upstream u-boot with additional patches for our devices/boards: https://lists.denx.de/pipermail/u-boot/2017-March/282789.html (AXP crashes) ; Gbit ethernet patch for some LIME2 revisions ; with SPI flash support
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u-boot/common/virtex2.c

558 lines
15 KiB

23 years ago
/*
* (C) Copyright 2002
* Rich Ireland, Enterasys Networks, rireland@enterasys.com.
* Keith Outwater, keith_outwater@mvis.com
*
* See file CREDITS for list of people who contributed to this
* project.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License as
* published by the Free Software Foundation; either version 2 of
* the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston,
* MA 02111-1307 USA
*
*/
/*
* Configuration support for Xilinx Virtex2 devices. Based
* on spartan2.c (Rich Ireland, rireland@enterasys.com).
*/
#include <common.h>
#include <virtex2.h>
#if defined(CONFIG_FPGA) && defined(CONFIG_FPGA_VIRTEX2)
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#if 0
#define FPGA_DEBUG
#endif
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#ifdef FPGA_DEBUG
#define PRINTF(fmt,args...) printf (fmt ,##args)
#else
#define PRINTF(fmt,args...)
#endif
/*
* If the SelectMap interface can be overrun by the processor, define
* CFG_FPGA_CHECK_BUSY and/or CONFIG_FPGA_DELAY in the board configuration
* file and add board-specific support for checking BUSY status. By default,
* assume that the SelectMap interface cannot be overrun.
*/
#ifndef CFG_FPGA_CHECK_BUSY
#undef CFG_FPGA_CHECK_BUSY
#endif
#ifndef CONFIG_FPGA_DELAY
#define CONFIG_FPGA_DELAY()
#endif
#ifndef CFG_FPGA_PROG_FEEDBACK
#define CFG_FPGA_PROG_FEEDBACK
#endif
/*
* Don't allow config cycle to be interrupted
*/
#ifndef CFG_FPGA_CHECK_CTRLC
#undef CFG_FPGA_CHECK_CTRLC
#endif
/*
* Check for errors during configuration by default
*/
#ifndef CFG_FPGA_CHECK_ERROR
#define CFG_FPGA_CHECK_ERROR
#endif
/*
* The default timeout in mS for INIT_B to deassert after PROG_B has
* been deasserted. Per the latest Virtex II Handbook (page 347), the
* max time from PORG_B deassertion to INIT_B deassertion is 4uS per
* data frame for the XC2V8000. The XC2V8000 has 2860 data frames
* which yields 11.44 mS. So let's make it bigger in order to handle
* an XC2V1000, if anyone can ever get ahold of one.
*/
#ifndef CFG_FPGA_WAIT_INIT
#define CFG_FPGA_WAIT_INIT CFG_HZ/2 /* 500 ms */
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#endif
/*
* The default timeout for waiting for BUSY to deassert during configuration.
* This is normally not necessary since for most reasonable configuration
* clock frequencies (i.e. 66 MHz or less), BUSY monitoring is unnecessary.
*/
#ifndef CFG_FPGA_WAIT_BUSY
#define CFG_FPGA_WAIT_BUSY CFG_HZ/200 /* 5 ms*/
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#endif
/* Default timeout for waiting for FPGA to enter operational mode after
* configuration data has been written.
