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-rw-r--r--arch/blackfin/mm/blackfin_sram.c543
1 files changed, 371 insertions, 172 deletions
diff --git a/arch/blackfin/mm/blackfin_sram.c b/arch/blackfin/mm/blackfin_sram.c
index 3246f91c7baa..5af3c31c9365 100644
--- a/arch/blackfin/mm/blackfin_sram.c
+++ b/arch/blackfin/mm/blackfin_sram.c
@@ -41,215 +41,309 @@
#include <asm/blackfin.h>
#include "blackfin_sram.h"
-spinlock_t l1sram_lock, l1_data_sram_lock, l1_inst_sram_lock;
-
-#if CONFIG_L1_MAX_PIECE < 16
-#undef CONFIG_L1_MAX_PIECE
-#define CONFIG_L1_MAX_PIECE 16
-#endif
-
-#if CONFIG_L1_MAX_PIECE > 1024
-#undef CONFIG_L1_MAX_PIECE
-#define CONFIG_L1_MAX_PIECE 1024
-#endif
-
-#define SRAM_SLT_NULL 0
-#define SRAM_SLT_FREE 1
-#define SRAM_SLT_ALLOCATED 2
+static spinlock_t l1sram_lock, l1_data_sram_lock, l1_inst_sram_lock;
+static spinlock_t l2_sram_lock;
/* the data structure for L1 scratchpad and DATA SRAM */
-struct l1_sram_piece {
+struct sram_piece {
void *paddr;
int size;
- int flag;
pid_t pid;
+ struct sram_piece *next;
};
-static struct l1_sram_piece l1_ssram[CONFIG_L1_MAX_PIECE];
+static struct sram_piece free_l1_ssram_head, used_l1_ssram_head;
#if L1_DATA_A_LENGTH != 0
-static struct l1_sram_piece l1_data_A_sram[CONFIG_L1_MAX_PIECE];
+static struct sram_piece free_l1_data_A_sram_head, used_l1_data_A_sram_head;
#endif
#if L1_DATA_B_LENGTH != 0
-static struct l1_sram_piece l1_data_B_sram[CONFIG_L1_MAX_PIECE];
+static struct sram_piece free_l1_data_B_sram_head, used_l1_data_B_sram_head;
#endif
#if L1_CODE_LENGTH != 0
-static struct l1_sram_piece l1_inst_sram[CONFIG_L1_MAX_PIECE];
+static struct sram_piece free_l1_inst_sram_head, used_l1_inst_sram_head;
+#endif
+
+#ifdef L2_LENGTH
+static struct sram_piece free_l2_sram_head, used_l2_sram_head;
#endif
+static struct kmem_cache *sram_piece_cache;
+
/* L1 Scratchpad SRAM initialization function */
-void __init l1sram_init(void)
+static void __init l1sram_init(void)
{
- printk(KERN_INFO "Blackfin Scratchpad data SRAM: %d KB\n",
- L1_SCRATCH_LENGTH >> 10);
+ free_l1_ssram_head.next =
+ kmem_cache_alloc(sram_piece_cache, GFP_KERNEL);
+ if (!free_l1_ssram_head.next) {
+ printk(KERN_INFO"Fail to initialize Scratchpad data SRAM.\n");
+ return;
+ }
+
+ free_l1_ssram_head.next->paddr = (void *)L1_SCRATCH_START;
+ free_l1_ssram_head.next->size = L1_SCRATCH_LENGTH;
+ free_l1_ssram_head.next->pid = 0;
+ free_l1_ssram_head.next->next = NULL;
- memset(&l1_ssram, 0x00, sizeof(l1_ssram));
- l1_ssram[0].paddr = (void *)L1_SCRATCH_START;
- l1_ssram[0].size = L1_SCRATCH_LENGTH;
- l1_ssram[0].flag = SRAM_SLT_FREE;
+ used_l1_ssram_head.next = NULL;
/* mutex initialize */
spin_lock_init(&l1sram_lock);
+
+ printk(KERN_INFO "Blackfin Scratchpad data SRAM: %d KB\n",
+ L1_SCRATCH_LENGTH >> 10);
}
-void __init l1_data_sram_init(void)
+static void __init l1_data_sram_init(void)
{
#if L1_DATA_A_LENGTH != 0
- memset(&l1_data_A_sram, 0x00, sizeof(l1_data_A_sram));
