linux/drivers/isdn/hardware/eicon/s_4bri.c
Joe Perches 475be4d85a isdn: whitespace coding style cleanup
isdn source code uses a not-current coding style.

Update the coding style used on a per-line basis
so that git diff -w shows only elided blank lines
at EOF.

Done with emacs and some scripts and some typing.

Built x86 allyesconfig.
No detected change in objdump -d or size.

Signed-off-by: Joe Perches <joe@perches.com>
2012-02-21 09:04:01 -08:00

511 lines
15 KiB
C

/*
*
Copyright (c) Eicon Networks, 2002.
*
This source file is supplied for the use with
Eicon Networks range of DIVA Server Adapters.
*
Eicon File Revision : 2.1
*
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, or (at your option)
any later version.
*
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY OF ANY KIND WHATSOEVER INCLUDING ANY
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., 675 Mass Ave, Cambridge, MA 02139, USA.
*
*/
#include "platform.h"
#include "di_defs.h"
#include "pc.h"
#include "pr_pc.h"
#include "di.h"
#include "mi_pc.h"
#include "pc_maint.h"
#include "divasync.h"
#include "pc_init.h"
#include "io.h"
#include "helpers.h"
#include "dsrv4bri.h"
#include "dsp_defs.h"
#include "sdp_hdr.h"
/*****************************************************************************/
#define MAX_XLOG_SIZE (64 * 1024)
/* --------------------------------------------------------------------------
Recovery XLOG from QBRI Card
-------------------------------------------------------------------------- */
static void qBri_cpu_trapped(PISDN_ADAPTER IoAdapter) {
byte __iomem *base;
word *Xlog;
dword regs[4], TrapID, offset, size;
Xdesc xlogDesc;
int factor = (IoAdapter->tasks == 1) ? 1 : 2;
/*
* check for trapped MIPS 46xx CPU, dump exception frame
*/
base = DIVA_OS_MEM_ATTACH_CONTROL(IoAdapter);
offset = IoAdapter->ControllerNumber * (IoAdapter->MemorySize >> factor);
TrapID = READ_DWORD(&base[0x80]);
if ((TrapID == 0x99999999) || (TrapID == 0x99999901))
{
dump_trap_frame(IoAdapter, &base[0x90]);
IoAdapter->trapped = 1;
}
regs[0] = READ_DWORD((base + offset) + 0x70);
regs[1] = READ_DWORD((base + offset) + 0x74);
regs[2] = READ_DWORD((base + offset) + 0x78);
regs[3] = READ_DWORD((base + offset) + 0x7c);
regs[0] &= IoAdapter->MemorySize - 1;
if ((regs[0] >= offset)
&& (regs[0] < offset + (IoAdapter->MemorySize >> factor) - 1))
{
if (!(Xlog = (word *)diva_os_malloc(0, MAX_XLOG_SIZE))) {
DIVA_OS_MEM_DETACH_CONTROL(IoAdapter, base);
return;
}
size = offset + (IoAdapter->MemorySize >> factor) - regs[0];
if (size > MAX_XLOG_SIZE)
size = MAX_XLOG_SIZE;
memcpy_fromio(Xlog, &base[regs[0]], size);
xlogDesc.buf = Xlog;
xlogDesc.cnt = READ_WORD(&base[regs[1] & (IoAdapter->MemorySize - 1)]);
xlogDesc.out = READ_WORD(&base[regs[2] & (IoAdapter->MemorySize - 1)]);
dump_xlog_buffer(IoAdapter, &xlogDesc);
diva_os_free(0, Xlog);
IoAdapter->trapped = 2;
}
DIVA_OS_MEM_DETACH_CONTROL(IoAdapter, base);
}
/* --------------------------------------------------------------------------
Reset QBRI Hardware
-------------------------------------------------------------------------- */