*/
#ifndef CFG_FPGA_WAIT_CONFIG
#define CFG_FPGA_WAIT_CONFIG CFG_HZ/5 /* 200 ms */
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#endif
static int Virtex2_ssm_load (Xilinx_desc * desc, void *buf, size_t bsize);
static int Virtex2_ssm_dump (Xilinx_desc * desc, void *buf, size_t bsize);
static int Virtex2_ssm_reloc (Xilinx_desc * desc, ulong reloc_offset);
static int Virtex2_ss_load (Xilinx_desc * desc, void *buf, size_t bsize);
static int Virtex2_ss_dump (Xilinx_desc * desc, void *buf, size_t bsize);
static int Virtex2_ss_reloc (Xilinx_desc * desc, ulong reloc_offset);
int Virtex2_load (Xilinx_desc * desc, void *buf, size_t bsize)
{
int ret_val = FPGA_FAIL;
switch (desc->iface) {
case slave_serial:
PRINTF ("%s: Launching Slave Serial Load\n", __FUNCTION__);
ret_val = Virtex2_ss_load (desc, buf, bsize);
break;
case slave_selectmap:
PRINTF ("%s: Launching Slave Parallel Load\n", __FUNCTION__);
ret_val = Virtex2_ssm_load (desc, buf, bsize);
break;
default:
printf ("%s: Unsupported interface type, %d\n",
__FUNCTION__, desc->iface);
}
return ret_val;
}
int Virtex2_dump (Xilinx_desc * desc, void *buf, size_t bsize)
{
int ret_val = FPGA_FAIL;
switch (desc->iface) {
case slave_serial:
PRINTF ("%s: Launching Slave Serial Dump\n", __FUNCTION__);
ret_val = Virtex2_ss_dump (desc, buf, bsize);
break;
case slave_parallel:
PRINTF ("%s: Launching Slave Parallel Dump\n", __FUNCTION__);
ret_val = Virtex2_ssm_dump (desc, buf, bsize);
break;
default:
printf ("%s: Unsupported interface type, %d\n",
__FUNCTION__, desc->iface);
}
return ret_val;
}
int Virtex2_info (Xilinx_desc * desc)
{
return FPGA_SUCCESS;
}
int Virtex2_reloc (Xilinx_desc * desc, ulong reloc_offset)
{
int ret_val = FPGA_FAIL;
if (desc->family != Xilinx_Virtex2) {
printf ("%s: Unsupported family type, %d\n",
__FUNCTION__, desc->family);
return FPGA_FAIL;
} else
switch (desc->iface) {
case slave_serial:
ret_val = Virtex2_ss_reloc (desc, reloc_offset);
break;
case slave_selectmap:
ret_val = Virtex2_ssm_reloc (desc, reloc_offset);
break;
default:
printf ("%s: Unsupported interface type, %d\n",
__FUNCTION__, desc->iface);
}
return ret_val;
}
/*
* Virtex-II Slave SelectMap configuration loader. Configuration via
* SelectMap is as follows:
* 1. Set the FPGA's PROG_B line low.
* 2. Set the FPGA's PROG_B line high. Wait for INIT_B to go high.
* 3. Write data to the SelectMap port. If INIT_B goes low at any time
* this process, a configuration error (most likely CRC failure) has
* ocurred. At this point a status word may be read from the
* SelectMap interface to determine the source of the problem (You
* could, for instance, put this in your 'abort' function handler).
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* 4. After all data has been written, test the state of the FPGA
* INIT_B and DONE lines. If both are high, configuration has
* succeeded. Congratulations!
*/
static int Virtex2_ssm_load (Xilinx_desc * desc, void *buf, size_t bsize)
{
int ret_val = FPGA_FAIL;
Xilinx_Virtex2_Slave_SelectMap_fns *fn = desc->iface_fns;
PRINTF ("%s:%d: Start with interface functions @ 0x%p\n",
__FUNCTION__, __LINE__, fn);
if (fn) {
size_t bytecount = 0;
unsigned char *data = (unsigned char *) buf;
int cookie = desc->cookie;
unsigned long ts;
/* Gotta split this one up (so the stack won't blow??) */
PRINTF ("%s:%d: Function Table:\n"
" base 0x%p\n"
" struct 0x%p\n"
" pre 0x%p\n"
" prog 0x%p\n"
" init 0x%p\n"
" error 0x%p\n",
__FUNCTION__, __LINE__,
&fn, fn, fn->pre, fn->pgm, fn->init, fn->err);
PRINTF (" clock 0x%p\n"
" cs 0x%p\n"
" write 0x%p\n"
" rdata 0x%p\n"
" wdata 0x%p\n"
" busy 0x%p\n"
" abort 0x%p\n"
" post 0x%p\n\n",
fn->clk, fn->cs, fn->wr, fn->rdata, fn->wdata,
fn->busy, fn->abort, fn->post);
#ifdef CFG_FPGA_PROG_FEEDBACK
printf ("Initializing FPGA Device %d...\n", cookie);
#endif
/*
* Run the pre configuration function if there is one.
