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/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
// To explain some of the oddities:
// This plugin avoids linking against a runtime that might not be present, thus
// it avoids standard library functions.
// NSIS requires GlobalAlloc/GlobalFree for its interfaces, and I use them for
// other allocations (vs e.g. HeapAlloc) for the sake of consistency.
#include <Windows.h>
#include <Wininet.h>
#define AGENT_NAME L"HttpPostFile plugin"
PBYTE LoadFileData(LPWSTR fileName, DWORD& cbData);
bool HttpPost(LPURL_COMPONENTS pUrl, LPWSTR contentTypeHeader, PBYTE data,
DWORD cbData);
// NSIS API
typedef struct _stack_t {
struct _stack_t* next;
WCHAR text[1];
} stack_t;
// Unlink and return the topmost element of the stack, if any.
static stack_t* popstack(stack_t** stacktop) {
if (!stacktop || !*stacktop) return nullptr;
stack_t* element = *stacktop;
*stacktop = element->next;
element->next = nullptr;
return element;
}
// Allocate a new stack element (with space for `stringsize`), copy the string,
// add to the top of the stack.
static void pushstring(LPCWSTR str, stack_t** stacktop,
unsigned int stringsize) {
stack_t* element;
if (!stacktop) return;
// The allocation here has space for stringsize+1 WCHARs, because stack_t.text
// is 1 element long. This is consistent with the NSIS ExDLL example, though
// inconsistent with the comment that says the array "should be the length of
// g_stringsize when allocating". I'm sticking to consistency with
// the code, and erring towards having a larger buffer than necessary.
element = (stack_t*)GlobalAlloc(
GPTR, (sizeof(stack_t) + stringsize * sizeof(*str)));
lstrcpynW(element->text, str, stringsize);
element->next = *stacktop;
*stacktop = element;
}
BOOL APIENTRY DllMain(HINSTANCE instance, DWORD reason, LPVOID) {
// No initialization or cleanup is needed.
return TRUE;
}
extern "C" {
// HttpPostFile::Post <File> <Content-Type header with \r\n> <URL>
//
// e.g. HttpPostFile "C:\blah.json" "Content-Type: application/json$\r$\n"
// "https://example.com"
//
// Leaves a result string on the stack, "success" if the POST was successful, an
// error message otherwise.
// The status code from the server is not checked, as long as we got some
// response the result will be "success". The response is read, but discarded.
void __declspec(dllexport)
Post(HWND hwndParent, int string_size, char* /* variables */,
stack_t** stacktop, void* /* extra_parameters */) {
static const URL_COMPONENTS kZeroComponents = {0};
const WCHAR* errorMsg = L"error";
DWORD cbData = INVALID_FILE_SIZE;
PBYTE data = nullptr;
// Copy a constant, because initializing an automatic variable with {0} ends
// up linking to memset, which isn't available.
URL_COMPONENTS components = kZeroComponents;
// Get args, taking ownership of the strings from the stack, to avoid
// allocating and copying strings.
stack_t* postFileName = popstack(stacktop);
stack_t* contentTypeHeader = popstack(stacktop);
stack_t* url = popstack(stacktop);
if (!postFileName || !contentTypeHeader || !url) {
errorMsg = L"error getting arguments";
goto finish;
}
data = LoadFileData(postFileName->text, cbData);
if (!data || cbData == INVALID_FILE_SIZE) {
errorMsg = L"error reading file";
goto finish;
}
{
// This length is used to allocate for the host name and path components,
// which should be no longer than the source URL.
int urlBufLen = lstrlenW(url->text) + 1;
components.dwStructSize = sizeof(components);
components.dwHostNameLength = urlBufLen;
components.dwUrlPathLength = urlBufLen;
components.lpszHostName =
(LPWSTR)GlobalAlloc(GPTR, urlBufLen * sizeof(WCHAR));
components.lpszUrlPath =
(LPWSTR)GlobalAlloc(GPTR, urlBufLen * sizeof(WCHAR));
}
errorMsg = L"error parsing URL";
if (components.lpszHostName && components.lpszUrlPath &&
InternetCrackUrl(url->text, 0, 0, &components) &&
(components.nScheme == INTERNET_SCHEME_HTTP ||
components.nScheme == INTERNET_SCHEME_HTTPS)) {
errorMsg = L"error sending HTTP request";
if (HttpPost(&components, contentTypeHeader->text, data, cbData)) {
// success!
errorMsg = nullptr;
}
}
finish:
if (components.lpszUrlPath) {
GlobalFree(components.lpszUrlPath);
}
if (components.lpszHostName) {
GlobalFree(components.lpszHostName);
}
if (data) {
GlobalFree(data);
}
// Free args taken from the NSIS stack
if (url) {
GlobalFree(url);
}
if (contentTypeHeader) {
GlobalFree(contentTypeHeader);
}
if (postFileName) {
GlobalFree(postFileName);
}
if (errorMsg) {
pushstring(errorMsg, stacktop, string_size);
} else {
pushstring(L"success", stacktop, string_size);
}
}
}
// Returns buffer with file contents on success, placing the size in cbData.