- l1_data_A_sram[0].paddr = (void *)L1_DATA_A_START +
- (_ebss_l1 - _sdata_l1);
- l1_data_A_sram[0].size = L1_DATA_A_LENGTH - (_ebss_l1 - _sdata_l1);
- l1_data_A_sram[0].flag = SRAM_SLT_FREE;
-
- printk(KERN_INFO "Blackfin Data A SRAM: %d KB (%d KB free)\n",
- L1_DATA_A_LENGTH >> 10, l1_data_A_sram[0].size >> 10);
+ free_l1_data_A_sram_head.next =
+ kmem_cache_alloc(sram_piece_cache, GFP_KERNEL);
+ if (!free_l1_data_A_sram_head.next) {
+ printk(KERN_INFO"Fail to initialize L1 Data A SRAM.\n");
+ return;
+ }
+
+ free_l1_data_A_sram_head.next->paddr =
+ (void *)L1_DATA_A_START + (_ebss_l1 - _sdata_l1);
+ free_l1_data_A_sram_head.next->size =
+ L1_DATA_A_LENGTH - (_ebss_l1 - _sdata_l1);
+ free_l1_data_A_sram_head.next->pid = 0;
+ free_l1_data_A_sram_head.next->next = NULL;
+
+ used_l1_data_A_sram_head.next = NULL;
+
+ printk(KERN_INFO "Blackfin L1 Data A SRAM: %d KB (%d KB free)\n",
+ L1_DATA_A_LENGTH >> 10,
+ free_l1_data_A_sram_head.next->size >> 10);
#endif
#if L1_DATA_B_LENGTH != 0
- memset(&l1_data_B_sram, 0x00, sizeof(l1_data_B_sram));
- l1_data_B_sram[0].paddr = (void *)L1_DATA_B_START +
- (_ebss_b_l1 - _sdata_b_l1);
- l1_data_B_sram[0].size = L1_DATA_B_LENGTH - (_ebss_b_l1 - _sdata_b_l1);
- l1_data_B_sram[0].flag = SRAM_SLT_FREE;
-
- printk(KERN_INFO "Blackfin Data B SRAM: %d KB (%d KB free)\n",
- L1_DATA_B_LENGTH >> 10, l1_data_B_sram[0].size >> 10);
+ free_l1_data_B_sram_head.next =
+ kmem_cache_alloc(sram_piece_cache, GFP_KERNEL);
+ if (!free_l1_data_B_sram_head.next) {
+ printk(KERN_INFO"Fail to initialize L1 Data B SRAM.\n");
+ return;
+ }
+
+ free_l1_data_B_sram_head.next->paddr =
+ (void *)L1_DATA_B_START + (_ebss_b_l1 - _sdata_b_l1);
+ free_l1_data_B_sram_head.next->size =
+ L1_DATA_B_LENGTH - (_ebss_b_l1 - _sdata_b_l1);
+ free_l1_data_B_sram_head.next->pid = 0;
+ free_l1_data_B_sram_head.next->next = NULL;
+
+ used_l1_data_B_sram_head.next = NULL;
+
+ printk(KERN_INFO "Blackfin L1 Data B SRAM: %d KB (%d KB free)\n",
+ L1_DATA_B_LENGTH >> 10,
+ free_l1_data_B_sram_head.next->size >> 10);
#endif
/* mutex initialize */
spin_lock_init(&l1_data_sram_lock);
}
-void __init l1_inst_sram_init(void)
+static void __init l1_inst_sram_init(void)
{
#if L1_CODE_LENGTH != 0
- memset(&l1_inst_sram, 0x00, sizeof(l1_inst_sram));
- l1_inst_sram[0].paddr = (void *)L1_CODE_START + (_etext_l1 - _stext_l1);
- l1_inst_sram[0].size = L1_CODE_LENGTH - (_etext_l1 - _stext_l1);
- l1_inst_sram[0].flag = SRAM_SLT_FREE;
+ free_l1_inst_sram_head.next =
+ kmem_cache_alloc(sram_piece_cache, GFP_KERNEL);
+ if (!free_l1_inst_sram_head.next) {
+ printk(KERN_INFO"Fail to initialize L1 Instruction SRAM.\n");
+ return;
+ }
- printk(KERN_INFO "Blackfin Instruction SRAM: %d KB (%d KB free)\n",
- L1_CODE_LENGTH >> 10, l1_inst_sram[0].size >> 10);
+ free_l1_inst_sram_head.next->paddr =
+ (void *)L1_CODE_START + (_etext_l1 - _stext_l1);
+ free_l1_inst_sram_head.next->size =
