Firebee/BaS_gcc
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5319aab544d34e5d710fcbfcb25c523c2f0018c7
BaS_gcc/tos/vmem_test/sources/vmem_test.c
Markus Fröschle cb217e3e95 fix missing include of stdlib.h
2018-02-24 20:11:56 +01:00

392 lines
10 KiB
C
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#include <stdio.h>
#include <mint/osbind.h>
#include <stdint.h>
#include <stdbool.h>
#include <stdlib.h>
#include "bas_printf.h"
#include "MCF5475.h"
#include "driver_vec.h"
#define FPGA_CONFIG (1 << 2)
#define FPGA_CONF_DONE (1 << 5)
#define SRAM1_START 0xff101000
#define SRAM1_END SRAM1_START + 0x1000
#define SAFE_STACK SRAM1_END - 4
#define NOP() __asm__ __volatile__("nop\n\t" : : : "memory")
#define SYSCLK 132000
long bas_start = 0xe0000000;
extern volatile uint32_t _VRAM[];
volatile int32_t time, start, end;
int i;
static void wait_pll(void)
{
int32_t trgt = MCF_SLT0_SCNT - 100000;
do
{
;
} while ((* (volatile int16_t *) 0xf0000800 < 0) && MCF_SLT0_SCNT > trgt);
}
static volatile uint8_t *pll_base = (volatile uint8_t *) 0xf0000600;
static void init_pll(void)
{
xprintf("FPGA PLL initialization: ");
wait_pll();
* (volatile uint16_t *) (pll_base + 0x48) = 27; /* loopfilter r */
wait_pll();
* (volatile uint16_t *) (pll_base + 0x08) = 1; /* charge pump 1 */
wait_pll();
* (volatile uint16_t *) (pll_base + 0x00) = 12; /* N counter high = 12 */
wait_pll();
* (volatile uint16_t *) (pll_base + 0x40) = 12; /* N counter low = 12 */
wait_pll();
* (volatile uint16_t *) (pll_base + 0x114) = 1; /* ck1 bypass */
wait_pll();
* (volatile uint16_t *) (pll_base + 0x118) = 1; /* ck2 bypass */
wait_pll();
* (volatile uint16_t *) (pll_base + 0x11c) = 1; /* ck3 bypass */
wait_pll();
* (volatile uint16_t *) (pll_base + 0x10) = 1; /* ck0 high = 1 */
wait_pll();
* (volatile uint16_t *) (pll_base + 0x50) = 1; /* ck0 low = 1 */
wait_pll();
* (volatile uint16_t *) (pll_base + 0x144) = 1; /* M odd division */
wait_pll();
* (volatile uint16_t *) (pll_base + 0x44) = 1; /* M low = 1 */
wait_pll();
* (volatile uint16_t *) (pll_base + 0x04) = 145; /* M high = 145 = 146 MHz */
wait_pll();
* (volatile uint8_t *) 0xf0000800 = 0; /* set */
xprintf("finished\r\n");
}
/*
* INIT VIDEO DDR RAM
*/
static void init_video_ddr(void)
{
xprintf("init video RAM: ");
* (volatile uint16_t *) 0xf0000400 = 0xb; /* set cke = 1, cs=1, config = 1 */
NOP();
_VRAM[0] = 0x00050400; /* IPALL */
NOP();
_VRAM[0] = 0x00072000; /* load EMR pll on */
NOP();
_VRAM[0] = 0x00070122; /* load MR: reset pll, cl=2, burst=4lw */
NOP();
_VRAM[0] = 0x00050400; /* IPALL */
NOP();
_VRAM[0] = 0x00060000; /* auto refresh */
NOP();
_VRAM[0] = 0x00060000; /* auto refresh */
NOP();
/* FIXME: what's this? */
_VRAM[0] = 0000070022; /* load MR dll on */
NOP();
* (uint32_t *) 0xf0000400 = 0x01070002; /* fifo on, refresh on, ddrcs und cke on, video dac on */
xprintf("sys_ctr = 0x%08x\r\n", * (uint32_t *) 0xf0000400);
xprintf("finished\r\n");
}
void memmove_b(uint8_t *dst, volatile uint8_t *src, size_t size)
{
while (--size)
{
*dst++ = *src++;
}
}
void memmove_w(uint16_t *dst, volatile uint16_t *src, size_t size)
{
size >>= 1;
while (--size)
{
