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esp-link/rest/rest.c

394 lines
12 KiB

// Copyright 2015 by Thorsten von Eicken, see LICENSE.txt
//
// Adapted from: github.com/tuanpmt/esp_bridge, Created on: Mar 4, 2015, Author: Minh
#include "esp8266.h"
#include "rest.h"
#include "cmd.h"
// Connection pool for REST clients. Attached MCU's just call REST_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 REST connections as there are slots in the pool.
#define MAX_REST 4
static RestClient restClient[MAX_REST];
static uint8_t restNum = 0xff; // index into restClient for next slot to allocate
#define REST_CB 0xbeef0000 // fudge added to callback for arduino so we can detect problems
static void ICACHE_FLASH_ATTR
tcpclient_discon_cb(void *arg) {
struct espconn *pespconn = (struct espconn *)arg;
RestClient* client = (RestClient *)pespconn->reverse;
// free the data buffer, if we have one
if (client->data) os_free(client->data);
client->data = 0;
}
// Receive HTTP response - this hacky function assumes that the full response is received in
// one go. Sigh...
static void ICACHE_FLASH_ATTR
tcpclient_recv(void *arg, char *pdata, unsigned short len) {
struct espconn *pCon = (struct espconn*)arg;
RestClient *client = (RestClient *)pCon->reverse;
// parse status line
int pi = 0;
int32_t code = -1;
char statusCode[4] = "\0\0\0\0";
int statusLen = 0;
bool inStatus = false;
while (pi < len) {
if (pdata[pi] == '\n') {
// end of status line
if (code == -1) code = 502; // BAD GATEWAY
break;
} else if (pdata[pi] == ' ') {
if (inStatus) code = atoi(statusCode);
inStatus = !inStatus;
} else if (inStatus) {
if (statusLen < 3) statusCode[statusLen] = pdata[pi];
statusLen++;
}
pi++;
}
// parse header, all this does is look for the end of the header
bool currentLineIsBlank = false;
while (pi < len) {
if (pdata[pi] == '\n') {
if (currentLineIsBlank) {
// body is starting
pi++;
break;
}
currentLineIsBlank = true;
} else if (pdata[pi] != '\r') {
currentLineIsBlank = false;
}
pi++;
}
//if (pi < len && pdata[pi] == '\r') pi++; // hacky!
// collect body and send it
uint16_t crc;
int body_len = len-pi;
os_printf("REST: status=%ld, body=%d\n", code, body_len);
if (pi == len) {
crc = CMD_ResponseStart(CMD_REST_EVENTS, client->resp_cb, code, 0);
} else {
crc = CMD_ResponseStart(CMD_REST_EVENTS, client->resp_cb, code, 1);
crc = CMD_ResponseBody(crc, (uint8_t*)(pdata+pi), body_len);
CMD_ResponseEnd(crc);
os_printf("REST: body=");
for (int j=pi; j<len; j++) os_printf(" %02x", pdata[j]);
os_printf("\n");
}
//if(client->security)
// espconn_secure_disconnect(client->pCon);
//else
espconn_disconnect(client->pCon);
}
static void ICACHE_FLASH_ATTR
tcpclient_sent_cb(void *arg) {
struct espconn *pCon = (struct espconn *)arg;
RestClient* client = (RestClient *)pCon->reverse;
os_printf("REST: Sent\n");
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;
}
}
static void ICACHE_FLASH_ATTR
tcpclient_connect_cb(void *arg) {
struct espconn *pCon = (struct espconn *)arg;
RestClient* client = (RestClient *)pCon->reverse;
os_printf("REST #%d: connected\n", client-restClient);
espconn_regist_disconcb(client->pCon, tcpclient_discon_cb);
espconn_regist_recvcb(client->pCon, tcpclient_recv);
espconn_regist_sentcb(client->pCon, tcpclient_sent_cb);
client->data_sent = client->data_len <= 1400 ? client->data_len : 1400;
os_printf("REST #%d: sending %d\n", client-restClient, client->data_sent);
//if(client->security){
// espconn_secure_sent(client->pCon, client->data, client->data_sent);
//}
//else{
espconn_sent(client->pCon, (uint8_t*)client->data, client->data_sent);
//}
}
static void ICACHE_FLASH_ATTR
tcpclient_recon_cb(void *arg, sint8 errType) {
struct espconn *pCon = (struct espconn *)arg;
