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mirror of git://projects.qi-hardware.com/iris.git synced 2024-12-29 04:07:45 +02:00

working device swapping

This commit is contained in:
Bas Wijnen 2010-01-31 09:26:23 +01:00
parent cba0cf31e5
commit 7a8d7c28c4
11 changed files with 218 additions and 148 deletions

View File

@ -85,8 +85,7 @@ static unsigned *inuse
// Get the initial block device and filesystem.
static Directory receive_devices ():
String data
Filesystem fs
Kernel::Caps data, fs
bool have_data = false, have_fs = false
Device fs_dev, data_dev
for unsigned i = 0; i < 2; ++i:
@ -115,9 +114,11 @@ static Directory receive_devices ():
data_dev.use (data)
fs = fs_dev.create_user (Kernel::my_memory)
fs_dev.use (fs)
Directory root = fs.use_device_ro (data.copy ())
Filesystem fs_cap = fs.get (0)
Directory root = fs_cap.use_device_ro (data.copy ())
Kernel::free_cap (data)
Kernel::free_cap (fs)
Kernel::free_cap (fs_cap)
Kernel::free_cap (data_dev)
Kernel::free_cap (fs_dev)
return root
@ -371,7 +372,9 @@ static void handle_init (unsigned id):
Kernel::free_cap (reply)
break
case Parent::INIT_DONE:
memories.set (id + num_files, Kernel::get_reply ())
Kernel::Cap reply = Kernel::get_reply ()
memories.set (id + num_files, reply.copy ())
Kernel::free_cap (reply)
return
default:
kdebug ("unknown init request\n")
@ -393,14 +396,16 @@ static void get_device ():
kdebug (" to ")
kdebug_num (id)
kdebug ("\n")
Kernel::Cap cap = d->dev.create_user (Kernel::Memory (memory_slot, id), 0, 0x15000)
Kernel::Caps cap = d->dev.create_user (Kernel::Memory (memory_slot, id), 0, 0x15000)
Kernel::Caps (terminal_slot, id).set (d->id, cap.copy ())
for unsigned i = 0; i < num_files; ++i:
if inuse[i * Dev::num_devs + d->id] == 2:
inuse[i * Dev::num_devs + d->id] = 1
inuse[id * Dev::num_devs + d->id] = 2
d->dev.use (cap)
reply.invoke (0, 0, cap.copy ())
Kernel::Cap ret = cap.get (0)
reply.invoke (0, 0, ret.copy ())
Kernel::free_cap (ret)
Kernel::free_cap (cap)
else:
kdebug ("device not found: ")
@ -451,9 +456,11 @@ Kernel::Num start ():
Kernel::set_recv_arg (term)
mem.create_caps (Dev::num_devs)
// set up system request.
Keyboard sysreq = sysreq_dev.create_user (Kernel::my_memory)
sysreq_dev.use (sysreq)
Kernel::Caps sysreq_caps = sysreq_dev.create_user (Kernel::my_memory)
sysreq_dev.use (sysreq_caps)
Keyboard sysreq = sysreq_caps.get (0)
Kernel::free_cap (sysreq_dev)
Kernel::free_cap (sysreq_caps)
Kernel::Cap cap = Kernel::my_receiver.create_capability (Kernel::Num (0, SYSREQ))
sysreq.set_cb (cap.copy ())
Kernel::free_cap (sysreq)
@ -462,11 +469,13 @@ Kernel::Num start ():
Dev *display_dev = Dev::find (Display::ID, 0)
if !display_dev:
Kernel::panic (0, "no display")
Display display = display_dev->dev.create_user (Kernel::my_memory, 0, 0x15000)
Kernel::Caps display_caps = display_dev->dev.create_user (Kernel::my_memory, 0, 0x15000)
Display display = display_caps.get (0)
Dev *keyboard_dev = Dev::find (Keyboard::ID, 0)
if !keyboard_dev:
Kernel::panic (0, "no keyboard")
Keyboard keyboard = keyboard_dev->dev.create_user (Kernel::my_memory, 0, 0x15000)
Kernel::Caps keyboard_caps = keyboard_dev->dev.create_user (Kernel::my_memory, 0, 0x15000)
Keyboard keyboard = keyboard_caps.get (0)
kdebug ("init done\n")
root.unlock_ro ()
Kernel::free_slot (slot)
@ -481,8 +490,8 @@ Kernel::Num start ():
// System request.
if Kernel::recv.data[0].l & Keyboard::RELEASE:
continue
keyboard_dev->dev.use (keyboard)
display_dev->dev.use (display)
keyboard_dev->dev.use (keyboard_caps)
display_dev->dev.use (display_caps)
keyboard.set_cb (keyboard_cb)
in_system = true
continue
@ -540,15 +549,34 @@ Kernel::Num start ():
break
if Kernel::recv.data[0].l & Keyboard::RELEASE:
continue
unsigned const r = 50
unsigned which = 0
switch Kernel::recv.data[0].l:
case Key::UP:
case Key::DOWN:
case Key::LEFT:
case Key::RIGHT:
case Key::VOLUME_UP:
case Key::VOLUME_DOWN:
kdebug ("key pressed.\n")
// Set ball.
for int y = -r; y < r; ++y:
for int x = -r; x < r; ++x:
if x * x + y * y > r * r:
((unsigned *)0x15000)[(120 + y) * 320 + 160 + x] = 0x000000
else:
((unsigned *)0x15000)[(120 + y) * 320 + 160 + x] = 0xffffff
which = 2
break
case Key::VOLUME_UP:
// Set square.
for int y = -r; y < r; ++y:
for int x = -r; x < r; ++x:
((unsigned *)0x15000)[(120 + y) * 320 + 160 + x] = 0xffffff
which = 1
break
if which != 0:
for Dev *d = Dev::devs; d; d = d->next:
if d->code != Display::ID || d->idx != 0:
continue
for unsigned f = 0; f < num_files; ++f:
if inuse[f * Dev::num_devs + d->id] == 0:
continue
inuse[f * Dev::num_devs + d->id] = (--which ? 2 : 1)
break
default:
Kernel::panic (Kernel::recv.protected_data.h, "unknown source of request")

