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esp-link/serial/serbridge.c

517 lines
16 KiB

10 years ago
// Copyright 2015 by Thorsten von Eicken, see LICENSE.txt
#include "esp8266.h"
#include "uart.h"
#include "crc16.h"
#include "serbridge.h"
#include "serled.h"
#include "config.h"
#include "console.h"
#include "slip.h"
#include "cmd.h"
#include "syslog.h"
#define SKIP_AT_RESET
static struct espconn serbridgeConn1; // plain bridging port
static struct espconn serbridgeConn2; // programming port
static esp_tcp serbridgeTcp1, serbridgeTcp2;
static int8_t mcu_reset_pin, mcu_isp_pin, uart0_tx_enable_pin;
extern uint8_t slip_disabled; // disable slip to allow flashing of attached MCU
void (*programmingCB)(char *buffer, short length) = NULL;
// Connection pool
serbridgeConnData connData[MAX_CONN];
//===== TCP -> UART
// Telnet protocol characters
#define IAC 255 // escape
#define WILL 251 // negotiation
#define SB 250 // subnegotiation begin
#define SE 240 // subnegotiation end
#define ComPortOpt 44 // COM port options
#define SetControl 5 // Set control lines
#define DTR_ON 8 // used here to reset microcontroller
#define DTR_OFF 9
#define RTS_ON 11 // used here to signal ISP (in-system-programming) to uC
#define RTS_OFF 12
// telnet state machine states
enum { TN_normal, TN_iac, TN_will, TN_start, TN_end, TN_comPort, TN_setControl };
// process a buffer-full on a telnet connection and return the ending telnet state
static uint8_t ICACHE_FLASH_ATTR
telnetUnwrap(uint8_t *inBuf, int len, uint8_t state)
{
for (int i=0; i<len; i++) {
uint8_t c = inBuf[i];
switch (state) {
default:
case TN_normal:
if (c == IAC) state = TN_iac; // escape char: see what's next
else uart0_write_char(c); // regular char
break;
case TN_iac:
switch (c) {
case IAC: // second escape -> write one to outbuf and go normal again
state = TN_normal;
uart0_write_char(c);
break;
case WILL: // negotiation
state = TN_will;
break;
case SB: // command sequence begin
state = TN_start;
break;
case SE: // command sequence end
state = TN_normal;
break;
default: // not sure... let's ignore
uart0_write_char(IAC);
uart0_write_char(c);
}
break;
case TN_will:
state = TN_normal; // yes, we do COM port options, let's go back to normal
break;
case TN_start: // in command seq, now comes the type of cmd
if (c == ComPortOpt) state = TN_comPort;
else state = TN_end; // an option we don't know, skip 'til the end seq
break;
case TN_end: // wait for end seq
if (c == IAC) state = TN_iac; // simple wait to accept end or next escape seq
break;
case TN_comPort:
if (c == SetControl) state = TN_setControl;
else state = TN_end;
break;
case TN_setControl: // switch control line and delay a tad
switch (c) {
case DTR_ON:
if (mcu_reset_pin >= 0) {
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#ifdef SERBR_DBG
os_printf("MCU reset gpio%d\n", mcu_reset_pin);
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#endif
GPIO_OUTPUT_SET(mcu_reset_pin, 0);
os_delay_us(100L);
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}
#ifdef SERBR_DBG
else { os_printf("MCU reset: no pin\n"); }
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#endif
break;
case DTR_OFF:
if (mcu_reset_pin >= 0) {
GPIO_OUTPUT_SET(mcu_reset_pin, 1);
os_delay_us(100L);
}
break;
case RTS_ON:
if (mcu_isp_pin >= 0) {
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#ifdef SERBR_DBG
os_printf("MCU ISP gpio%d\n", mcu_isp_pin);
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#endif
GPIO_OUTPUT_SET(mcu_isp_pin, 0);
os_delay_us(100L);
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}
#ifdef SERBR_DBG
else { os_printf("MCU isp: no pin\n"); }
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#endif
slip_disabled++;
break;
case RTS_OFF:
if (mcu_isp_pin >= 0) {
GPIO_OUTPUT_SET(mcu_isp_pin, 1);
os_delay_us(100L);
}
if (slip_disabled > 0) slip_disabled--;
break;
}
state = TN_end;
break;
}
}
return state;
}
// Generate a reset pulse for the attached microcontroller
void ICACHE_FLASH_ATTR
serbridgeReset()
{
if (mcu_reset_pin >= 0) {
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#ifdef SERBR_DBG
os_printf("MCU reset gpio%d\n", mcu_reset_pin);
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#endif
GPIO_OUTPUT_SET(mcu_reset_pin, 0);
os_delay_us(2000L); // esp8266 needs at least 1ms reset pulse, it seems...
