usbhw.c
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#include <os_bb.h>
#include <osint.h>
#include <bbint.h>
#include <bcp.h>
#include <arcusb.h>
#include "host.h"
#include "device.h"
#include <assert.h>
/*
* Pointers to state structures required by ARC API code
*/
_usb_host_handle __osArcHostHandle[OS_USB_MAX_CONTROLLERS];
static _usb_device_handle __osArcDeviceHandle[OS_USB_MAX_CONTROLLERS];
/*
* State structure per controller
*/
_usb_ctlr_state_t _usb_ctlr_state[OS_USB_MAX_CONTROLLERS] = {
{ UCS_MODE_IDLE, UCS_MODE_HOST|UCS_MODE_DEVICE },
{ UCS_MODE_IDLE, UCS_MODE_HOST|UCS_MODE_DEVICE }
};
static void __usbDeviceMode(s32);
static void __usbHostMode(s32);
static void __usbOtgStateChange(s32);
/*
* Routines that access the BCP USB Interface (UI)
*/
/*
* Interrupt masking for mutual exclusion.
*
* These routines need to be nestable since the ARC
* code nests them.
*/
static OSIntMask save_im;
static int save_im_level = 0;
void
__usb_splhigh(void)
{
OSIntMask im;
/* heavy handed for now */
im = __osDisableInt();
if (save_im_level++ == 0)
save_im = im;
}
void
__usb_splx(void)
{
if (--save_im_level == 0)
(void)__osRestoreInt(save_im);
}
/*
* Handle Device Interrupt
*/
s32
__usbDevInterrupt(s32 which)
{
extern void _usb_host_state_machine(_usb_host_handle);
extern void _usb_device_state_machine(_usb_device_handle);
u32 val, mask;
/*
* Check OTG interrupts
*/
val = IO_READ(USB_REG_ADDR(which, USB0_OTG_INT_STAT_REG));
mask = IO_READ(USB_REG_ADDR(which, USB0_OTG_INT_EN_REG));
val &= mask;
if (val != 0) {
if ((val & OTG_INT_STATUS_A_VBUS) != 0) {
PRINTF("OTG_INT: A_VBUS\n");
__usbOtgStateChange(which);
}
if ((val & OTG_INT_STATUS_B_SESS) != 0) {
PRINTF("OTG_INT: B_SESS\n");
__usbOtgStateChange(which);
}
if ((val & OTG_INT_STATUS_SESS_VLD) != 0) {
PRINTF("OTG_INT: SESS_VLD\n");
__usbOtgStateChange(which);
}
if ((val & OTG_INT_STATUS_LINE_STATE_CHANGE) != 0) {
PRINTF("OTG_INT: LINE_STATE_CHANGE\n");
__usbOtgStateChange(which);
}
if ((val & OTG_INT_STATUS_1_MSEC) != 0) {
static int msec_count = 0;
PRINTF("OTG_INT: 1_MSEC\n");
/* after the first few, disable them XXX */
if (++msec_count > 4)
IO_WRITE(USB_REG_ADDR(which, USB0_OTG_INT_EN_REG), 0xae);
}
if ((val & OTG_INT_STATUS_ID) != 0) {
PRINTF("OTG_INT: ID_CHG\n");
__usbOtgStateChange(which);
}
/* Clear the interrupts in HW */
IO_WRITE(USB_REG_ADDR(which, USB0_OTG_INT_STAT_REG), val);
}
/*
* Now process normal host and device interrupts
*/
val = IO_READ(USB_REG_ADDR(which, USB0_INT_STAT_REG));
mask = IO_READ(USB_REG_ADDR(which, USB0_INT_ENB_REG));
val &= mask;
if (_usb_ctlr_state[which].ucs_mode == UCS_MODE_HOST) {
#ifdef USB_HOST
_usb_hci_vusb11_isr(__osArcHostHandle[which]);
_usb_host_state_machine(__osArcHostHandle[which]);
#endif /* USB_HOST */
} else if (_usb_ctlr_state[which].ucs_mode == UCS_MODE_DEVICE) {
_usb_dci_vusb11_isr(__osArcDeviceHandle[which]);
//_usb_device_state_machine(__osArcDeviceHandle[which]);
}
/*
* After interrupts have been handled, unmask the MI EINTR level
*/
IO_WRITE(MI_INTR_EMASK_REG,
(which ? MI_INTR_MASK_SET_USB1 : MI_INTR_MASK_SET_USB0));
return(0);
}
/*
* Read from Device
*/
void
__usbDevRead(_usb_ext_handle *uhp)
{
