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Line 40... Line 40...
40 
    return balloc(sizeof(ofw_tree_node_t), sizeof(ofw_tree_node_t));
 40 
    return balloc(sizeof(ofw_tree_node_t), sizeof(ofw_tree_node_t));
41 
}
 41 
}
42 
 
 42 
 
43 
static ofw_tree_property_t *ofw_tree_properties_alloc(unsigned count)
 43 
static ofw_tree_property_t *ofw_tree_properties_alloc(unsigned count)
44 
{
 44 
{
45 
    return balloc(count * sizeof(ofw_tree_property_t), sizeof(ofw_tree_property_t));
 45 
    return balloc(count * sizeof(ofw_tree_property_t),
- 
 
 46 
        sizeof(ofw_tree_property_t));
46 
}
 47 
}
47 
 
 48 
 
48 
static void * ofw_tree_space_alloc(size_t size)
 49 
static void *ofw_tree_space_alloc(size_t size)
49 
{
 50 
{
50 
    char *addr;
 51 
    char *addr;
51 
 
 52 
 
52 
    /*
 53 
    /*
53 
     * What we do here is a nasty hack :-)
 54 
     * What we do here is a nasty hack :-)
Line 63... Line 64...
63 
    if (addr)
 64 
    if (addr)
64 
        addr[size] = '\0';
 65 
        addr[size] = '\0';
65 
    return addr;
 66 
    return addr;
66 
}
 67 
}
67 
 
 68 
 
68 
/** Transfer information from one OpenFirmware node into its memory representation.
 69 
/** Transfer information from one OpenFirmware node into its memory
- 
 
 70 
 * representation.
69 
 *
 71 
 *
70 
 * Transfer entire information from the OpenFirmware device tree 'current' node to
 72 
 * Transfer entire information from the OpenFirmware device tree 'current' node
71 
 * its memory representation in 'current_node'. This function recursively processes
 73 
 * to its memory representation in 'current_node'. This function recursively
72 
 * all node's children. Node's peers are processed iteratively in order to prevent
 74 
 * processes all node's children. Node's peers are processed iteratively in
73 
 * stack from overflowing.
 75 
 * order to prevent stack from overflowing.
74 
 *
 76 
 *
75 
 * @param current_node  Pointer to uninitialized ofw_tree_node structure that will
 77 
 * @param current_node  Pointer to uninitialized ofw_tree_node structure that
76 
 *          become the memory represenation of 'current'.
 78 
 *          will become the memory represenation of 'current'.
77 
 * @param parent_node   Parent ofw_tree_node structure or NULL in case of root node.
 79 
 * @param parent_node   Parent ofw_tree_node structure or NULL in case of root
- 
 
 80 
 *          node.
78 
 * @param current   OpenFirmware phandle to the current device tree node.
 81 
 * @param current   OpenFirmware phandle to the current device tree node.
79 
 */
 82 
 */
80 
static void ofw_tree_node_process(ofw_tree_node_t *current_node,
 83 
static void ofw_tree_node_process(ofw_tree_node_t *current_node,
81 
    ofw_tree_node_t *parent_node, phandle current)
 84 
    ofw_tree_node_t *parent_node, phandle current)
82 
{
 85 
{
83 
    static char path[MAX_PATH_LEN+1];
 86 
    static char path[MAX_PATH_LEN + 1];
84 
    static char name[OFW_TREE_PROPERTY_MAX_NAMELEN];
 87 
    static char name[OFW_TREE_PROPERTY_MAX_NAMELEN];
- 
 
 88 
    static char name2[OFW_TREE_PROPERTY_MAX_NAMELEN];
85 
    phandle peer;
 89 
    phandle peer;
86 
    phandle child;
 90 
    phandle child;
87 
    size_t len;
 91 
    size_t len;
88 
    int i;
 92 
    int i;
89 
 
 93 
 
Line 128... Line 132...
128 
        if (child != 0 && child != -1) {
 132 
        if (child != 0 && child != -1) {
129 
            ofw_tree_node_t *child_node;
 133 
            ofw_tree_node_t *child_node;
130 
       
 134 
       
131 
            child_node = ofw_tree_node_alloc();
 135 
            child_node = ofw_tree_node_alloc();
132 
            if (child_node) {
 136 
            if (child_node) {
133 
                ofw_tree_node_process(child_node, current_node, child);
 137 
                ofw_tree_node_process(child_node, current_node,
- 
 
 138 
                    child);
134 
                current_node->child = child_node;
 139 
                current_node->child = child_node;
135 
            }
 140 
            }
136 
        }
 141 
        }
137 
   
 142 
   
138 
        /*
 143 
        /*
139 
         * Count properties.
 144 
         * Count properties.
140 
         */
 145 
         */
141 
        name[0] = '\0';
 146 
        name[0] = '\0';
142 
        while (ofw_next_property(current, name, name) == 1)
 147 
        while (ofw_next_property(current, name, name2) == 1) {
143 
            current_node->properties++;
 148 
            current_node->properties++;
- 
 
 149 
            memcpy(name, name2, OFW_TREE_PROPERTY_MAX_NAMELEN);
- 
 
 150 
        }
144 
   
 151 
 
145 
        if (!current_node->properties)
 152 
        if (!current_node->properties)
146 
            return;
 153 
            return;
147 
   
