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agp_generic_enable()

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git-svn-id: svn://kolibrios.org@953 a494cfbc-eb01-0410-851d-a64ba20cac60
This commit is contained in:
Sergey Semyonov (Serge) 2008-12-12 12:33:09 +00:00
parent 7923c9765d
commit 0d893d8b84
4 changed files with 506 additions and 170 deletions
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169
programs/system/drivers/agp/agp.c
View File

@ -49,6 +49,7 @@ u32_t __stdcall drvEntry(int action)
#include "pci.inc" #include "pci.inc"
#include "isoch.inc"
static void intel_8xx_tlbflush(void *mem) static void intel_8xx_tlbflush(void *mem)
{ {
@ -499,174 +500,6 @@ void agp_device_command(u32_t bridge_agpstat, int agp_v3)
} }
struct agp_3_5_dev
{
link_t link;
int capndx;
u32_t maxbw;
PCITAG tag;
};
/*
* Fully configure and enable an AGP 3.0 host bridge and all the devices
* lying behind it.
*/
int agp_3_5_enable(agp_t *bridge)
{
u8_t mcapndx;
u32_t isoch, arqsz;
u32_t tstatus, mstatus, ncapid;
u32_t mmajor;
u16_t mpstat;
link_t dev_list;
struct agp_3_5_dev *cur, *pos;
unsigned int ndevs = 0;
PCITAG dev = 0;
int ret = 0;
/* Extract some power-on defaults from the target */
tstatus = pciReadLong(bridge->PciTag, bridge->capndx+AGPSTAT);
isoch = (tstatus >> 17) & 0x1;
if (isoch == 0) /* isoch xfers not available, bail out. */
return -1;
arqsz = (tstatus >> 13) & 0x7;
list_initialize(&dev_list);
/* Find all AGP devices, and add them to dev_list. */
for_each_pci_dev(dev)
{
u16_t devclass;
mcapndx = pci_find_capability(dev, PCI_CAP_ID_AGP);
if (mcapndx == 0)
continue;
devclass = pciReadWord(dev, 0x0A);
switch (devclass & 0xff00)
{
case 0x0600: /* Bridge */
/* Skip bridges. We should call this function for each one. */
continue;
case 0x0001: /* Unclassified device */
/* Don't know what this is, but log it for investigation. */
if (mcapndx != 0) {
dbgprintf("Wacky, found unclassified AGP device.\n");
}
continue;
case 0x0300: /* Display controller */
case 0x0400: /* Multimedia controller */
if((cur = malloc(sizeof(*cur))) == NULL)
{
ret = -1;
goto free_and_exit;
}
cur->tag = dev;
list_prepend(&cur->link, &dev_list);
ndevs++;
continue;
default:
continue;
}
}
/*
* Take an initial pass through the devices lying behind our host
* bridge. Make sure each one is actually an AGP 3.0 device, otherwise
* exit with an error message. Along the way store the AGP 3.0
* cap_ptr for each device
*/
cur = (struct agp_3_5_dev*)dev_list.next;
while(&cur->link != &dev_list)
{
dev = cur->tag;
mpstat = pciReadWord(dev, PCI_STATUS);
if ((mpstat & PCI_STATUS_CAP_LIST) == 0)
continue;
mcapndx = pciReadByte(dev, PCI_CAPABILITY_LIST);
if (mcapndx != 0) {
do {
ncapid = pciReadLong(dev, mcapndx);
if ((ncapid & 0xff) != 2)
mcapndx = (ncapid >> 8) & 0xff;
}
while (((ncapid & 0xff) != 2) && (mcapndx != 0));
}
if (mcapndx == 0) {
dbgprintf("woah! Non-AGP device "
"found on the secondary bus of an AGP 3.5 bridge!\n");
ret = -1;
goto free_and_exit;
}
mmajor = (ncapid >> AGP_MAJOR_VERSION_SHIFT) & 0xf;
if (mmajor < 3) {
dbgprintf("woah! AGP 2.0 device "
"found on the secondary bus of an AGP 3.5 "
"bridge operating with AGP 3.0 electricals!\n");
ret = -1;
goto free_and_exit;
}
cur->capndx = mcapndx;
mstatus = pciReadLong(dev, cur->capndx+AGPSTAT);
if (((mstatus >> 3) & 0x1) == 0) {
dbgprintf("woah! AGP 3.x device "
"not operating in AGP 3.x mode found on the "
"secondary bus of an AGP 3.5 bridge operating "
"with AGP 3.0 electricals!\n");
ret = -1;
goto free_and_exit;
}
cur = (struct agp_3_5_dev*)cur->link.next;
}
/*
* Call functions to divide target resources amongst the AGP 3.0
* masters. This process is dramatically different depending on
* whether isochronous transfers are supported.
