Azure IoT
Azure IoT common library
Dependents: STM32F746_iothub_client_sample_mqtt f767zi_mqtt iothub_client_sample_amqp iothub_client_sample_http ... more
httpapi_compact.c
- Committer:
- AzureIoTClient
- Date:
- 2016-09-09
- Revision:
- 11:77df6d7e65ae
- Parent:
- 7:1af47e3a19b6
- Child:
- 13:920e00014ee3
File content as of revision 11:77df6d7e65ae:
// Copyright (c) Microsoft. All rights reserved.
// Licensed under the MIT license. See LICENSE file in the project root for full license information.
#include <stdlib.h>
#ifdef _CRTDBG_MAP_ALLOC
#include <crtdbg.h>
#endif
#include <stdio.h>
#include <ctype.h>
#include "azure_c_shared_utility/gballoc.h"
#include "azure_c_shared_utility/httpheaders.h"
#include "azure_c_shared_utility/crt_abstractions.h"
#include "azure_c_shared_utility/xlogging.h"
#include "azure_c_shared_utility/xio.h"
#include "azure_c_shared_utility/platform.h"
#include "azure_c_shared_utility/tlsio.h"
#include "azure_c_shared_utility/threadapi.h"
#include <string.h>
#include <limits.h>
/*Codes_SRS_HTTPAPI_COMPACT_21_001: [ The httpapi_compact shall implement the methods defined by the `httpapi.h`. ]*/
/*Codes_SRS_HTTPAPI_COMPACT_21_002: [ The httpapi_compact shall support the http requests. ]*/
/*Codes_SRS_HTTPAPI_COMPACT_21_003: [ The httpapi_compact shall return error codes defined by HTTPAPI_RESULT. ]*/
#include "azure_c_shared_utility/httpapi.h"
#define MAX_HOSTNAME 64
#define TEMP_BUFFER_SIZE 1024
DEFINE_ENUM_STRINGS(HTTPAPI_RESULT, HTTPAPI_RESULT_VALUES)
typedef enum SEND_ALL_RESULT_TAG
{
SEND_ALL_RESULT_NOT_STARTED,
SEND_ALL_RESULT_PENDING,
SEND_ALL_RESULT_OK,
SEND_ALL_RESULT_ERROR
} SEND_ALL_RESULT;
typedef struct HTTP_HANDLE_DATA_TAG
{
char* certificate;
XIO_HANDLE xio_handle;
size_t received_bytes_count;
unsigned char* received_bytes;
SEND_ALL_RESULT send_all_result;
unsigned int is_io_error : 1;
unsigned int is_connected : 1;
} HTTP_HANDLE_DATA;
/*the following function does the same as sscanf(pos2, "%d", &sec)*/
/*this function only exists because some of platforms do not have sscanf. */
static int ParseStringToDecimal(const char *src, int* dst)
{
int result;
char* next;
(*dst) = strtol(src, &next, 0);
if ((src == next) || ((((*dst) == LONG_MAX) || ((*dst) == LONG_MIN)) && (errno != 0)))
{
result = EOF;
}
else
{
result = 1;
}
return result;
}
/*the following function does the same as sscanf(pos2, "%x", &sec)*/
/*this function only exists because some of platforms do not have sscanf. This is not a full implementation; it only works with well-defined x numbers. */
#define HEXA_DIGIT_VAL(c) (((c>='0') && (c<='9')) ? (c-'0') : ((c>='a') && (c<='f')) ? (c-'a'+10) : ((c>='A') && (c<='F')) ? (c-'A'+10) : -1)
static int ParseStringToHexadecimal(const char *src, size_t* dst)
{
int result;
int digitVal;
if (src == NULL)
{
result = EOF;
}
else if (HEXA_DIGIT_VAL(*src) == -1)
{
result = EOF;
}
else
{
(*dst) = 0;
while ((digitVal = HEXA_DIGIT_VAL(*src)) != -1)
{
(*dst) *= 0x10;
(*dst) += (size_t)digitVal;
src++;
}
result = 1;
}
return result;
}
/*the following function does the same as sscanf(buf, "HTTP/%*d.%*d %d %*[^\r\n]", &ret) */
/*this function only exists because some of platforms do not have sscanf. This is not a full implementation; it only works with well-defined HTTP response. */
static int ParseHttpResponse(const char* src, int* dst)
{
int result;
static const char HTTPPrefix[] = "HTTP/";
bool fail;
const char* runPrefix;
if ((src == NULL) || (dst == NULL))
{
result = EOF;
}
else
{
fail = false;
runPrefix = HTTPPrefix;
while((*runPrefix) != '\0')
{
if ((*runPrefix) != (*src))
{
fail = true;
break;
}
src++;
runPrefix++;
}
if (!fail)
{
while ((*src) != '.')
{
if ((*src) == '\0')
{
fail = true;
break;
}
src++;
}
}
if (!fail)
{
while ((*src) != ' ')
{
if ((*src) == '\0')
{
fail = true;
break;
}
src++;
}
}
if (fail)
{
result = EOF;
}
else
{
result = ParseStringToDecimal(src, dst);
}
}
return result;
}
HTTPAPI_RESULT HTTPAPI_Init(void)
{
/*Codes_SRS_HTTPAPI_COMPACT_21_004: [ The HTTPAPI_Init shall allocate all memory to control the http protocol. ]*/
/*Codes_SRS_HTTPAPI_COMPACT_21_007: [ If there is not enough memory to control the http protocol, the HTTPAPI_Init shall return HTTPAPI_ALLOC_FAILED. ]*/
/**
* No memory is necessary.
*/
/*Codes_SRS_HTTPAPI_COMPACT_21_006: [ If HTTPAPI_Init succeed allocating all the needed memory, it shall return HTTPAPI_OK. ]*/
return HTTPAPI_OK;
}
void HTTPAPI_Deinit(void)
{
/*Codes_SRS_HTTPAPI_COMPACT_21_009: [ The HTTPAPI_Init shall release all memory allocated by the httpapi_compact. ]*/
/**
* No memory was necessary.