 154 
   
148 
        /*
 155 
        /*
149 
         * Copy properties.
 156 
         * Copy properties.
150 
         */
 157 
         */
- 
 
 158 
        current_node->property =
151 
        current_node->property = ofw_tree_properties_alloc(current_node->properties);
 159 
            ofw_tree_properties_alloc(current_node->properties);
152 
        if (!current_node->property)
 160 
        if (!current_node->property)
153 
            return;
 161 
            return;
154 
       
 162 
       
155 
        name[0] = '\0';
 163 
        name[0] = '\0';
156 
        for (i = 0; ofw_next_property(current, name, name) == 1; i++) {
 164 
        for (i = 0; ofw_next_property(current, name, name2) == 1; i++) {
157 
            size_t size;
 165 
            size_t size;
158 
       
 166 
       
159 
            if (i == current_node->properties)
 167 
            if (i == current_node->properties)
160 
                break;
 168 
                break;
161 
       
 169 
       
- 
 
 170 
            memcpy(name, name2, OFW_TREE_PROPERTY_MAX_NAMELEN);
162 
            memcpy(current_node->property[i].name, name,
 171 
            memcpy(current_node->property[i].name, name,
163 
                OFW_TREE_PROPERTY_MAX_NAMELEN);
 172 
                OFW_TREE_PROPERTY_MAX_NAMELEN);
- 
 
 173 
            current_node->property[i].name[
164 
            current_node->property[i].name[OFW_TREE_PROPERTY_MAX_NAMELEN] = '\0';
 174 
                OFW_TREE_PROPERTY_MAX_NAMELEN] = '\0';
165 
 
 175 
 
166 
            size = ofw_get_proplen(current, name);
 176 
            size = ofw_get_proplen(current, name);
167 
            current_node->property[i].size = size;
 177 
            current_node->property[i].size = size;
168 
            if (size) {
 178 
            if (size) {
169 
                void *buf;
 179 
                void *buf;
Line 171... Line 181...
171 
                buf = ofw_tree_space_alloc(size);
 181 
                buf = ofw_tree_space_alloc(size);
172 
                if (current_node->property[i].value = buf) {
 182 
                if (current_node->property[i].value = buf) {
173 
                    /*
 183 
                    /*
174 
                     * Copy property value to memory node.
 184 
                     * Copy property value to memory node.
175 
                     */
 185 
                     */
176 
                    (void) ofw_get_property(current, name, buf, size);
 186 
                    (void) ofw_get_property(current, name,
- 
 
 187 
                        buf, size);
177 
                }
 188 
                }
178 
            } else {
 189 
            } else {
179 
                current_node->property[i].value = NULL;
 190 
                current_node->property[i].value = NULL;
180 
            }
 191 
            }
181 
        }
 192 
        }
182 
 
 193 
 
183 
        current_node->properties = i;   /* Just in case we ran out of memory. */
 194 
        /* Just in case we ran out of memory. */
- 
 
 195 
        current_node->properties = i;
184 
 
 196 
 
185 
        /*
 197 
        /*
186 
         * Iteratively process the next peer node.
 198 
         * Iteratively process the next peer node.
187 
         * Note that recursion is a bad idea here.
 199 
         * Note that recursion is a bad idea here.
188 
         * Due to the topology of the OpenFirmware device tree,
 200 
         * Due to the topology of the OpenFirmware device tree,
Line 211... Line 223...
211 
    }
 223 
    }
212 
}
 224 
}
213 
 
 225 
 
214 
/** Construct memory representation of OpenFirmware device tree.
 226 
/** Construct memory representation of OpenFirmware device tree.
215 
 *
 227 
 *
216 
 * @return NULL on failure or pointer to the root node.
 228 
 * @return      NULL on failure or pointer to the root node.
217 
 */
 229 
 */
218 
ofw_tree_node_t *ofw_tree_build(void)
 230 
ofw_tree_node_t *ofw_tree_build(void)
219 
{
 231 
{
220 
    ofw_tree_node_t *root;
 232 
    ofw_tree_node_t *root;
221 
    phandle ssm_node;
 233 
    phandle ssm_node;
Line 232... Line 244...
232 
     */
 244 
     */
233 
    ssm_node = ofw_find_device("/ssm@0,0");
 245 
    ssm_node = ofw_find_device("/ssm@0,0");
234 
    if (ssm_node != -1) {
 246 
    if (ssm_node != -1) {
235 
        ssm = ofw_tree_node_alloc();
 247 
        ssm = ofw_tree_node_alloc();
236 
        if (ssm) {
 248 
        if (ssm) {
237 
            ofw_tree_node_process(
 249 
            ofw_tree_node_process(ssm, root,
238 
                ssm, root, ofw_find_device("/ssm@0,0"));
 250 
                ofw_find_device("/ssm@0,0"));
239 
            ssm->peer = root->child;
 251 
            ssm->peer = root->child;
240 
            root->child = ssm;
 252 
            root->child = ssm;
241 
        }
 253 
        }
242 
    }
 254 
    }
243 
   
 255