Add resizer letterbox2

[jpcrr.git] / streamtools / newpacket.cpp

#include "newpacket.hpp"
#include <cstdio>
#include <iostream>
#include <cstdlib>
#include <cstring>
#include <stdexcept>
#include <sstream>

#define MIN_CHAR_BIT 8

namespace
{
        void handle_input_error(FILE* rcs)
        {
                if(ferror(rcs))
                        throw std::runtime_error("Error reading input stream");
                else if(feof(rcs))
                        throw std::runtime_error("Unexpected end of file reading input stream");
                else
                        throw std::runtime_error("Unexpected short read reading input stream");
        }

        bool read_input(FILE* rcs, unsigned char* buffer, size_t amount, int blank_ok)
        {
                int r = fread(buffer, 1, amount, rcs);
                if(r == (int)amount)
                        return true;
                if(r == 0 && blank_ok)
                        return false;
                handle_input_error(rcs);
                return false;   //Notreached.
        }

        channel& lookup_channel(std::vector<channel>& chantab, uint16_t chan)
        {
                if(chan == 0xFFFF)
                        std::runtime_error("lookup_channel: Illegal channel 0xFFFF");
                for(std::vector<channel>::iterator i = chantab.begin(); i != chantab.end(); ++i)
                        if(i->c_channel == chan)
                                return *i;
                std::stringstream str;
                str << "lookup_channel: Channel " << chan << " not found";
                throw std::runtime_error(str.str());
        }

#define CHANNEL_BITMASK_SIZE ((65536 + MIN_CHAR_BIT - 1) / MIN_CHAR_BIT)

        void check_segment_table(const std::vector<channel>& table)
        {
                unsigned char channelbits[CHANNEL_BITMASK_SIZE];
                if(table.size() == 0)
                        throw std::runtime_error("check_segment_table: Zero channels in segment not allowed");
                if(table.size() > 0xFFFF)
                        throw std::runtime_error("check_segment_table: Too many channels in segment (max 65535)");
                for(size_t i = 0; i < CHANNEL_BITMASK_SIZE; i++)
                        channelbits[i] = 0;
                for(std::vector<channel>::const_iterator i = table.begin(); i != table.end(); ++i) {
                        uint16_t num = i->c_channel;
                        if(num == 0xFFFF)
                                throw std::runtime_error("Fatal: check_segment_table: Illegal channel 0xFFFF");
                        if(channelbits[num / MIN_CHAR_BIT] & (1 << (num % MIN_CHAR_BIT))) {
                                std::stringstream str;
                                str << "check_segment_table: Duplicate channel " << num;
                                throw std::runtime_error(str.str());
                        }
                        channelbits[num / MIN_CHAR_BIT] |= (1 << (num % MIN_CHAR_BIT));
                        if(i->c_channel_name.length() > 0xFFFF) {
                                std::stringstream str;
                                str << "check_segment_Table: Channel name too long (" << i->c_channel_name.length()
                                        << " bytes, max 65535)";
                                throw std::runtime_error(str.str());
                        }
                }
        }

#define CHAN_MAXNAME 65535

        void read_segment_table_entry(read_channel& rc, FILE* rc_stream, channel& chan)
        {
                unsigned char hdr[6 + CHAN_MAXNAME];
                read_input(rc_stream, hdr, 6, 0);
                size_t namelen = ((uint16_t)hdr[4] << 8) | (uint16_t)hdr[5];
                read_input(rc_stream, hdr + 6, namelen, 0);
                chan.c_channel = ((uint16_t)hdr[0] << 8) | (uint16_t)hdr[1];
                chan.c_type = ((uint16_t)hdr[2] << 8) | (uint16_t)hdr[3];
                chan.c_channel_name.resize(namelen);
                for(size_t i = 0; i < namelen; i++)
                        chan.c_channel_name[i] = hdr[6 + i];
                chan.c_channel_perm = rc.number_for_channel(chan.c_channel_name);
        }

        void read_segment_table(std::vector<channel>& chantab, FILE* rc_stream, read_channel& rc)
        {
                unsigned char x[2];
                uint16_t i;

                read_input(rc_stream, x, 2, 0);
                uint16_t chans = ((uint16_t)x[0] << 8) | (uint16_t)x[1];
                if(chans == 0)
                        throw std::runtime_error("read_segment_table: 0 channel segments not allowed");

                chantab.resize(chans);
                for(i = 0; i < chans; i++)
                        read_segment_table_entry(rc, rc_stream, chantab[i]);
                check_segment_table(chantab);
        }