GPIO_OUTPUT_SET(mcu_reset_pin, 1);
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}
#ifdef SERBR_DBG
else { os_printf("MCU reset: no pin\n"); }
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#endif
}
// Receive callback
static void ICACHE_FLASH_ATTR
serbridgeRecvCb(void *arg, char *data, unsigned short len)
{
serbridgeConnData *conn = ((struct espconn*)arg)->reverse;
//os_printf("Receive callback on conn %p\n", conn);
if (conn == NULL) return;
bool startPGM = false;
// at the start of a connection we're in cmInit mode and we wait for the first few characters
// to arrive in order to decide what type of connection this is.. The following if statements
// do this dispatch. An issue here is that we assume that the first few characters all arrive
// in the same TCP packet, which is true if the sender is a program, but not necessarily
// if the sender is a person typing (although in that case the line-oriented TTY input seems
// to make it work too). If this becomes a problem we need to buffer the first few chars...
if (conn->conn_mode == cmInit) {
// If the connection starts with the Arduino or ARM reset sequence we perform a RESET
if ((len == 2 && strncmp(data, "0 ", 2) == 0) ||
(len == 2 && strncmp(data, "?\n", 2) == 0) ||
(len == 3 && strncmp(data, "?\r\n", 3) == 0)) {
startPGM = true;
conn->conn_mode = cmPGM;
// If the connection starts with a telnet negotiation we will do telnet
}
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else if (len >= 3 && strncmp(data, (char[]){IAC, WILL, ComPortOpt}, 3) == 0) {
conn->conn_mode = cmTelnet;
conn->telnet_state = TN_normal;
// note that the three negotiation chars will be gobbled-up by telnetUnwrap
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#ifdef SERBR_DBG
os_printf("telnet mode\n");
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#endif
// looks like a plain-vanilla connection!
}
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else {
conn->conn_mode = cmTransparent;
}
// if we start out in cmPGM mode due to a connection to the second port we need to do the
// reset dance right away
} else if (conn->conn_mode == cmPGMInit) {
conn->conn_mode = cmPGM;
startPGM = true;
}
// do the programming reset dance
if (startPGM) {
#ifdef SERBR_DBG
os_printf("MCU Reset=gpio%d ISP=gpio%d\n", mcu_reset_pin, mcu_isp_pin);
os_delay_us(2*1000L); // time for os_printf to happen
#endif
// send reset to arduino/ARM, send "ISP" signal for the duration of the programming
if (mcu_reset_pin >= 0) GPIO_OUTPUT_SET(mcu_reset_pin, 0);
os_delay_us(100L);
if (mcu_isp_pin >= 0) GPIO_OUTPUT_SET(mcu_isp_pin, 0);
os_delay_us(2000L);
if (mcu_reset_pin >= 0) GPIO_OUTPUT_SET(mcu_reset_pin, 1);
//os_delay_us(100L);
//if (mcu_isp_pin >= 0) GPIO_OUTPUT_SET(mcu_isp_pin, 1);
os_delay_us(1000L); // wait a millisecond before writing to the UART below
conn->conn_mode = cmPGM;
slip_disabled++; // disable SLIP so it doesn't interfere with flashing
#ifdef SKIP_AT_RESET
serledFlash(50); // short blink on serial LED
return;
#endif
}
