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esp-link/udp/udp.c

244 lines
6.9 KiB

// Copyright 2016 by BeeGee, see LICENSE.txt
//
// Adapted from: github.com/tuanpmt/esp_bridge, Created on: Mar 4, 2015, Author: Minh
// Adapted from: rest.c, Author: Thorsten von Eicken
#include "esp8266.h"
#include "c_types.h"
#include "ip_addr.h"
#include "udp.h"
#include "cmd.h"
#define UDP_DBG
#ifdef UDP_DBG
#define DBG_UDP(format, ...) os_printf(format, ## __VA_ARGS__)
#else
#define DBG_UDP(format, ...) do { } while(0)
#endif
typedef struct {
char *host;
uint32_t port;
ip_addr_t ip;
struct espconn *pCon;
char *data;
uint16_t data_len;
uint16_t data_sent;
uint32_t resp_cb;
uint8_t conn_num;
} UdpClient;
// Connection pool for UDP socket clients. Attached MCU's just call UDP_setup and this allocates
// a connection, They never call any 'free' and given that the attached MCU could restart at
// any time, we cannot really rely on the attached MCU to call 'free' ever, so better do without.
// Instead, we allocate a fixed pool of connections an round-robin. What this means is that the
// attached MCU should really use at most as many UDP connections as there are slots in the pool.
#define MAX_UDP 4
static UdpClient udpClient[MAX_UDP];
static uint8_t udpNum = 0xff; // index into udpClient for next slot to allocate
// Any incoming data?
static void ICACHE_FLASH_ATTR
udpclient_recv_cb(void *arg, char *pusrdata, unsigned short length) {
struct espconn *pCon = (struct espconn *)arg;
UdpClient* client = (UdpClient *)pCon->reverse;
uint8_t clientNum = client->conn_num;
uint8_t cb_type = 1;
DBG_UDP("UDP #%d: Received %d bytes: %s\n",clientNum, length, pusrdata);
cmdResponseStart(CMD_RESP_CB, client->resp_cb, 4);
cmdResponseBody(&cb_type, 1);
cmdResponseBody(&clientNum, 1);
cmdResponseBody(&length, 2);
cmdResponseBody(pusrdata, length);
cmdResponseEnd();
}
// Data is sent
static void ICACHE_FLASH_ATTR
udpclient_sent_cb(void *arg) {
struct espconn *pCon = (struct espconn *)arg;
UdpClient* client = (UdpClient *)pCon->reverse;
uint8_t clientNum = client->conn_num;
uint8_t cb_type = 0;
DBG_UDP("UDP #%d: Sent\n",clientNum);
sint16 sentDataLen = client->data_sent;
if (client->data_sent != client->data_len) {
// we only sent part of the buffer, send the rest
espconn_sent(client->pCon, (uint8_t*)(client->data+client->data_sent),
client->data_len-client->data_sent);
client->data_sent = client->data_len;
} else {
// we're done sending, free the memory
if (client->data) os_free(client->data);
client->data = 0;
cmdResponseStart(CMD_RESP_CB, client->resp_cb, 3);
cmdResponseBody(&cb_type, 1);
cmdResponseBody(&clientNum, 1);
cmdResponseBody(&sentDataLen, 2);
cmdResponseEnd();
}
}
void ICACHE_FLASH_ATTR
UDP_Setup(CmdPacket *cmd) {
CmdRequest req;
uint16_t port;
int32_t err = -1; // error code in case of failure
// start parsing the command
cmdRequest(&req, cmd);
if(cmdGetArgc(&req) != 3) {
DBG_UDP("UDP Setup parse command failure: (cmdGetArgc(&req) != 3)\n");
goto fail;
}
err--;
// get the hostname (IP address)
uint16_t len = cmdArgLen(&req);
if (len > 128) {
DBG_UDP("UDP Setup parse command failure: hostname longer than 128 characters\n");
goto fail; // safety check
}
err--;
uint8_t *udp_host = (uint8_t*)os_zalloc(len + 1);
if (udp_host == NULL) {
DBG_UDP("UDP Setup failed to alloc memory for udp_host\n");
goto fail;
}
if (cmdPopArg(&req, udp_host, len)) {
DBG_UDP("UDP Setup parse command failure: (cmdPopArg(&req, udp_host, len))\n");
