#include <string.h>
#include <malloc.h>
#include <syscall.h>
#include <debug.h>
#include <user_region.h>
#include <proto/keyboard.h>
#include <gip.h>
// ---- GIP server
typedef struct {
fb_info_t mode;
fd_t fd;
} giosrv_t;
void reset(gip_handler_t *s, gip_msg_header *p);
void enable_features(gip_handler_t *s, gip_msg_header *p);
void disable_features(gip_handler_t *s, gip_msg_header *p);
void query_mode(gip_handler_t *s, gip_msg_header *p);
void set_mode(gip_handler_t *s, gip_msg_header *p);
void unknown_msg(gip_handler_t *s, gip_msg_header *p);
void fd_error(gip_handler_t *s);
gip_handler_callbacks_t giosrv_cb = {
.reset = reset,
.initiate = 0,
.ok = 0,
.failure = 0,
.enable_features = enable_features,
.disable_features = disable_features,
.query_mode = query_mode,
.set_mode = set_mode,
.buffer_info = 0,
.mode_info = 0,
.buffer_damage = 0,
.unknown_msg = unknown_msg,
.fd_error = fd_error,
.key_down = 0,
.key_up = 0,
};
giosrv_t srv;
gip_handler_t *gipsrv;
// ---- KBD listener
typedef struct {
fd_t fd;
kbd_event_t ev;
} kbd_listner_t;
kbd_listner_t kbd;
void kbd_handle_event(mainloop_fd_t *fd);
void kbd_on_error(mainloop_fd_t *fd);
int main(int argc, char **argv) {
dbg_print("[giosrv] Starting up.\n");
// ---- Keyboard setup
kbd.fd = open("io:/input/pckbd", FM_READ);
if (kbd.fd == 0) PANIC("Could not open keyboard");
mainloop_fd_t kh;
memset(&kh, 0, sizeof(kh));
kh.fd = kbd.fd;
kh.on_error = kbd_on_error;
mainloop_expect(&kh, &kbd.ev, sizeof(kbd_event_t), kbd_handle_event);
mainloop_add_fd(&kh);
// ---- VESA setup
srv.fd = open("io:/display/vesa", FM_IOCTL | FM_READ | FM_WRITE | FM_MMAP);
if (srv.fd == 0) PANIC("Could not open fbdev");
int r = ioctl(srv.fd, IOCTL_FB_GET_INFO, &srv.mode);
ASSERT(r == 1);
dbg_printf("[giosrv] Running on FB %dx%d\n", srv.mode.width, srv.mode.height);
// ---- GIP server setup
gipsrv = new_gip_handler(&giosrv_cb, &srv);
ASSERT(gipsrv != 0);
gipsrv->mainloop_item.fd = 1;
mainloop_add_fd(&gipsrv->mainloop_item);
// ---- Enter main loop
mainloop_run();
dbg_printf("[giosrv] Main loop exited, terminating.\n");
return 0;
}
void send_buffer_info(gip_handler_t *h, giosrv_t *s) {
gip_msg_header msg = {
.code = GIPN_BUFFER_INFO,
.arg = 0,
};
gip_buffer_info_msg msg_data;
msg_data.geom = s->mode;
if (!gen_token(s->fd, &msg_data.tok)) {
dbg_printf("[giosrv] Could not generate token for buffer_info_msg.\n");
} else {
dbg_printf("[giosrv] Generated token: %x %x\n",
((uint32_t*)&msg_data.tok)[0], ((uint32_t*)&msg_data.tok)[1]);
gip_notify(h, &msg, &msg_data);
}
}
void reset(gip_handler_t *h, gip_msg_header *p) {
giosrv_t *s = (giosrv_t*)h->data;
// ---- Send initiate message
gip_msg_header msg = {
.code = GIPR_INITIATE,
.arg = GIPF_MODESET
};
gip_reply(h, p, &msg, 0);
// ---- Send buffer information
send_buffer_info(h, s);
}
void enable_features(gip_handler_t *h, gip_msg_header *p) {
gip_reply_fail(h, p);
}
void disable_features(gip_handler_t *h, gip_msg_header *p) {
gip_reply_fail(h, p);
}
void query_mode(gip_handler_t *h, gip_msg_header *p) {
// TODO
gip_reply_fail(h, p);
}
void set_mode(gip_handler_t *h, gip_msg_header *p) {
// TODO
gip_reply_fail(h, p);
}
void unknown_msg(gip_handler_t *h, gip_msg_header *p) {
// TODO
gip_reply_fail(h, p);
}
void fd_error(gip_handler_t *h) {
// TODO
}
void kbd_handle_event(mainloop_fd_t *fd) {
gip_msg_header m;
m.arg = kbd.ev.scancode;
m.code = (kbd.ev.type == KBD_EVENT_KEYPRESS ? GIPN_KEY_DOWN : GIPN_KEY_UP);
gip_notify(gipsrv, &m, 0);
}
void kbd_on_error(mainloop_fd_t *fd) {
// TODO
}
/* vim: set ts=4 sw=4 tw=0 noet :*/