+ L1_CODE_LENGTH - (_etext_l1 - _stext_l1);
+ free_l1_inst_sram_head.next->pid = 0;
+ free_l1_inst_sram_head.next->next = NULL;
+
+ used_l1_inst_sram_head.next = NULL;
+
+ printk(KERN_INFO "Blackfin L1 Instruction SRAM: %d KB (%d KB free)\n",
+ L1_CODE_LENGTH >> 10,
+ free_l1_inst_sram_head.next->size >> 10);
#endif
/* mutex initialize */
spin_lock_init(&l1_inst_sram_lock);
}
-/* L1 memory allocate function */
-static void *_l1_sram_alloc(size_t size, struct l1_sram_piece *pfree, int count)
+static void __init l2_sram_init(void)
{
- int i, index = 0;
- void *addr = NULL;
+#ifdef L2_LENGTH
+ free_l2_sram_head.next =
+ kmem_cache_alloc(sram_piece_cache, GFP_KERNEL);
+ if (!free_l2_sram_head.next) {
+ printk(KERN_INFO"Fail to initialize L2 SRAM.\n");
+ return;
+ }
- if (size <= 0)
+ free_l2_sram_head.next->paddr = (void *)L2_START +
+ (_etext_l2 - _stext_l2) + (_edata_l2 - _sdata_l2);
+ free_l2_sram_head.next->size = L2_LENGTH -
+ (_etext_l2 - _stext_l2) + (_edata_l2 - _sdata_l2);
+ free_l2_sram_head.next->pid = 0;
+ free_l2_sram_head.next->next = NULL;
+
+ used_l2_sram_head.next = NULL;
+
+ printk(KERN_INFO "Blackfin L2 SRAM: %d KB (%d KB free)\n",
+ L2_LENGTH >> 10,
+ free_l2_sram_head.next->size >> 10);
+#endif
+
+ /* mutex initialize */
+ spin_lock_init(&l2_sram_lock);
+}
+void __init bfin_sram_init(void)
+{
+ sram_piece_cache = kmem_cache_create("sram_piece_cache",
+ sizeof(struct sram_piece),
+ 0, SLAB_PANIC, NULL);
+
+ l1sram_init();
+ l1_data_sram_init();
+ l1_inst_sram_init();
+ l2_sram_init();
+}
+
+/* SRAM allocate function */
+static void *_sram_alloc(size_t size, struct sram_piece *pfree_head,
+ struct sram_piece *pused_head)
+{
+ struct sram_piece *pslot, *plast, *pavail;
+
+ if (size <= 0 || !pfree_head || !pused_head)
return NULL;
/* Align the size */
size = (size + 3) & ~3;
- /* not use the good method to match the best slot !!! */
- /* search an available memory slot */
- for (i = 0; i < count; i++) {
- if ((pfree[i].flag == SRAM_SLT_FREE)
- && (pfree[i].size >= size)) {
- addr = pfree[i].paddr;
- pfree[i].flag = SRAM_SLT_ALLOCATED;
- pfree[i].pid = current->pid;
- index = i;
- break;
- }
+ pslot = pfree_head->next;
+ plast = pfree_head;
+
+ /* search an available piece slot */
+ while (pslot != NULL && size > pslot->size) {
+ plast = pslot;
+ pslot = pslot->next;
}
- if (i >= count)
+
+ if (!pslot)
return NULL;
- /* updated the NULL memory slot !!! */
- if (pfree[i].size > size) {
- for (i = 0; i < count; i++) {
- if (pfree[i].flag == SRAM_SLT_NULL) {
- pfree[i].pid = 0;
- pfree[i].flag = SRAM_SLT_FREE;
- pfree[i].paddr = addr + size;
- pfree[i].size = pfree[index].size - size;
- pfree[index].size = size;
- break;
- }
- }
+ if (pslot->size == size) {
+ plast->next = pslot->next;
+ pavail = pslot;
+ } else {
+ pavail = kmem_cache_alloc(sram_piece_cache, GFP_KERNEL);
+
+ if (!pavail)
+ return NULL;
+
+ pavail->paddr = pslot->paddr;
+ pavail->size = size;
