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test.c
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test.c
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/******************************************************************************
* test.c
*
* Test code for all the various frontends; split from kernel.c
*
* Copyright (c) 2002-2003, K A Fraser & R Neugebauer
* Copyright (c) 2005, Grzegorz Milos, Intel Research Cambridge
* Copyright (c) 2006, Robert Kaiser, FH Wiesbaden
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to
* deal in the Software without restriction, including without limitation the
* rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
* sell copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
* DEALINGS IN THE SOFTWARE.
*/
#include <mini-os/os.h>
#include <mini-os/hypervisor.h>
#include <mini-os/mm.h>
#include <mini-os/events.h>
#include <mini-os/time.h>
#include <mini-os/types.h>
#include <mini-os/lib.h>
#include <mini-os/sched.h>
#include <mini-os/xenbus.h>
#include <mini-os/gnttab.h>
#include <mini-os/netfront.h>
#include <mini-os/blkfront.h>
#include <mini-os/fbfront.h>
#include <mini-os/pcifront.h>
#include <mini-os/xmalloc.h>
#include <fcntl.h>
#include <xen/features.h>
#include <xen/version.h>
#ifdef CONFIG_XENBUS
static unsigned int do_shutdown = 0;
static unsigned int shutdown_reason;
static DECLARE_WAIT_QUEUE_HEAD(shutdown_queue);
#endif
#ifdef CONFIG_XENBUS
void test_xenbus(void);
static void xenbus_tester(void *p)
{
printk("Xenbus tests disabled, because of a Xend bug.\n");
/* test_xenbus(); */
}
#endif
static void periodic_thread(void *p)
{
struct timeval tv;
printk("Periodic thread started.\n");
for(;;)
{
gettimeofday(&tv, NULL);
printk("T(s=%ld us=%ld)\n", tv.tv_sec, tv.tv_usec);
msleep(1000);
}
}
#ifdef CONFIG_NETFRONT
static struct netfront_dev *net_dev;
static struct semaphore net_sem = __SEMAPHORE_INITIALIZER(net_sem, 0);
static void netfront_thread(void *p)
{
net_dev = init_netfront(NULL, NULL, NULL, NULL);
up(&net_sem);
}
#endif
#ifdef CONFIG_BLKFRONT
static struct blkfront_dev *blk_dev;
static struct blkfront_info blk_info;
static uint64_t blk_size_read;
static uint64_t blk_size_write;
static struct semaphore blk_sem = __SEMAPHORE_INITIALIZER(blk_sem, 0);;
struct blk_req {
struct blkfront_aiocb aiocb;
int rand_value;
struct blk_req *next;
};
#ifdef BLKTEST_WRITE
static struct blk_req *blk_to_read;
#endif
static struct blk_req *blk_alloc_req(uint64_t sector)
{
struct blk_req *req = xmalloc(struct blk_req);
req->aiocb.aio_dev = blk_dev;
req->aiocb.aio_buf = _xmalloc(blk_info.sector_size, blk_info.sector_size);
req->aiocb.aio_nbytes = blk_info.sector_size;
req->aiocb.aio_offset = sector * blk_info.sector_size;
req->aiocb.data = req;
req->next = NULL;
return req;
}
static void blk_read_completed(struct blkfront_aiocb *aiocb, int ret)
{
struct blk_req *req = aiocb->data;
if (ret)
printk("got error code %d when reading at offset %ld\n", ret, aiocb->aio_offset);
else
blk_size_read += blk_info.sector_size;
free(aiocb->aio_buf);
free(req);
}
static void blk_read_sector(uint64_t sector)
