// Copyright (c) Microsoft. All rights reserved. // Licensed under the MIT license. See LICENSE file in the project root for full license information. #include #include #include "azure_macro_utils/macro_utils.h" #include "azure_c_shared_utility/gballoc.h" #include "azure_c_shared_utility/map.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/safe_math.h" MU_DEFINE_ENUM_STRINGS(HTTP_HEADERS_RESULT, HTTP_HEADERS_RESULT_VALUES); typedef struct HTTP_HEADERS_HANDLE_DATA_TAG { MAP_HANDLE headers; } HTTP_HEADERS_HANDLE_DATA; HTTP_HEADERS_HANDLE HTTPHeaders_Alloc(void) { /*Codes_SRS_HTTP_HEADERS_99_002:[ This API shall produce a HTTP_HANDLE that can later be used in subsequent calls to the module.]*/ HTTP_HEADERS_HANDLE_DATA* result; result = (HTTP_HEADERS_HANDLE_DATA*)malloc(sizeof(HTTP_HEADERS_HANDLE_DATA)); if (result == NULL) { LogError("malloc failed"); } else { /*Codes_SRS_HTTP_HEADERS_99_004:[ After a successful init, HTTPHeaders_GetHeaderCount shall report 0 existing headers.]*/ result->headers = Map_Create(NULL); if (result->headers == NULL) { LogError("Map_Create failed"); free(result); result = NULL; } else { /*all is fine*/ } } /*Codes_SRS_HTTP_HEADERS_99_003:[ The function shall return NULL when the function cannot execute properly]*/ return (HTTP_HEADERS_HANDLE)result; } /*Codes_SRS_HTTP_HEADERS_99_005:[ Calling this API shall de-allocate the data structures allocated by previous API calls to the same handle.]*/ void HTTPHeaders_Free(HTTP_HEADERS_HANDLE handle) { /*Codes_SRS_HTTP_HEADERS_02_001: [If httpHeadersHandle is NULL then HTTPHeaders_Free shall perform no action.] */ if (handle == NULL) { /*do nothing*/ } else { /*Codes_SRS_HTTP_HEADERS_99_005:[ Calling this API shall de-allocate the data structures allocated by previous API calls to the same handle.]*/ HTTP_HEADERS_HANDLE_DATA* handleData = (HTTP_HEADERS_HANDLE_DATA*)handle; Map_Destroy(handleData->headers); free(handleData); } } /*Codes_SRS_HTTP_HEADERS_99_012:[ Calling this API shall record a header from name and value parameters.]*/ static HTTP_HEADERS_RESULT headers_ReplaceHeaderNameValuePair(HTTP_HEADERS_HANDLE handle, const char* name, const char* value, bool replace) { HTTP_HEADERS_RESULT result; /*Codes_SRS_HTTP_HEADERS_99_014:[ The function shall return when the handle is not valid or when name parameter is NULL or when value parameter is NULL.]*/ if ( (handle == NULL) || (name == NULL) || (value == NULL) ) { result = HTTP_HEADERS_INVALID_ARG; LogError("invalid arg (NULL) , result= %" PRI_MU_ENUM "", MU_ENUM_VALUE(HTTP_HEADERS_RESULT, result)); } else { /*Codes_SRS_HTTP_HEADERS_99_036:[ If name contains the characters outside character codes 33 to 126 then the return value shall be HTTP_HEADERS_INVALID_ARG]*/ /*Codes_SRS_HTTP_HEADERS_99_031:[ If name contains the character ":" then the return value shall be HTTP_HEADERS_INVALID_ARG.]*/ size_t i; size_t nameLen = strlen(name); for (i = 0; i < nameLen; i++) { if ((name[i] < 33) || (126 < name[i]) || (name[i] == ':')) { break; } } if (i < nameLen) { result = HTTP_HEADERS_INVALID_ARG; LogError("(result = %" PRI_MU_ENUM ")", MU_ENUM_VALUE(HTTP_HEADERS_RESULT, result)); } else { HTTP_HEADERS_HANDLE_DATA* handleData = (HTTP_HEADERS_HANDLE_DATA*)handle; const char* existingValue = Map_GetValueFromKey(handleData->headers, name); /*eat up the whitespaces from value, as per RFC 2616, chapter 4.2 "The field value MAY be preceded by any amount of LWS, though a single SP is preferred."