+ pslot->paddr += size;
+ pslot->size -= size;
}
- return addr;
+ pavail->pid = current->pid;
+
+ pslot = pused_head->next;
+ plast = pused_head;
+
+ /* insert new piece into used piece list !!! */
+ while (pslot != NULL && pavail->paddr < pslot->paddr) {
+ plast = pslot;
+ pslot = pslot->next;
+ }
+
+ pavail->next = pslot;
+ plast->next = pavail;
+
+ return pavail->paddr;
}
/* Allocate the largest available block. */
-static void *_l1_sram_alloc_max(struct l1_sram_piece *pfree, int count,
+static void *_sram_alloc_max(struct sram_piece *pfree_head,
+ struct sram_piece *pused_head,
unsigned long *psize)
{
- unsigned long best = 0;
- int i, index = -1;
- void *addr = NULL;
+ struct sram_piece *pslot, *pmax;
- /* search an available memory slot */
- for (i = 0; i < count; i++) {
- if (pfree[i].flag == SRAM_SLT_FREE && pfree[i].size > best) {
- addr = pfree[i].paddr;
- index = i;
- best = pfree[i].size;
- }
+ if (!pfree_head || !pused_head)
+ return NULL;
+
+ pmax = pslot = pfree_head->next;
+
+ /* search an available piece slot */
+ while (pslot != NULL) {
+ if (pslot->size > pmax->size)
+ pmax = pslot;
+ pslot = pslot->next;
}
- if (index < 0)
+
+ if (!pmax)
return NULL;
- *psize = best;
- pfree[index].pid = current->pid;
- pfree[index].flag = SRAM_SLT_ALLOCATED;
- return addr;
+ *psize = pmax->size;
+
+ return _sram_alloc(*psize, pfree_head, pused_head);
}
-/* L1 memory free function */
-static int _l1_sram_free(const void *addr,
- struct l1_sram_piece *pfree,
- int count)
+/* SRAM free function */
+static int _sram_free(const void *addr,
+ struct sram_piece *pfree_head,
+ struct sram_piece *pused_head)
{
- int i, index = 0;
+ struct sram_piece *pslot, *plast, *pavail;
+
+ if (!pfree_head || !pused_head)
+ return -1;
/* search the relevant memory slot */
- for (i = 0; i < count; i++) {
- if (pfree[i].paddr == addr) {
- if (pfree[i].flag != SRAM_SLT_ALLOCATED) {
- /* error log */
- return -1;
- }
- index = i;
- break;
- }
+ pslot = pused_head->next;
+ plast = pused_head;
+
+ /* search an available piece slot */
+ while (pslot != NULL && pslot->paddr != addr) {
+ plast = pslot;
+ pslot = pslot->next;
}
- if (i >= count)
+
+ if (!pslot)
return -1;
- pfree[index].pid = 0;
- pfree[index].flag = SRAM_SLT_FREE;
-
- /* link the next address slot */
- for (i = 0; i < count; i++) {
- if (((pfree[index].paddr + pfree[index].size) == pfree[i].paddr)
- && (pfree[i].flag == SRAM_SLT_FREE)) {
- pfree[i].pid = 0;
- pfree[i].flag = SRAM_SLT_NULL;
- pfree[index].size += pfree[i].size;
- pfree[index].flag = SRAM_SLT_FREE;
- break;
- }
+ plast->next = pslot->next;
+ pavail = pslot;
+ pavail->pid = 0;
+
+ /* insert free pieces back to the free list */
+ pslot = pfree_head->next;
+ plast = pfree_head;
+
+ while (pslot != NULL && addr > pslot->paddr) {
+ plast = pslot;
+ pslot = pslot->next;
+ }
+
+ if (plast != pfree_head && plast->paddr + plast->size == pavail->paddr) {