RestClient* client = (RestClient *)pCon->reverse;
os_printf("REST #%d: conn reset\n", client-restClient);
}
static void ICACHE_FLASH_ATTR
rest_dns_found(const char *name, ip_addr_t *ipaddr, void *arg) {
struct espconn *pConn = (struct espconn *)arg;
RestClient* client = (RestClient *)pConn->reverse;
if(ipaddr == NULL) {
os_printf("REST DNS: Got no ip, try to reconnect\n");
return;
}
os_printf("REST DNS: found ip %d.%d.%d.%d\n",
*((uint8 *) &ipaddr->addr),
*((uint8 *) &ipaddr->addr + 1),
*((uint8 *) &ipaddr->addr + 2),
*((uint8 *) &ipaddr->addr + 3));
if(client->ip.addr == 0 && ipaddr->addr != 0) {
os_memcpy(client->pCon->proto.tcp->remote_ip, &ipaddr->addr, 4);
//if(client->security){
// espconn_secure_connect(client->pCon);
//}
//else {
espconn_connect(client->pCon);
//}
os_printf("REST: connecting...\n");
}
}
uint32_t ICACHE_FLASH_ATTR
REST_Setup(CmdPacket *cmd) {
CmdRequest req;
uint32_t port, security;
// start parsing the command
CMD_Request(&req, cmd);
if(CMD_GetArgc(&req) != 3) return 0;
// get the hostname
uint16_t len = CMD_ArgLen(&req);
if (len > 128) return 0; // safety check
uint8_t *rest_host = (uint8_t*)os_zalloc(len + 1);
if (CMD_PopArg(&req, rest_host, len)) return 0;
rest_host[len] = 0;
// get the port
if (CMD_PopArg(&req, (uint8_t*)&port, 4)) {
os_free(rest_host);
return 0;
}
// get the security mode
if (CMD_PopArg(&req, (uint8_t*)&security, 4)) {
os_free(rest_host);
return 0;
}
// clear connection structures the first time
if (restNum == 0xff) {
os_memset(restClient, 0, MAX_REST * sizeof(RestClient));
restNum = 0;
}
// allocate a connection structure
RestClient *client = restClient + restNum;
uint8_t clientNum = restNum;
restNum = (restNum+1)%MAX_REST;
// free any data structure that may be left from a previous connection
if (client->header) os_free(client->header);
if (client->content_type) os_free(client->content_type);
if (client->user_agent) os_free(client->user_agent);
if (client->data) os_free(client->data);
if (client->pCon) {
if (client->pCon->proto.tcp) os_free(client->pCon->proto.tcp);
os_free(client->pCon);
}
os_memset(client, 0, sizeof(RestClient));
os_printf("REST: setup #%d host=%s port=%ld security=%ld\n", clientNum, rest_host, port, security);
client->resp_cb = cmd->callback;
client->host = (char *)rest_host;
client->port = port;
client->security = security;
client->header = (char*)os_zalloc(4);
client->header[0] = 0;
client->content_type = (char*)os_zalloc(22);
os_sprintf((char *)client->content_type, "x-www-form-urlencoded");
client->user_agent = (char*)os_zalloc(9);
os_sprintf((char *)client->user_agent, "esp-link");
client->pCon = (struct espconn *)os_zalloc(sizeof(struct espconn));
client->pCon->proto.tcp = (esp_tcp *)os_zalloc(sizeof(esp_tcp));
client->pCon->type = ESPCONN_TCP;
client->pCon->state = ESPCONN_NONE;
client->pCon->proto.tcp->local_port = espconn_port();
client->pCon->proto.tcp->remote_port = client->port;
client->pCon->reverse = client;
return REST_CB | (uint32_t)clientNum;
}
uint32_t ICACHE_FLASH_ATTR
REST_SetHeader(CmdPacket *cmd) {
CmdRequest req;
CMD_Request(&req, cmd);
if(CMD_GetArgc(&req) != 3)
return 0;
// Get client
uint32_t clientNum;
if (CMD_PopArg(&req, (uint8_t*)&clientNum, 4)) return 0;
if ((clientNum & 0xffff0000) != REST_CB) return 0;
RestClient *client = restClient + ((clientNum & 0xffff) % MAX_REST);
// Get header selector
uint32_t header_index;
if (CMD_PopArg(&req, (uint8_t*)&header_index, 4)) return 0;
// Get header value
uint16_t len = CMD_ArgLen(&req);
if (len > 256) return 0; //safety check
switch(header_index) {
case HEADER_GENERIC:
if(client->header) os_free(client->header);
client->header = (char*)os_zalloc(len + 3);
CMD_PopArg(&req, (uint8_t*)client->header, len);