*/
}
/*Codes_SRS_HTTPAPI_COMPACT_21_011: [ The HTTPAPI_CreateConnection shall create an http connection to the host specified by the hostName parameter. ]*/
HTTP_HANDLE HTTPAPI_CreateConnection(const char* hostName)
{
HTTP_HANDLE_DATA* httpHandle;
TLSIO_CONFIG tlsio_config;
if (hostName == NULL)
{
/*Codes_SRS_HTTPAPI_COMPACT_21_014: [ If the hostName is NULL, the HTTPAPI_CreateConnection shall return NULL as the handle. ]*/
LogError("Invalid host name. Null hostName parameter.");
httpHandle = NULL;
}
else if (*hostName == '\0')
{
/*Codes_SRS_HTTPAPI_COMPACT_21_015: [ If the hostName is empty, the HTTPAPI_CreateConnection shall return NULL as the handle. ]*/
LogError("Invalid host name. Empty string.");
httpHandle = NULL;
}
else
{
httpHandle = (HTTP_HANDLE_DATA*)malloc(sizeof(HTTP_HANDLE_DATA));
/*Codes_SRS_HTTPAPI_COMPACT_21_013: [ If there is not enough memory to control the http connection, the HTTPAPI_CreateConnection shall return NULL as the handle. ]*/
if (httpHandle == NULL)
{
LogError("There is no memory to control the http connection");
}
else
{
tlsio_config.hostname = hostName;
tlsio_config.port = 443;
httpHandle->xio_handle = xio_create(platform_get_default_tlsio(), (void*)&tlsio_config);
/*Codes_SRS_HTTPAPI_COMPACT_21_016: [ If the HTTPAPI_CreateConnection failed to create the connection, it shall return NULL as the handle. ]*/
if (httpHandle->xio_handle == NULL)
{
LogError("Create connection failed");
free(httpHandle);
httpHandle = NULL;
}
else
{
httpHandle->is_connected = 0;
httpHandle->is_io_error = 0;
httpHandle->received_bytes_count = 0;
httpHandle->received_bytes = NULL;
httpHandle->send_all_result = SEND_ALL_RESULT_NOT_STARTED;
httpHandle->certificate = NULL;
}
}
}
/*Codes_SRS_HTTPAPI_COMPACT_21_012: [ The HTTPAPI_CreateConnection shall return a non-NULL handle on success. ]*/
return (HTTP_HANDLE)httpHandle;
}
void HTTPAPI_CloseConnection(HTTP_HANDLE handle)
{
HTTP_HANDLE_DATA* httpHandle = (HTTP_HANDLE_DATA*)handle;
/*Codes_SRS_HTTPAPI_COMPACT_21_020: [ If the connection handle is NULL, the HTTPAPI_CloseConnection shall not do anything. ]*/
if (httpHandle != NULL)
{
/*Codes_SRS_HTTPAPI_COMPACT_21_019: [ If there is no previous connection, the HTTPAPI_CloseConnection shall not do anything. ]*/
if (httpHandle->xio_handle != NULL)
{
/*Codes_SRS_HTTPAPI_COMPACT_21_017: [ The HTTPAPI_CloseConnection shall close the connection previously created in HTTPAPI_CreateConnection. ]*/
LogInfo("Close http connection.");
xio_destroy(httpHandle->xio_handle);
}
/*Codes_SRS_HTTPAPI_COMPACT_21_018: [ If there is a certificate associated to this connection, the HTTPAPI_CloseConnection shall free all allocated memory for the certificate. ]*/
if (httpHandle->certificate)
{
free(httpHandle->certificate);
}
free(httpHandle);
}
}
static void on_io_open_complete(void* context, IO_OPEN_RESULT open_result)
{
HTTP_HANDLE_DATA* httpHandle = (HTTP_HANDLE_DATA*)context;
if (httpHandle != NULL)
{
if (open_result == IO_OPEN_OK)
{
httpHandle->is_connected = 1;
httpHandle->is_io_error = 0;
}
else
{
httpHandle->is_io_error = 1;
}
}
}
#define TOLOWER(c) (((c>='A') && (c<='Z'))?c-'A'+'a':c)
static int InternStrnicmp(const char* s1, const char* s2, size_t n)
{
int result;
if ((s1 == NULL) || (s2 == NULL))
{
result = -1;
}
else
{
result = 0;
while (((n--) >= 0) && ((*s1) != '\0') && ((*s2) != '\0') && (result == 0))
{
/* compute the difference between the chars */
result = TOLOWER(*s1) - TOLOWER(*s2);
s1++;
s2++;
}
if ((*s2) != '\0')
{
result = -1;
}
}
return result;
}
static void on_bytes_received(void* context, const unsigned char* buffer, size_t size)
{
unsigned char* new_received_bytes;
HTTP_HANDLE_DATA* httpHandle = (HTTP_HANDLE_DATA*)context;
if (httpHandle != NULL)
{
if (buffer == NULL)
{
httpHandle->is_io_error = 1;
LogError("on_bytes_received: NULL pointer error");
}
else
{
/* Here we got some bytes so we'll buffer them so the receive functions can consumer it */
new_received_bytes = (unsigned char*)realloc(httpHandle->received_bytes, httpHandle->received_bytes_count + size);
if (new_received_bytes == NULL)
{
httpHandle->is_io_error = 1;
LogError("on_bytes_received: Error allocating memory for received data");
}
else
{
httpHandle->received_bytes = new_received_bytes;
if (memcpy(httpHandle->received_bytes + httpHandle->received_bytes_count, buffer, size) == NULL)
{
httpHandle->is_io_error = 1;
LogError("on_bytes_received: Error copping received data to the HTTP bufffer");
}
else
{
httpHandle->received_bytes_count += size;
}
}
}
}
}
static void on_io_error(void* context)
{
HTTP_HANDLE_DATA* httpHandle = (HTTP_HANDLE_DATA*)context;
if (httpHandle != NULL)
{
httpHandle->is_io_error = 1;
LogError("on_io_error: Error signalled by underlying IO");
}
}