*/
if (*fn->pre) {
(*fn->pre) (cookie);
}
/*
* Assert the program line. The minimum pulse width for
* Virtex II devices is 300 nS (Tprogram parameter in datasheet).
* There is no maximum value for the pulse width. Check to make
* sure that INIT_B goes low after assertion of PROG_B
*/
(*fn->pgm) (TRUE, TRUE, cookie);
udelay (10);
ts = get_timer (0);
do {
if (get_timer (ts) > CFG_FPGA_WAIT_INIT) {
printf ("%s:%d: ** Timeout after %d ticks waiting for INIT"
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" to assert.\n", __FUNCTION__, __LINE__,
CFG_FPGA_WAIT_INIT);
(*fn->abort) (cookie);
return FPGA_FAIL;
}
} while (!(*fn->init) (cookie));
(*fn->pgm) (FALSE, TRUE, cookie);
CONFIG_FPGA_DELAY ();
(*fn->clk) (TRUE, TRUE, cookie);
/*
* Start a timer and wait for INIT_B to go high
*/
ts = get_timer (0);
do {
CONFIG_FPGA_DELAY ();
if (get_timer (ts) > CFG_FPGA_WAIT_INIT) {
printf ("%s:%d: ** Timeout after %d ticks waiting for INIT"
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" to deassert.\n", __FUNCTION__, __LINE__,
CFG_FPGA_WAIT_INIT);
(*fn->abort) (cookie);
return FPGA_FAIL;
}
} while ((*fn->init) (cookie) && (*fn->busy) (cookie));
(*fn->wr) (TRUE, TRUE, cookie);
(*fn->cs) (TRUE, TRUE, cookie);
udelay (10000);
/*
* Load the data byte by byte
*/
while (bytecount < bsize) {
#ifdef CFG_FPGA_CHECK_CTRLC
if (ctrlc ()) {
(*fn->abort) (cookie);
return FPGA_FAIL;
}
#endif
if ((*fn->done) (cookie) == FPGA_SUCCESS) {
PRINTF ("%s:%d:done went active early, bytecount = %d\n",
__FUNCTION__, __LINE__, bytecount);
break;
}
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#ifdef CFG_FPGA_CHECK_ERROR
if ((*fn->init) (cookie)) {
printf ("\n%s:%d: ** Error: INIT asserted during"
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" configuration\n", __FUNCTION__, __LINE__);
printf ("%d = buffer offset, %d = buffer size\n",
bytecount, bsize);
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(*fn->abort) (cookie);
return FPGA_FAIL;
}
#endif
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(*fn->wdata) (data[bytecount++], TRUE, cookie);
CONFIG_FPGA_DELAY ();
/*
* Cycle the clock pin
*/
(*fn->clk) (FALSE, TRUE, cookie);
CONFIG_FPGA_DELAY ();
(*fn->clk) (TRUE, TRUE, cookie);
#ifdef CFG_FPGA_CHECK_BUSY
ts = get_timer (0);
while ((*fn->busy) (cookie)) {
if (get_timer (ts) > CFG_FPGA_WAIT_BUSY) {
printf ("%s:%d: ** Timeout after %d ticks waiting for"
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" BUSY to deassert\n",
__FUNCTION__, __LINE__, CFG_FPGA_WAIT_BUSY);
(*fn->abort) (cookie);
return FPGA_FAIL;
}
}
#endif
#ifdef CFG_FPGA_PROG_FEEDBACK
if (bytecount % (bsize / 40) == 0)
putc ('.');
#endif
}
/*
* Finished writing the data; deassert FPGA CS_B and WRITE_B signals.