// write the buffer to the uart
if (conn->conn_mode == cmTelnet) {
conn->telnet_state = telnetUnwrap((uint8_t *)data, len, conn->telnet_state);
} else {
uart0_tx_buffer(data, len);
}
serledFlash(50); // short blink on serial LED
}
//===== UART -> TCP
// Send all data in conn->txbuffer
// returns result from espconn_sent if data in buffer or ESPCONN_OK (0)
// Use only internally from espbuffsend and serbridgeSentCb
static sint8 ICACHE_FLASH_ATTR
sendtxbuffer(serbridgeConnData *conn)
{
sint8 result = ESPCONN_OK;
if (conn->txbufferlen != 0) {
//os_printf("TX %p %d\n", conn, conn->txbufferlen);
conn->readytosend = false;
result = espconn_sent(conn->conn, (uint8_t*)conn->txbuffer, conn->txbufferlen);
conn->txbufferlen = 0;
if (result != ESPCONN_OK) {
os_printf("sendtxbuffer: espconn_sent error %d on conn %p\n", result, conn);
conn->txbufferlen = 0;
if (!conn->txoverflow_at) conn->txoverflow_at = system_get_time();
} else {
conn->sentbuffer = conn->txbuffer;
conn->txbuffer = NULL;
conn->txbufferlen = 0;
}
}
return result;
}
// espbuffsend adds data to the send buffer. If the previous send was completed it calls
// sendtxbuffer and espconn_sent.
// Returns ESPCONN_OK (0) for success, -128 if buffer is full or error from espconn_sent
// Use espbuffsend instead of espconn_sent as it solves the problem that espconn_sent must
// only be called *after* receiving an espconn_sent_callback for the previous packet.
static sint8 ICACHE_FLASH_ATTR
espbuffsend(serbridgeConnData *conn, const char *data, uint16 len)
{
if (conn->txbufferlen >= MAX_TXBUFFER) goto overflow;
// make sure we indeed have a buffer
if (conn->txbuffer == NULL) conn->txbuffer = os_zalloc(MAX_TXBUFFER);
if (conn->txbuffer == NULL) {
os_printf("espbuffsend: cannot alloc tx buffer\n");
return -128;
}
// add to send buffer
uint16_t avail = conn->txbufferlen+len > MAX_TXBUFFER ? MAX_TXBUFFER-conn->txbufferlen : len;
os_memcpy(conn->txbuffer + conn->txbufferlen, data, avail);
conn->txbufferlen += avail;
// try to send
sint8 result = ESPCONN_OK;
if (conn->readytosend) result = sendtxbuffer(conn);
if (avail < len) {
// some data didn't fit into the buffer
if (conn->txbufferlen == 0) {
// we sent the prior buffer, so try again
return espbuffsend(conn, data+avail, len-avail);
}
goto overflow;
}
return result;
overflow:
if (conn->txoverflow_at) {
// we've already been overflowing
if (system_get_time() - conn->txoverflow_at > 10*1000*1000) {
// no progress in 10 seconds, kill the connection
os_printf("serbridge: killing overlowing stuck conn %p\n", conn);
espconn_disconnect(conn->conn);
}
// else be silent, we already printed an error
} else {
// print 1-time message and take timestamp
os_printf("serbridge: txbuffer full, conn %p\n", conn);
conn->txoverflow_at = system_get_time();
}
return -128;
}
//callback after the data are sent
static void ICACHE_FLASH_ATTR
serbridgeSentCb(void *arg)
{
serbridgeConnData *conn = ((struct espconn*)arg)->reverse;
//os_printf("Sent CB %p\n", conn);
if (conn == NULL) return;
//os_printf("%d ST\n", system_get_time());