static int conn_receive(HTTP_HANDLE_DATA* http_instance, char* buffer, int count)
{
int result;
if ((http_instance == NULL) || (buffer == NULL) || (count < 0))
{
LogError("conn_receive: %s", ((http_instance == NULL) ? "Invalid HTTP instance" : "Invalid HTTP buffer"));
result = -1;
}
else
{
result = 0;
while (result < count)
{
xio_dowork(http_instance->xio_handle);
/* if any error was detected while receiving then simply break and report it */
if (http_instance->is_io_error != 0)
{
LogError("conn_receive: xio reported error on dowork");
result = -1;
break;
}
if (http_instance->received_bytes_count >= (size_t)count)
{
/* Consuming bytes from the receive buffer */
(void)memcpy(buffer, http_instance->received_bytes, count);
(void)memmove(http_instance->received_bytes, http_instance->received_bytes + count, http_instance->received_bytes_count - count);
http_instance->received_bytes_count -= count;
/* we're not reallocating at each consumption so that we don't trash due to byte by byte consumption */
if (http_instance->received_bytes_count == 0)
{
free(http_instance->received_bytes);
http_instance->received_bytes = NULL;
}
result = count;
break;
}
ThreadAPI_Sleep(1);
}
}
return result;
}
static void conn_receive_discard_buffer(HTTP_HANDLE_DATA* http_instance)
{
if (http_instance->received_bytes != NULL)
{
free(http_instance->received_bytes);
http_instance->received_bytes = NULL;
}
http_instance->received_bytes_count = 0;
}
static void on_send_complete(void* context, IO_SEND_RESULT send_result)
{
HTTP_HANDLE_DATA* http_instance = (HTTP_HANDLE_DATA*)context;
if (http_instance != NULL)
{
/* If a send is complete we'll simply signal this by changing the send all state */
if (send_result == IO_SEND_OK)
{
http_instance->send_all_result = SEND_ALL_RESULT_OK;
}
else
{
http_instance->send_all_result = SEND_ALL_RESULT_ERROR;
}
}
}
static int conn_send_all(HTTP_HANDLE_DATA* http_instance, const unsigned char* buffer, size_t count)
{
int result;
if ((http_instance == NULL) || (buffer == 0) || (count < (size_t)0))
{
LogError("conn_send_all: %s", ((http_instance == NULL) ? "Invalid HTTP instance" : "Invalid HTTP buffer"));
result = -1;
}
else
{
http_instance->send_all_result = SEND_ALL_RESULT_PENDING;
if (xio_send(http_instance->xio_handle, buffer, count, on_send_complete, http_instance) != 0)
{
LogError("conn_send_all: xio failed sending data");
result = -1;
}
else
{
/* We have to loop in here until all bytes are sent or we encounter an error. */
while (1)
{
/* If we got an error signalled from the underlying IO we simply report it up */
if (http_instance->is_io_error)
{
http_instance->send_all_result = SEND_ALL_RESULT_ERROR;
break;
}
if (http_instance->send_all_result != SEND_ALL_RESULT_PENDING)
{
break;
}
xio_dowork(http_instance->xio_handle);
/* We yield the CPU for a bit so others can do their work */
ThreadAPI_Sleep(1);
}
/* The send_all_result indicates what is the status for the send operation.
Not started - means nothing should happen since no send was started
Pending - a send was started, but it is still being carried out
Ok - Send complete
Error - error */
switch (http_instance->send_all_result)
{
default:
case SEND_ALL_RESULT_NOT_STARTED:
result = -1;
break;
case SEND_ALL_RESULT_OK:
result = (int)count;
break;
case SEND_ALL_RESULT_ERROR:
result = -1;
break;
}
}
}
return result;
}
static int readLine(HTTP_HANDLE_DATA* http_instance, char* buf, const size_t size)
{
// reads until \r\n is encountered. writes in buf all the characters
int result;
char* substr = buf;
char c;
if (conn_receive(http_instance, &c, 1) < 0)
{
result = -1;
}
else
{
result = 0;
while (c != '\r')
{
if ((substr - buf + 1) >= (int)size)
{
result = -1;
conn_receive_discard_buffer(http_instance);
break;
}
else
{
*substr++ = c;
}
if (conn_receive(http_instance, &c, 1) < 0)
{
result = -1;
break;
}
}
if (result != -1)
{
*substr = 0;
if (conn_receive(http_instance, &c, 1) < 0 || c != '\n') // skip \n
{
result = -1;
}
}
if (result != -1)
{
result = (int)(substr - buf);
}
}
return result;
}
static int readChunk(HTTP_HANDLE_DATA* http_instance, char* buf, size_t size)
{
int cur, offset;
// read content with specified length, even if it is received
// only in chunks due to fragmentation in the networking layer.
// returns -1 in case of error.
offset = 0;
while (size > (size_t)0)
{
cur = conn_receive(http_instance, buf + offset, (int)size);
// end of stream reached
if (cur == 0)
{
break;
}
// read cur bytes (might be less than requested)
size -= (size_t)cur;
offset += cur;
}
return offset;
}
static int skipN(HTTP_HANDLE_DATA* http_instance, size_t n, char* buf, size_t size)
{
int org = (int)n;
// read and abandon response content with specified length
// returns -1 in case of error.