+ plast->size += pavail->size;
+ kmem_cache_free(sram_piece_cache, pavail);
+ } else {
+ pavail->next = plast;
+ plast->next = pavail;
+ plast = pavail;
}
- /* link the last address slot */
- for (i = 0; i < count; i++) {
- if (((pfree[i].paddr + pfree[i].size) == pfree[index].paddr) &&
- (pfree[i].flag == SRAM_SLT_FREE)) {
- pfree[index].flag = SRAM_SLT_NULL;
- pfree[i].size += pfree[index].size;
- break;
- }
+ if (pslot && plast->paddr + plast->size == pslot->paddr) {
+ plast->size += pslot->size;
+ plast->next = pslot->next;
+ kmem_cache_free(sram_piece_cache, pslot);
}
return 0;
@@ -273,6 +367,11 @@ int sram_free(const void *addr)
&& addr < (void *)(L1_DATA_B_START + L1_DATA_B_LENGTH))
return l1_data_B_sram_free(addr);
#endif
+#ifdef L2_LENGTH
+ else if (addr >= (void *)L2_START
+ && addr < (void *)(L2_START + L2_LENGTH))
+ return l2_sram_free(addr);
+#endif
else
return -1;
}
@@ -287,7 +386,8 @@ void *l1_data_A_sram_alloc(size_t size)
spin_lock_irqsave(&l1_data_sram_lock, flags);
#if L1_DATA_A_LENGTH != 0
- addr = _l1_sram_alloc(size, l1_data_A_sram, ARRAY_SIZE(l1_data_A_sram));
+ addr = _sram_alloc(size, &free_l1_data_A_sram_head,
+ &used_l1_data_A_sram_head);
#endif
/* add mutex operation */
@@ -309,8 +409,8 @@ int l1_data_A_sram_free(const void *addr)
spin_lock_irqsave(&l1_data_sram_lock, flags);
#if L1_DATA_A_LENGTH != 0
- ret = _l1_sram_free(addr,
- l1_data_A_sram, ARRAY_SIZE(l1_data_A_sram));
+ ret = _sram_free(addr, &free_l1_data_A_sram_head,
+ &used_l1_data_A_sram_head);
#else
ret = -1;
#endif
@@ -331,7 +431,8 @@ void *l1_data_B_sram_alloc(size_t size)
/* add mutex operation */
spin_lock_irqsave(&l1_data_sram_lock, flags);
- addr = _l1_sram_alloc(size, l1_data_B_sram, ARRAY_SIZE(l1_data_B_sram));
+ addr = _sram_alloc(size, &free_l1_data_B_sram_head,
+ &used_l1_data_B_sram_head);
/* add mutex operation */
spin_unlock_irqrestore(&l1_data_sram_lock, flags);
@@ -355,7 +456,8 @@ int l1_data_B_sram_free(const void *addr)
/* add mutex operation */
spin_lock_irqsave(&l1_data_sram_lock, flags);
- ret = _l1_sram_free(addr, l1_data_B_sram, ARRAY_SIZE(l1_data_B_sram));
+ ret = _sram_free(addr, &free_l1_data_B_sram_head,
+ &used_l1_data_B_sram_head);
/* add mutex operation */
spin_unlock_irqrestore(&l1_data_sram_lock, flags);
@@ -408,7 +510,8 @@ void *l1_inst_sram_alloc(size_t size)
/* add mutex operation */
spin_lock_irqsave(&l1_inst_sram_lock, flags);
- addr = _l1_sram_alloc(size, l1_inst_sram, ARRAY_SIZE(l1_inst_sram));
+ addr = _sram_alloc(size, &free_l1_inst_sram_head,
+ &used_l1_inst_sram_head);
/* add mutex operation */
spin_unlock_irqrestore(&l1_inst_sram_lock, flags);
@@ -432,7 +535,8 @@ int l1_inst_sram_free(const void *addr)
/* add mutex operation */
spin_lock_irqsave(&l1_inst_sram_lock, flags);
- ret = _l1_sram_free(addr, l1_inst_sram, ARRAY_SIZE(l1_inst_sram));
+ ret = _sram_free(addr, &free_l1_inst_sram_head,
+ &used_l1_inst_sram_head);
/* add mutex operation */
