[netwatch.git] / net / rfb.c

#include <stdint.h>
#include <minilib.h>
#include <output.h>
#include <fb.h>

#include "lwip/tcp.h"

#include "rfb.h"

#define SET_PIXEL_FORMAT        0
#define SET_ENCODINGS           2
#define FB_UPDATE_REQUEST       3
#define KEY_EVENT               4
#define POINTER_EVENT           5
#define CLIENT_CUT_TEXT         6

#define RFB_BUF_SIZE    64

struct pixel_format {
        uint8_t bpp;
        uint8_t depth;
        uint8_t big_endian;
        uint8_t true_color;
        uint16_t red_max;
        uint16_t green_max;
        uint16_t blue_max;
        uint8_t red_shift;
        uint8_t green_shift;
        uint8_t blue_shift;
        uint8_t padding[3];
};

struct server_init_message {
        uint16_t fb_width;
        uint16_t fb_height;
        struct pixel_format fmt;
        uint32_t name_length;
        char name_string[8];
};

struct fb_update_req {
        uint8_t msgtype;
        uint8_t incremental;
        uint16_t xpos;
        uint16_t ypos;
        uint16_t width;
        uint16_t height;
};

struct set_encs_req {
        uint8_t msgtype;
        uint8_t padding;
        uint16_t num;
        int32_t encodings[];
};

struct key_event_pkt {
        uint8_t msgtype;
        uint8_t downflag;
        uint8_t pad[2];
        uint32_t keysym;
};

struct pointer_event_pkt {
        uint8_t msgtype;
        uint8_t button_mask;
        uint16_t x;
        uint16_t y;
};

struct text_event_pkt {
        uint8_t msgtype;
        uint8_t padding[3];
        uint32_t length;
        char text[];
};

struct update_header {
        uint8_t msgtype;
        uint8_t padding;
        uint16_t nrects;
        uint16_t xpos;
        uint16_t ypos;
        uint16_t width;
        uint16_t height;
        int32_t enctype;
};

struct rfb_state {
        enum {
                ST_BEGIN,
                ST_CLIENTINIT,
                ST_MAIN
        } state;
        int version;
        int encs_remaining;

        char data[RFB_BUF_SIZE];
        int readpos;
        int writepos;

        char next_update_incremental;
        char update_requested;

        struct fb_update_req client_interest_area;

        enum {
                SST_IDLE,
                SST_NEEDS_UPDATE,
                SST_SENDING
        } send_state;

        uint32_t update_pos;
        uint32_t frame_bytes;
};

static struct server_init_message server_info;

static void init_server_info() {
        server_info.name_length = htonl(8);
        memcpy(server_info.name_string, "NetWatch", 8);
}

static void update_server_info() {
        if (fb != NULL) {
                outputf("RFB: setting fmt %d", fb->curmode.format);
                server_info.fb_width = htons(fb->curmode.xres);
                server_info.fb_height = htons(fb->curmode.yres);
                switch (fb->curmode.format) {
                case FB_RGB888:
                        server_info.fmt.bpp = 32;
                        server_info.fmt.depth = 24;
                        server_info.fmt.big_endian = 0;
                        server_info.fmt.true_color = 1;
                        server_info.fmt.red_max = htons(255);
                        server_info.fmt.green_max = htons(255);
                        server_info.fmt.blue_max = htons(255);
                        server_info.fmt.red_shift = 0;
                        server_info.fmt.green_shift = 8;
                        server_info.fmt.blue_shift = 16;
                        break;
                default:
                        outputf("RFB: unknown fb fmt %d", fb->curmode.format);
                        break;
                }
        } else {
                outputf("RFB: fb null");
        }
}

static void send_fsm(struct tcp_pcb *pcb, struct rfb_state *state) {
        struct update_header hdr;
        int left, sndlength;
        err_t err;

        switch (state->send_state) {
        case SST_IDLE:
                /* Nothing to do */
                if (state->update_requested) {
                        outputf("RFB send: update requested");
                        state->update_requested = 0;
                        state->send_state = SST_NEEDS_UPDATE;
                } else {
                        break;
                }
        
                /* potential FALL THROUGH */

        case SST_NEEDS_UPDATE:
                outputf("RFB send: sending header");
                /* Send a header */
                state->frame_bytes = fb->curmode.xres * fb->curmode.yres * 3; /* XXX */
                hdr.msgtype = 0;
                hdr.nrects = htons(1);
                hdr.xpos = htons(0);
                hdr.ypos = htons(0);
                hdr.width = htons(fb->curmode.xres);
                hdr.height = htons(fb->curmode.yres);
                hdr.enctype = htonl(0);
                tcp_write(pcb, &hdr, sizeof(hdr), 0);
                tcp_output(pcb);

                state->update_pos = 0;
                state->send_state = SST_SENDING;