while (n > size)
{
if (readChunk(http_instance, (char*)buf, size) < 0)
{
org = -1;
break;
}
n -= size;
}
if (org >= 0)
{
if (readChunk(http_instance, (char*)buf, n) < 0)
{
org = -1;
}
}
return org;
}
/*Codes_SRS_HTTPAPI_COMPACT_21_021: [ The HTTPAPI_ExecuteRequest shall execute the http communtication with the provided host, sending a request and reciving the response. ]*/
static HTTPAPI_RESULT OpenXIOConnection(HTTP_HANDLE_DATA* httpHandle)
{
HTTPAPI_RESULT result;
if (httpHandle->is_connected != 0)
{
/*Codes_SRS_HTTPAPI_COMPACT_21_033: [ If the whole process succeed, the HTTPAPI_ExecuteRequest shall retur HTTPAPI_OK. ]*/
result = HTTPAPI_OK;
}
else
{
/*Codes_SRS_HTTPAPI_COMPACT_21_022: [ If a Certificate was provided, the HTTPAPI_ExecuteRequest shall set this option on the transport layer. ]*/
if ((httpHandle->certificate != NULL) &&
(xio_setoption(httpHandle->xio_handle, "TrustedCerts", httpHandle->certificate) != 0))
{
/*Codes_SRS_HTTPAPI_COMPACT_21_023: [ If the transport failed setting the Certificate, the HTTPAPI_ExecuteRequest shall not send any request and return HTTPAPI_SET_OPTION_FAILED. ]*/
result = HTTPAPI_SET_OPTION_FAILED;
LogInfo("Could not load certificate");
}
else
{
/*Codes_SRS_HTTPAPI_COMPACT_21_024: [ The HTTPAPI_ExecuteRequest shall open the transport connection with the host to send the request. ]*/
if (xio_open(httpHandle->xio_handle, on_io_open_complete, httpHandle, on_bytes_received, httpHandle, on_io_error, httpHandle) != 0)
{
/*Codes_SRS_HTTPAPI_COMPACT_21_025: [ If the open process failed, the HTTPAPI_ExecuteRequest shall not send any request and return HTTPAPI_OPEN_REQUEST_FAILED. ]*/
result = HTTPAPI_OPEN_REQUEST_FAILED;
}
else
{
/*Codes_SRS_HTTPAPI_COMPACT_21_033: [ If the whole process succeed, the HTTPAPI_ExecuteRequest shall retur HTTPAPI_OK. ]*/
result = HTTPAPI_OK;
while ((httpHandle->is_connected == 0) &&
(httpHandle->is_io_error == 0))
{
xio_dowork(httpHandle->xio_handle);
LogInfo("Waiting for TLS connection");
ThreadAPI_Sleep(1);
}
}
}
}
if ((httpHandle->is_io_error != 0) && (result == HTTPAPI_OK))
{
/*Codes_SRS_HTTPAPI_COMPACT_21_025: [ If the open process failed, the HTTPAPI_ExecuteRequest shall not send any request and return HTTPAPI_OPEN_REQUEST_FAILED. ]*/
result = HTTPAPI_OPEN_REQUEST_FAILED;
}
return result;
}
/*Codes_SRS_HTTPAPI_COMPACT_21_035: [ The HTTPAPI_ExecuteRequest shall execute resquest for types `GET`, `POST`, `PUT`, `DELETE`, `PATCH`. ]*/
const char httpapiRequestString[5][7] = { "GET", "POST", "PUT", "DELETE", "PATCH" };
const char* get_request_type(HTTPAPI_REQUEST_TYPE requestType)
{
return (const char*)httpapiRequestString[requestType];
}
/*Codes_SRS_HTTPAPI_COMPACT_21_026: [ If the open process succeed, the HTTPAPI_ExecuteRequest shall send the request message to the host. ]*/
static HTTPAPI_RESULT SendHeadsToXIO(HTTP_HANDLE_DATA* httpHandle, HTTPAPI_REQUEST_TYPE requestType, const char* relativePath, HTTP_HEADERS_HANDLE httpHeadersHandle, size_t headersCount)
{
HTTPAPI_RESULT result;
char buf[TEMP_BUFFER_SIZE];
int ret;
//Send request
/*Codes_SRS_HTTPAPI_COMPACT_21_038: [ The HTTPAPI_ExecuteRequest shall execute the resquest for the path in relativePath parameter. ]*/
/*Codes_SRS_HTTPAPI_COMPACT_21_036: [ The request type shall be provided in the parameter requestType. ]*/
if (((ret = snprintf(buf, sizeof(buf), "%s %s HTTP/1.1\r\n", get_request_type(requestType), relativePath)) < 0) ||
(ret >= sizeof(buf)))
{
/*Codes_SRS_HTTPAPI_COMPACT_21_027: [ If the HTTPAPI_ExecuteRequest cannot create a buffer to send the request, it shall not send any request and return HTTPAPI_STRING_PROCESSING_ERROR. ]*/
result = HTTPAPI_STRING_PROCESSING_ERROR;
}
else if (conn_send_all(httpHandle, (const unsigned char*)buf, strlen(buf)) < 0)
{
/*Codes_SRS_HTTPAPI_COMPACT_21_028: [ If the HTTPAPI_ExecuteRequest cannot send the request header, it shall return HTTPAPI_HTTP_HEADERS_FAILED. ]*/
result = HTTPAPI_SEND_REQUEST_FAILED;
}
else
{
//Send default headers
/*Codes_SRS_HTTPAPI_COMPACT_21_033: [ If the whole process succeed, the HTTPAPI_ExecuteRequest shall retur HTTPAPI_OK. ]*/
result = HTTPAPI_OK;
for (size_t i = 0; ((i < headersCount) && (result == HTTPAPI_OK)); i++)
{
char* header;
if (HTTPHeaders_GetHeader(httpHeadersHandle, i, &header) != HTTP_HEADERS_OK)
{
/*Codes_SRS_HTTPAPI_COMPACT_21_027: [ If the HTTPAPI_ExecuteRequest cannot create a buffer to send the request, it shall not send any request and return HTTPAPI_STRING_PROCESSING_ERROR. ]*/
result = HTTPAPI_STRING_PROCESSING_ERROR;
}
else
{
if (conn_send_all(httpHandle, (const unsigned char*)header, strlen(header)) < 0)
{
/*Codes_SRS_HTTPAPI_COMPACT_21_028: [ If the HTTPAPI_ExecuteRequest cannot send the request header, it shall return HTTPAPI_HTTP_HEADERS_FAILED. ]*/
result = HTTPAPI_SEND_REQUEST_FAILED;
}
if (conn_send_all(httpHandle, (const unsigned char*)"\r\n", (size_t)2) < 0)
{
/*Codes_SRS_HTTPAPI_COMPACT_21_028: [ If the HTTPAPI_ExecuteRequest cannot send the request header, it shall return HTTPAPI_HTTP_HEADERS_FAILED. ]*/
result = HTTPAPI_SEND_REQUEST_FAILED;
}
free(header);
}
}
//Close headers
if (conn_send_all(httpHandle, (const unsigned char*)"\r\n", (size_t)2) < 0)