static void reset_qBri_hardware(PISDN_ADAPTER IoAdapter) {
word volatile __iomem *qBriReset;
byte volatile __iomem *qBriCntrl;
byte volatile __iomem *p;
qBriReset = (word volatile __iomem *)DIVA_OS_MEM_ATTACH_PROM(IoAdapter);
WRITE_WORD(qBriReset, READ_WORD(qBriReset) | PLX9054_SOFT_RESET);
diva_os_wait(1);
WRITE_WORD(qBriReset, READ_WORD(qBriReset) & ~PLX9054_SOFT_RESET);
diva_os_wait(1);
WRITE_WORD(qBriReset, READ_WORD(qBriReset) | PLX9054_RELOAD_EEPROM);
diva_os_wait(1);
WRITE_WORD(qBriReset, READ_WORD(qBriReset) & ~PLX9054_RELOAD_EEPROM);
diva_os_wait(1);
DIVA_OS_MEM_DETACH_PROM(IoAdapter, qBriReset);
qBriCntrl = DIVA_OS_MEM_ATTACH_CTLREG(IoAdapter);
p = &qBriCntrl[DIVA_4BRI_REVISION(IoAdapter) ? (MQ2_BREG_RISC) : (MQ_BREG_RISC)];
WRITE_DWORD(p, 0);
DIVA_OS_MEM_DETACH_CTLREG(IoAdapter, qBriCntrl);
DBG_TRC(("resetted board @ reset addr 0x%08lx", qBriReset))
DBG_TRC(("resetted board @ cntrl addr 0x%08lx", p))
}
/* --------------------------------------------------------------------------
Start Card CPU
-------------------------------------------------------------------------- */
void start_qBri_hardware(PISDN_ADAPTER IoAdapter) {
byte volatile __iomem *qBriReset;
byte volatile __iomem *p;
p = DIVA_OS_MEM_ATTACH_CTLREG(IoAdapter);
qBriReset = &p[(DIVA_4BRI_REVISION(IoAdapter)) ? (MQ2_BREG_RISC) : (MQ_BREG_RISC)];
WRITE_DWORD(qBriReset, MQ_RISC_COLD_RESET_MASK);
diva_os_wait(2);
WRITE_DWORD(qBriReset, MQ_RISC_WARM_RESET_MASK | MQ_RISC_COLD_RESET_MASK);
diva_os_wait(10);
DIVA_OS_MEM_DETACH_CTLREG(IoAdapter, p);
DBG_TRC(("started processor @ addr 0x%08lx", qBriReset))
}
/* --------------------------------------------------------------------------
Stop Card CPU
-------------------------------------------------------------------------- */
static void stop_qBri_hardware(PISDN_ADAPTER IoAdapter) {
byte volatile __iomem *p;
dword volatile __iomem *qBriReset;
dword volatile __iomem *qBriIrq;
dword volatile __iomem *qBriIsacDspReset;
int rev2 = DIVA_4BRI_REVISION(IoAdapter);
int reset_offset = rev2 ? (MQ2_BREG_RISC) : (MQ_BREG_RISC);
int irq_offset = rev2 ? (MQ2_BREG_IRQ_TEST) : (MQ_BREG_IRQ_TEST);
int hw_offset = rev2 ? (MQ2_ISAC_DSP_RESET) : (MQ_ISAC_DSP_RESET);
if (IoAdapter->ControllerNumber > 0)
return;
p = DIVA_OS_MEM_ATTACH_CTLREG(IoAdapter);
qBriReset = (dword volatile __iomem *)&p[reset_offset];
qBriIsacDspReset = (dword volatile __iomem *)&p[hw_offset];
/*
* clear interrupt line (reset Local Interrupt Test Register)
*/
WRITE_DWORD(qBriReset, 0);
WRITE_DWORD(qBriIsacDspReset, 0);
DIVA_OS_MEM_DETACH_CTLREG(IoAdapter, p);
p = DIVA_OS_MEM_ATTACH_RESET(IoAdapter);
WRITE_BYTE(&p[PLX9054_INTCSR], 0x00); /* disable PCI interrupts */
DIVA_OS_MEM_DETACH_RESET(IoAdapter, p);
p = DIVA_OS_MEM_ATTACH_CTLREG(IoAdapter);
qBriIrq = (dword volatile __iomem *)&p[irq_offset];
WRITE_DWORD(qBriIrq, MQ_IRQ_REQ_OFF);
DIVA_OS_MEM_DETACH_CTLREG(IoAdapter, p);
DBG_TRC(("stopped processor @ addr 0x%08lx", qBriReset))
}
/* --------------------------------------------------------------------------