#define SPECIAL_TIMESKIP 0
#define SPECIAL_TIMESKIP_STR "\xFF\xFF\xFF\xFF"
#define SPECIAL_NEWSEGMENT 1
#define SPECIAL_NEWSEGMENT_STR "JPCRRMULTIDUMP"

        struct special_entry
        {
                int se_num;
                const char* se_spec;
        } specials[] = {
                {SPECIAL_TIMESKIP, SPECIAL_TIMESKIP_STR},
                {SPECIAL_NEWSEGMENT, SPECIAL_NEWSEGMENT_STR},
                {-1, NULL}
        };

#define MAXSPECIALLEN 4096

        static int read_special(FILE* rcs)
        {
                char buf[MAXSPECIALLEN];
                size_t readcount = 0;
                while(1) {
                        unsigned char ch;
                        read_input(rcs, &ch, 1, 0);
                        buf[readcount++] = (char)ch;
                        struct special_entry* e = specials;
                        int matched = 0;
                        while(e->se_spec) {
                                if(readcount < strlen(e->se_spec) && !strncmp(buf, e->se_spec, readcount))
                                        matched = 1;
                                if(readcount == strlen(e->se_spec) && !strncmp(buf, e->se_spec, readcount))
                                        return e->se_num;
                                e++;
                        }
                        if(!matched)
                                break;
                }
                throw std::runtime_error("read_special: Bad special");
        }
}

read_channel::~read_channel()
{
        fclose(rc_stream);
}

read_channel::read_channel(const std::string& filename)
{
        rc_stream = fopen(filename.c_str(), "rb");
        if(!rc_stream) {
                std::stringstream str;
                str << "read_channel: Can't open '" << filename << "' for reading";
                throw std::runtime_error(str.str());
        }
        rc_last_timestamp = 0;
        rc_eof_flag = false;
        rc_segmenttable_coming = false;
        rc_next_permchan = 0;
}

uint32_t read_channel::number_for_channel(const std::string& name)
{
        if(rc_permchans.count(name))
                return rc_permchans[name];
        return rc_permchans[name] = rc_next_permchan++;
}

struct packet* read_channel::read()
{
        struct packet* ret = NULL;
        unsigned char packetheader[7];

        if(rc_segmenttable_coming) {
                //This is the segment channel table.
                read_segment_table(rc_channels, rc_stream, *this);
                rc_segmenttable_coming = 0;
                goto restart;
        }

        if(rc_eof_flag)
                return NULL;

        //Read the channel number.
        if(!read_input(rc_stream, packetheader, 2, 1)) {
                rc_eof_flag = 1;
                return NULL;    //Stream ends.
        }
        if(packetheader[0] == 0xFF && packetheader[1] == 0xFF) {
                //Special.
                int specialtype = read_special(rc_stream);
                if(specialtype == SPECIAL_TIMESKIP)
                        rc_last_timestamp += 0xFFFFFFFFU;
                else if(specialtype == SPECIAL_NEWSEGMENT)
                        rc_segmenttable_coming = 1;

                //If we don't have channel table nor channel table won't be next, then the magic is bad (not
                //a valid dump).
                if(!rc_channels.size() && !rc_segmenttable_coming)
                        throw std::runtime_error("read_channel: Bad magic");
        } else {
                //The first element must be of special type (segment start).
                if(!rc_channels.size())
                        throw std::runtime_error("read_channel: Bad magic");
                uint16_t chan = ((uint16_t)packetheader[0] << 8) | (uint16_t)packetheader[1];
                struct channel& c = lookup_channel(rc_channels, chan);
                //Read next 5 bytes of header (that far is safe).
                read_input(rc_stream, packetheader + 2, 5, 0);
                size_t payload = 0;
                ret = new packet();
                unsigned char tmp;

                try {
                        do {
                                read_input(rc_stream, &tmp, 1, 0);
                                if(((size_t)0 - 1) / 128 <= payload)
                                        throw std::runtime_error("read_channel: Packet payload too large");
                                payload = 128 * payload + (tmp & 0x7F);
                        } while(tmp & 0x80);

                        ret->rp_payload.resize(payload);
                        read_input(rc_stream, &ret->rp_payload[0], payload, 0);
                        ret->rp_channel = chan;
                        ret->rp_channel_perm = c.c_channel_perm;
                        ret->rp_major = c.c_type;
                        ret->rp_minor = packetheader[6];
                        uint32_t timedelta = ((uint32_t)packetheader[2] << 24) | ((uint32_t)packetheader[3] << 16) |
                                ((uint32_t)packetheader[4] << 8) | ((uint32_t)packetheader[5]);
                        ret->rp_timestamp = (rc_last_timestamp += timedelta);
                        ret->rp_channel_name = c.c_channel_name;
                } catch(...) {
                        delete ret;
                        throw;
                }
        }