*/
CONFIG_FPGA_DELAY ();
(*fn->cs) (FALSE, TRUE, cookie);
(*fn->wr) (FALSE, TRUE, cookie);
#ifdef CFG_FPGA_PROG_FEEDBACK
putc ('\n');
#endif
/*
* Check for successful configuration. FPGA INIT_B and DONE should
* both be high upon successful configuration.
*/
ts = get_timer (0);
ret_val = FPGA_SUCCESS;
while (((*fn->done) (cookie) == FPGA_FAIL) || (*fn->init) (cookie)) {
if (get_timer (ts) > CFG_FPGA_WAIT_CONFIG) {
printf ("%s:%d: ** Timeout after %d ticks waiting for DONE to"
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"assert and INIT to deassert\n",
__FUNCTION__, __LINE__, CFG_FPGA_WAIT_CONFIG);
(*fn->abort) (cookie);
ret_val = FPGA_FAIL;
break;
}
}
if (ret_val == FPGA_SUCCESS) {
#ifdef CFG_FPGA_PROG_FEEDBACK
printf ("Initialization of FPGA device %d complete\n", cookie);
#endif
/*
* Run the post configuration function if there is one.
*/
if (*fn->post) {
(*fn->post) (cookie);
}
} else {
#ifdef CFG_FPGA_PROG_FEEDBACK
printf ("** Initialization of FPGA device %d FAILED\n",
cookie);
#endif
}
} else {
printf ("%s:%d: NULL Interface function table!\n",
__FUNCTION__, __LINE__);
}
return ret_val;
}
/*
* Read the FPGA configuration data
*/
static int Virtex2_ssm_dump (Xilinx_desc * desc, void *buf, size_t bsize)
{
int ret_val = FPGA_FAIL;
Xilinx_Virtex2_Slave_SelectMap_fns *fn = desc->iface_fns;
if (fn) {
unsigned char *data = (unsigned char *) buf;
size_t bytecount = 0;
int cookie = desc->cookie;
printf ("Starting Dump of FPGA Device %d...\n", cookie);
(*fn->cs) (TRUE, TRUE, cookie);
(*fn->clk) (TRUE, TRUE, cookie);
while (bytecount < bsize) {
#ifdef CFG_FPGA_CHECK_CTRLC
if (ctrlc ()) {
(*fn->abort) (cookie);
return FPGA_FAIL;
}
#endif
/*
* Cycle the clock and read the data
*/
(*fn->clk) (FALSE, TRUE, cookie);
(*fn->clk) (TRUE, TRUE, cookie);
(*fn->rdata) (&(data[bytecount++]), cookie);
#ifdef CFG_FPGA_PROG_FEEDBACK
if (bytecount % (bsize / 40) == 0)
putc ('.');
#endif
}
/*
* Deassert CS_B and cycle the clock to deselect the device.
*/
(*fn->cs) (FALSE, FALSE, cookie);
(*fn->clk) (FALSE, TRUE, cookie);
(*fn->clk) (TRUE, TRUE, cookie);
#ifdef CFG_FPGA_PROG_FEEDBACK
putc ('\n');
#endif
puts ("Done.\n");
} else {
printf ("%s:%d: NULL Interface function table!\n",
__FUNCTION__, __LINE__);
}
return ret_val;
}
/*
* Relocate the addresses in the function table from FLASH (or ROM,
* or whatever) to RAM.