*/
if (isoch) {
ret = agp_3_5_isochronous_node_enable(bridge, &dev_list, ndevs);
if (ret) {
dbgprintf("Something bad happened setting "
"up isochronous xfers. Falling back to "
"non-isochronous xfer mode.\n");
} else {
goto free_and_exit;
}
}
agp_3_5_nonisochronous_node_enable(bridge, dev_list, ndevs);
free_and_exit:
/* Be sure to free the dev_list */
for (pos = (struct agp_3_5_dev*)dev_list.next; &pos->link != &dev_list; )
{
cur = pos;
pos = (struct agp_3_5_dev*)pos->link.next;
free(cur);
}
get_out:
return ret;
}
void agp_generic_enable(u32_t requested_mode) void agp_generic_enable(u32_t requested_mode)

483
programs/system/drivers/agp/isoch.inc Normal file
View File

@ -0,0 +1,483 @@
struct agp_3_5_dev
{
link_t link;
int capndx;
u32_t maxbw;
PCITAG tag;
};
static inline list_insert_tail(link_t *new, link_t *old)
{
new->prev = old;
new->next = old->next;
new->next->prev = new;
old->next = new;
}
static void agp_3_5_dev_list_insert(link_t *head, link_t *new)
{
struct agp_3_5_dev *cur, *n = (struct agp_3_5_dev*)new;
link_t *pos = head->next;
while(pos != head){
cur = (struct agp_3_5_dev*)pos;
if(cur->maxbw > n->maxbw)
break;
}
list_insert_tail(new, pos);
}
static void agp_3_5_dev_list_sort(link_t *list, unsigned int ndevs)
{
struct agp_3_5_dev *cur;
link_t *pos, *tmp, *start = list->next;
u32_t nistat;
list_initialize(list);
for (pos = start; pos != list; )
{
PCITAG tag;
cur = (struct agp_3_5_dev*)pos;
tag = cur->tag;
nistat = pciReadLong(tag, cur->capndx+AGPNISTAT);
cur->maxbw = (nistat >> 16) & 0xff;
tmp = pos;
pos = pos->next;
agp_3_5_dev_list_insert(list, tmp);
}
}
/*
* Initialize all isochronous transfer parameters for an AGP 3.0
* node (i.e. a host bridge in combination with the adapters
* lying behind it...)
*/
static int agp_3_5_isochronous_node_enable(agp_t *bridge,
link_t *dev_list, unsigned int ndevs)
{
/*
* Convenience structure to make the calculations clearer
* here. The field names come straight from the AGP 3.0 spec.
*/
struct isoch_data {
u32_t maxbw;
u32_t n;
u32_t y;
u32_t l;
u32_t rq;
struct agp_3_5_dev *dev;
};
PCITAG td = bridge->PciTag;
// struct list_head *head = &dev_list->list, *pos;
struct agp_3_5_dev *cur;
struct isoch_data *master, target;
unsigned int cdev = 0;
u32_t mnistat, tnistat, tstatus, mcmd;
u16_t tnicmd, mnicmd;
u8_t mcapndx;
u32_t tot_bw = 0, tot_n = 0, tot_rq = 0, y_max, rq_isoch, rq_async;
u32_t step, rem, rem_isoch, rem_async;
int ret = 0;
/*
* We'll work with an array of isoch_data's (one for each
* device in dev_list) throughout this function.
*/
if ((master = malloc(ndevs * sizeof(*master))) == NULL) {
ret = -1;
goto get_out;
}
/*
* Sort the device list by maxbw. We need to do this because the
* spec suggests that the devices with the smallest requirements
* have their resources allocated first, with all remaining resources
* falling to the device with the largest requirement.
*
* We don't exactly do this, we divide target resources by ndevs
* and split them amongst the AGP 3.0 devices. The remainder of such
* division operations are dropped on the last device, sort of like
* the spec mentions it should be done.
*
* We can't do this sort when we initially construct the dev_list
* because we don't know until this function whether isochronous
* transfers are enabled and consequently whether maxbw will mean
* anything.