*/ /*Codes_SRS_HTTP_HEADERS_02_002: [The LWS from the beginning of the value shall not be stored.] */ while ((value[0] == ' ') || (value[0] == '\t') || (value[0] == '\r') || (value[0] == '\n')) { value++; } if (!replace && (existingValue != NULL)) { char* newValue; size_t existingValueLen = strlen(existingValue); size_t valueLen = strlen(value); size_t malloc_size = safe_add_size_t(existingValueLen, /*COMMA_AND_SPACE_LENGTH*/ 2); malloc_size = safe_add_size_t(malloc_size, valueLen); malloc_size = safe_add_size_t(malloc_size, /*EOL*/ 1); malloc_size = safe_multiply_size_t(malloc_size, sizeof(char)); if (malloc_size == SIZE_MAX || (newValue = (char*)malloc(malloc_size)) == NULL) { /*Codes_SRS_HTTP_HEADERS_99_015:[ The function shall return HTTP_HEADERS_ALLOC_FAILED when an internal request to allocate memory fails.]*/ result = HTTP_HEADERS_ALLOC_FAILED; LogError("failed to malloc, size= %zu, result= %" PRI_MU_ENUM "", malloc_size, MU_ENUM_VALUE(HTTP_HEADERS_RESULT, result)); } else { char* runNewValue; /*Codes_SRS_HTTP_HEADERS_99_017:[ If the name already exists in the collection of headers, the function shall concatenate the new value after the existing value, separated by a comma and a space as in: old-value+", "+new-value.]*/ (void)memcpy(newValue, existingValue, existingValueLen); runNewValue = newValue + existingValueLen; (*runNewValue++) = ','; (*runNewValue++) = ' '; (void)memcpy(runNewValue, value, valueLen + /*EOL*/ 1); /*Codes_SRS_HTTP_HEADERS_99_016:[ The function shall store the name:value pair in such a way that when later retrieved by a call to GetHeader it will return a string that shall strcmp equal to the name+": "+value.]*/ if (Map_AddOrUpdate(handleData->headers, name, newValue) != MAP_OK) { /*Codes_SRS_HTTP_HEADERS_99_015:[ The function shall return HTTP_HEADERS_ALLOC_FAILED when an internal request to allocate memory fails.]*/ result = HTTP_HEADERS_ERROR; LogError("failed to Map_AddOrUpdate, result= %" PRI_MU_ENUM "", MU_ENUM_VALUE(HTTP_HEADERS_RESULT, result)); } else { /*Codes_SRS_HTTP_HEADERS_99_013:[ The function shall return HTTP_HEADERS_OK when execution is successful.]*/ result = HTTP_HEADERS_OK; } free(newValue); } } else { /*Codes_SRS_HTTP_HEADERS_99_016:[ The function shall store the name:value pair in such a way that when later retrieved by a call to GetHeader it will return a string that shall strcmp equal to the name+": "+value.]*/ if (Map_AddOrUpdate(handleData->headers, name, value) != MAP_OK) { /*Codes_SRS_HTTP_HEADERS_99_015:[ The function shall return HTTP_HEADERS_ALLOC_FAILED when an internal request to allocate memory fails.]*/ result = HTTP_HEADERS_ALLOC_FAILED; LogError("failed to Map_AddOrUpdate, result= %" PRI_MU_ENUM "", MU_ENUM_VALUE(HTTP_HEADERS_RESULT, result)); } else { result = HTTP_HEADERS_OK; } } } } return result; } HTTP_HEADERS_RESULT HTTPHeaders_AddHeaderNameValuePair(HTTP_HEADERS_HANDLE httpHeadersHandle, const char* name, const char* value) { return headers_ReplaceHeaderNameValuePair(httpHeadersHandle, name, value, false); } /* Codes_SRS_HTTP_HEADERS_06_001: [This API will perform exactly as