                /* FALL THROUGH */

        case SST_SENDING:
                left = state->frame_bytes - state->update_pos;

                if (left > tcp_sndbuf(pcb)) {
                        sndlength = tcp_sndbuf(pcb);
                } else {
                        sndlength = left;
                }

                do {
                        err = tcp_write(pcb, fb->fbaddr + state->update_pos, sndlength, 0);
                        if (err == ERR_MEM) {
                                outputf("RFB: ERR_MEM sending %d", sndlength);
                                sndlength /= 2;
                        }
                } while (err == ERR_MEM && sndlength > 1);

                if (err == ERR_OK) {
                        outputf("RFB: sent %d", sndlength);
                        state->update_pos += sndlength;
                } else {
                        outputf("RFB: send error %d", err);
                }

                tcp_output(pcb);

                if (state->update_pos == state->frame_bytes) {
                        state->send_state = SST_IDLE;
                }

                break;
        }
}

static err_t rfb_sent(void *arg, struct tcp_pcb *pcb, uint16_t len) {
        struct rfb_state *state = arg;
        send_fsm(pcb, state);
        return ERR_OK;
}

static void close_conn(struct tcp_pcb *pcb, struct rfb_state *state) {
        tcp_arg(pcb, NULL);
        tcp_sent(pcb, NULL);
        tcp_recv(pcb, NULL);
        mem_free(state);
        tcp_close(pcb);
}

enum fsm_result {
        NEEDMORE,
        OK,
        FAIL
};

static enum fsm_result recv_fsm(struct tcp_pcb *pcb, struct rfb_state *state) {
        int i;
        int pktsize;

        outputf("RFB FSM: st %d rp %d wp %d", state->state, state->readpos,
                state->writepos);

        switch(state->state) {
        case ST_BEGIN:
                if (state->writepos < 12) return NEEDMORE;

                if (!strncmp(state->data, "RFB 003.003\n", 12)) {
                        state->version = 3;
                } else if (!strncmp(state->data, "RFB 003.005\n", 12)) {
                        /* Spec states that "RFB 003.005", an incorrect value,
                         * should be treated by the server as 3.3. */
                        state->version = 3;
                } else if (!strncmp(state->data, "RFB 003.007\n", 12)) {
                        state->version = 7;
                } else if (!strncmp(state->data, "RFB 003.008\n", 12)) {
                        state->version = 8;
                } else {
                        outputf("RFB: Negotiation fail");
                        return FAIL;
                }

                outputf("RFB: Negotiated v3.%d", state->version);

                state->readpos += 12;
                state->state = ST_CLIENTINIT;

                /* We support one security type, currently "none".
                 * Send that and SecurityResult. */
                if (state->version >= 7) {
                        tcp_write(pcb, "\x01\x01\x00\x00\x00\x00", 6, 0);
                } else {
                        tcp_write(pcb, "\x01\x00\x00\x00\x00", 5, 0);
                }

                tcp_output(pcb);

                return OK;

        case ST_CLIENTINIT:
                if (state->version >= 7) {
                        /* Ignore the security type and ClientInit */
                        if (state->writepos < 2) return NEEDMORE;
                        state->readpos += 2;
                } else {
                        /* Just ClientInit */
                        if (state->writepos < 1) return NEEDMORE;
                        state->readpos += 1;
                }

                state->state = ST_MAIN;

                outputf("RFB: Sending server info", state->version);
                tcp_write(pcb, &server_info, sizeof(server_info), 0);
                tcp_output(pcb);

                return OK;

        case ST_MAIN:
                if (state->writepos < 1) return NEEDMORE;

                outputf("RFB: cmd %d", state->data[0]);
                switch (state->data[0]) {

                case SET_PIXEL_FORMAT:
                        /* SetPixelFormat */
                        if (state->writepos < (sizeof(struct pixel_format) + 4))
                                return NEEDMORE;
                        outputf("RFB: SetPixelFormat");
/*
                        struct pixel_format * new_fmt =
                                (struct pixel_format *)(&state->data[4]);
*/
                        /* XXX ... */

                        state->readpos += sizeof(struct pixel_format) + 4;
                        return OK;

                case SET_ENCODINGS:
                        if (state->writepos < 4) return NEEDMORE;

                        struct set_encs_req * req = (struct set_encs_req *)state->data;

                        pktsize = sizeof(struct set_encs_req) + (4 * ntohs(req->num));

                        outputf("RFB: SetEncodings [%d]", ntohs(req->num));
                        if (state->writepos < pktsize) return NEEDMORE;

                        for (i = 0; i < ntohs(req->num); i++) {
                                outputf("RFB: Encoding: %d", ntohl(req->encodings[i]));
                                /* XXX ... */