*dst++ = *src++;
}
}
void memmove_l(uint32_t *dst, volatile uint32_t *src, size_t size)
{
size >>= 2;
while (--size)
{
*dst++ = *src++;
}
}
void do_tests(void)
{
// uint32_t version;
const int buffer_size = 64;
uint8_t buffer[buffer_size * 4];
xprintf("initialize Firebee video PLL\r\n");
init_pll();
xprintf("finished\r\n");
xprintf("initialize video ddr memory\r\n");
init_video_ddr();
xprintf("finished\r\n");
#ifdef _NOT_USED_
xprintf("try to read Configware version (only works on later configs)\r\n");
version = * (uint32_t *) 0xffffffff;
xprintf("version = 0x%08lx\r\n", version);
#endif /* _NOT_USED_ */
xprintf("try to access Firebee FPGA memory\r\n");
xprintf("write\r\n");
start = MCF_SLT0_SCNT;
/*
* fill 4 lines of video memory with 64 consecutive byte values
*/
for (i = 0; i < 64; i++)
{
((uint8_t *) _VRAM)[i] = (uint32_t) i;
}
end = MCF_SLT0_SCNT;
time = (start - end) / (SYSCLK / 1000) / 1000;
xprintf("finished (took %f seconds).\r\n", time / 1000.0);
/*
* read back video memory into local fast ram buffer
*/
xprintf("read\r\n");
start = MCF_SLT0_SCNT;
/*
* read byte-wise
*/
xprintf("byte read\r\n");
memmove_b(buffer, (uint8_t *) _VRAM, buffer_size);
end = MCF_SLT0_SCNT;
time = (start - end) / (SYSCLK / 1000) / 1000;
xprintf("finished (took %f seconds).\r\n", time / 1000.0);
hexdump(buffer, 64);
/*
* read word-wise
*/
xprintf("word read\r\n");
memmove_w((uint16_t *) buffer, (uint16_t *) _VRAM, buffer_size);
end = MCF_SLT0_SCNT;
time = (start - end) / (SYSCLK / 1000) / 1000;
xprintf("finished (took %f seconds).\r\n", time / 1000.0);
hexdump(buffer, 64);
/*
* read longword-wise
*/
xprintf("longword read\r\n");
memmove_l((uint32_t *) buffer, (uint32_t *) _VRAM, buffer_size);
end = MCF_SLT0_SCNT;
time = (start - end) / (SYSCLK / 1000) / 1000;
xprintf("finished (took %f seconds).\r\n", time / 1000.0);
hexdump(buffer, 64);
/*
* do some Firebee register tests
*/
volatile uint8_t *dbasef = (volatile uint8_t *) 0xffff8200;
xprintf("dbasef = 0x%02x\r\n", *dbasef);
*dbasef = 0x0;
xprintf("dbasef after clearing it = 0x%02x\r\n", *dbasef);
volatile uint8_t *dbaseh = (volatile uint8_t *) 0xffff8201;
xprintf("dbaseh = 0x%02x\r\n", *dbaseh);
*dbaseh = 0x0;
xprintf("dbaseh after clearing it = 0x%02x\r\n", *dbaseh);
volatile uint8_t *dbasel = (volatile uint8_t *) 0xffff8203;
xprintf("dbasel = 0x%02x\r\n", *dbasel);
*dbasel = 0x0;
xprintf("dbasel after clearing it = 0x%02x\r\n", *dbasel);
volatile uint8_t *dbaselow = (volatile uint8_t *) 0xffff820d;
xprintf("dbaselow = 0x%02x\r\n", *dbaselow);
*dbaselow = 0x0;
xprintf("dbaselow after clearing it = 0x%02x\r\n", *dbaselow);
volatile uint16_t *linewidth = (volatile uint16_t *) 0xffff820e;
xprintf("linewidth = 0x%04x\r\n", *linewidth);
*linewidth = 0x0;
xprintf("linewidth after clearing it = 0x%04x\r\n", *linewidth);
*linewidth = 0x1234;
xprintf("linewidth after setting it to 0x1234 = 0x%04x\r\n", *linewidth);
volatile uint16_t *vwrap = (volatile uint16_t *) 0xffff8210;
xprintf("VWRAP = 0x%04x\r\n", *vwrap);
*vwrap = 0;
xprintf("VWRAP after clearing it = 0x%04x\r\n", *vwrap);
*vwrap = 0x1234;
xprintf("VWRAP after setting it to 0x1234 = 0x%04x\r\n", *vwrap);