FPGA download
-------------------------------------------------------------------------- */
#define FPGA_NAME_OFFSET 0x10
static byte *qBri_check_FPGAsrc(PISDN_ADAPTER IoAdapter, char *FileName,
dword *Length, dword *code) {
byte *File;
char *fpgaFile, *fpgaType, *fpgaDate, *fpgaTime;
dword fpgaFlen, fpgaTlen, fpgaDlen, cnt, year, i;
if (!(File = (byte *)xdiLoadFile(FileName, Length, 0))) {
return (NULL);
}
/*
* scan file until FF and put id string into buffer
*/
for (i = 0; File[i] != 0xff;)
{
if (++i >= *Length)
{
DBG_FTL(("FPGA download: start of data header not found"))
xdiFreeFile(File);
return (NULL);
}
}
*code = i++;
if ((File[i] & 0xF0) != 0x20)
{
DBG_FTL(("FPGA download: data header corrupted"))
xdiFreeFile(File);
return (NULL);
}
fpgaFlen = (dword)File[FPGA_NAME_OFFSET - 1];
if (fpgaFlen == 0)
fpgaFlen = 12;
fpgaFile = (char *)&File[FPGA_NAME_OFFSET];
fpgaTlen = (dword)fpgaFile[fpgaFlen + 2];
if (fpgaTlen == 0)
fpgaTlen = 10;
fpgaType = (char *)&fpgaFile[fpgaFlen + 3];
fpgaDlen = (dword) fpgaType[fpgaTlen + 2];
if (fpgaDlen == 0)
fpgaDlen = 11;
fpgaDate = (char *)&fpgaType[fpgaTlen + 3];
fpgaTime = (char *)&fpgaDate[fpgaDlen + 3];
cnt = (dword)(((File[i] & 0x0F) << 20) + (File[i + 1] << 12)
+ (File[i + 2] << 4) + (File[i + 3] >> 4));
if ((dword)(i + (cnt / 8)) > *Length)
{
DBG_FTL(("FPGA download: '%s' file too small (%ld < %ld)",
FileName, *Length, code + ((cnt + 7) / 8)))
xdiFreeFile(File);
return (NULL);
}
i = 0;
do
{
while ((fpgaDate[i] != '\0')
&& ((fpgaDate[i] < '0') || (fpgaDate[i] > '9')))
{
i++;
}
year = 0;
while ((fpgaDate[i] >= '0') && (fpgaDate[i] <= '9'))
year = year * 10 + (fpgaDate[i++] - '0');
} while ((year < 2000) && (fpgaDate[i] != '\0'));
switch (IoAdapter->cardType) {
case CARDTYPE_DIVASRV_B_2F_PCI:
break;
default:
if (year >= 2001) {
IoAdapter->fpga_features |= PCINIT_FPGA_PLX_ACCESS_SUPPORTED;
}
}
DBG_LOG(("FPGA[%s] file %s (%s %s) len %d",
fpgaType, fpgaFile, fpgaDate, fpgaTime, cnt))
return (File);
}
/******************************************************************************/
#define FPGA_PROG 0x0001 /* PROG enable low */
#define FPGA_BUSY 0x0002 /* BUSY high, DONE low */
#define FPGA_CS 0x000C /* Enable I/O pins */
#define FPGA_CCLK 0x0100
#define FPGA_DOUT 0x0400
#define FPGA_DIN FPGA_DOUT /* bidirectional I/O */
int qBri_FPGA_download(PISDN_ADAPTER IoAdapter) {
int bit;
byte *File;
dword code, FileLength;
word volatile __iomem *addr = (word volatile __iomem *)DIVA_OS_MEM_ATTACH_PROM(IoAdapter);
word val, baseval = FPGA_CS | FPGA_PROG;
if (DIVA_4BRI_REVISION(IoAdapter))
{
char *name;
switch (IoAdapter->cardType) {
case CARDTYPE_DIVASRV_B_2F_PCI:
name = "dsbri2f.bit";
break;
case CARDTYPE_DIVASRV_B_2M_V2_PCI:
case CARDTYPE_DIVASRV_VOICE_B_2M_V2_PCI:
name = "dsbri2m.bit";
break;
default:
name = "ds4bri2.bit";
}
File = qBri_check_FPGAsrc(IoAdapter, name,
&FileLength, &code);
}
else
{
File = qBri_check_FPGAsrc(IoAdapter, "ds4bri.bit",
&FileLength, &code);
}
if (!File) {
DIVA_OS_MEM_DETACH_PROM(IoAdapter, addr);
return (0);
}
/*
* prepare download, pulse PROGRAM pin down.