*/
agp_3_5_dev_list_sort(dev_list, ndevs);
tnistat = pciReadLong(td, bridge->capndx+AGPNISTAT);
tstatus = pciReadLong(td, bridge->capndx+AGPSTAT);
/* Extract power-on defaults from the target */
target.maxbw = (tnistat >> 16) & 0xff;
target.n = (tnistat >> 8) & 0xff;
target.y = (tnistat >> 6) & 0x3;
target.l = (tnistat >> 3) & 0x7;
target.rq = (tstatus >> 24) & 0xff;
y_max = target.y;
/*
* Extract power-on defaults for each device in dev_list. Along
* the way, calculate the total isochronous bandwidth required
* by these devices and the largest requested payload size.
*/
link_t *pos;
for (pos = dev_list->next; pos != dev_list; pos = pos->next )
{
PCITAG dev;
cur = (struct agp_3_5_dev*)pos;
dev = cur->tag;
mcapndx = cur->capndx;
mnistat = pciReadLong(dev, cur->capndx+AGPNISTAT);
master[cdev].maxbw = (mnistat >> 16) & 0xff;
master[cdev].n = (mnistat >> 8) & 0xff;
master[cdev].y = (mnistat >> 6) & 0x3;
master[cdev].dev = cur;
tot_bw += master[cdev].maxbw;
y_max = max(y_max, master[cdev].y);
cdev++;
}
/* Check if this configuration has any chance of working */
if (tot_bw > target.maxbw) {
dbgprintf("isochronous bandwidth required "
"by AGP 3.0 devices exceeds that which is supported by "
"the AGP 3.0 bridge!\n");
ret = -1;
goto free_and_exit;
}
target.y = y_max;
/*
* Write the calculated payload size into the target's NICMD
* register. Doing this directly effects the ISOCH_N value
* in the target's NISTAT register, so we need to do this now
* to get an accurate value for ISOCH_N later.
*/
tnicmd = pciReadWord(td, bridge->capndx+AGPNICMD);
tnicmd &= ~(0x3 << 6);
tnicmd |= target.y << 6;
pciWriteWord(td, bridge->capndx+AGPNICMD, tnicmd);
/* Reread the target's ISOCH_N */
tnistat = pciReadLong(td, bridge->capndx+AGPNISTAT);
target.n = (tnistat >> 8) & 0xff;
/* Calculate the minimum ISOCH_N needed by each master */
for (cdev=0; cdev<ndevs; cdev++) {
master[cdev].y = target.y;
master[cdev].n = master[cdev].maxbw / (master[cdev].y + 1);
tot_n += master[cdev].n;
}
/* Exit if the minimal ISOCH_N allocation among the masters is more
* than the target can handle. */
if (tot_n > target.n) {
dbgprintf("number of isochronous "
"transactions per period required by AGP 3.0 devices "
"exceeds that which is supported by the AGP 3.0 "
"bridge!\n");
ret = -1;
goto free_and_exit;
}
/* Calculate left over ISOCH_N capability in the target. We'll give
* this to the hungriest device (as per the spec) */
rem = target.n - tot_n;
/*
* Calculate the minimum isochronous RQ depth needed by each master.
* Along the way, distribute the extra ISOCH_N capability calculated
* above.
*/
for (cdev=0; cdev<ndevs; cdev++) {
/*
* This is a little subtle. If ISOCH_Y > 64B, then ISOCH_Y
* byte isochronous writes will be broken into 64B pieces.
* This means we need to budget more RQ depth to account for
* these kind of writes (each isochronous write is actually
* many writes on the AGP bus).