{
struct blk_req *req;
req = blk_alloc_req(sector);
req->aiocb.aio_cb = blk_read_completed;
blkfront_aio_read(&req->aiocb);
}
#ifdef BLKTEST_WRITE
static void blk_write_read_completed(struct blkfront_aiocb *aiocb, int ret)
{
struct blk_req *req = aiocb->data;
int rand_value;
int i;
int *buf;
if (ret) {
printk("got error code %d when reading back at offset %ld\n", ret, aiocb->aio_offset);
free(aiocb->aio_buf);
free(req);
return;
}
blk_size_read += blk_info.sector_size;
buf = (int*) aiocb->aio_buf;
rand_value = req->rand_value;
for (i = 0; i < blk_info.sector_size / sizeof(int); i++) {
if (buf[i] != rand_value) {
printk("bogus data at offset %ld\n", aiocb->aio_offset + i);
break;
}
rand_value *= RAND_MIX;
}
free(aiocb->aio_buf);
free(req);
}
static void blk_write_completed(struct blkfront_aiocb *aiocb, int ret)
{
struct blk_req *req = aiocb->data;
if (ret) {
printk("got error code %d when writing at offset %ld\n", ret, aiocb->aio_offset);
free(aiocb->aio_buf);
free(req);
return;
}
blk_size_write += blk_info.sector_size;
/* Push write check */
req->next = blk_to_read;
blk_to_read = req;
}
static void blk_write_sector(uint64_t sector)
{
struct blk_req *req;
int rand_value;
int i;
int *buf;
req = blk_alloc_req(sector);
req->aiocb.aio_cb = blk_write_completed;
req->rand_value = rand_value = rand();
buf = (int*) req->aiocb.aio_buf;
for (i = 0; i < blk_info.sector_size / sizeof(int); i++) {
buf[i] = rand_value;
rand_value *= RAND_MIX;
}
blkfront_aio_write(&req->aiocb);
}
#endif
static void blkfront_thread(void *p)
{
time_t lasttime = 0;
blk_dev = init_blkfront(NULL, &blk_info);
if (!blk_dev) {
up(&blk_sem);
return;
}
if (blk_info.info & VDISK_CDROM)
printk("Block device is a CDROM\n");
if (blk_info.info & VDISK_REMOVABLE)
printk("Block device is removable\n");
if (blk_info.info & VDISK_READONLY)
printk("Block device is read-only\n");
#ifdef BLKTEST_WRITE
if (blk_info.mode == O_RDWR) {
blk_write_sector(0);
blk_write_sector(blk_info.sectors-1);
} else
#endif
{
blk_read_sector(0);
blk_read_sector(blk_info.sectors-1);
}
while (!do_shutdown) {
uint64_t sector = rand() % blk_info.sectors;
struct timeval tv;
#ifdef BLKTEST_WRITE
if (blk_info.mode == O_RDWR)
blk_write_sector(sector);
else
#endif
blk_read_sector(sector);
blkfront_aio_poll(blk_dev);
gettimeofday(&tv, NULL);
if (tv.tv_sec > lasttime + 10) {
printk("%llu read, %llu write\n", blk_size_read, blk_size_write);
lasttime = tv.tv_sec;
}
#ifdef BLKTEST_WRITE
while (blk_to_read) {
struct blk_req *req = blk_to_read;
blk_to_read = blk_to_read->next;
req->aiocb.aio_cb = blk_write_read_completed;
blkfront_aio_read(&req->aiocb);
}
#endif
}
up(&blk_sem);
}
#endif
#if defined(CONFIG_FBFRONT) && defined(CONFIG_KBDFRONT)
#define WIDTH 800
#define HEIGHT 600
#define DEPTH 32
static uint32_t *fb;
static int refresh_period = 50;
static struct fbfront_dev *fb_dev;
static struct semaphore fbfront_sem = __SEMAPHORE_INITIALIZER(fbfront_sem, 0);
static void fbfront_drawvert(int x, int y1, int y2, uint32_t color)
{
int y;
if (x < 0)
return;
if (x >= WIDTH)
return;
if (y1 < 0)
y1 = 0;
if (y2 >= HEIGHT)
