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@@ -63,71 +63,83 @@ void detect_memory_layout(struct mem_chunk chunk[])
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}
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EXPORT_SYMBOL(detect_memory_layout);
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+/*
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+ * Move memory chunks array from index "from" to index "to"
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+ */
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+static void mem_chunk_move(struct mem_chunk chunk[], int to, int from)
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+{
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+ int cnt = MEMORY_CHUNKS - to;
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+
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+ memmove(&chunk[to], &chunk[from], cnt * sizeof(struct mem_chunk));
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+}
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+
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+/*
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+ * Initialize memory chunk
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+ */
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+static void mem_chunk_init(struct mem_chunk *chunk, unsigned long addr,
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+ unsigned long size, int type)
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+{
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+ chunk->type = type;
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+ chunk->addr = addr;
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+ chunk->size = size;
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+}
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+
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/*
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* Create memory hole with given address, size, and type
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*/
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-void create_mem_hole(struct mem_chunk chunks[], unsigned long addr,
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+void create_mem_hole(struct mem_chunk chunk[], unsigned long addr,
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unsigned long size, int type)
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{
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- unsigned long start, end, new_size;
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- int i;
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+ unsigned long lh_start, lh_end, lh_size, ch_start, ch_end, ch_size;
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+ int i, ch_type;
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for (i = 0; i < MEMORY_CHUNKS; i++) {
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- if (chunks[i].size == 0)
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- continue;
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- if (addr + size < chunks[i].addr)
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- continue;
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- if (addr >= chunks[i].addr + chunks[i].size)
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+ if (chunk[i].size == 0)
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continue;
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- start = max(addr, chunks[i].addr);
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- end = min(addr + size, chunks[i].addr + chunks[i].size);
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- new_size = end - start;
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- if (new_size == 0)
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- continue;
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- if (start == chunks[i].addr &&
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- end == chunks[i].addr + chunks[i].size) {
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- /* Remove chunk */
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- chunks[i].type = type;
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- } else if (start == chunks[i].addr) {
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- /* Make chunk smaller at start */
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- if (i >= MEMORY_CHUNKS - 1)
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- panic("Unable to create memory hole");
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- memmove(&chunks[i + 1], &chunks[i],
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- sizeof(struct mem_chunk) *
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- (MEMORY_CHUNKS - (i + 1)));
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- chunks[i + 1].addr = chunks[i].addr + new_size;
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- chunks[i + 1].size = chunks[i].size - new_size;
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- chunks[i].size = new_size;
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- chunks[i].type = type;
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- i += 1;
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- } else if (end == chunks[i].addr + chunks[i].size) {
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- /* Make chunk smaller at end */
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- if (i >= MEMORY_CHUNKS - 1)
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- panic("Unable to create memory hole");
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- memmove(&chunks[i + 1], &chunks[i],
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- sizeof(struct mem_chunk) *
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- (MEMORY_CHUNKS - (i + 1)));
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- chunks[i + 1].addr = start;
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- chunks[i + 1].size = new_size;
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- chunks[i + 1].type = type;
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- chunks[i].size -= new_size;
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+
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+ /* Define chunk properties */
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+ ch_start = chunk[i].addr;
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+ ch_size = chunk[i].size;
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+ ch_end = ch_start + ch_size - 1;
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+ ch_type = chunk[i].type;
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+
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+ /* Is memory chunk hit by memory hole? */
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+ if (addr + size <= ch_start)
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+ continue; /* No: memory hole in front of chunk */
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+ if (addr > ch_end)
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+ continue; /* No: memory hole after chunk */
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+
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+ /* Yes: Define local hole properties */
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+ lh_start = max(addr, chunk[i].addr);
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+ lh_end = min(addr + size - 1, ch_end);
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+ lh_size = lh_end - lh_start + 1;
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+
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+ if (lh_start == ch_start && lh_end == ch_end) {
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+ /* Hole covers complete memory chunk */
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+ mem_chunk_init(&chunk[i], lh_start, lh_size, type);
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+ } else if (lh_end == ch_end) {
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+ /* Hole starts in memory chunk and convers chunk end */
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+ mem_chunk_move(chunk, i + 1, i);
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+ mem_chunk_init(&chunk[i], ch_start, ch_size - lh_size,
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+ ch_type);
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+ mem_chunk_init(&chunk[i + 1], lh_start, lh_size, type);
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i += 1;
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+ } else if (lh_start == ch_start) {
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+ /* Hole ends in memory chunk */
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+ mem_chunk_move(chunk, i + 1, i);
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+ mem_chunk_init(&chunk[i], lh_start, lh_size, type);
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+ mem_chunk_init(&chunk[i + 1], lh_end + 1,
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+ ch_size - lh_size, ch_type);
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+ break;
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} else {
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- /* Create memory hole */
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- if (i >= MEMORY_CHUNKS - 2)
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- panic("Unable to create memory hole");
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- memmove(&chunks[i + 2], &chunks[i],
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- sizeof(struct mem_chunk) *
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- (MEMORY_CHUNKS - (i + 2)));
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- chunks[i + 1].addr = addr;
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- chunks[i + 1].size = size;
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- chunks[i + 1].type = type;
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- chunks[i + 2].addr = addr + size;
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- chunks[i + 2].size =
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- chunks[i].addr + chunks[i].size - (addr + size);
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- chunks[i + 2].type = chunks[i].type;
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- chunks[i].size = addr - chunks[i].addr;
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- i += 2;
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+ /* Hole splits memory chunk */
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+ mem_chunk_move(chunk, i + 2, i);
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+ mem_chunk_init(&chunk[i], ch_start,
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+ lh_start - ch_start, ch_type);
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+ mem_chunk_init(&chunk[i + 1], lh_start, lh_size, type);
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+ mem_chunk_init(&chunk[i + 2], lh_end + 1,
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+ ch_end - lh_end, ch_type);
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+ break;
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}
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}
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}
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Michael Holzheu