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@ -567,8 +567,8 @@ Kernel::Num start ():
map_cpm ()
Udc udc
//Kernel::Cap logcap = Kernel::my_receiver.create_capability (LOG)
//__asm__ volatile ("li $a0, 1\nlw $a1, %0\nbreak" :: "m"(logcap.code): "a0", "a1", "memory")
Kernel::Cap logcap = Kernel::my_receiver.create_capability (LOG)
__asm__ volatile ("li $a0, 1\nlw $a1, %0\nbreak" :: "m"(logcap.code): "a0", "a1", "memory")
udc.init ()
Kernel::register_interrupt (IRQ_UDC)
Device fs_dev = Kernel::my_receiver.create_capability (FS)

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@ -99,34 +99,75 @@ struct Device : public Kernel::Cap:
void use (Kernel::Cap user):
ocall (user, CAP_MASTER_DIRECT | USE)
// Convenience function for threads implementing a device.
static void host (unsigned id, unsigned &current_user, Kernel::Cap &reply, Kernel::Cap &arg):
static void host (unsigned id, unsigned &current_user, Kernel::Cap &reply, Kernel::Cap &arg, unsigned capssize = 3, unsigned (*create)(Kernel::Memory mem, Kernel::Caps caps) = NULL, void (*destroy)(unsigned id, Kernel::Caps caps) = NULL, void (*use)(unsigned id, Kernel::Caps caps) = NULL, void (*unuse)(unsigned id, Kernel::Caps caps) = NULL):
static unsigned last_user
switch Kernel::recv.data[0].l:
case Device::CREATE_USER:
Kernel::Memory mem (arg)
Kernel::Caps caps = mem.create_caps (capssize)
unsigned user
if create:
user = create (mem, caps)
else:
// Increment last_user; skip 0.
// FIXME: if this really wraps, it is possible that two users share their id.
if !++last_user:
++last_user
Kernel::Cap c = Kernel::my_receiver.create_capability (Kernel::Num (last_user, id))
reply.invoke (0, 0, c.copy ())
user = last_user
Kernel::Cap c = Kernel::my_receiver.create_capability (Kernel::Num (user, id))
caps.set (0, c.copy ())
caps.set (1, mem.copy ())
reply.invoke (0, 0, caps.copy ())
Kernel::free_cap (c)
Kernel::free_cap (caps)
Kernel::free_cap (reply)
Kernel::free_cap (arg)
break
case Device::DESTROY_USER:
Kernel::Caps caps (arg)
Kernel::Cap c = caps.get (0)
Kernel::Num user = Kernel::my_receiver.get_protected (c)
Kernel::free_cap (c)
if user.h != id:
Kernel::panic (user.h, "invalid id for destroy")
// TODO: unuse.
if destroy:
destroy (user.l, caps)
reply.invoke ()
Kernel::free_cap (reply)
Kernel::free_cap (arg)
break
case Device::USE:
current_user = Kernel::my_receiver.get_protected (arg).l
Kernel::Caps caps (arg)
Kernel::Cap c = caps.get (0)
Kernel::Num user = Kernel::my_receiver.get_protected (c)
Kernel::free_cap (c)
if user.h != id:
Kernel::panic (user.h, "invalid id for use")
// TODO: send unuse signal.
current_user = user.l
if use:
use (user.l, caps)
c = caps.get (2)
c.invoke (1)
Kernel::free_cap (c)
reply.invoke ()
Kernel::free_cap (reply)
Kernel::free_cap (arg)
break
case Device::UNUSE:
Kernel::Num p = Kernel::my_receiver.get_protected (arg)
if p.h == id && current_user == p.l:
Kernel::Caps caps (arg)
Kernel::Cap c = caps.get (0)
Kernel::Num user = Kernel::my_receiver.get_protected (c)
Kernel::free_cap (c)
if user.h != id:
Kernel::panic (user.h, "invalid id for unuse")
if unuse:
unuse (user.l, caps)
if user.l == current_user:
c = caps.get (2)
c.invoke (0)
Kernel::free_cap (c)
current_user = 0
reply.invoke ()
Kernel::free_cap (reply)