{
/*Codes_SRS_HTTPAPI_COMPACT_21_028: [ If the HTTPAPI_ExecuteRequest cannot send the request header, it shall return HTTPAPI_HTTP_HEADERS_FAILED. ]*/
result = HTTPAPI_SEND_REQUEST_FAILED;
}
}
return result;
}
/*Codes_SRS_HTTPAPI_COMPACT_21_042: [ The request can contain the a content message, provided in content parameter. ]*/
static HTTPAPI_RESULT SendContentToXIO(HTTP_HANDLE_DATA* httpHandle, const unsigned char* content, size_t contentLength)
{
HTTPAPI_RESULT result;
//Send data (if available)
/*Codes_SRS_HTTPAPI_COMPACT_21_045: [ If the contentLength is lower than one, the HTTPAPI_ExecuteRequest shall send the request without content. ]*/
if (content && contentLength > 0)
{
/*Codes_SRS_HTTPAPI_COMPACT_21_044: [ If the content is not NULL, the number of bytes in the content shall be provided in contentLength parameter. ]*/
if (conn_send_all(httpHandle, content, contentLength) < 0)
{
/*Codes_SRS_HTTPAPI_COMPACT_21_029: [ If the HTTPAPI_ExecuteRequest cannot send the buffer with the request, it shall return HTTPAPI_SEND_REQUEST_FAILED. ]*/
result = HTTPAPI_SEND_REQUEST_FAILED;
}
else
{
/*Codes_SRS_HTTPAPI_COMPACT_21_033: [ If the whole process succeed, the HTTPAPI_ExecuteRequest shall retur HTTPAPI_OK. ]*/
result = HTTPAPI_OK;
}
}
else
{
/*Codes_SRS_HTTPAPI_COMPACT_21_043: [ If the content is NULL, the HTTPAPI_ExecuteRequest shall send the request without content. ]*/
/*Codes_SRS_HTTPAPI_COMPACT_21_033: [ If the whole process succeed, the HTTPAPI_ExecuteRequest shall retur HTTPAPI_OK. ]*/
result = HTTPAPI_OK;
}
return result;
}
/*Codes_SRS_HTTPAPI_COMPACT_21_030: [ At the end of the transmission, the HTTPAPI_ExecuteRequest shall receive the response from the host. ]*/
static HTTPAPI_RESULT RecieveHeaderFromXIO(HTTP_HANDLE_DATA* httpHandle, unsigned int* statusCode)
{
HTTPAPI_RESULT result;
char buf[TEMP_BUFFER_SIZE];
int ret;
//Receive response
if (readLine(httpHandle, buf, TEMP_BUFFER_SIZE) < 0)
{
/*Codes_SRS_HTTPAPI_COMPACT_21_032: [ If the HTTPAPI_ExecuteRequest cannot read the message with the request result, it shall return HTTPAPI_READ_DATA_FAILED. ]*/
result = HTTPAPI_READ_DATA_FAILED;
}
//Parse HTTP response
else if (ParseHttpResponse(buf, &ret) != 1)
{
//Cannot match string, error
/*Codes_SRS_HTTPAPI_COMPACT_21_055: [ If the HTTPAPI_ExecuteRequest cannot parser the recived message, it shall return HTTPAPI_RECEIVE_RESPONSE_FAILED. ]*/
LogInfo("HTTPAPI_ExecuteRequest::Not a correct HTTP answer");
result = HTTPAPI_RECEIVE_RESPONSE_FAILED;
}
else
{
/*Codes_SRS_HTTPAPI_COMPACT_21_046: [ The HTTPAPI_ExecuteRequest shall return the http status reported by the host in the received response. ]*/
/*Codes_SRS_HTTPAPI_COMPACT_21_048: [ If the statusCode is NULL, the HTTPAPI_ExecuteRequest shall report not report any status. ]*/
if (statusCode)
{
/*Codes_SRS_HTTPAPI_COMPACT_21_047: [ The HTTPAPI_ExecuteRequest shall report the status in the statusCode parameter. ]*/
*statusCode = ret;
}
/*Codes_SRS_HTTPAPI_COMPACT_21_033: [ If the whole process succeed, the HTTPAPI_ExecuteRequest shall retur HTTPAPI_OK. ]*/
result = HTTPAPI_OK;
}
return result;
}
static HTTPAPI_RESULT RecieveContentInfoFromXIO(HTTP_HANDLE_DATA* httpHandle, HTTP_HEADERS_HANDLE responseHeadersHandle, size_t* bodyLength, bool* chunked)
{
HTTPAPI_RESULT result;
char buf[TEMP_BUFFER_SIZE];
const char* substr;
char* whereIsColon;
int lengthInMsg;
const char* ContentLength = "content-length:";
const int ContentLengthSize = 16;
const char* TransferEncoding = "transfer-encoding:";
const int TransferEncodingSize = 19;
const char* Chunked = "chunked";
const int ChunkedSize = 8;
//Read HTTP response headers
if (readLine(httpHandle, buf, sizeof(buf)) < 0)
{
/*Codes_SRS_HTTPAPI_COMPACT_21_032: [ If the HTTPAPI_ExecuteRequest cannot read the message with the request result, it shall return HTTPAPI_READ_DATA_FAILED. ]*/
result = HTTPAPI_READ_DATA_FAILED;
}
else
{
/*Codes_SRS_HTTPAPI_COMPACT_21_033: [ If the whole process succeed, the HTTPAPI_ExecuteRequest shall retur HTTPAPI_OK. ]*/
result = HTTPAPI_OK;
while (*buf && (result == HTTPAPI_OK))
{
if (InternStrnicmp(buf, ContentLength, ContentLengthSize) == 0)
{
substr = buf + ContentLengthSize - 1;
if (ParseStringToDecimal(substr, &lengthInMsg) != 1)
{
/*Codes_SRS_HTTPAPI_COMPACT_21_032: [ If the HTTPAPI_ExecuteRequest cannot read the message with the request result, it shall return HTTPAPI_READ_DATA_FAILED. ]*/
result = HTTPAPI_READ_DATA_FAILED;
}
else
{
(*bodyLength) = (size_t)lengthInMsg;
}
}
else if (InternStrnicmp(buf, TransferEncoding, TransferEncodingSize) == 0)
{
substr = buf + TransferEncodingSize - 1;
while (isspace(*substr)) substr++;
if (InternStrnicmp(substr, Chunked, ChunkedSize) == 0)
{
(*chunked) = true;
}
}
if (result == HTTPAPI_OK)
{
whereIsColon = strchr((char*)buf, ':');
/*Codes_SRS_HTTPAPI_COMPACT_21_049: [ If responseHeadersHandle is provide, the HTTPAPI_ExecuteRequest shall prepare a Response Header usign the HTTPHeaders_AddHeaderNameValuePair. ]*/
if (whereIsColon && (responseHeadersHandle != NULL))
{
*whereIsColon = '\0';
HTTPHeaders_AddHeaderNameValuePair(responseHeadersHandle, buf, whereIsColon + 1);
}