*/
master[cdev].rq = master[cdev].n;
if(master[cdev].y > 0x1)
master[cdev].rq *= (1 << (master[cdev].y - 1));
tot_rq += master[cdev].rq;
}
master[ndevs-1].n += rem;
/* Figure the number of isochronous and asynchronous RQ slots the
* target is providing. */
rq_isoch = (target.y > 0x1) ? target.n * (1 << (target.y - 1)) : target.n;
rq_async = target.rq - rq_isoch;
/* Exit if the minimal RQ needs of the masters exceeds what the target
* can provide. */
if (tot_rq > rq_isoch) {
dbgprintf("number of request queue slots "
"required by the isochronous bandwidth requested by "
"AGP 3.0 devices exceeds the number provided by the "
"AGP 3.0 bridge!\n");
ret = -1;
goto free_and_exit;
}
/* Calculate asynchronous RQ capability in the target (per master) as
* well as the total number of leftover isochronous RQ slots. */
step = rq_async / ndevs;
rem_async = step + (rq_async % ndevs);
rem_isoch = rq_isoch - tot_rq;
/* Distribute the extra RQ slots calculated above and write our
* isochronous settings out to the actual devices. */
for (cdev=0; cdev<ndevs; cdev++)
{
PCITAG dev;
cur = master[cdev].dev;
dev = cur->tag;
mcapndx = cur->capndx;
master[cdev].rq += (cdev == ndevs - 1)
? (rem_async + rem_isoch) : step;
mnicmd = pciReadWord(dev, cur->capndx+AGPNICMD);
mcmd = pciReadLong(dev, cur->capndx+AGPCMD);
mnicmd &= ~(0xff << 8);
mnicmd &= ~(0x3 << 6);
mcmd &= ~(0xff << 24);
mnicmd |= master[cdev].n << 8;
mnicmd |= master[cdev].y << 6;
mcmd |= master[cdev].rq << 24;
pciWriteLong(dev, cur->capndx+AGPCMD, mcmd);
pciWriteWord(dev, cur->capndx+AGPNICMD, mnicmd);
}
free_and_exit:
free(master);
get_out:
return ret;
}
/*
* This function basically allocates request queue slots among the
* AGP 3.0 systems in nonisochronous nodes. The algorithm is
* pretty stupid, divide the total number of RQ slots provided by the
* target by ndevs. Distribute this many slots to each AGP 3.0 device,
* giving any left over slots to the last device in dev_list.
*/
static void agp_3_5_nonisochronous_node_enable(agp_t *bridge,
link_t *dev_list, unsigned int ndevs)
{
struct agp_3_5_dev *cur;
u32_t tstatus, mcmd;
u32_t trq, mrq, rem;
unsigned int cdev = 0;
tstatus = pciReadLong(bridge->PciTag, bridge->capndx+AGPSTAT);
trq = (tstatus >> 24) & 0xff;
mrq = trq / ndevs;
rem = mrq + (trq % ndevs);
link_t *pos;
for (pos = dev_list->next; cdev<ndevs; cdev++, pos=pos->next) {
cur = (struct agp_3_5_dev*)pos;
mcmd = pciReadLong(cur->tag, cur->capndx+AGPCMD);
mcmd &= ~(0xff << 24);
mcmd |= ((cdev == ndevs - 1) ? rem : mrq) << 24;
pciWriteLong(cur->tag, cur->capndx+AGPCMD, mcmd);
}
}
/*
* Fully configure and enable an AGP 3.0 host bridge and all the devices
* lying behind it.
*/
int agp_3_5_enable(agp_t *bridge)
{
u8_t mcapndx;
u32_t isoch, arqsz;
u32_t tstatus, mstatus, ncapid;
u32_t mmajor;
u16_t mpstat;
link_t dev_list;
struct agp_3_5_dev *cur, *pos;
unsigned int ndevs = 0;
PCITAG dev = 0;
int ret = 0;
/* Extract some power-on defaults from the target */
tstatus = pciReadLong(bridge->PciTag, bridge->capndx+AGPSTAT);
isoch = (tstatus >> 17) & 0x1;
if (isoch == 0) /* isoch xfers not available, bail out. */
return -1;
arqsz = (tstatus >> 13) & 0x7;
list_initialize(&dev_list);
/* Find all AGP devices, and add them to dev_list. */
for_each_pci_dev(dev)
{
u16_t devclass;
mcapndx = pci_find_capability(dev, PCI_CAP_ID_AGP);
if (mcapndx == 0)
continue;
devclass = pciReadWord(dev, 0x0A);
switch (devclass & 0xff00)
{
case 0x0600: /* Bridge */
/* Skip bridges. We should call this function for each one. */
continue;
case 0x0001: /* Unclassified device */
/* Don't know what this is, but log it for investigation. */