*/
WRITE_WORD(addr, baseval & ~FPGA_PROG); /* PROGRAM low pulse */
WRITE_WORD(addr, baseval); /* release */
diva_os_wait(50); /* wait until FPGA finished internal memory clear */
/*
* check done pin, must be low
*/
if (READ_WORD(addr) & FPGA_BUSY)
{
DBG_FTL(("FPGA download: acknowledge for FPGA memory clear missing"))
xdiFreeFile(File);
DIVA_OS_MEM_DETACH_PROM(IoAdapter, addr);
return (0);
}
/*
* put data onto the FPGA
*/
while (code < FileLength)
{
val = ((word)File[code++]) << 3;
for (bit = 8; bit-- > 0; val <<= 1) /* put byte onto FPGA */
{
baseval &= ~FPGA_DOUT; /* clr data bit */
baseval |= (val & FPGA_DOUT); /* copy data bit */
WRITE_WORD(addr, baseval);
WRITE_WORD(addr, baseval | FPGA_CCLK); /* set CCLK hi */
WRITE_WORD(addr, baseval | FPGA_CCLK); /* set CCLK hi */
WRITE_WORD(addr, baseval); /* set CCLK lo */
}
}
xdiFreeFile(File);
diva_os_wait(100);
val = READ_WORD(addr);
DIVA_OS_MEM_DETACH_PROM(IoAdapter, addr);
if (!(val & FPGA_BUSY))
{
DBG_FTL(("FPGA download: chip remains in busy state (0x%04x)", val))
return (0);
}
return (1);
}
static int load_qBri_hardware(PISDN_ADAPTER IoAdapter) {
return (0);
}
/* --------------------------------------------------------------------------
Card ISR
-------------------------------------------------------------------------- */
static int qBri_ISR(struct _ISDN_ADAPTER *IoAdapter) {
dword volatile __iomem *qBriIrq;
PADAPTER_LIST_ENTRY QuadroList = IoAdapter->QuadroList;
word i;
int serviced = 0;
byte __iomem *p;
p = DIVA_OS_MEM_ATTACH_RESET(IoAdapter);
if (!(READ_BYTE(&p[PLX9054_INTCSR]) & 0x80)) {
DIVA_OS_MEM_DETACH_RESET(IoAdapter, p);
return (0);
}
DIVA_OS_MEM_DETACH_RESET(IoAdapter, p);
/*
* clear interrupt line (reset Local Interrupt Test Register)
*/
p = DIVA_OS_MEM_ATTACH_CTLREG(IoAdapter);
qBriIrq = (dword volatile __iomem *)(&p[DIVA_4BRI_REVISION(IoAdapter) ? (MQ2_BREG_IRQ_TEST) : (MQ_BREG_IRQ_TEST)]);
WRITE_DWORD(qBriIrq, MQ_IRQ_REQ_OFF);
DIVA_OS_MEM_DETACH_CTLREG(IoAdapter, p);
for (i = 0; i < IoAdapter->tasks; ++i)
{
IoAdapter = QuadroList->QuadroAdapter[i];
if (IoAdapter && IoAdapter->Initialized
&& IoAdapter->tst_irq(&IoAdapter->a))
{
IoAdapter->IrqCount++;
serviced = 1;
diva_os_schedule_soft_isr(&IoAdapter->isr_soft_isr);
}
}
return (serviced);
}
/* --------------------------------------------------------------------------
Does disable the interrupt on the card
-------------------------------------------------------------------------- */
static void disable_qBri_interrupt(PISDN_ADAPTER IoAdapter) {
dword volatile __iomem *qBriIrq;
byte __iomem *p;
if (IoAdapter->ControllerNumber > 0)
return;
/*
* clear interrupt line (reset Local Interrupt Test Register)
*/
p = DIVA_OS_MEM_ATTACH_RESET(IoAdapter);