goto fail;
}
err--;
udp_host[len] = 0;
// get the port
if (cmdPopArg(&req, (uint8_t*)&port, 2)) {
DBG_UDP("UDP Setup parse command failure: cannot get port\n");
os_free(udp_host);
goto fail;
}
err--;
// clear connection structures the first time
if (udpNum == 0xff) {
os_memset(udpClient, 0, MAX_UDP * sizeof(UdpClient));
udpNum = 0;
}
// allocate a connection structure
UdpClient *client = udpClient + udpNum;
uint8_t clientNum = udpNum;
udpNum = (udpNum+1)%MAX_UDP;
// free any data structure that may be left from a previous connection
if (client->data) os_free(client->data);
if (client->pCon) {
if (client->pCon->proto.udp) os_free(client->pCon->proto.udp);
os_free(client->pCon);
}
os_memset(client, 0, sizeof(UdpClient));
DBG_UDP("UDP #%d: Setup udp_host=%s port=%d \n", clientNum, udp_host, port);
client->resp_cb = cmd->value;
client->conn_num = clientNum;
client->host = (char *)udp_host;
client->port = port;
wifi_set_broadcast_if(STATIONAP_MODE);
client->pCon = (struct espconn *)os_zalloc(sizeof(struct espconn));
if (client->pCon == NULL) {
DBG_UDP("UDP #%d: Setup failed to alloc memory for client_pCon\n", clientNum);
goto fail;
}
client->pCon->type = ESPCONN_UDP;
client->pCon->state = ESPCONN_NONE;
client->pCon->proto.udp = (esp_udp *)os_zalloc(sizeof(esp_udp));
if (client->pCon->proto.udp == NULL) {
DBG_UDP("UDP #%d: Setup failed to alloc memory for client->pCon->proto.tcp\n", clientNum);
goto fail;
}
os_memcpy(client->host, udp_host, 4);
client->pCon->proto.udp->remote_port = client->port;
client->pCon->proto.udp->local_port = client->port;
client->pCon->reverse = client;
espconn_regist_sentcb(client->pCon, udpclient_sent_cb);
espconn_regist_recvcb(client->pCon, udpclient_recv_cb);
DBG_UDP("UDP #%d: Create connection to ip %s:%d\n", clientNum, client->host, client->port);
if(UTILS_StrToIP((char *)client->host, &client->pCon->proto.tcp->remote_ip)) {
espconn_create(client->pCon);
} else {
DBG_UDP("UDP #%d: failed to copy remote_ip to &client->pCon->proto.tcp->remote_ip\n", clientNum);
goto fail;
}
cmdResponseStart(CMD_RESP_V, clientNum, 0);
cmdResponseEnd();
DBG_UDP("UDP #%d: setup finished\n", clientNum);
return;
fail:
cmdResponseStart(CMD_RESP_V, err, 0);
cmdResponseEnd();
return;
}
void ICACHE_FLASH_ATTR
UDP_Send(CmdPacket *cmd) {
CmdRequest req;
cmdRequest(&req, cmd);
// Get client
uint32_t clientNum = cmd->value;
UdpClient *client = udpClient + (clientNum % MAX_UDP);
DBG_UDP("UDP #%d: send", clientNum);
if (cmd->argc != 1 && cmd->argc != 2) {
DBG_UDP("\nUDP #%d: send - wrong number of arguments\n", clientNum);
return;
}
// Get data to sent
uint16_t dataLen = cmdArgLen(&req);
DBG_UDP(" dataLen=%d", dataLen);
char udpData[1024];
cmdPopArg(&req, udpData, dataLen);
udpData[dataLen] = 0;
DBG_UDP(" udpData=%s", udpData);
// we need to allocate memory for the data. We copy the message into it
char *udpDataSet = "%s";
if (client->data) os_free(client->data);
client->data = (char*)os_zalloc(dataLen);
if (client->data == NULL) {
DBG_UDP("\nUDP #%d: failed to alloc memory for client->data\n", clientNum);
goto fail;
}
client->data_len = os_sprintf((char*)client->data, udpDataSet, udpData);
DBG_UDP("\n");
client->data_sent = client->data_len <= 1400 ? client->data_len : 1400;
DBG_UDP("UDP #%d: sending %d bytes: %s\n", client-udpClient, client->data_sent, client->data);
espconn_sent(client->pCon, (uint8_t*)client->data, client->data_sent);
return;
fail:
DBG_UDP("\n");
}