#ifdef USB_HOST
HOST_GLOBAL_STRUCT_PTR hgp = &host_global_struct[uhp->uh_which];
_usb_host_handle handle = __osArcHostHandle[uhp->uh_which];
if (hgp->curhandle != NULL) {
PRINTF("--usbDevRead curhandle already set\n");
return;
}
hgp->curhandle = uhp;
hgp->driver->funcs->recv(handle, uhp->uh_rd_buffer,
uhp->uh_rd_len, uhp->uh_rd_offset);
return;
#endif /* USB_HOST */
}
/*
* Write to Device
*/
void
__usbDevWrite(_usb_ext_handle *uhp)
{
#ifdef USB_HOST
HOST_GLOBAL_STRUCT_PTR hgp = &host_global_struct[uhp->uh_which];
_usb_host_handle handle = __osArcHostHandle[uhp->uh_which];
if (hgp->curhandle != NULL) {
PRINTF("--usbDevWrite curhandle already set\n");
return;
}
hgp->curhandle = uhp;
hgp->driver->funcs->send(handle, uhp->uh_wr_buffer,
uhp->uh_wr_len, uhp->uh_wr_offset);
return;
#endif /* USB_HOST */
}
#ifdef USB_MEMTEST
/*
* Simpleminded memory test
*/
static void
__usbMemTest(u32 *addr, s32 size, u32 pattern)
{
int i, j;
PRINTF("__usbMemTest 0x%x %d 0x%x\n", (int)addr, size, pattern);
/*
* Note that the BDT only support 4 byte aligned writes,
* so all transactions are in 32 bit words.
*
* Convert size from bytes to 32 bit words
*/
assert(((u32)addr & 0x3) == 0);
assert((size & 0x3) == 0);
size >>= 2;
for (i = 0; i < size; i++) {
IO_WRITE(addr+i, 0);
}
/*
* For each memory position, slam the value in and then
* verify that no other locations were corrupted.
*
* XXX if we keep this, then replace assert with something real
*/
for (i = 0; i < size; i++) {
IO_WRITE(addr+i, pattern);
if (pattern != IO_READ(addr+i)) {
PRINTF("__usbMemTest 0x%x should be 0x%x, is 0x%x\n", addr+i, pattern, IO_READ(addr+i));
}
for (j = 0; j < size; j++) {
if (j != i) {
if (0 != IO_READ(addr+j)) {
PRINTF("__usbMemTest 0x%x should be 0, is 0x%x\n", addr+j, IO_READ(addr+j));
}
}
}
IO_WRITE(addr+i, 0);
}
}
#endif /* USB_MEMTEST */
/*
* Run a basic sanity test on the hardware
*/
static void
__usbCtlrTest(s32 which)
{
#ifdef USB_MEMTEST
u32 val;
/*
* XXX if we keep this, then replace assert with something real
*/
val = IO_READ(USB_REG_ADDR(which, USB0_PER_ID_REG));
PRINTF("__usbCtlrTest %d: PER_ID_REG value 0x%x\n", which, val);
assert(val == 0x4);
val = IO_READ(USB_REG_ADDR(which, USB0_ID_COMP_REG));
PRINTF("__usbCtlrTest %d: ID_COMP_REG value 0x%x\n", which, val);
assert(val == 0xfb);
val = IO_READ(USB_REG_ADDR(which, USB0_REV_REG));
PRINTF("__usbCtlrTest %d: REV_REG value 0x%x\n", which, val);
val = IO_READ(USB_REG_ADDR(which, USB0_ADD_INFO_REG));
PRINTF("__usbCtlrTest %d: ADD_INFO_REG value 0x%x\n", which, val);
assert((val & 0x1) == 0x1);
/*
* Run a minimal memory test on the BDT SRAM at least checking
* for "stuck ats"
*/
__usbMemTest((u32 *)USB_BDT_BASE(which), USB_BDT_SIZE, 0xa5a5a5a5);
__usbMemTest((u32 *)USB_BDT_BASE(which), USB_BDT_SIZE, 0x5a5a5a5a);
#endif /* USB_MEMTEST */
}
/*
* Called at startup for USB1 and whenever USB0 is put into Host mode
*/
static void
__usbHostMode(s32 which)
{
#ifdef USB_HOST
extern void __usb_arc_host_setup(s32, _usb_host_handle *);
/*
* Set the configuration for Host Mode using the
* OTG CTL register for pullup/pulldown signalling,
* as opposed to the normal CTL register.
