OpenModem/Modem/protocol/mp1.c

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#include "mp1.h"
#include <string.h>
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#include <drv/ser.h>
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static void mp1Decode(MP1 *mp1) {
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// This decode function is basic and bare minimum.
// It does nothing more than extract the data
// payload from the buffer and put it into a struct
// for further processing.
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MP1Packet packet; // A decoded packet struct
uint8_t *buffer = mp1->buffer; // Get the buffer from the protocol context
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// Set the payload length of the packet to the counted
// length minus 1, so we remove the checksum
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packet.dataLength = mp1->packetLength - 1;
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packet.data = buffer;
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// If a callback have been specified, let's
// call it and pass the decoded packet
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if (mp1->callback) mp1->callback(&packet);
}
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////////////////////////////////////////////////////////////
// The Poll function reads data from the modem, handles //
// frame recognition and passes data on to higher layers //
// if valid packets are found //
////////////////////////////////////////////////////////////
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void mp1Poll(MP1 *mp1) {
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int byte; // A place to store our read byte
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// Read bytes from the modem until we reach EOF
while ((byte = kfile_getc(mp1->modem)) != EOF) {
if (!mp1->escape && byte == HDLC_FLAG) {
// We are not in an escape sequence and we
// found a HDLC_FLAG. This can mean two things:
if (mp1->packetLength >= MP1_MIN_FRAME_LENGTH) {
// We already have more data than the minimum
// frame length, which means the flag signifies
// the end of the packet. Pass control to the
// decoder.
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// kprintf("Got checksum: %d.\n", mp1->buffer[mp1->packetLength-1]);
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if ((mp1->checksum_in & 0xff) == 0x00) {
//kprintf("Correct checksum. Found %d.\n", mp1->buffer[mp1->packetLength-1]);
mp1Decode(mp1);
} else {
// Checksum was incorrect
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mp1Decode(mp1);
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kprintf("Incorrect checksum. Found %d, ", mp1->buffer[mp1->packetLength]);
kprintf("should be %d\n", mp1->checksum_in);
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}
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}
// If the above is not the case, this must be the
// beginning of a frame
mp1->reading = true;
mp1->packetLength = 0;
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mp1->checksum_in = MP1_CHECKSUM_INIT;
//kprintf("Checksum init with %d\n", mp1->checksum_in);
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// We have indicated that we are reading,
// and reset the length counter. Now we'll
// continue to the next byte.
continue;
}
if (!mp1->escape && byte == HDLC_RESET) {
// Not good, we got a reset. The transmitting
// party may have encountered an error. We'll
// stop receiving this packet immediately.
mp1->reading = false;
continue;
}
if (!mp1->escape && byte == AX25_ESC) {
// We found an escape character. We'll set
// the escape seqeunce indicator so we don't
// interpret the next byte as a reset or flag
mp1->escape = true;
continue;
}
// Now let's get to the actual reading of the data
if (mp1->reading) {
if (mp1->packetLength < MP1_MAX_FRAME_LENGTH) {
// If the length of the current incoming frame is
// still less than our max length, put the incoming
// byte in the buffer.
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if (!mp1->escape) mp1->checksum_in = mp1->checksum_in ^ byte;
//kprintf("Checksum is now %d\n", mp1->checksum_in);
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mp1->buffer[mp1->packetLength++] = byte;
} else {
// If not, we have a problem: The buffer has overrun
// We need to stop receiving, and the packet will be
// dropped :(
mp1->reading = false;
}
}
// We need to set the escape sequence indicator back
// to false after each byte.
mp1->escape = false;
}
if (kfile_error(mp1->modem)) {
// If there was an error from the modem, we'll be rude
// and just reset it. No error handling is done for now.
kfile_clearerr(mp1->modem);
}
}
static void mp1Putbyte(MP1 *mp1, uint8_t byte) {
// If we are sending something that looks
// like an HDLC special byte, send an escape
// character first
if (byte == HDLC_FLAG ||
byte == HDLC_RESET ||
byte == AX25_ESC) {
kfile_putc(AX25_ESC, mp1->modem);
}
kfile_putc(byte, mp1->modem);
}
void mp1Send(MP1 *mp1, const void *_buffer, size_t length) {
// Get the transmit data buffer
const uint8_t *buffer = (const uint8_t *)_buffer;
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// Initialize checksum
mp1->checksum_out = MP1_CHECKSUM_INIT;
//kprintf("Checksum init with %d\n", mp1->checksum_out);
// Transmit the HDLC_FLAG to signify start of TX
kfile_putc(HDLC_FLAG, mp1->modem);
// Continously increment the pointer address
// of the buffer while passing it to the byte
// output function
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while (length--) {
mp1->checksum_out = mp1->checksum_out ^ *buffer;
//kprintf("Checksum is now %d\n", mp1->checksum_out);
mp1Putbyte(mp1, *buffer++);
}
// Write checksum to end of packet
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kprintf("Sending packet with checksum %d\n", mp1->checksum_out);
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mp1Putbyte(mp1, mp1->checksum_out);
// Transmit a HDLC_FLAG to signify end of TX
kfile_putc(HDLC_FLAG, mp1->modem);
}
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void mp1Init(MP1 *mp1, KFile *modem, mp1_callback_t callback) {
// Allocate memory for our protocol "object"
memset(mp1, 0, sizeof(*mp1));
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// Set references to our modem "object" and
// a callback for when a packet has been decoded
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mp1->modem = modem;
mp1->callback = callback;
}