SPIRAM: 'Abort on allocation failure' should not trigger when there is available SPI ram

(cherry picked from commit 8dcdb2f363fd3fa00bd77e4bd75e7c73d6c7d0fb)
2024-10-05 20:47:46 -04:00 · 2021-09-16 00:21:46 -07:00 · 2021-09-16 00:21:46 -07:00 · 8792b1de1e
commit 8792b1de1e
parent 6075806400
1 changed files with 67 additions and 21 deletions
--- a/components/heap/heap_caps.c
+++ b/components/heap/heap_caps.c
@ -23,6 +23,10 @@
 #include "heap_private.h"
 #include "esp_system.h"

+
+// forward declaration
+IRAM_ATTR static void *heap_caps_realloc_base( void *ptr, size_t size, uint32_t caps);
+
 /*
 This file, combined with a region allocator that supports multiple heaps, solves the problem that the ESP32 has RAM
 that's slightly heterogeneous. Some RAM can be byte-accessed, some allows only 32-bit accesses, some can execute memory,
@ -84,18 +88,18 @@ bool heap_caps_match(const heap_t *heap, uint32_t caps)
    return heap->heap != NULL && ((get_all_caps(heap) & caps) == caps);
 }

+
 /*
-Routine to allocate a bit of memory with certain capabilities. caps is a bitfield of MALLOC_CAP_* bits.
+This function should not be called directly as it does not
+check for failure / call heap_caps_alloc_failed()
 */
-IRAM_ATTR void *heap_caps_malloc( size_t size, uint32_t caps )
+IRAM_ATTR static void *heap_caps_malloc_base( size_t size, uint32_t caps)
 {
    void *ret = NULL;

    if (size > HEAP_SIZE_MAX) {
        // Avoids int overflow when adding small numbers to size, or
        // calculating 'end' from start+size, by limiting 'size' to the possible range
-        heap_caps_alloc_failed(size, caps, __func__);
-
        return NULL;
    }

@ -105,8 +109,6 @@ IRAM_ATTR void *heap_caps_malloc( size_t size, uint32_t caps )
        //NULL directly, even although our heap capabilities (based on soc_memory_tags & soc_memory_regions) would
        //indicate there is a tag for this.
        if ((caps & MALLOC_CAP_8BIT) || (caps & MALLOC_CAP_DMA)) {
-            heap_caps_alloc_failed(size, caps, __func__);
-
            return NULL;
        }
        caps |= MALLOC_CAP_32BIT; // IRAM is 32-bit accessible RAM
@ -152,13 +154,26 @@ IRAM_ATTR void *heap_caps_malloc( size_t size, uint32_t caps )
        }
    }

-    heap_caps_alloc_failed(size, caps, __func__);
-
    //Nothing usable found.
    return NULL;
 }