HTTPHeaders_AddHeaderNameValuePair except that if the header name already exists the already existing value will be replaced as opposed to concatenated to.] */ HTTP_HEADERS_RESULT HTTPHeaders_ReplaceHeaderNameValuePair(HTTP_HEADERS_HANDLE httpHeadersHandle, const char* name, const char* value) { return headers_ReplaceHeaderNameValuePair(httpHeadersHandle, name, value, true); } const char* HTTPHeaders_FindHeaderValue(HTTP_HEADERS_HANDLE httpHeadersHandle, const char* name) { const char* result; /*Codes_SRS_HTTP_HEADERS_99_022:[ The return value shall be NULL if name parameter is NULL or if httpHeadersHandle is NULL]*/ if ( (httpHeadersHandle == NULL) || (name == NULL) ) { result = NULL; } else { /*Codes_SRS_HTTP_HEADERS_99_018:[ Calling this API shall retrieve the value for a previously stored name.]*/ /*Codes_SRS_HTTP_HEADERS_99_020:[ The return value shall be different than NULL when the name matches the name of a previously stored name:value pair.] */ /*Codes_SRS_HTTP_HEADERS_99_021:[ In this case the return value shall point to a string that shall strcmp equal to the original stored string.]*/ HTTP_HEADERS_HANDLE_DATA* handleData = (HTTP_HEADERS_HANDLE_DATA*)httpHeadersHandle; result = Map_GetValueFromKey(handleData->headers, name); } return result; } HTTP_HEADERS_RESULT HTTPHeaders_GetHeaderCount(HTTP_HEADERS_HANDLE handle, size_t* headerCount) { HTTP_HEADERS_RESULT result; /*Codes_SRS_HTTP_HEADERS_99_024:[ The function shall return HTTP_HEADERS_INVALID_ARG when an invalid handle is passed.]*/ /*Codes_SRS_HTTP_HEADERS_99_025:[ The function shall return HTTP_HEADERS_INVALID_ARG when headersCount is NULL.]*/ if ((handle == NULL) || (headerCount == NULL)) { result = HTTP_HEADERS_INVALID_ARG; LogError("(result = %" PRI_MU_ENUM ")", MU_ENUM_VALUE(HTTP_HEADERS_RESULT, result)); } else { HTTP_HEADERS_HANDLE_DATA *handleData = (HTTP_HEADERS_HANDLE_DATA *)handle; const char*const* keys; const char*const* values; /*Codes_SRS_HTTP_HEADERS_99_023:[ Calling this API shall provide the number of stored headers.]*/ if (Map_GetInternals(handleData->headers, &keys, &values, headerCount) != MAP_OK) { /*Codes_SRS_HTTP_HEADERS_99_037:[ The function shall return HTTP_HEADERS_ERROR when an internal error occurs.]*/ result = HTTP_HEADERS_ERROR; LogError("Map_GetInternals failed, result= %" PRI_MU_ENUM "", MU_ENUM_VALUE(HTTP_HEADERS_RESULT, result)); } else { /*Codes_SRS_HTTP_HEADERS_99_026:[ The function shall write in *headersCount the number of currently stored headers and shall return HTTP_HEADERS_OK]*/ result = HTTP_HEADERS_OK; } } return result; } /*produces a string in *destination that is equal to name: value*/ HTTP_HEADERS_RESULT HTTPHeaders_GetHeader(HTTP_HEADERS_HANDLE handle, size_t index, char** destination) { HTTP_HEADERS_RESULT result = HTTP_HEADERS_OK; /*Codes_SRS_HTTP_HEADERS_99_028:[ The function shall return NULL if the handle is invalid.]*/ /*Codes_SRS_HTTP_HEADERS_99_032:[ The function shall return HTTP_HEADERS_INVALID_ARG if the destination is NULL]*/ if ( (handle == NULL) || (destination == NULL) ) { result = HTTP_HEADERS_INVALID_ARG; LogError("invalid arg (NULL), result= %" PRI_MU_ENUM "", MU_ENUM_VALUE(HTTP_HEADERS_RESULT, result)); } /*Codes_SRS_HTTP_HEADERS_99_029:[ The function shall return HTTP_HEADERS_INVALID_ARG if index is not valid (for example, out of range) for the currently stored headers.]