spin_unlock_irqrestore(&l1_inst_sram_lock, flags);
@@ -453,7 +557,8 @@ void *l1sram_alloc(size_t size)
/* add mutex operation */
spin_lock_irqsave(&l1sram_lock, flags);
- addr = _l1_sram_alloc(size, l1_ssram, ARRAY_SIZE(l1_ssram));
+ addr = _sram_alloc(size, &free_l1_ssram_head,
+ &used_l1_ssram_head);
/* add mutex operation */
spin_unlock_irqrestore(&l1sram_lock, flags);
@@ -470,7 +575,8 @@ void *l1sram_alloc_max(size_t *psize)
/* add mutex operation */
spin_lock_irqsave(&l1sram_lock, flags);
- addr = _l1_sram_alloc_max(l1_ssram, ARRAY_SIZE(l1_ssram), psize);
+ addr = _sram_alloc_max(&free_l1_ssram_head,
+ &used_l1_ssram_head, psize);
/* add mutex operation */
spin_unlock_irqrestore(&l1sram_lock, flags);
@@ -487,7 +593,8 @@ int l1sram_free(const void *addr)
/* add mutex operation */
spin_lock_irqsave(&l1sram_lock, flags);
- ret = _l1_sram_free(addr, l1_ssram, ARRAY_SIZE(l1_ssram));
+ ret = _sram_free(addr, &free_l1_ssram_head,
+ &used_l1_ssram_head);
/* add mutex operation */
spin_unlock_irqrestore(&l1sram_lock, flags);
@@ -495,6 +602,64 @@ int l1sram_free(const void *addr)
return ret;
}
+void *l2_sram_alloc(size_t size)
+{
+#ifdef L2_LENGTH
+ unsigned flags;
+ void *addr;
+
+ /* add mutex operation */
+ spin_lock_irqsave(&l2_sram_lock, flags);
+
+ addr = _sram_alloc(size, &free_l2_sram_head,
+ &used_l2_sram_head);
+
+ /* add mutex operation */
+ spin_unlock_irqrestore(&l2_sram_lock, flags);
+
+ pr_debug("Allocated address in l2_sram_alloc is 0x%lx+0x%lx\n",
+ (long unsigned int)addr, size);
+
+ return addr;
+#else
+ return NULL;
+#endif
+}
+EXPORT_SYMBOL(l2_sram_alloc);
+
+void *l2_sram_zalloc(size_t size)
+{
+ void *addr = l2_sram_alloc(size);
+
+ if (addr)
+ memset(addr, 0x00, size);
+
+ return addr;
+}
+EXPORT_SYMBOL(l2_sram_zalloc);
+
+int l2_sram_free(const void *addr)
+{
+#ifdef L2_LENGTH
+ unsigned flags;
+ int ret;
+
+ /* add mutex operation */
+ spin_lock_irqsave(&l2_sram_lock, flags);
+
+ ret = _sram_free(addr, &free_l2_sram_head,
+ &used_l2_sram_head);
+
+ /* add mutex operation */
+ spin_unlock_irqrestore(&l2_sram_lock, flags);
+
+ return ret;
+#else
+ return -1;
+#endif
+}
+EXPORT_SYMBOL(l2_sram_free);
+
int sram_free_with_lsl(const void *addr)
{
struct sram_list_struct *lsl, **tmp;
@@ -533,6 +698,9 @@ void *sram_alloc_with_lsl(size_t size, unsigned long flags)
if (addr == NULL && (flags & L1_DATA_B_SRAM))
addr = l1_data_B_sram_alloc(size);
+ if (addr == NULL && (flags & L2_SRAM))
+ addr = l2_sram_alloc(size);
+
if (addr == NULL) {
kfree(lsl);
return NULL;
@@ -549,49 +717,80 @@ EXPORT_SYMBOL(sram_alloc_with_lsl);
/* Once we get a real allocator, we'll throw all of this away.
* Until then, we need some sort of visibility into the L1 alloc.
*/
-static void _l1sram_proc_read(char *buf, int *len, const char *desc,
- struct l1_sram_piece *pfree, const int array_size)
+/* Need to keep line of output the same. Currently, that is 44 bytes
+ * (including newline).