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@ -296,9 +296,9 @@ static void memory_invoke (unsigned cmd, unsigned target, Kernel::Num protected_
kThread *ret = mem->alloc_thread (c->data[1].l)
if ret:
reply_cap (CAPTYPE_THREAD | CAP_MASTER, (unsigned)ret, &ret->refs)
kdebug ("created thread: ")
kdebug ("(created thread ")
kdebug_num ((unsigned)ret)
kdebug ("\n")
kdebug (")")
else:
dpanic (0x23311992, "out of memory creating thread")
reply_num (Kernel::ERR_OUT_OF_MEMORY)

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@ -27,9 +27,9 @@ LDFLAGS = --omagic -Ttext $(load)
arch_iris_sources = mips/interrupts.cc mips/arch.cc
boot_sources = mips/init.cc mips/nanonote/board.cc
arch_headers = mips/arch.hh mips/nanonote/jz4740.hh mips/nanonote/board.hh
arch_headers = mips/arch.hh mips/nanonote/jz4740.hh mips/nanonote/board.hh devices.hh
boot_threads = init udc
programs = \#nanonote-gpio \#buzzer \#lcd metronome ball display-emu
programs = \#nanonote-gpio \#lcd display-emu bsquare display-emu2 ball
all: test

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@ -141,8 +141,8 @@ void panic_impl (unsigned n, const char *line, char const *name, char const *mes
if arch_interrupt_receiver[i] && arch_interrupt_receiver[i]->owner:
arch_interrupt_receiver[i]->owner->unrun ()
#ifndef NDEBUG
// If a log capability is registered, run its owner.
panic_message (n, line, name, message)
// If a log capability is registered, run its owner.
#ifndef USE_SERIAL
if dbg_cap.valid () && dbg_cap->target->owner:
dbg_cap->target->owner->run ()

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@ -74,32 +74,9 @@ Kernel::Num start ():
switch Kernel::recv.protected_data.l:
case BUZZER:
// Buzzer device control request.
switch Kernel::recv.data[0].l:
case Device::CREATE_USER:
Kernel::Cap reply = Kernel::get_reply ()
Keyboard cap = Kernel::my_receiver.create_capability (Kernel::Num (next_user++, BUZZER))
reply.invoke (0, 0, cap.copy ())
Kernel::free_cap (cap)
Kernel::free_cap (reply)
break
case Device::DESTROY_USER:
Kernel::recv.reply.invoke ()
break
case Device::UNUSE:
buzzer.stop ()
Kernel::recv.reply.invoke ()
break
case Device::USE:
Kernel::Cap reply = Kernel::get_reply ()
user = Kernel::my_receiver.get_protected (Kernel::recv.arg).l
reply.invoke ()
Kernel::free_cap (reply)
break
default:
kdebug ("invalid buzzer control command: ")
kdebug_num (Kernel::recv.data[0].l)
kdebug ("\n")
break
Kernel::Cap arg = Kernel::get_arg ()
Device::host (BUZZER, user, reply, arg)
break
default:
kdebug ("invalid buzzer request\n")

