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//==========================================================================
//
//        memvar2.cxx
//
//        Variable memory pool test 2
//
//==========================================================================
//####ECOSGPLCOPYRIGHTBEGIN####
// -------------------------------------------
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//==========================================================================
//#####DESCRIPTIONBEGIN####
//
// Author(s):     dsm, jlarmour
// Contributors:  
// Date:          2000-06-18
// Description:   test allocation and freeing in variable memory pools
//####DESCRIPTIONEND####
 
#include <pkgconf/memalloc.h>
#include <pkgconf/system.h>
 
#ifdef CYGPKG_KERNEL
#include <pkgconf/kernel.h>
 
#include <cyg/kernel/sched.hxx>         // Cyg_Scheduler::start()
#include <cyg/kernel/thread.hxx>        // Cyg_Thread
#include <cyg/kernel/thread.inl>
#include <cyg/kernel/sema.hxx>
 
#include <cyg/kernel/sched.inl>
 
#define NTHREADS 1
#include "testaux.hxx"
 
#endif
 
#include <cyg/memalloc/memvar.hxx>
 
#include <cyg/infra/testcase.h>
 
static const cyg_int32 memsize = 10240;
 
static cyg_uint8 mem[memsize];
 
static Cyg_Mempool_Variable mempool(mem, memsize);
 
#define NUM_PTRS 16                     // Should be even
 
static cyg_uint8 *ptr[NUM_PTRS];
static cyg_int32 size[NUM_PTRS];
 
// We make a number of passes over a table of pointers which point to
// blocks of allocated memory.  The block is freed and a new block
// allocated.  The size and the order of the processing of blocks
// is varied.
static void entry( CYG_ADDRWORD data )
{
    cyg_uint32 s = 1;
 
    // The number of passes that can be successfully performed
    // depends on the fragmentation performance of the memory
    // allocator.
    for(cyg_ucount32 passes = 0; passes < 10; passes++) {
 
 
        // The order which the table is processed varies according to
        // stepsize.
        cyg_ucount8 stepsize = (passes*2 + 1) % NUM_PTRS; // odd
 
 
        for(cyg_ucount8 c=0, i=0; c < NUM_PTRS; c++) {
            i = (i+stepsize) % NUM_PTRS;
            if(ptr[i]) {
                for(cyg_ucount32 j=size[i];j--;) {
                    CYG_TEST_CHECK(ptr[i][j]==i, "Memory corrupted");
                }
                CYG_TEST_CHECK(mempool.free(ptr[i], size[i]),
                               "bad free");
            }
            s = (s*2 + 17) % 100;  // size always odds therefore non-0
            ptr[i] = mempool.try_alloc(s);
            size[i] = s;
 
            CYG_TEST_CHECK(NULL != ptr[i], "Memory pool not big enough");
            CYG_TEST_CHECK(mem<=ptr[i] && ptr[i]+s < mem+memsize,
                           "Allocated region not within pool");
 
            // Scribble over memory to check whether region overlaps
            // with other regions.  The contents of the memory are
            // checked on freeing.  This also tests that the memory
            // does not overlap with allocator memory structures.
            for(cyg_ucount32 j=size[i];j--;) {
                ptr[i][j]=i;
            }
        }
    }
 
    CYG_TEST_PASS_FINISH("Variable memory pool 2 OK");
}
 
 
void memvar2_main( void )
{
    CYG_TEST_INIT();
    CYG_TEST_INFO("Starting Variable memory pool 2 test");
 
    for(cyg_ucount32 i = 0; i<NUM_PTRS; i++) {
        ptr[i]      = NULL;
    }
 
#ifdef CYGPKG_KERNEL
    new_thread(entry, 0);
    Cyg_Scheduler::start();
#else
    entry(0);
#endif
 
    CYG_TEST_FAIL_FINISH("Not reached");
}
 
externC void
cyg_start( void )
{ 
#ifdef CYGSEM_HAL_STOP_CONSTRUCTORS_ON_FLAG
    cyg_hal_invoke_constructors();
#endif
    memvar2_main();
}
// EOF memvar2.cxx