if (mcapndx != 0) {
dbgprintf("Wacky, found unclassified AGP device.\n");
}
continue;
case 0x0300: /* Display controller */
case 0x0400: /* Multimedia controller */
if((cur = malloc(sizeof(*cur))) == NULL)
{
ret = -1;
goto free_and_exit;
}
cur->tag = dev;
list_prepend(&cur->link, &dev_list);
ndevs++;
continue;
default:
continue;
}
}
/*
* Take an initial pass through the devices lying behind our host
* bridge. Make sure each one is actually an AGP 3.0 device, otherwise
* exit with an error message. Along the way store the AGP 3.0
* cap_ptr for each device
*/
cur = (struct agp_3_5_dev*)dev_list.next;
while(&cur->link != &dev_list)
{
dev = cur->tag;
mpstat = pciReadWord(dev, PCI_STATUS);
if ((mpstat & PCI_STATUS_CAP_LIST) == 0)
continue;
mcapndx = pciReadByte(dev, PCI_CAPABILITY_LIST);
if (mcapndx != 0) {
do {
ncapid = pciReadLong(dev, mcapndx);
if ((ncapid & 0xff) != 2)
mcapndx = (ncapid >> 8) & 0xff;
}
while (((ncapid & 0xff) != 2) && (mcapndx != 0));
}
if (mcapndx == 0) {
dbgprintf("woah! Non-AGP device "
"found on the secondary bus of an AGP 3.5 bridge!\n");
ret = -1;
goto free_and_exit;
}
mmajor = (ncapid >> AGP_MAJOR_VERSION_SHIFT) & 0xf;
if (mmajor < 3) {
dbgprintf("woah! AGP 2.0 device "
"found on the secondary bus of an AGP 3.5 "
"bridge operating with AGP 3.0 electricals!\n");
ret = -1;
goto free_and_exit;
}
cur->capndx = mcapndx;
mstatus = pciReadLong(dev, cur->capndx+AGPSTAT);
if (((mstatus >> 3) & 0x1) == 0) {
dbgprintf("woah! AGP 3.x device "
"not operating in AGP 3.x mode found on the "
"secondary bus of an AGP 3.5 bridge operating "
"with AGP 3.0 electricals!\n");
ret = -1;
goto free_and_exit;
}
cur = (struct agp_3_5_dev*)cur->link.next;
}
/*
* Call functions to divide target resources amongst the AGP 3.0
* masters. This process is dramatically different depending on
* whether isochronous transfers are supported.
*/
if (isoch) {
ret = agp_3_5_isochronous_node_enable(bridge, &dev_list, ndevs);
if (ret) {
dbgprintf("Something bad happened setting "
"up isochronous xfers. Falling back to "
"non-isochronous xfer mode.\n");
} else {
goto free_and_exit;
}
}
agp_3_5_nonisochronous_node_enable(bridge, &dev_list, ndevs);
free_and_exit:
/* Be sure to free the dev_list */
for (pos = (struct agp_3_5_dev*)dev_list.next; &pos->link != &dev_list; )
{
cur = pos;
pos = (struct agp_3_5_dev*)pos->link.next;
free(cur);
}
get_out:
return ret;
}

6
programs/system/drivers/agp/makefile
View File

@ -4,11 +4,13 @@ FASM = e:/fasm/fasm.exe
CFLAGS = -c -O2 -fomit-frame-pointer -fno-builtin-printf CFLAGS = -c -O2 -fomit-frame-pointer -fno-builtin-printf
LDRHD = -shared -T ld.x -s --file-alignment 32 LDRHD = -shared -T ld.x -s --file-alignment 32
HFILES:= syscall.h \ HFILES:= agp.h \
syscall.h \
pci.h \ pci.h \
SRC_DEP:= pci.inc \ SRC_DEP:= pci.inc \
detect.inc detect.inc \
isoch.inc
AGP_SRC:= agp.c AGP_SRC:= agp.c

18
programs/system/drivers/agp/types.h
View File

@ -18,6 +18,24 @@ typedef unsigned int Bool;
#define TRUE (Bool)1 #define TRUE (Bool)1
#define FALSE (Bool)0 #define FALSE (Bool)0
/*
* min()/max() macros that also do
* strict type-checking.. See the
* "unnecessary" pointer comparison.
*/
#define min(x,y) ({ \
typeof(x) _x = (x); \
typeof(y) _y = (y); \
(void) (&_x == &_y); \
_x < _y ? _x : _y; })
#define max(x,y) ({ \
typeof(x) _x = (x); \
typeof(y) _y = (y); \
(void) (&_x == &_y); \
_x > _y ? _x : _y; })
#define min_t(type,x,y) \ #define min_t(type,x,y) \
({ type __x = (x); type __y = (y); __x < __y ? __x: __y; }) ({ type __x = (x); type __y = (y); __x < __y ? __x: __y; })
#define max_t(type,x,y) \ #define max_t(type,x,y) \