if (conn->sentbuffer != NULL) os_free(conn->sentbuffer);
conn->sentbuffer = NULL;
conn->readytosend = true;
conn->txoverflow_at = 0;
sendtxbuffer(conn); // send possible new data in txbuffer
}
void ICACHE_FLASH_ATTR
console_process(char *buf, short len)
{
// push buffer into web-console
for (short i=0; i<len; i++)
console_write_char(buf[i]);
// push the buffer into each open connection
for (short i=0; i<MAX_CONN; i++) {
if (connData[i].conn) {
espbuffsend(&connData[i], buf, len);
}
}
}
// callback with a buffer of characters that have arrived on the uart
void ICACHE_FLASH_ATTR
serbridgeUartCb(char *buf, short length)
{
if (programmingCB) {
programmingCB(buf, length);
} else if (!flashConfig.slip_enable || slip_disabled > 0) {
//os_printf("SLIP: disabled got %d\n", length);
console_process(buf, length);
} else {
slip_parse_buf(buf, length);
}
serledFlash(50); // short blink on serial LED
}
//===== Connect / disconnect
// Disconnection callback
static void ICACHE_FLASH_ATTR
serbridgeDisconCb(void *arg)
{
serbridgeConnData *conn = ((struct espconn*)arg)->reverse;
if (conn == NULL) return;
// Free buffers
if (conn->sentbuffer != NULL) os_free(conn->sentbuffer);
conn->sentbuffer = NULL;
if (conn->txbuffer != NULL) os_free(conn->txbuffer);
conn->txbuffer = NULL;
conn->txbufferlen = 0;
// Send reset to attached uC if it was in programming mode
if (conn->conn_mode == cmPGM && mcu_reset_pin >= 0) {
if (mcu_isp_pin >= 0) GPIO_OUTPUT_SET(mcu_isp_pin, 1);
os_delay_us(100L);
GPIO_OUTPUT_SET(mcu_reset_pin, 0);
os_delay_us(100L);
GPIO_OUTPUT_SET(mcu_reset_pin, 1);
}
conn->conn = NULL;
}
// Connection reset callback (note that there will be no DisconCb)
static void ICACHE_FLASH_ATTR
serbridgeResetCb(void *arg, sint8 err)
{
os_printf("serbridge: connection reset err=%d\n", err);
serbridgeDisconCb(arg);
}
// New connection callback, use one of the connection descriptors, if we have one left.
static void ICACHE_FLASH_ATTR
serbridgeConnectCb(void *arg)
{
struct espconn *conn = arg;
// Find empty conndata in pool
int i;
for (i=0; i<MAX_CONN; i++) if (connData[i].conn==NULL) break;
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#ifdef SERBR_DBG
os_printf("Accept port %d, conn=%p, pool slot %d\n", conn->proto.tcp->local_port, conn, i);
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#endif
syslog(SYSLOG_FAC_USER, SYSLOG_PRIO_NOTICE, "esp-link", "Accept port %d, conn=%p, pool slot %d\n", conn->proto.tcp->local_port, conn, i);
if (i==MAX_CONN) {
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#ifdef SERBR_DBG
os_printf("Aiee, conn pool overflow!\n");
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#endif
syslog(SYSLOG_FAC_USER, SYSLOG_PRIO_WARNING, "esp-link", "Aiee, conn pool overflow!\n");
espconn_disconnect(conn);
return;
}
os_memset(connData+i, 0, sizeof(struct serbridgeConnData));
connData[i].conn = conn;
conn->reverse = connData+i;
connData[i].readytosend = true;
connData[i].conn_mode = cmInit;
// if it's the second port we start out in programming mode