client->header[len] = '\r';
client->header[len+1] = '\n';
client->header[len+2] = 0;
os_printf("REST: Set header: %s\r\n", client->header);
break;
case HEADER_CONTENT_TYPE:
if(client->content_type) os_free(client->content_type);
client->content_type = (char*)os_zalloc(len + 3);
CMD_PopArg(&req, (uint8_t*)client->content_type, len);
client->content_type[len] = '\r';
client->content_type[len+1] = '\n';
client->content_type[len+2] = 0;
os_printf("REST: Set content_type: %s\r\n", client->content_type);
break;
case HEADER_USER_AGENT:
if(client->user_agent) os_free(client->user_agent);
client->user_agent = (char*)os_zalloc(len + 3);
CMD_PopArg(&req, (uint8_t*)client->user_agent, len);
client->user_agent[len] = '\r';
client->user_agent[len+1] = '\n';
client->user_agent[len+2] = 0;
os_printf("REST: Set user_agent: %s\r\n", client->user_agent);
break;
}
return 1;
}
uint32_t ICACHE_FLASH_ATTR
REST_Request(CmdPacket *cmd) {
CmdRequest req;
CMD_Request(&req, cmd);
os_printf("REST: request");
// Get client
uint32_t clientNum;
if (CMD_PopArg(&req, (uint8_t*)&clientNum, 4)) goto fail;
if ((clientNum & 0xffff0000) != REST_CB) goto fail;
clientNum &= 0xffff;
RestClient *client = restClient + clientNum % MAX_REST;
os_printf(" #%ld", clientNum);
// Get HTTP method
uint16_t len = CMD_ArgLen(&req);
if (len > 15) goto fail;
char method[16];
CMD_PopArg(&req, method, len);
method[len] = 0;
os_printf(" method=%s", method);
// Get HTTP path
len = CMD_ArgLen(&req);
if (len > 1023) goto fail;
char path[1024];
CMD_PopArg(&req, path, len);
path[len] = 0;
os_printf(" path=%s", path);
// Get HTTP body
uint32_t realLen = 0;
if (CMD_GetArgc(&req) == 3) {
realLen = 0;
len = 0;
} else {
CMD_PopArg(&req, (uint8_t*)&realLen, 4);
len = CMD_ArgLen(&req);
if (len > 2048 || realLen > len) goto fail;
}
os_printf(" bodyLen=%ld", realLen);
// we need to allocate memory for the header plus the body. First we count the length of the
// header (including some extra counted "%s" and then we add the body length. We allocate the
// whole shebang and copy everything into it.
// BTW, use http/1.0 to avoid responses with transfer-encoding: chunked
char *headerFmt = "%s %s HTTP/1.0\r\n"
"Host: %s\r\n"
"%s"
"Content-Length: %d\r\n"
"Connection: close\r\n"
"Content-Type: %s\r\n"
"User-Agent: %s\r\n\r\n";
uint16_t headerLen = strlen(headerFmt) + strlen(method) + strlen(path) + strlen(client->host) +
strlen(client->header) + strlen(client->content_type) + strlen(client->user_agent);
os_printf(" hdrLen=%d", headerLen);
if (client->data) os_free(client->data);
client->data = (char*)os_zalloc(headerLen + realLen);
if (client->data == NULL) goto fail;
os_printf(" totLen=%ld data=%p", headerLen + realLen, client->data);
client->data_len = os_sprintf((char*)client->data, headerFmt, method, path, client->host,
client->header, realLen, client->content_type, client->user_agent);
os_printf(" hdrLen=%d", client->data_len);
if (realLen > 0) {
CMD_PopArg(&req, client->data + client->data_len, realLen);
client->data_len += realLen;
}
os_printf("\n");
os_printf("REST: pCon state=%d\n", client->pCon->state);
client->pCon->state = ESPCONN_NONE;
espconn_regist_connectcb(client->pCon, tcpclient_connect_cb);
espconn_regist_reconcb(client->pCon, tcpclient_recon_cb);
if(UTILS_StrToIP((char *)client->host, &client->pCon->proto.tcp->remote_ip)) {
os_printf("REST: Connect to ip %s:%ld\n",client->host, client->port);
//if(client->security){
// espconn_secure_connect(client->pCon);
//}
//else {
espconn_connect(client->pCon);
//}
} else {
os_printf("REST: Connect to host %s:%ld\n", client->host, client->port);
espconn_gethostbyname(client->pCon, (char *)client->host, &client->ip, rest_dns_found);
}
return 1;
fail:
os_printf("\n");
return 0;
}