuid_phys == 0xfeedbeef)
                        WARNMSG("physical boot CPU not set.  Use -b option to set\n");
        }

        return ok;
}

static int check_memory(struct node *root)
{
        struct node *mem;
        struct property *prop;
        int nnodes = 0;
        int ok = 1;

        for_each_child(root, mem) {
                if (! strneq(mem->name, "memory", mem->basenamelen))
                        continue;

                nnodes++;

                CHECK_HAVE_STREQ(mem, "device_type", "memory");
                CHECK_HAVE(mem, "reg");
        }

        if (nnodes == 0) {
                ERRMSG("No memory nodes\n");
                return 0;
        }

        return ok;
}

int check_semantics(struct node *dt, int outversion, int boot_cpuid_phys)
{
        int ok = 1;

        ok = ok && check_root(dt);
        ok = ok && check_cpus(dt, outversion, boot_cpuid_phys);
        ok = ok && check_memory(dt);
        if (! ok)
                return 0;

        return 1;
}