+/*
+Routine to allocate a bit of memory with certain capabilities. caps is a bitfield of MALLOC_CAP_* bits.
+*/
+IRAM_ATTR void *heap_caps_malloc( size_t size, uint32_t caps){
+
+    void* ptr = heap_caps_malloc_base(size, caps);
+
+    if (!ptr){
+        heap_caps_alloc_failed(size, caps, __func__);
+    }
+
+    return ptr;
+}
+
+
 #define MALLOC_DISABLE_EXTERNAL_ALLOCS -1
 //Dual-use: -1 (=MALLOC_DISABLE_EXTERNAL_ALLOCS) disables allocations in external memory, >=0 sets the limit for allocations preferring internal memory.
 static int malloc_alwaysinternal_limit=MALLOC_DISABLE_EXTERNAL_ALLOCS;
@ -176,16 +191,26 @@ IRAM_ATTR void *heap_caps_malloc_default( size_t size )
    if (malloc_alwaysinternal_limit==MALLOC_DISABLE_EXTERNAL_ALLOCS) {
        return heap_caps_malloc( size, MALLOC_CAP_DEFAULT | MALLOC_CAP_INTERNAL);
    } else {
+
+        // use heap_caps_malloc_base() since we'll
+        // check for allocation failure ourselves
+
        void *r;
        if (size <= (size_t)malloc_alwaysinternal_limit) {
-            r=heap_caps_malloc( size, MALLOC_CAP_DEFAULT | MALLOC_CAP_INTERNAL );
+            r=heap_caps_malloc_base( size, MALLOC_CAP_DEFAULT | MALLOC_CAP_INTERNAL );
        } else {
-            r=heap_caps_malloc( size, MALLOC_CAP_DEFAULT | MALLOC_CAP_SPIRAM );
+            r=heap_caps_malloc_base( size, MALLOC_CAP_DEFAULT | MALLOC_CAP_SPIRAM );
        }
        if (r==NULL) {
            //try again while being less picky
-            r=heap_caps_malloc( size, MALLOC_CAP_DEFAULT );
+            r=heap_caps_malloc_base( size, MALLOC_CAP_DEFAULT );
        }
+
+        // allocation failure?
+        if (r==NULL){
+            heap_caps_alloc_failed(size, MALLOC_CAP_DEFAULT, __func__);
+        }
+
        return r;
    }
 }
@ -199,15 +224,25 @@ IRAM_ATTR void *heap_caps_realloc_default( void *ptr, size_t size )
    if (malloc_alwaysinternal_limit==MALLOC_DISABLE_EXTERNAL_ALLOCS) {
        return heap_caps_realloc( ptr, size, MALLOC_CAP_DEFAULT | MALLOC_CAP_INTERNAL );
    } else {
+
+        // We use heap_caps_realloc_base() since we'll
+        // handle allocation failure ourselves
+
        void *r;
        if (size <= (size_t)malloc_alwaysinternal_limit) {
-            r=heap_caps_realloc( ptr, size, MALLOC_CAP_DEFAULT | MALLOC_CAP_INTERNAL );
+            r=heap_caps_realloc_base( ptr, size, MALLOC_CAP_DEFAULT | MALLOC_CAP_INTERNAL);
        } else {
-            r=heap_caps_realloc( ptr, size, MALLOC_CAP_DEFAULT | MALLOC_CAP_SPIRAM );
+            r=heap_caps_realloc_base( ptr, size, MALLOC_CAP_DEFAULT | MALLOC_CAP_SPIRAM);
        }
+
        if (r==NULL && size>0) {
            //We needed to allocate memory, but we didn't. Try again while being less picky.
-            r=heap_caps_realloc( ptr, size, MALLOC_CAP_DEFAULT );
+            r=heap_caps_realloc_base( ptr, size, MALLOC_CAP_DEFAULT);
+        }
+
+        // allocation failure?
+        if (r==NULL && size>0){
+            heap_caps_alloc_failed(size, MALLOC_CAP_DEFAULT, __func__);
        }
        return r;
    }
@ -305,14 +340,18 @@ IRAM_ATTR void heap_caps_free( void *ptr)
    multi_heap_free(heap->heap, ptr);
 }

-IRAM_ATTR void *heap_caps_realloc( void *ptr, size_t size, uint32_t caps)
+/*
+This function should not be called directly as it does not
+check for failure / call heap_caps_alloc_failed()
+*/
+IRAM_ATTR static void *heap_caps_realloc_base( void *ptr, size_t size, uint32_t caps)
 {
    bool ptr_in_diram_case = false;
    heap_t *heap = NULL;
    void *dram_ptr = NULL;

    if (ptr == NULL) {
-        return heap_caps_malloc(size, caps);
+        return heap_caps_malloc_base(size, caps);
    }

    if (size == 0) {
@ -321,8 +360,6 @@ IRAM_ATTR void *heap_caps_realloc( void *ptr, size_t size, uint32_t caps)
    }

    if (size > HEAP_SIZE_MAX) {
-        heap_caps_alloc_failed(size, caps, __func__);
-
        return NULL;
    }

@ -360,7 +397,7 @@ IRAM_ATTR void *heap_caps_realloc( void *ptr, size_t size, uint32_t caps)

    // if we couldn't do that, try to see if we can reallocate
    // in a different heap with requested capabilities.
-    void *new_p = heap_caps_malloc(size, caps);
+    void *new_p = heap_caps_malloc_base(size, caps);
    if (new_p != NULL) {
        size_t old_size = 0;

@ -378,11 +415,20 @@ IRAM_ATTR void *heap_caps_realloc( void *ptr, size_t size, uint32_t caps)
        return new_p;
    }

-    heap_caps_alloc_failed(size, caps, __func__);
-
    return NULL;
 }

+IRAM_ATTR void *heap_caps_realloc( void *ptr, size_t size, uint32_t caps)
+{
+    ptr = heap_caps_realloc_base(ptr, size, caps);
+
+    if (ptr == NULL && size > 0){
+        heap_caps_alloc_failed(size, caps, __func__);
+    }
+
+    return ptr;
+}
+
 IRAM_ATTR void *heap_caps_calloc( size_t n, size_t size, uint32_t caps)
 {
    void *result;