// Returns nullptr on failure.
// Caller must use GlobalFree() on the returned buffer if non-null.
PBYTE LoadFileData(LPWSTR fileName, DWORD& cbData) {
bool success = false;
HANDLE hPostFile = INVALID_HANDLE_VALUE;
PBYTE data = nullptr;
DWORD bytesRead;
DWORD bytesReadTotal;
hPostFile = CreateFile(fileName, GENERIC_READ, FILE_SHARE_READ, nullptr,
OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL, nullptr);
if (hPostFile == INVALID_HANDLE_VALUE) {
goto finish;
}
cbData = GetFileSize(hPostFile, NULL);
if (cbData == INVALID_FILE_SIZE) {
goto finish;
}
data = (PBYTE)GlobalAlloc(GPTR, cbData);
if (!data) {
goto finish;
}
bytesReadTotal = 0;
do {
if (!ReadFile(hPostFile, data + bytesReadTotal, cbData - bytesReadTotal,
&bytesRead, nullptr /* overlapped */)) {
goto finish;
}
bytesReadTotal += bytesRead;
} while (bytesReadTotal < cbData && bytesRead > 0);
if (bytesReadTotal == cbData) {
success = true;
}
finish:
if (!success) {
if (data) {
GlobalFree(data);
data = nullptr;
}
cbData = INVALID_FILE_SIZE;
}
if (hPostFile != INVALID_HANDLE_VALUE) {
CloseHandle(hPostFile);
hPostFile = INVALID_HANDLE_VALUE;
}
return data;
}
// Returns true on success
bool HttpPost(LPURL_COMPONENTS pUrl, LPWSTR contentTypeHeader, PBYTE data,
DWORD cbData) {
bool success = false;
HINTERNET hInternet = nullptr;
HINTERNET hConnect = nullptr;
HINTERNET hRequest = nullptr;
hInternet = InternetOpen(AGENT_NAME, INTERNET_OPEN_TYPE_PRECONFIG,
nullptr, // proxy
nullptr, // proxy bypass
0 // flags
);
if (!hInternet) {
goto finish;
}
hConnect = InternetConnect(hInternet, pUrl->lpszHostName, pUrl->nPort,
nullptr, // userName,
nullptr, // password
INTERNET_SERVICE_HTTP,
0, // flags
0 // context
);
if (!hConnect) {
goto finish;
}
{
// NOTE: Some of these settings are perhaps unnecessary for a POST.
DWORD httpFlags = INTERNET_FLAG_NO_CACHE_WRITE | INTERNET_FLAG_NO_COOKIES |
INTERNET_FLAG_NO_UI | INTERNET_FLAG_RELOAD;
if (pUrl->nScheme == INTERNET_SCHEME_HTTPS) {
// NOTE: nsJSON sets flags to allow redirecting HTTPS to HTTP, or HTTP to
// HTTPS I left those out because it seemed undesirable for our use case.
httpFlags |= INTERNET_FLAG_SECURE;
}
hRequest = HttpOpenRequest(hConnect, L"POST", pUrl->lpszUrlPath,
nullptr, // version,
nullptr, // referrer
nullptr, // accept types
httpFlags,
0 // context
);
if (!hRequest) {
goto finish;
}
}
if (contentTypeHeader) {
if (!HttpAddRequestHeaders(hRequest, contentTypeHeader,
-1L, // headers length (count string length)
HTTP_ADDREQ_FLAG_ADD)) {
goto finish;
}
}
if (!HttpSendRequestW(hRequest,
nullptr, // additional headers
0, // headers length
data, cbData)) {
goto finish;
}
BYTE readBuffer[1024];
DWORD bytesRead;
do {
if (!InternetReadFile(hRequest, readBuffer, sizeof(readBuffer),
&bytesRead)) {
goto finish;
}
// read data is thrown away
} while (bytesRead > 0);
success = true;
finish:
if (hRequest) {
InternetCloseHandle(hRequest);
}
if (hConnect) {
InternetCloseHandle(hConnect);
}
if (hInternet) {
InternetCloseHandle(hInternet);
}
return success;
}
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