y2 = HEIGHT-1;
for (y = y1; y <= y2; y++)
fb[x + y*WIDTH] ^= color;
}
static void fbfront_drawhoriz(int x1, int x2, int y, uint32_t color)
{
int x;
if (y < 0)
return;
if (y >= HEIGHT)
return;
if (x1 < 0)
x1 = 0;
if (x2 >= WIDTH)
x2 = WIDTH-1;
for (x = x1; x <= x2; x++)
fb[x + y*WIDTH] ^= color;
}
static void fbfront_thread(void *p)
{
size_t line_length = WIDTH * (DEPTH / 8);
size_t memsize = HEIGHT * line_length;
unsigned long *mfns;
int i, n = (memsize + PAGE_SIZE-1) / PAGE_SIZE;
memsize = n * PAGE_SIZE;
fb = _xmalloc(memsize, PAGE_SIZE);
memset(fb, 0, memsize);
mfns = xmalloc_array(unsigned long, n);
for (i = 0; i < n; i++)
mfns[i] = virtual_to_mfn((char *) fb + i * PAGE_SIZE);
fb_dev = init_fbfront(NULL, mfns, WIDTH, HEIGHT, DEPTH, line_length, n);
xfree(mfns);
if (!fb_dev) {
xfree(fb);
}
up(&fbfront_sem);
}
static void clip_cursor(int *x, int *y)
{
if (*x < 0)
*x = 0;
if (*x >= WIDTH)
*x = WIDTH - 1;
if (*y < 0)
*y = 0;
if (*y >= HEIGHT)
*y = HEIGHT - 1;
}
static void refresh_cursor(int new_x, int new_y)
{
static int old_x = -1, old_y = -1;
if (!refresh_period)
return;
if (old_x != -1 && old_y != -1) {
fbfront_drawvert(old_x, old_y + 1, old_y + 8, 0xffffffff);
fbfront_drawhoriz(old_x + 1, old_x + 8, old_y, 0xffffffff);
fbfront_update(fb_dev, old_x, old_y, 9, 9);
}
old_x = new_x;
old_y = new_y;
fbfront_drawvert(new_x, new_y + 1, new_y + 8, 0xffffffff);
fbfront_drawhoriz(new_x + 1, new_x + 8, new_y, 0xffffffff);
fbfront_update(fb_dev, new_x, new_y, 9, 9);
}
static struct kbdfront_dev *kbd_dev;
static struct semaphore kbd_sem = __SEMAPHORE_INITIALIZER(kbd_sem, 0);
static void kbdfront_thread(void *p)
{
DEFINE_WAIT(w);
DEFINE_WAIT(w2);
DEFINE_WAIT(w3);
int x = WIDTH / 2, y = HEIGHT / 2, z = 0;
kbd_dev = init_kbdfront(NULL, 1);
down(&fbfront_sem);
if (!kbd_dev) {
up(&kbd_sem);
return;
}
refresh_cursor(x, y);
while (1) {
union xenkbd_in_event kbdevent;
union xenfb_in_event fbevent;
int sleep = 1;
add_waiter(w, kbdfront_queue);
add_waiter(w2, fbfront_queue);
add_waiter(w3, shutdown_queue);
rmb();
if (do_shutdown)
break;
while (kbdfront_receive(kbd_dev, &kbdevent, 1) != 0) {
sleep = 0;
switch(kbdevent.type) {
case XENKBD_TYPE_MOTION:
printk("motion x:%d y:%d z:%d\n",
kbdevent.motion.rel_x,
kbdevent.motion.rel_y,
kbdevent.motion.rel_z);
x += kbdevent.motion.rel_x;
y += kbdevent.motion.rel_y;
z += kbdevent.motion.rel_z;
clip_cursor(&x, &y);
refresh_cursor(x, y);
break;
case XENKBD_TYPE_POS:
printk("pos x:%d y:%d dz:%d\n",
kbdevent.pos.abs_x,
kbdevent.pos.abs_y,
kbdevent.pos.rel_z);
x = kbdevent.pos.abs_x;
y = kbdevent.pos.abs_y;
z = kbdevent.pos.rel_z;
clip_cursor(&x, &y);
refresh_cursor(x, y);
break;
case XENKBD_TYPE_KEY:
printk("key %d %s\n",
kbdevent.key.keycode,
kbdevent.key.pressed ? "pressed" : "released");
if (kbdevent.key.keycode == BTN_LEFT) {
printk("mouse %s at (%d,%d,%d)\n",
kbdevent.key.pressed ? "clic" : "release", x, y, z);
if (kbdevent.key.pressed) {
uint32_t color = rand();
fbfront_drawvert(x - 16, y - 16, y + 15, color);
fbfront_drawhoriz(x - 16, x + 15, y + 16, color);
fbfront_drawvert(x + 16, y - 15, y + 16, color);