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@ -257,6 +257,63 @@ static unsigned spot (unsigned x, unsigned y, unsigned cx, unsigned cy):
return 0
return ((l * l - d2 - 1) << 8) / (l * l)
static unsigned pages
static Descriptor descriptor __attribute__ ((aligned (16)))
static bool is_on
static unsigned create (Kernel::Memory mem, Kernel::Caps caps):
unsigned physical = mem.alloc_range (pages)
unsigned address = 0x15000
if physical & ~PAGE_MASK:
Kernel::panic (0, "can't allocate framebuffer")
assert (physical & PAGE_MASK && ~physical)
for unsigned i = 0; i < pages; ++i:
Kernel::Page p = mem.create_page ()
p.alloc_physical (physical + (i << PAGE_BITS), false, true)
if address != ~0:
mem.map (p, address + (i << PAGE_BITS))
Kernel::free_cap (p)
return physical
static void destroy (unsigned physical, Kernel::Caps caps):
unsigned address = 0x15000
Kernel::Memory mem = caps.get (1)
if physical == ~0:
Kernel::panic (0, "unable to destroy framebuffer with wrong cap0")
if descriptor.frame == physical && is_on:
lcd_clr_ena ()
#ifdef NANONOTE
write_reg (BACKLIGHT1, 0x5e)
#endif
if address != ~0:
for unsigned i = 0; i < pages; ++i:
Kernel::Page p = mem.mapping ((void *)(address + (i << PAGE_BITS)))
mem.destroy (p)
Kernel::free_cap (p)
static void use (unsigned physical, Kernel::Caps caps):
if physical == ~0:
Kernel::panic (0, "unable to use framebuffer with wrong cap0")
bool was_unused = descriptor.frame == 0
descriptor.frame = physical
unsigned dptr = (unsigned)&descriptor
__asm__ volatile ("lw $a0, %0\ncache 0x15, 0($a0)" :: "m"(dptr) : "memory", "a0")
if was_unused && is_on:
lcd_set_ena ()
#ifdef NANONOTE:
write_reg (BACKLIGHT1, 0x5f)
#endif
static void unuse (unsigned physical, Kernel::Caps caps):
if physical == ~0:
Kernel::panic (0, "unable to unuse framebuffer with wrong cap0")
if descriptor.frame == physical:
lcd_clr_ena ()
#ifdef NANONOTE
write_reg (BACKLIGHT1, 0x5e)
#endif
descriptor.frame = 0
Kernel::Num start ():
Kernel::schedule ()
map_lcd ()
@ -265,8 +322,7 @@ Kernel::Num start ():
map_gpio ()
#endif
Descriptor descriptor __attribute__ ((aligned (16)))
unsigned pages = (frame_size + ~PAGE_MASK) >> PAGE_BITS
pages = (frame_size + ~PAGE_MASK) >> PAGE_BITS
#if 0
unsigned physical = Kernel::my_memory.alloc_range (pages)
assert (physical & PAGE_MASK && ~physical)
@ -320,8 +376,8 @@ Kernel::Num start ():
Kernel::Cap eof_cb
bool have_eof = false
bool is_on = true
unsigned backlight_user = 0
is_on = true
unsigned lcd_user = 0
unsigned current_backlight = 0
while true:
Kernel::wait ()
@ -347,87 +403,7 @@ Kernel::Num start ():
case LCD:
Kernel::Cap reply = Kernel::get_reply ()
Kernel::Cap arg = Kernel::get_arg ()
switch Kernel::recv.data[0].l:
case Device::CREATE_USER:
Kernel::Memory mem (arg)
unsigned width = Kernel::recv.data[0].h >> 16
unsigned height = Kernel::recv.data[0].h & 0xffff
unsigned mode = Kernel::recv.data[1].l & ~PAGE_MASK
unsigned address = Kernel::recv.data[1].l & PAGE_MASK
if (width != 0 && width != h) || (height != 0 && height != v) || mode != 0:
reply.invoke (Kernel::ERR_INVALID_ARGUMENT)
kdebug ("invalid framebuffer requested\n")
Kernel::panic (0)
Kernel::free_cap (reply)
Kernel::free_cap (arg)
break
unsigned physical = mem.alloc_range (pages)
if physical & ~PAGE_MASK:
kdebug ("can't allocate framebuffer\n")
Kernel::panic (0)
assert (physical & PAGE_MASK && ~physical)
Kernel::Cap ret = Kernel::my_receiver.create_capability (Kernel::Num (physical, LCD))
for unsigned i = 0; i < pages; ++i:
Kernel::Page p = mem.create_page ()
p.alloc_physical (physical + (i << PAGE_BITS), false, true)
if address != ~0:
//Kernel::panic (0xdeaddead)
mem.map (p, address + (i << PAGE_BITS))
Kernel::free_cap (p)
reply.invoke (0, 0, ret.copy ())
Kernel::free_cap (ret)
break
case Device::DESTROY_USER:
//Kernel::Memory mem (arg)
unsigned address = Kernel::recv.data[1].l & PAGE_MASK
unsigned physical = Kernel::my_receiver.get_protected (arg).l
if physical == ~0:
kdebug ("unable to destroy framebuffer with wrong cap0\n")
Kernel::panic (0)
break
if descriptor.frame == physical && is_on:
lcd_clr_ena ()
#ifdef NANONOTE
write_reg (BACKLIGHT1, 0x5e)
#endif
//for unsigned i = 0; i < pages; ++i:
//if address != ~0:
//Kernel::Page p = mem.mapping ((void *)(address + (i << PAGE_BITS)))
//mem.destroy (p)
//Kernel::free_cap (p)
reply.invoke ()
break
case Device::USE:
unsigned physical = Kernel::my_receiver.get_protected (arg).l
if physical == ~0:
Kernel::panic (0, "unable to use framebuffer with wrong cap0")
bool was_unused = descriptor.frame == 0
descriptor.frame = physical
unsigned dptr = (unsigned)&descriptor
__asm__ volatile ("lw $a0, %0\ncache 0x15, 0($a0)" :: "m"(dptr) : "memory", "a0")
if was_unused && is_on:
lcd_set_ena ()
#ifdef NANONOTE:
write_reg (BACKLIGHT1, 0x5f)
#endif
reply.invoke ()
break
case Device::UNUSE:
unsigned physical = Kernel::my_receiver.get_protected (arg).l
if physical == ~0:
Kernel::panic (0, "unable to unuse framebuffer with wrong cap0")
if descriptor.frame == physical:
lcd_clr_ena ()
#ifdef NANONOTE
write_reg (BACKLIGHT1, 0x5e)
#endif
descriptor.frame = 0
reply.invoke ()
break
default:
Kernel::panic (0, "invalid operation for lcd device")
Kernel::free_cap (arg)
Kernel::free_cap (reply)
Device::host (LCD, lcd_user, reply, arg, 3, create, destroy, use, unuse)
break
default:
Kernel::panic (Kernel::recv.protected_data.l, "invalid operation for master lcd")