if (readLine(httpHandle, buf, sizeof(buf)) < 0)
{
/*Codes_SRS_HTTPAPI_COMPACT_21_032: [ If the HTTPAPI_ExecuteRequest cannot read the message with the request result, it shall return HTTPAPI_READ_DATA_FAILED. ]*/
result = HTTPAPI_READ_DATA_FAILED;
}
}
}
}
return result;
}
static HTTPAPI_RESULT ReadHTTPResponseBodyFromXIO(HTTP_HANDLE_DATA* httpHandle, size_t bodyLength, bool chunked, BUFFER_HANDLE responseContent)
{
HTTPAPI_RESULT result;
char buf[TEMP_BUFFER_SIZE];
const unsigned char* receivedContent;
//Read HTTP response body
if (!chunked)
{
if (bodyLength)
{
if (responseContent != NULL)
{
if (BUFFER_pre_build(responseContent, bodyLength) != 0)
{
/*Codes_SRS_HTTPAPI_COMPACT_21_052: [ If any memory allocation get fail, the HTTPAPI_ExecuteRequest shall return HTTPAPI_ALLOC_FAILED. ]*/
result = HTTPAPI_ALLOC_FAILED;
}
else if (BUFFER_content(responseContent, &receivedContent) != 0)
{
(void)BUFFER_unbuild(responseContent);
/*Codes_SRS_HTTPAPI_COMPACT_21_052: [ If any memory allocation get fail, the HTTPAPI_ExecuteRequest shall return HTTPAPI_ALLOC_FAILED. ]*/
result = HTTPAPI_ALLOC_FAILED;
}
else if (readChunk(httpHandle, (char*)receivedContent, bodyLength) < 0)
{
/*Codes_SRS_HTTPAPI_COMPACT_21_032: [ If the HTTPAPI_ExecuteRequest cannot read the message with the request result, it shall return HTTPAPI_READ_DATA_FAILED. ]*/
result = HTTPAPI_READ_DATA_FAILED;
}
else
{
/*Codes_SRS_HTTPAPI_COMPACT_21_033: [ If the whole process succeed, the HTTPAPI_ExecuteRequest shall retur HTTPAPI_OK. ]*/
result = HTTPAPI_OK;
}
}
else
{
/*Codes_SRS_HTTPAPI_COMPACT_21_051: [ If the responseContent is NULL, the HTTPAPI_ExecuteRequest shall ignore any content in the response. ]*/
(void)skipN(httpHandle, bodyLength, buf, sizeof(buf));
result = HTTPAPI_OK;
}
}
else
{
/*Codes_SRS_HTTPAPI_COMPACT_21_033: [ If the whole process succeed, the HTTPAPI_ExecuteRequest shall retur HTTPAPI_OK. ]*/
result = HTTPAPI_OK;
}
}
else
{
size_t size = 0;
/*Codes_SRS_HTTPAPI_COMPACT_21_033: [ If the whole process succeed, the HTTPAPI_ExecuteRequest shall retur HTTPAPI_OK. ]*/
result = HTTPAPI_OK;
while (result == HTTPAPI_OK)
{
size_t chunkSize;
if (readLine(httpHandle, buf, sizeof(buf)) < 0) // read [length in hex]/r/n
{
/*Codes_SRS_HTTPAPI_COMPACT_21_032: [ If the HTTPAPI_ExecuteRequest cannot read the message with the request result, it shall return HTTPAPI_READ_DATA_FAILED. ]*/
result = HTTPAPI_READ_DATA_FAILED;
}
else if (ParseStringToHexadecimal(buf, &chunkSize) != 1) // chunkSize is length of next line (/r/n is not counted)
{
//Cannot match string, error
/*Codes_SRS_HTTPAPI_COMPACT_21_055: [ If the HTTPAPI_ExecuteRequest cannot parser the recived message, it shall return HTTPAPI_RECEIVE_RESPONSE_FAILED. ]*/
result = HTTPAPI_RECEIVE_RESPONSE_FAILED;
}
else if (chunkSize == 0)
{
// 0 length means next line is just '\r\n' and end of chunks
if (readChunk(httpHandle, (char*)buf, (size_t)2) < 0
|| buf[0] != '\r' || buf[1] != '\n') // skip /r/n
{
(void)BUFFER_unbuild(responseContent);
result = HTTPAPI_READ_DATA_FAILED;
}
break;
}
else
{
if (responseContent != NULL)
{
if (BUFFER_enlarge(responseContent, chunkSize) != 0)
{
(void)BUFFER_unbuild(responseContent);
/*Codes_SRS_HTTPAPI_COMPACT_21_052: [ If any memory allocation get fail, the HTTPAPI_ExecuteRequest shall return HTTPAPI_ALLOC_FAILED. ]*/
result = HTTPAPI_ALLOC_FAILED;
}
else if (BUFFER_content(responseContent, &receivedContent) != 0)
{
(void)BUFFER_unbuild(responseContent);
/*Codes_SRS_HTTPAPI_COMPACT_21_052: [ If any memory allocation get fail, the HTTPAPI_ExecuteRequest shall return HTTPAPI_ALLOC_FAILED. ]*/
result = HTTPAPI_ALLOC_FAILED;
}
else if (readChunk(httpHandle, (char*)receivedContent + size, chunkSize) < 0)
{
result = HTTPAPI_READ_DATA_FAILED;
}
}
else
{
/*Codes_SRS_HTTPAPI_COMPACT_21_051: [ If the responseContent is NULL, the HTTPAPI_ExecuteRequest shall ignore any content in the response. ]*/
if (skipN(httpHandle, chunkSize, buf, sizeof(buf)) < 0)
{
result = HTTPAPI_READ_DATA_FAILED;
}
}
if (result == HTTPAPI_OK)
{
if (readChunk(httpHandle, (char*)buf, (size_t)2) < 0
|| buf[0] != '\r' || buf[1] != '\n') // skip /r/n
{
result = HTTPAPI_READ_DATA_FAILED;
}
size += chunkSize;
}
}
}
}
return result;
}
/*Codes_SRS_HTTPAPI_COMPACT_21_037: [ If the request type is unknown, the HTTPAPI_ExecuteRequest shall return HTTPAPI_INVALID_ARG. ]*/
static bool validRequestType(HTTPAPI_REQUEST_TYPE requestType)
{
bool result;
if ((requestType == HTTPAPI_REQUEST_GET) ||
(requestType == HTTPAPI_REQUEST_POST) ||
(requestType == HTTPAPI_REQUEST_PUT) ||
(requestType == HTTPAPI_REQUEST_DELETE) ||
(requestType == HTTPAPI_REQUEST_PATCH))
{
result = true;
}
else
{
result = false;
}
return result;
}
/*Codes_SRS_HTTPAPI_COMPACT_21_021: [ The HTTPAPI_ExecuteRequest shall execute the http communtication with the provided host, sending a request and reciving the response. ]*/
/*Codes_SRS_HTTPAPI_COMPACT_21_050: [ If there is a content in the response, the HTTPAPI_ExecuteRequest shall copy it in the responseContent buffer. ]*/
//Note: This function assumes that "Host:" and "Content-Length:" headers are setup
// by the caller of HTTPAPI_ExecuteRequest() (which is true for httptransport.c).