*/
static int Virtex2_ssm_reloc (Xilinx_desc * desc, ulong reloc_offset)
{
ulong addr;
int ret_val = FPGA_FAIL;
Xilinx_Virtex2_Slave_SelectMap_fns *fn_r, *fn =
(Xilinx_Virtex2_Slave_SelectMap_fns *) (desc->iface_fns);
if (fn) {
/*
* Get the relocated table address
*/
addr = (ulong) fn + reloc_offset;
fn_r = (Xilinx_Virtex2_Slave_SelectMap_fns *) addr;
/*
* Check to see if the table has already been relocated. If not, do
* a sanity check to make sure there is a faithful copy of the
* FLASH based function table in RAM, then adjust the table.
*/
if (!fn_r->relocated) {
if (memcmp
(fn_r, fn, sizeof (Xilinx_Virtex2_Slave_SelectMap_fns))
== 0) {
desc->iface_fns = fn_r;
} else {
PRINTF ("%s:%d: Invalid function table at 0x%p\n",
__FUNCTION__, __LINE__, fn_r);
return FPGA_FAIL;
}
PRINTF ("%s:%d: Relocating descriptor at 0x%p\n",
__FUNCTION__, __LINE__, desc);
addr = (ulong) (fn->pre) + reloc_offset;
fn_r->pre = (Xilinx_pre_fn) addr;
addr = (ulong) (fn->pgm) + reloc_offset;
fn_r->pgm = (Xilinx_pgm_fn) addr;
addr = (ulong) (fn->init) + reloc_offset;
fn_r->init = (Xilinx_init_fn) addr;
addr = (ulong) (fn->done) + reloc_offset;
fn_r->done = (Xilinx_done_fn) addr;
addr = (ulong) (fn->err) + reloc_offset;
fn_r->err = (Xilinx_err_fn) addr;
addr = (ulong) (fn->clk) + reloc_offset;
fn_r->clk = (Xilinx_clk_fn) addr;
addr = (ulong) (fn->cs) + reloc_offset;
fn_r->cs = (Xilinx_cs_fn) addr;
addr = (ulong) (fn->wr) + reloc_offset;
fn_r->wr = (Xilinx_wr_fn) addr;
addr = (ulong) (fn->rdata) + reloc_offset;
fn_r->rdata = (Xilinx_rdata_fn) addr;
addr = (ulong) (fn->wdata) + reloc_offset;
fn_r->wdata = (Xilinx_wdata_fn) addr;
addr = (ulong) (fn->busy) + reloc_offset;
fn_r->busy = (Xilinx_busy_fn) addr;
addr = (ulong) (fn->abort) + reloc_offset;
fn_r->abort = (Xilinx_abort_fn) addr;
addr = (ulong) (fn->post) + reloc_offset;
fn_r->post = (Xilinx_post_fn) addr;
fn_r->relocated = TRUE;
} else {
printf ("%s:%d: Function table @0x%p has already been relocated\n", __FUNCTION__, __LINE__, fn_r);
desc->iface_fns = fn_r;
}
ret_val = FPGA_SUCCESS;
} else {
printf ("%s: NULL Interface function table!\n", __FUNCTION__);
}
return ret_val;
}
static int Virtex2_ss_load (Xilinx_desc * desc, void *buf, size_t bsize)
{
printf ("%s: Slave Serial Loading is unsupported\n", __FUNCTION__);
return FPGA_FAIL;
}
static int Virtex2_ss_dump (Xilinx_desc * desc, void *buf, size_t bsize)
{
printf ("%s: Slave Serial Dumping is unsupported\n", __FUNCTION__);
return FPGA_FAIL;
}
static int Virtex2_ss_reloc (Xilinx_desc * desc, ulong reloc_offset)
{
int ret_val = FPGA_FAIL;
Xilinx_Virtex2_Slave_Serial_fns *fn =
(Xilinx_Virtex2_Slave_Serial_fns *) (desc->iface_fns);
if (fn) {
printf ("%s:%d: Slave Serial Loading is unsupported\n",
__FUNCTION__, __LINE__);
} else {
printf ("%s:%d: NULL Interface function table!\n",
__FUNCTION__, __LINE__);
}
return ret_val;
}
#endif
/* vim: set ts=4 tw=78: */