43
source/bsquare.ccp Normal file
View File

@ -0,0 +1,43 @@
#pypp 0
#include <iris.hh>
#include <devices.hh>
static unsigned *framebuffer
static int const r = 10
static int colour
void square (int x, int y, bool print):
for int ty = y - r; ty < y + r; ++ty:
if ty < 0 || ty >= 240:
continue
for int tx = x - r; tx < x + r; ++tx:
if tx < 0 || tx >= 320:
continue
framebuffer[ty * 320 + tx] = (print ? colour : 0)
Kernel::Num start ():
Kernel::my_parent.init_done ()
colour = 0xffffff
framebuffer = (unsigned *)0x15000
Display display = Kernel::my_parent.get_device <Display> (0x10001)
int x = r, y = r, dx = 3, dy = 3
Kernel::Cap eof = Kernel::my_receiver.create_capability (0)
while true:
display.set_eof_cb (eof)
Kernel::wait ()
square (x, y, false)
x += dx
y += dy
if y + r >= 240:
dy = -dy
y = 240 - r
if x - r < 0:
x = r
dx = -dx
if x + r >= 320:
x = 320 - r
dx = -dx
if y - r < 0:
y = r
dy = -dy
square (x, y, true)

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@ -17,7 +17,11 @@ Kernel::Num start ():
switch Kernel::recv.data[0].l:
case Device::CREATE_USER:
Kernel::Memory mem (arg)
Kernel::Caps ret = mem.create_caps (3)
Kernel::Cap target = Kernel::my_receiver.create_capability (Kernel::Num (0, 1))
ret.set (0, target.copy ())
ret.set (1, mem)
Kernel::free_cap (target)
for unsigned i = 0; i < 320 * 240 * 4; i += PAGE_SIZE:
Kernel::Page p = Kernel::my_memory.mapping ((void *)(0x15000 + i))
Kernel::Page t = mem.create_page ()
@ -27,8 +31,8 @@ Kernel::Num start ():
Kernel::my_memory.destroy (t)
Kernel::free_cap (t)
Kernel::free_cap (p)
reply.invoke (0, 0, target)
Kernel::free_cap (target)
reply.invoke (0, 0, ret.copy ())
Kernel::free_cap (ret)
break
case Device::DESTROY_USER:
Kernel::panic (0, "destroying emulation user")

1
source/display-emu2.ccp Symbolic link
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@ -0,0 +1 @@
display-emu.ccp