HTTPAPI_RESULT HTTPAPI_ExecuteRequest(HTTP_HANDLE handle, HTTPAPI_REQUEST_TYPE requestType, const char* relativePath,
HTTP_HEADERS_HANDLE httpHeadersHandle, const unsigned char* content,
size_t contentLength, unsigned int* statusCode,
HTTP_HEADERS_HANDLE responseHeadersHandle, BUFFER_HANDLE responseContent)
{
HTTPAPI_RESULT result = HTTPAPI_ERROR;
size_t headersCount;
size_t bodyLength = 0;
bool chunked = false;
HTTP_HANDLE_DATA* httpHandle = (HTTP_HANDLE_DATA*)handle;
/*Codes_SRS_HTTPAPI_COMPACT_21_034: [ If there is no previous connection, the HTTPAPI_ExecuteRequest shall return HTTPAPI_INVALID_ARG. ]*/
/*Codes_SRS_HTTPAPI_COMPACT_21_037: [ If the request type is unknown, the HTTPAPI_ExecuteRequest shall return HTTPAPI_INVALID_ARG. ]*/
/*Codes_SRS_HTTPAPI_COMPACT_21_039: [ If the relativePath is NULL or invalid, the HTTPAPI_ExecuteRequest shall return HTTPAPI_INVALID_ARG. ]*/
/*Codes_SRS_HTTPAPI_COMPACT_21_041: [ If the httpHeadersHandle is NULL or invalid, the HTTPAPI_ExecuteRequest shall return HTTPAPI_INVALID_ARG. ]*/
/*Codes_SRS_HTTPAPI_COMPACT_21_053: [ The HTTPAPI_ExecuteRequest shall produce a set of http header to send to the host. ]*/
/*Codes_SRS_HTTPAPI_COMPACT_21_040: [ The request shall contain the http header provided in httpHeadersHandle parameter. ]*/
/*Codes_SRS_HTTPAPI_COMPACT_21_054: [ If Http header maker cannot provide the number of headers, the HTTPAPI_ExecuteRequest shall return HTTPAPI_INVALID_ARG. ]*/
if (httpHandle == NULL ||
relativePath == NULL ||
httpHeadersHandle == NULL ||
!validRequestType(requestType) ||
HTTPHeaders_GetHeaderCount(httpHeadersHandle, &headersCount) != HTTP_HEADERS_OK)
{
result = HTTPAPI_INVALID_ARG;
LogError("(result = %s)", ENUM_TO_STRING(HTTPAPI_RESULT, result));
}
/*Codes_SRS_HTTPAPI_COMPACT_21_024: [ The HTTPAPI_ExecuteRequest shall open the transport connection with the host to send the request. ]*/
else if ((result = OpenXIOConnection(httpHandle)) != HTTPAPI_OK)
{
LogError("Open HTTP connection failed (result = %s)", ENUM_TO_STRING(HTTPAPI_RESULT, result));
}
/*Codes_SRS_HTTPAPI_COMPACT_21_026: [ If the open process succeed, the HTTPAPI_ExecuteRequest shall send the request message to the host. ]*/
else if ((result = SendHeadsToXIO(httpHandle, requestType, relativePath, httpHeadersHandle, headersCount)) != HTTPAPI_OK)
{
LogError("Send heads to HTTP failed (result = %s)", ENUM_TO_STRING(HTTPAPI_RESULT, result));
}
/*Codes_SRS_HTTPAPI_COMPACT_21_042: [ The request can contain the a content message, provided in content parameter. ]*/
else if ((result = SendContentToXIO(httpHandle, content, contentLength)) != HTTPAPI_OK)
{
LogError("Send content to HTTP failed (result = %s)", ENUM_TO_STRING(HTTPAPI_RESULT, result));
}
/*Codes_SRS_HTTPAPI_COMPACT_21_030: [ At the end of the transmission, the HTTPAPI_ExecuteRequest shall receive the response from the host. ]*/
/*Codes_SRS_HTTPAPI_COMPACT_21_073: [ The message recived by the HTTPAPI_ExecuteRequest shall starts with a valid header. ]*/
else if ((result = RecieveHeaderFromXIO(httpHandle, statusCode)) != HTTPAPI_OK)
{
LogError("Receive header from HTTP failed (result = %s)", ENUM_TO_STRING(HTTPAPI_RESULT, result));
}
/*Codes_SRS_HTTPAPI_COMPACT_21_074: [ After the header, the message recieved by the HTTPAPI_ExecuteRequest can contain addition information about the content. ]*/
else if ((result = RecieveContentInfoFromXIO(httpHandle, responseHeadersHandle, &bodyLength, &chunked)) != HTTPAPI_OK)
{
LogError("Receive content information from HTTP failed (result = %s)", ENUM_TO_STRING(HTTPAPI_RESULT, result));
}
/*Codes_SRS_HTTPAPI_COMPACT_21_075: [ The message recieved by the HTTPAPI_ExecuteRequest can contain a body with the message content. ]*/
else if ((result = ReadHTTPResponseBodyFromXIO(httpHandle, bodyLength, chunked, responseContent)) != HTTPAPI_OK)
{
LogError("Read HTTP response body from HTTP failed (result = %s)", ENUM_TO_STRING(HTTPAPI_RESULT, result));
}