}
void wait_for_jtag(void)
{
long i;
/* set supervisor stack to end of SRAM1 */
__asm__ __volatile__ (
" move #0x2700,sr\n\t" /* disable interrupts */
" move.l %[stack],d0\n\t" /* 4KB on-chip core SRAM1 */
" move.l d0,sp\n\t" /* set stack pointer */
:
: [stack] "i" (SAFE_STACK)
: "d0", "cc" /* clobber */
);
MCF_EPORT_EPIER = 0x0; /* disable EPORT interrupts */
MCF_INTC_IMRL = 0xffffffff;
MCF_INTC_IMRH = 0xffffffff; /* disable interrupt controller */
MCF_MMU_MMUCR &= ~MCF_MMU_MMUCR_EN; /* disable MMU */
xprintf("relocated supervisor stack, disabled interrupts and disabled MMU\r\n");
/*
* configure FEC1L port directions to enable external JTAG configuration download to FPGA
*/
MCF_GPIO_PDDR_FEC1L = 0 |
MCF_GPIO_PDDR_FEC1L_PDDR_FEC1L4; /* bit 4 = LED => output */
/* all other bits = input */
/*
* configure DSPI_CS3 as GPIO input to avoid the MCU driving against the FPGA blink
*/
MCF_PAD_PAR_DSPI &= ~MCF_PAD_PAR_DSPI_PAR_CS3(MCF_PAD_PAR_DSPI_PAR_CS3_DSPICS3);
/*
* now that GPIO ports have been switched to input, we can poll for FPGA config
* started from the JTAG interface (CONF_DONE goes low) and finish (CONF_DONE goes high)
*/
xprintf("waiting for JTAG configuration start\r\n");
while ((MCF_GPIO_PPDSDR_FEC1L & FPGA_CONF_DONE)); /* wait for JTAG config load started */
xprintf("waiting for JTAG configuration to finish\r\n");
while (!(MCF_GPIO_PPDSDR_FEC1L & FPGA_CONF_DONE)); /* wait for JTAG config load finished */
xprintf("JTAG configuration finished.\r\n");
/* wait */
xprintf("wait a little to let things settle...\r\n");
for (i = 0; i < 100000L; i++);
xprintf("disable caches\r\n");
__asm__ __volatile(
"move.l #0x01000000,d0 \r\n"
"movec d0,CACR \r\n"
: /* no output */
: /* no input */
: "d0", "memory");
xprintf("init FPGA PLLs\r\n");
init_pll();
xprintf("init video DDR RAM\r\n");
init_video_ddr();
/* begin of tests */
do_tests();
xprintf("wait a little to let things settle...\r\n");
for (i = 0; i < 100000L; i++);
xprintf("INFO: endless loop now. Press reset to reboot\r\n");
while (1)
;
}
int main(int argc, char *argv[])
{
printf("FPGA JTAG configuration support\r\n");
printf("test FPGA DDR RAM controller\r\n");
printf("\xbd 2014 M. F\x94schle\r\n");
printf("You may now savely load a new FPGA configuration through the JTAG interface\r\n"
"and your Firebee will reboot once finished using that new configuration.\r\n");
if (argc == 2)
{
/*
* we got an argument. This is supposed to be the address that we need to jump to after JTAG
* configuration has been finished. Meant to support BaS in RAM testing
*/
char *addr_str = argv[1];
char *addr = NULL;
char *end = NULL;
addr = (char *) strtol(addr_str, &end, 16);
if (addr != NULL && addr <= (char *) 0xe0000000 && addr >= (char *) 0x10000000)
{
/*
* seems to be a valid address
*/
bas_start = (long) addr;
printf("BaS start address set to %p\r\n", (void *) bas_start);
}
else
{
printf("\r\nNote: BaS start address %p not valid. Stick to %p.\r\n", addr, (void *) bas_start);
}
}
Supexec(wait_for_jtag);
return 0; /* just to make the compiler happy, we will never return */
}
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