if (conn->proto.tcp->local_port == serbridgeConn2.proto.tcp->local_port)
connData[i].conn_mode = cmPGMInit;
espconn_regist_recvcb(conn, serbridgeRecvCb);
espconn_regist_disconcb(conn, serbridgeDisconCb);
espconn_regist_reconcb(conn, serbridgeResetCb);
espconn_regist_sentcb(conn, serbridgeSentCb);
espconn_set_opt(conn, ESPCONN_REUSEADDR|ESPCONN_NODELAY);
}
//===== Initialization
void ICACHE_FLASH_ATTR
serbridgeInitPins()
{
mcu_reset_pin = flashConfig.reset_pin;
mcu_isp_pin = flashConfig.isp_pin;
uart0_tx_enable_pin = flashConfig.uart0_tx_enable_pin;
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#ifdef SERBR_DBG
os_printf("Serbridge pins: reset=%d isp=%d tx_enable=%d swap=%d\n",
mcu_reset_pin, mcu_isp_pin, uart0_tx_enable_pin, flashConfig.swap_uart);
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#endif
if (flashConfig.swap_uart) {
PIN_FUNC_SELECT(PERIPHS_IO_MUX_MTCK_U, 4); // RX
PIN_FUNC_SELECT(PERIPHS_IO_MUX_MTDO_U, 4); // TX
PIN_PULLUP_DIS(PERIPHS_IO_MUX_MTDO_U);
if (flashConfig.rx_pullup) PIN_PULLUP_EN(PERIPHS_IO_MUX_MTCK_U);
else PIN_PULLUP_DIS(PERIPHS_IO_MUX_MTCK_U);
system_uart_swap();
} else {
PIN_FUNC_SELECT(PERIPHS_IO_MUX_U0TXD_U, 0);
PIN_FUNC_SELECT(PERIPHS_IO_MUX_U0RXD_U, 0);
PIN_PULLUP_DIS(PERIPHS_IO_MUX_U0TXD_U);
if (flashConfig.rx_pullup) PIN_PULLUP_EN(PERIPHS_IO_MUX_U0RXD_U);
else PIN_PULLUP_DIS(PERIPHS_IO_MUX_U0RXD_U);
system_uart_de_swap();
}
/* set both pins to 1 before turning them on (so we don't cause a reset)
* then switch pin mux to make these pins GPIO pins
*/
if (mcu_isp_pin >= 0) {
GPIO_OUTPUT_SET(mcu_isp_pin, 1);
makeGpio(mcu_isp_pin);
}
if (mcu_reset_pin >= 0) {
GPIO_OUTPUT_SET(mcu_reset_pin, 1);
makeGpio(mcu_reset_pin);
}
// set TX_ENABLE to 0 so we start up listening
if (uart0_tx_enable_pin >= 0) {
GPIO_OUTPUT_SET(uart0_tx_enable_pin, 0);
makeGpio(uart0_tx_enable_pin);
uart0_set_tx_enable_pin(uart0_tx_enable_pin);
}
}
// Start transparent serial bridge TCP server on specified port (typ. 23)
void ICACHE_FLASH_ATTR
serbridgeInit(int port1, int port2)
{
serbridgeInitPins();
os_memset(connData, 0, sizeof(connData));
os_memset(&serbridgeTcp1, 0, sizeof(serbridgeTcp1));
os_memset(&serbridgeTcp2, 0, sizeof(serbridgeTcp2));
// set-up the primary port for plain bridging
serbridgeConn1.type = ESPCONN_TCP;
serbridgeConn1.state = ESPCONN_NONE;
serbridgeTcp1.local_port = port1;
serbridgeConn1.proto.tcp = &serbridgeTcp1;
espconn_regist_connectcb(&serbridgeConn1, serbridgeConnectCb);
espconn_accept(&serbridgeConn1);
espconn_tcp_set_max_con_allow(&serbridgeConn1, MAX_CONN);
espconn_regist_time(&serbridgeConn1, SER_BRIDGE_TIMEOUT, 0);
// set-up the secondary port for programming
serbridgeConn2.type = ESPCONN_TCP;
serbridgeConn2.state = ESPCONN_NONE;
serbridgeTcp2.local_port = port2;
serbridgeConn2.proto.tcp = &serbridgeTcp2;
espconn_regist_connectcb(&serbridgeConn2, serbridgeConnectCb);
espconn_accept(&serbridgeConn2);
espconn_tcp_set_max_con_allow(&serbridgeConn2, MAX_CONN);
espconn_regist_time(&serbridgeConn2, SER_BRIDGE_TIMEOUT, 0);
}