WRITE_BYTE(&p[PLX9054_INTCSR], 0x00); /* disable PCI interrupts */
DIVA_OS_MEM_DETACH_RESET(IoAdapter, p);
p = DIVA_OS_MEM_ATTACH_CTLREG(IoAdapter);
qBriIrq = (dword volatile __iomem *)(&p[DIVA_4BRI_REVISION(IoAdapter) ? (MQ2_BREG_IRQ_TEST) : (MQ_BREG_IRQ_TEST)]);
WRITE_DWORD(qBriIrq, MQ_IRQ_REQ_OFF);
DIVA_OS_MEM_DETACH_CTLREG(IoAdapter, p);
}
/* --------------------------------------------------------------------------
Install Adapter Entry Points
-------------------------------------------------------------------------- */
static void set_common_qBri_functions(PISDN_ADAPTER IoAdapter) {
ADAPTER *a;
a = &IoAdapter->a;
a->ram_in = mem_in;
a->ram_inw = mem_inw;
a->ram_in_buffer = mem_in_buffer;
a->ram_look_ahead = mem_look_ahead;
a->ram_out = mem_out;
a->ram_outw = mem_outw;
a->ram_out_buffer = mem_out_buffer;
a->ram_inc = mem_inc;
IoAdapter->out = pr_out;
IoAdapter->dpc = pr_dpc;
IoAdapter->tst_irq = scom_test_int;
IoAdapter->clr_irq = scom_clear_int;
IoAdapter->pcm = (struct pc_maint *)MIPS_MAINT_OFFS;
IoAdapter->load = load_qBri_hardware;
IoAdapter->disIrq = disable_qBri_interrupt;
IoAdapter->rstFnc = reset_qBri_hardware;
IoAdapter->stop = stop_qBri_hardware;
IoAdapter->trapFnc = qBri_cpu_trapped;
IoAdapter->diva_isr_handler = qBri_ISR;
IoAdapter->a.io = (void *)IoAdapter;
}
static void set_qBri_functions(PISDN_ADAPTER IoAdapter) {
if (!IoAdapter->tasks) {
IoAdapter->tasks = MQ_INSTANCE_COUNT;
}
IoAdapter->MemorySize = MQ_MEMORY_SIZE;
set_common_qBri_functions(IoAdapter);
diva_os_set_qBri_functions(IoAdapter);
}
static void set_qBri2_functions(PISDN_ADAPTER IoAdapter) {
if (!IoAdapter->tasks) {
IoAdapter->tasks = MQ_INSTANCE_COUNT;
}
IoAdapter->MemorySize = (IoAdapter->tasks == 1) ? BRI2_MEMORY_SIZE : MQ2_MEMORY_SIZE;
set_common_qBri_functions(IoAdapter);
diva_os_set_qBri2_functions(IoAdapter);
}
/******************************************************************************/
void prepare_qBri_functions(PISDN_ADAPTER IoAdapter) {
set_qBri_functions(IoAdapter->QuadroList->QuadroAdapter[0]);
set_qBri_functions(IoAdapter->QuadroList->QuadroAdapter[1]);
set_qBri_functions(IoAdapter->QuadroList->QuadroAdapter[2]);
set_qBri_functions(IoAdapter->QuadroList->QuadroAdapter[3]);
}
void prepare_qBri2_functions(PISDN_ADAPTER IoAdapter) {
if (!IoAdapter->tasks) {
IoAdapter->tasks = MQ_INSTANCE_COUNT;
}
set_qBri2_functions(IoAdapter->QuadroList->QuadroAdapter[0]);
if (IoAdapter->tasks > 1) {
set_qBri2_functions(IoAdapter->QuadroList->QuadroAdapter[1]);
set_qBri2_functions(IoAdapter->QuadroList->QuadroAdapter[2]);
set_qBri2_functions(IoAdapter->QuadroList->QuadroAdapter[3]);
}
}
/* -------------------------------------------------------------------------- */