*/
IO_WRITE(USB_REG_ADDR(which, USB0_OTG_CTRL_REG),
OTG_CTL_OTG_ENABLE|
OTG_CTL_VBUS_ON|
OTG_CTL_DM_LOW|
OTG_CTL_DP_LOW);
/*
* Use ARC initialization code for now
*/
__usb_arc_host_setup(which, &__osArcHostHandle[which]);
/* Unmask OTG interrupts */
IO_WRITE(USB_REG_ADDR(which, USB0_OTG_INT_EN_REG), 0xff);
/* Unmask the USB interrupt to the MIPS cpu */
IO_WRITE(MI_INTR_EMASK_REG,
(which ? MI_INTR_MASK_SET_USB1 : MI_INTR_MASK_SET_USB0));
#endif /* USB_HOST */
}
/*
* Called whenever USB0 is put into Device mode
*/
static void
__usbDeviceMode(s32 which)
{
extern void __usb_arc_device_setup(s32, _usb_device_handle *);
__usb_arc_device_setup(which, &__osArcDeviceHandle[which]);
/*
* Release Pull Ups on both D+ and D- momentarily, so that
* the host will get a detach and reattach if the
* device is reset without losing power. This allows
* osBbUsbInit to be called a second time and have the
* host get a detach/reattach sequence.
*/
IO_WRITE(USB_REG_ADDR(which, USB0_OTG_CTRL_REG),
OTG_CTL_OTG_ENABLE);
/* wait for the host to notice */
__osBbDelay(1000);
/* Use OTG CTL for pullup/pulldown signalling and set Full Speed */
if (which) {
/*
* For USB1 in device mode pull down on both
* D+ and D- in order to work around a problem
* with the circuit. This change gets the
* voltages in the proper ranges without having
* to update the board.
*/
IO_WRITE(USB_REG_ADDR(which, USB0_OTG_CTRL_REG),
OTG_CTL_OTG_ENABLE|OTG_CTL_DP_HIGH|OTG_CTL_DP_LOW|
OTG_CTL_DM_LOW);
} else {
IO_WRITE(USB_REG_ADDR(which, USB0_OTG_CTRL_REG),
OTG_CTL_OTG_ENABLE|OTG_CTL_DP_HIGH);
}
/* wait for things to settle */
__osBbDelay(500);
/* Unmask OTG interrupts */
IO_WRITE(USB_REG_ADDR(which, USB0_OTG_INT_EN_REG), 0xff);
/* Unmask the USB interrupt to the MIPS cpu */
IO_WRITE(MI_INTR_EMASK_REG,
(which ? MI_INTR_MASK_SET_USB1 : MI_INTR_MASK_SET_USB0));
}
/*
* Recheck OTG state on significant interrupts
*/
static void
__usbOtgStateChange(s32 which)
{
u32 val;
val = IO_READ(USB_REG_ADDR(which, USB0_OTG_STATUS_REG));
PRINTF("__usbOtgState %d: OTG_STAT 0x%x OTG_ID %s\n", which, val,
((val & OTG_STAT_ID_VLD) == 0) ? "host" : "device/none");
/*
* If the controller is disabled, do nothing
*/
if (_usb_ctlr_state[which].ucs_mask == 0) {
_usb_ctlr_state[which].ucs_mode = UCS_MODE_IDLE;
return;
}
/*
* USB1 can be either host or device depending on whether it
* is connected through the breakout box or the special
* iQue-At-Home cable.
*
* Hardwire device mode for now. Need to implement heuristic
* determination (try device mode first and then try host if
* no host enumerates us within a reasonable time) if we
* ever really support host mode on USB1.
*/
if (which) {
if ((_usb_ctlr_state[which].ucs_mask & UCS_MODE_DEVICE) &&
(_usb_ctlr_state[which].ucs_mode != UCS_MODE_DEVICE)) {
_usb_ctlr_state[which].ucs_mode = UCS_MODE_DEVICE;
__usbDeviceMode(which);
}
return;
}
/*
* USB0 uses the ID bit in the OTG_STAT register to tell
* which type of connector is inserted (mini-A or mini-B)
* and chooses to be a Host or Device as appropriate.
*/
if ((val & OTG_STAT_ID_VLD) == 0) {
/*
* A mini-A connector is already inserted, so initialize
* for host mode if that is allowed.