/*Codes_SRS_HTTPAPI_COMPACT_21_031: [ After receive the response, the HTTPAPI_ExecuteRequest shall close the transport connection with the host. ]*/
if ((httpHandle != NULL) &&
(httpHandle->is_connected != 0))
{
conn_receive_discard_buffer(httpHandle);
xio_close(httpHandle->xio_handle, NULL, NULL);
httpHandle->is_connected = 0;
}
return result;
}
/*Codes_SRS_HTTPAPI_COMPACT_21_056: [ The HTTPAPI_SetOption shall change the HTTP options. ]*/
/*Codes_SRS_HTTPAPI_COMPACT_21_057: [ The HTTPAPI_SetOption shall recieve a handle that identiry the HTTP connection. ]*/
/*Codes_SRS_HTTPAPI_COMPACT_21_058: [ The HTTPAPI_SetOption shall recieve the option as a pair optionName/value. ]*/
HTTPAPI_RESULT HTTPAPI_SetOption(HTTP_HANDLE handle, const char* optionName, const void* value)
{
HTTPAPI_RESULT result;
HTTP_HANDLE_DATA* httpHandle = (HTTP_HANDLE_DATA*)handle;
if (
(httpHandle == NULL) ||
(optionName == NULL) ||
(value == NULL)
)
{
/*Codes_SRS_HTTPAPI_COMPACT_21_059: [ If the handle is NULL, the HTTPAPI_SetOption shall return HTTPAPI_INVALID_ARG. ]*/
/*Codes_SRS_HTTPAPI_COMPACT_21_060: [ If the optionName is NULL, the HTTPAPI_SetOption shall return HTTPAPI_INVALID_ARG. ]*/
/*Codes_SRS_HTTPAPI_COMPACT_21_061: [ If the value is NULL, the HTTPAPI_SetOption shall return HTTPAPI_INVALID_ARG. ]*/
result = HTTPAPI_INVALID_ARG;
}
else if (strcmp("TrustedCerts", optionName) == 0)
{
if (httpHandle->certificate)
{
free(httpHandle->certificate);
}
int len = (int)strlen((char*)value);
httpHandle->certificate = (char*)malloc((len + 1) * sizeof(char));
if (httpHandle->certificate == NULL)
{
/*SRS_HTTPAPI_COMPACT_21_062: [ If any memory allocation get fail, the HTTPAPI_SetOption shall return HTTPAPI_ALLOC_FAILED. ]*/
result = HTTPAPI_ALLOC_FAILED;
LogInfo("unable to allocate memory for the certificate in HTTPAPI_SetOption");
}
else
{
/*SRS_HTTPAPI_COMPACT_21_064: [ If the HTTPAPI_SetOption get success setting the option, it shall return HTTPAPI_OK. ]*/
(void)strcpy(httpHandle->certificate, (const char*)value);
result = HTTPAPI_OK;
}
}
else
{
/*Codes_SRS_HTTPAPI_COMPACT_21_063: [ If the HTTP do not support the optionName, the HTTPAPI_SetOption shall return HTTPAPI_INVALID_ARG. ]*/
result = HTTPAPI_INVALID_ARG;
LogInfo("unknown option %s", optionName);
}
return result;
}
/*Codes_SRS_HTTPAPI_COMPACT_21_065: [ The HTTPAPI_CloneOption shall provide the means to clone the HTTP option. ]*/
/*Codes_SRS_HTTPAPI_COMPACT_21_066: [ The HTTPAPI_CloneOption shall return a clone of the value identified by the optionName. ]*/
HTTPAPI_RESULT HTTPAPI_CloneOption(const char* optionName, const void* value, const void** savedValue)
{
HTTPAPI_RESULT result;
size_t certLen;
char* tempCert;
if (
(optionName == NULL) ||
(value == NULL) ||
(savedValue == NULL)
)
{
/*Codes_SRS_HTTPAPI_COMPACT_21_067: [ If the optionName is NULL, the HTTPAPI_CloneOption shall return HTTPAPI_INVALID_ARG. ]*/
/*Codes_SRS_HTTPAPI_COMPACT_21_068: [ If the value is NULL, the HTTPAPI_CloneOption shall return HTTPAPI_INVALID_ARG. ]*/
/*Codes_SRS_HTTPAPI_COMPACT_21_069: [ If the savedValue is NULL, the HTTPAPI_CloneOption shall return HTTPAPI_INVALID_ARG. ]*/
result = HTTPAPI_INVALID_ARG;
}
else if (strcmp("TrustedCerts", optionName) == 0)
{
certLen = strlen((const char*)value);
tempCert = (char*)malloc((certLen + 1) * sizeof(char));
if (tempCert == NULL)
{
/*Codes_SRS_HTTPAPI_COMPACT_21_070: [ If any memory allocation get fail, the HTTPAPI_CloneOption shall return HTTPAPI_ALLOC_FAILED. ]*/
result = HTTPAPI_ALLOC_FAILED;
}
else
{
/*Codes_SRS_HTTPAPI_COMPACT_21_072: [ If the HTTPAPI_CloneOption get success setting the option, it shall return HTTPAPI_OK. ]*/
(void)strcpy(tempCert, (const char*)value);
*savedValue = tempCert;
result = HTTPAPI_OK;
}
}
else
{
/*Codes_SRS_HTTPAPI_COMPACT_21_071: [ If the HTTP do not support the optionName, the HTTPAPI_CloneOption shall return HTTPAPI_INVALID_ARG. ]*/
result = HTTPAPI_INVALID_ARG;
LogInfo("unknown option %s", optionName);
}
return result;
}