        //Try again if return value would be NULL.
restart:
        if(!ret)
                return this->read();
        else
                return ret;
}

write_channel::write_channel(const std::string& filename)
{
        wc_stream = fopen(filename.c_str(), "wb");
        if(!wc_stream) {
                std::stringstream str;
                str << "write_channel: Can't open '" << filename << "' for writing";
                throw std::runtime_error(str.str());
        }
        wc_last_timestamp = 0;
}

write_channel::~write_channel()
{
        fclose(wc_stream);
}

void write_channel::start_segment(const std::vector<channel>& channels)
{
        unsigned char x[] = {0xFF, 0xFF, 'J', 'P', 'C', 'R', 'R', 'M', 'U', 'L', 'T', 'I', 'D', 'U', 'M', 'P'};
        unsigned char chanbuf[6 + 65535];       //Any channel entry fits in this.

        check_segment_table(channels);

        //Write new segment start.
        if(fwrite(x, 16, 1, wc_stream) < 1)
                throw std::runtime_error("write_channel: Error writing output stream");

        //Write new segment channel table.
        chanbuf[0] = (unsigned char)(channels.size() >> 8);
        chanbuf[1] = (unsigned char)(channels.size());
        if(fwrite(chanbuf, 2, 1, wc_stream) < 1)
                throw std::runtime_error("write_channel: Error writing output stream (channel count)");

        for(std::vector<channel>::const_iterator i = channels.begin(); i != channels.end(); ++i) {
                size_t len;

                chanbuf[0] = (unsigned char)(i->c_channel >> 8);
                chanbuf[1] = (unsigned char)(i->c_channel);
                chanbuf[2] = (unsigned char)(i->c_type >> 8);
                chanbuf[3] = (unsigned char)(i->c_type);
                chanbuf[4] = (unsigned char)(i->c_channel_name.length() >> 8);
                chanbuf[5] = (unsigned char)(i->c_channel_name.length());
                for(size_t j = 0; j < i->c_channel_name.length(); j++)
                        chanbuf[6 + j] = i->c_channel_name[j];
                len = 6 + i->c_channel_name.length();
                if(fwrite(chanbuf, len, 1, wc_stream) < 1)
                        throw std::runtime_error("write_channel: Error writing output stream (channel entry)");
        }
        wc_channels = channels;
}

void write_channel::write(struct packet& p)
{
        unsigned char packetheaders[17];
        if(!wc_channels.size())
                throw std::runtime_error("write_channel: Attempt to write outside segment");
        if(p.rp_timestamp < wc_last_timestamp) {
                std::stringstream str;
                str << "write_channel: Non-monotonic timestream (" << p.rp_timestamp << "<" << wc_last_timestamp
                        << ")";
                throw std::runtime_error(str.str());
        }
        uint64_t deltatime = p.rp_timestamp - wc_last_timestamp;
        while(deltatime > 0xFFFFFFFFULL) {
                //Timeskip.
                packetheaders[0] = 0xFF;
                packetheaders[1] = 0xFF;
                packetheaders[2] = 0xFF;
                packetheaders[3] = 0xFF;
                packetheaders[4] = 0xFF;
                packetheaders[5] = 0xFF;
                if(fwrite(packetheaders, 6, 1, wc_stream) < 1)
                        throw std::runtime_error("write_channel: Error writing output stream (delay)");
                deltatime -= 0xFFFFFFFFU;
        }
        lookup_channel(wc_channels, p.rp_channel);
        size_t hdrlen = 7, counter;
        uint64_t tmplen = p.rp_payload.size();

        //Compose the actual headers.
        packetheaders[0] = (unsigned char)(p.rp_channel >> 8);
        packetheaders[1] = (unsigned char)(p.rp_channel);
        packetheaders[2] = (unsigned char)(deltatime >> 24);
        packetheaders[3] = (unsigned char)(deltatime >> 16);
        packetheaders[4] = (unsigned char)(deltatime >> 8);
        packetheaders[5] = (unsigned char)(deltatime);
        packetheaders[6] = (unsigned char)(p.rp_minor);
        bool wflag = false;
        for(counter = 9; counter <= 9; counter--) {
                unsigned shift = 7 * counter;
                unsigned char bias = shift ? 0x80 : 0x00;
                if(tmplen >= (1ULL << shift) || !shift || wflag) {
                        packetheaders[hdrlen++] = bias + ((tmplen >> shift) & 0x7F);
                        tmplen &= ((1ULL << shift) - 1);
                        wflag = true;
                }
        }

        if(hdrlen && fwrite(packetheaders, hdrlen, 1, wc_stream) < 1)
                throw std::runtime_error("write_channel: Error writing output stream (packet headers)");
        //Write the actual payload.
        if(p.rp_payload.size() && fwrite(&p.rp_payload[0], p.rp_payload.size(), 1, wc_stream) < 1)
                throw std::runtime_error("write_channel: Error writing output stream (payload)");
        wc_last_timestamp = p.rp_timestamp;
}