*/
if ((_usb_ctlr_state[which].ucs_mask & UCS_MODE_HOST) &&
(_usb_ctlr_state[which].ucs_mode != UCS_MODE_HOST)) {
_usb_ctlr_state[which].ucs_mode = UCS_MODE_HOST;
__usbHostMode(which);
}
return;
}
if ((_usb_ctlr_state[which].ucs_mask & UCS_MODE_DEVICE) &&
(_usb_ctlr_state[which].ucs_mode != UCS_MODE_DEVICE)) {
_usb_ctlr_state[which].ucs_mode = UCS_MODE_DEVICE;
__usbDeviceMode(which);
}
}
/*
* Keep track of number of USB resets since the last osBbUsbInit
*/
u32 __Usb_Reset_Count[OS_USB_MAX_CONTROLLERS];
u32
osBbUsbGetResetCount(s32 which)
{
return __Usb_Reset_Count[which];
}
/*
* Initialize one USB controller
*/
static void
__usbCtlrInit(s32 which)
{
u32 addr = USB_BDT_BASE(which);
PRINTF("__usbCtlrInit %d, bdt 0x%x\n", which, (int)addr);
/*
* Common hardware initialization for both host and device modes.
* Make sure device is quiesced before proceeding.
*/
/* Mask the USB interrupt to the MIPS cpu */
IO_WRITE(MI_INTR_EMASK_REG,
(which ? MI_INTR_MASK_CLR_USB1 : MI_INTR_MASK_CLR_USB0));
/* Disable the VUSB */
IO_WRITE(USB_REG_ADDR(which, USB0_CTL_REG), 0x00);
/* Mask all interrupts and errors */
IO_WRITE(USB_REG_ADDR(which, USB0_OTG_INT_EN_REG), 0x00);
IO_WRITE(USB_REG_ADDR(which, USB0_ERR_ENB_REG), 0x00);
IO_WRITE(USB_REG_ADDR(which, USB0_INT_ENB_REG), 0x00);
/* Clear all interrupts and errors */
IO_WRITE(USB_REG_ADDR(which, USB0_OTG_INT_STAT_REG), 0xff);
IO_WRITE(USB_REG_ADDR(which, USB0_ERR_STAT_REG), 0xff);
IO_WRITE(USB_REG_ADDR(which, USB0_INT_STAT_REG), 0xff);
/* Reset BDT bank */
IO_WRITE(USB_REG_ADDR(which, USB0_CTL_REG), VUSB_CTRL_ODD_RST);
/* Clear address reg */
IO_WRITE(USB_REG_ADDR(which, USB0_ADDR_REG), 0x00);
/*
* Set BDT pointer registers
*/
IO_WRITE(USB_REG_ADDR(which, USB0_BDT_PAGE_01_REG), (addr>>8) & 0xff);
IO_WRITE(USB_REG_ADDR(which, USB0_BDT_PAGE_02_REG), (addr>>16) & 0xff);
IO_WRITE(USB_REG_ADDR(which, USB0_BDT_PAGE_03_REG), (addr>>24) & 0xff);
/*
* BBPLAYER does not support full OTG operation
*
* USB0 can be either Host or Device (mini-AB connector).
* This is the connector on the BB itself.
*
* On USB0, SRP and HNP are not supported. Mode is
* determined by the ID bit in the OTG_STAT register and
* an ID_CHG interrupt is generated by hardware on state
* change.
*
* USB1 can also be either Device or Host, but there
* is nothing wired to the ID bit. This port is externalized
* either through the breakout box (in which case it is
* a host) or the special BB-to-PC iQue-At-Home cable
* (in which case it is a device). There is no way in
* software to distinguish these two cases. If we ever
* reach the point of supporting a USB device on the breakout
* box, we'll need to play a heuristic game: try to be a
* device and if no host is there to enumerate us, then
* try being a host.
*
* Execute the code to determine OTG state.
*/
__usbOtgStateChange(which);
__Usb_Reset_Count[which] = 0;
}
/*
* Initialize the two ARC USB cores
*/
s32
__usbHwInit()
{
s32 i;
PRINTF("__usbHwInit\n");
/*
* The USB Access Control register must be set to allow
* insecure access.
*/
PRINTF("__usbHwInit: set USB Secure Mode OFF\n");
IO_WRITE(USB0_SECURE_MODE_REG, USB_SECURE_MODE_OFF);
IO_WRITE(USB1_SECURE_MODE_REG, USB_SECURE_MODE_OFF);
/*
* Just assume the devices are there, but
* run tests to check that things are sane
*/
for (i = 0; i < OS_USB_MAX_CONTROLLERS; i++) {
__usbCtlrTest(i);
__usbCtlrInit(i);
}
return(i);
}