*/ else { HTTP_HEADERS_HANDLE_DATA* handleData = (HTTP_HEADERS_HANDLE_DATA*)handle; const char*const* keys; const char*const* values; size_t headerCount; if (Map_GetInternals(handleData->headers, &keys, &values, &headerCount) != MAP_OK) { /*Codes_SRS_HTTP_HEADERS_99_034:[ The function shall return HTTP_HEADERS_ERROR when an internal error occurs]*/ result = HTTP_HEADERS_ERROR; LogError("Map_GetInternals failed, result= %" PRI_MU_ENUM "", MU_ENUM_VALUE(HTTP_HEADERS_RESULT, result)); } else { /*Codes_SRS_HTTP_HEADERS_99_029:[ The function shall return HTTP_HEADERS_INVALID_ARG if index is not valid (for example, out of range) for the currently stored headers.]*/ if (index >= headerCount) { result = HTTP_HEADERS_INVALID_ARG; LogError("index out of bounds, result= %" PRI_MU_ENUM "", MU_ENUM_VALUE(HTTP_HEADERS_RESULT, result)); } else { size_t keyLen = strlen(keys[index]); size_t valueLen = strlen(values[index]); size_t malloc_size = safe_add_size_t(keyLen, /*COLON_AND_SPACE_LENGTH*/ 2); malloc_size = safe_add_size_t(malloc_size, valueLen); malloc_size = safe_add_size_t(malloc_size, /*EOL*/ 1); malloc_size = safe_multiply_size_t(malloc_size, sizeof(char)); if (malloc_size == SIZE_MAX || (*destination = (char*)malloc(malloc_size)) == NULL) { /*Codes_SRS_HTTP_HEADERS_99_034:[ The function shall return HTTP_HEADERS_ERROR when an internal error occurs]*/ result = HTTP_HEADERS_ERROR; *destination = NULL; LogError("unable to malloc, size=%zu, result= %" PRI_MU_ENUM "", malloc_size, MU_ENUM_VALUE(HTTP_HEADERS_RESULT, result)); } else { /*Codes_SRS_HTTP_HEADERS_99_016:[ The function shall store the name:value pair in such a way that when later retrieved by a call to GetHeader it will return a string that shall strcmp equal to the name+": "+value.]*/ /*Codes_SRS_HTTP_HEADERS_99_027:[ Calling this API shall produce the string value+": "+pair) for the index header in the *destination parameter.]*/ char* runDestination = (*destination); (void)memcpy(runDestination, keys[index], keyLen); runDestination += keyLen; (*runDestination++) = ':'; (*runDestination++) = ' '; (void)memcpy(runDestination, values[index], valueLen + /*EOL*/ 1); /*Codes_SRS_HTTP_HEADERS_99_035:[ The function shall return HTTP_HEADERS_OK when the function executed without error.]*/ result = HTTP_HEADERS_OK; } } } } return result; } HTTP_HEADERS_HANDLE HTTPHeaders_Clone(HTTP_HEADERS_HANDLE handle) { HTTP_HEADERS_HANDLE_DATA* result; /*Codes_SRS_HTTP_HEADERS_02_003: [If handle is NULL then HTTPHeaders_Clone shall return NULL.] */ if (handle == NULL) { result = NULL; } else { /*Codes_SRS_HTTP_HEADERS_02_004: [Otherwise HTTPHeaders_Clone shall clone the content of handle to a new handle.] */ result = (HTTP_HEADERS_HANDLE_DATA*)malloc(sizeof(HTTP_HEADERS_HANDLE_DATA)); if (result == NULL) { /*Codes_SRS_HTTP_HEADERS_02_005: [If cloning fails for any reason, then HTTPHeaders_Clone shall return NULL.] */ } else { HTTP_HEADERS_HANDLE_DATA* handleData = handle; result->headers = Map_Clone(handleData->headers); if (result->headers == NULL) { /*Codes_SRS_HTTP_HEADERS_02_005: [If cloning fails for any reason, then HTTPHeaders_Clone shall return NULL.] */ free(result); result = NULL; } else { /*all is fine*/ } } } return result; }