                        }

                        state->readpos += pktsize;
                        return OK;

                case FB_UPDATE_REQUEST:
                        if (state->writepos < sizeof(struct fb_update_req))
                                return NEEDMORE;
                        outputf("RFB: UpdateRequest");

                        state->update_requested = 1;
                        memcpy(&state->client_interest_area, state->data,
                               sizeof(struct fb_update_req)); 

                        state->readpos += sizeof(struct fb_update_req);
                        return OK;

                case KEY_EVENT:
                        if (state->writepos < sizeof(struct key_event_pkt))
                                return NEEDMORE;
                        outputf("RFB: Key");

                        /* XXX stub */

                        state->readpos += sizeof(struct key_event_pkt);
                        return OK;

                case POINTER_EVENT:
                        if (state->writepos < sizeof(struct pointer_event_pkt))
                                return NEEDMORE;
                        outputf("RFB: Pointer");

                        /* XXX stub */

                        state->readpos += sizeof(struct pointer_event_pkt);
                        return OK;

                case CLIENT_CUT_TEXT:
                        if (state->writepos < sizeof(struct text_event_pkt))
                                return NEEDMORE;
                        outputf("RFB: Cut Text");

                        struct text_event_pkt * pkt =
                                (struct text_event_pkt *)state->data;

                        if (state->writepos < sizeof(struct text_event_pkt)
                                              + pkt->length)
                                return NEEDMORE;

                        /* XXX stub */

                        state->readpos += sizeof(struct text_event_pkt)
                                          + pkt->length;
                        return OK;

                default:
                        outputf("RFB: Bad command: %d", state->data[0]);
                }
        default:
                outputf("RFB: Bad state");
                return FAIL;
        }
}

static err_t rfb_recv(void *arg, struct tcp_pcb *pcb,
                      struct pbuf *p, err_t err) {
        struct rfb_state *state = arg;

        if (state == NULL) 

        if (err != ERR_OK) {
                outputf("RFB: recv err %d", err);
                /* FIXME do something better here? */
                return ERR_OK;
        }

        if (p == NULL) {
                outputf("RFB: Connection closed");
                close_conn(pcb, state);
                return ERR_OK;
        }

        if (p->tot_len > (RFB_BUF_SIZE - state->writepos)) {
                /* Overflow! */
                outputf("RFB: Overflow!");
                close_conn(pcb, state);
                return ERR_OK;
        }

        outputf("RFB: Processing %d", p->tot_len);
        pbuf_copy_partial(p, state->data + state->writepos, p->tot_len, 0);
        state->writepos += p->tot_len;

        tcp_recved(pcb, p->tot_len);
        pbuf_free(p);

        while (1) {
                switch (recv_fsm(pcb, state)) {
                case NEEDMORE:
                        outputf("RFB FSM: blocking");
                        /* Need more data */
                        return ERR_OK;

                case OK:
                        outputf("RFB FSM: ok");

                        /* Might as well send now... */
                        if (state->send_state == SST_IDLE
                            && state->update_requested) {
                                send_fsm(pcb, state);
                        }

                        if (state->readpos == state->writepos) {
                                state->readpos = 0;
                                state->writepos = 0;
                                return ERR_OK;
                        } else {
                                memmove(state->data,
                                        state->data + state->readpos,
                                        state->writepos - state->readpos);
                        }
                        break;
                case FAIL:
                        /* Shit */
                        outputf("RFB: Protocol error");
                        close_conn(pcb, state);
                        return ERR_OK;
                }
        }
}       
                
static err_t rfb_accept(void *arg, struct tcp_pcb *pcb, err_t err) {
        struct rfb_state *state;

        LWIP_UNUSED_ARG(arg);
        LWIP_UNUSED_ARG(err);

        state = (struct rfb_state *)mem_malloc(sizeof(struct rfb_state));

        state->state = ST_BEGIN;
        state->readpos = 0;
        state->writepos = 0;
        state->update_requested = 0;
        state->send_state = SST_IDLE;

        /* XXX: update_server_info() should be called from the 64ms timer, and deal
         * with screen resizes appropriately. */
        update_server_info();

        if (!state)
        {
                outputf("rfb_accept: out of memory\n");
                return ERR_MEM;
        }

        tcp_arg(pcb, state);
        tcp_recv(pcb, rfb_recv);
        tcp_sent(pcb, rfb_sent);
/*
        tcp_err(pcb, rfb_err);
        tcp_poll(pcb, rfb_poll, 2);
*/
        tcp_write(pcb, "RFB 003.008\n", 12, 0);
        tcp_output(pcb);

        return ERR_OK;
}

void rfb_init() {
        struct tcp_pcb *pcb;

        init_server_info();

        pcb = tcp_new();
        tcp_bind(pcb, IP_ADDR_ANY, RFB_PORT);
        pcb = tcp_listen(pcb);
        tcp_accept(pcb, rfb_accept);
}