+ */
+static int _sram_proc_read(char *buf, int *len, int count, const char *desc,
+ struct sram_piece *pfree_head,
+ struct sram_piece *pused_head)
{
- int i;
-
- *len += sprintf(&buf[*len], "--- L1 %-14s Size PID State\n", desc);
- for (i = 0; i < array_size; ++i) {
- const char *alloc_type;
- switch (pfree[i].flag) {
- case SRAM_SLT_NULL: alloc_type = "NULL"; break;
- case SRAM_SLT_FREE: alloc_type = "FREE"; break;
- case SRAM_SLT_ALLOCATED: alloc_type = "ALLOCATED"; break;
- default: alloc_type = "????"; break;
- }
- *len += sprintf(&buf[*len], "%p-%p %8i %4i %s\n",
- pfree[i].paddr, pfree[i].paddr + pfree[i].size,
- pfree[i].size, pfree[i].pid, alloc_type);
+ struct sram_piece *pslot;
+
+ if (!pfree_head || !pused_head)
+ return -1;
+
+ *len += sprintf(&buf[*len], "--- SRAM %-14s Size PID State \n", desc);
+
+ /* search the relevant memory slot */
+ pslot = pused_head->next;
+
+ while (pslot != NULL) {
+ *len += sprintf(&buf[*len], "%p-%p %10i %5i %-10s\n",
+ pslot->paddr, pslot->paddr + pslot->size,
+ pslot->size, pslot->pid, "ALLOCATED");
+
+ pslot = pslot->next;
}
+
+ pslot = pfree_head->next;
+
+ while (pslot != NULL) {
+ *len += sprintf(&buf[*len], "%p-%p %10i %5i %-10s\n",
+ pslot->paddr, pslot->paddr + pslot->size,
+ pslot->size, pslot->pid, "FREE");
+
+ pslot = pslot->next;
+ }
+
+ return 0;
}
-static int l1sram_proc_read(char *buf, char **start, off_t offset, int count,
+static int sram_proc_read(char *buf, char **start, off_t offset, int count,
int *eof, void *data)
{
int len = 0;
- _l1sram_proc_read(buf, &len, "Scratchpad",
- l1_ssram, ARRAY_SIZE(l1_ssram));
+ if (_sram_proc_read(buf, &len, count, "Scratchpad",
+ &free_l1_ssram_head, &used_l1_ssram_head))
+ goto not_done;
#if L1_DATA_A_LENGTH != 0
- _l1sram_proc_read(buf, &len, "Data A",
- l1_data_A_sram, ARRAY_SIZE(l1_data_A_sram));
+ if (_sram_proc_read(buf, &len, count, "L1 Data A",
+ &free_l1_data_A_sram_head,
+ &used_l1_data_A_sram_head))
+ goto not_done;
#endif
#if L1_DATA_B_LENGTH != 0
- _l1sram_proc_read(buf, &len, "Data B",
- l1_data_B_sram, ARRAY_SIZE(l1_data_B_sram));
+ if (_sram_proc_read(buf, &len, count, "L1 Data B",
+ &free_l1_data_B_sram_head,
+ &used_l1_data_B_sram_head))
+ goto not_done;
#endif
#if L1_CODE_LENGTH != 0
- _l1sram_proc_read(buf, &len, "Instruction",
- l1_inst_sram, ARRAY_SIZE(l1_inst_sram));
+ if (_sram_proc_read(buf, &len, count, "L1 Instruction",
+ &free_l1_inst_sram_head, &used_l1_inst_sram_head))
+ goto not_done;
+#endif
+#ifdef L2_LENGTH
+ if (_sram_proc_read(buf, &len, count, "L2",
+ &free_l2_sram_head, &used_l2_sram_head))
+ goto not_done;
#endif
+ *eof = 1;
+ not_done:
return len;
}
-static int __init l1sram_proc_init(void)
+static int __init sram_proc_init(void)
{
struct proc_dir_entry *ptr;
ptr = create_proc_entry("sram", S_IFREG | S_IRUGO, NULL);
@@ -600,8 +799,8 @@ static int __init l1sram_proc_init(void)
return -1;
}
ptr->owner = THIS_MODULE;
- ptr->read_proc = l1sram_proc_read;
+ ptr->read_proc = sram_proc_read;
return 0;
}
-late_initcall(l1sram_proc_init);
+late_initcall(sram_proc_init);
#endif