fbfront_drawhoriz(x - 15, x + 16, y - 16, color);
fbfront_update(fb_dev, x - 16, y - 16, 33, 33);
}
} else if (kbdevent.key.keycode == KEY_Q) {
shutdown_reason = SHUTDOWN_poweroff;
wmb();
do_shutdown = 1;
wmb();
wake_up(&shutdown_queue);
}
break;
}
}
while (fbfront_receive(fb_dev, &fbevent, 1) != 0) {
sleep = 0;
switch(fbevent.type) {
case XENFB_TYPE_REFRESH_PERIOD:
refresh_period = fbevent.refresh_period.period;
printk("refresh period %d\n", refresh_period);
refresh_cursor(x, y);
break;
}
}
if (sleep)
schedule();
remove_waiter(w3, shutdown_queue);
remove_waiter(w2, fbfront_queue);
remove_waiter(w, kbdfront_queue);
}
up(&kbd_sem);
}
#endif
#ifdef CONFIG_PCIFRONT
static struct pcifront_dev *pci_dev;
static struct semaphore pci_sem = __SEMAPHORE_INITIALIZER(pci_sem, 0);
static void print_pcidev(unsigned int domain, unsigned int bus, unsigned int slot, unsigned int fun)
{
unsigned int vendor, device, rev, class;
pcifront_conf_read(pci_dev, domain, bus, slot, fun, 0x00, 2, &vendor);
pcifront_conf_read(pci_dev, domain, bus, slot, fun, 0x02, 2, &device);
pcifront_conf_read(pci_dev, domain, bus, slot, fun, 0x08, 1, &rev);
pcifront_conf_read(pci_dev, domain, bus, slot, fun, 0x0a, 2, &class);
printk("%04x:%02x:%02x.%02x %04x: %04x:%04x (rev %02x)\n", domain, bus, slot, fun, class, vendor, device, rev);
}
static void pcifront_thread(void *p)
{
pcifront_watches(NULL);
pci_dev = init_pcifront(NULL);
if (!pci_dev) {
up(&pci_sem);
return;
}
printk("PCI devices:\n");
pcifront_scan(pci_dev, print_pcidev);
up(&pci_sem);
}
#endif
void shutdown_frontends(void)
{
#ifdef CONFIG_NETFRONT
down(&net_sem);
if (net_dev)
shutdown_netfront(net_dev);
#endif
#ifdef CONFIG_BLKFRONT
down(&blk_sem);
if (blk_dev)
shutdown_blkfront(blk_dev);
#endif
#if defined(CONFIG_FBFRONT) && defined(CONFIG_KBDFRONT)
if (fb_dev)
shutdown_fbfront(fb_dev);
down(&kbd_sem);
if (kbd_dev)
shutdown_kbdfront(kbd_dev);
#endif
#ifdef CONFIG_PCIFRONT
down(&pci_sem);
if (pci_dev)
shutdown_pcifront(pci_dev);
#endif
}
#ifdef CONFIG_XENBUS
void app_shutdown(unsigned reason)
{
shutdown_reason = reason;
wmb();
do_shutdown = 1;
wmb();
wake_up(&shutdown_queue);
}
static void shutdown_thread(void *p)
{
DEFINE_WAIT(w);
while (1) {
add_waiter(w, shutdown_queue);
rmb();
if (do_shutdown) {
rmb();
break;
}
schedule();
remove_waiter(w, shutdown_queue);
}
shutdown_frontends();
HYPERVISOR_shutdown(shutdown_reason);
}
#endif
int app_main(start_info_t *si)
{
printk("Test main: start_info=%p\n", si);
#ifdef CONFIG_XENBUS
create_thread("xenbus_tester", xenbus_tester, si);
#endif
create_thread("periodic_thread", periodic_thread, si);
#ifdef CONFIG_NETFRONT
create_thread("netfront", netfront_thread, si);
#endif
#ifdef CONFIG_BLKFRONT
create_thread("blkfront", blkfront_thread, si);
#endif
#if defined(CONFIG_FBFRONT) && defined(CONFIG_KBDFRONT)
create_thread("fbfront", fbfront_thread, si);
create_thread("kbdfront", kbdfront_thread, si);
#endif
#ifdef CONFIG_PCIFRONT
create_thread("pcifront", pcifront_thread, si);
#endif
#ifdef CONFIG_XENBUS
create_thread("shutdown", shutdown_thread, si);
#endif
return 0;
}