tildefriends/src/file.js.c

#include "file.js.h"

#include "log.h"
#include "mem.h"
#include "task.h"
#include "trace.h"
#include "util.js.h"

#include "unzip.h"
#include "uv.h"

#include <stdbool.h>
#include <string.h>

#ifdef _WIN32
#include <windows.h>
#endif

static JSValue _file_read_file(JSContext* context, JSValueConst this_val, int argc, JSValueConst* argv);
static JSValue _file_read_file_zip(JSContext* context, JSValueConst this_val, int argc, JSValueConst* argv);
static JSValue _file_stat(JSContext* context, JSValueConst this_val, int argc, JSValueConst* argv);
static JSValue _file_stat_zip(JSContext* context, JSValueConst this_val, int argc, JSValueConst* argv);
static JSValue _file_write_file(JSContext* context, JSValueConst this_val, int argc, JSValueConst* argv);

static double _time_spec_to_double(const uv_timespec_t* time_spec);
static void _file_on_stat_complete(uv_fs_t* request);

typedef struct file_stat_t
{
	void* _task;
	JSContext* _context;
	promiseid_t _promise;
	uv_fs_t _request;
} file_stat_t;

typedef struct fs_req_t
{
	uv_fs_t fs;
	size_t size;
	uv_file file;
	char buffer[];
} fs_req_t;

void tf_file_register(JSContext* context)
{
	JSValue global = JS_GetGlobalObject(context);
	JSValue file = JS_NewObject(context);
	void* task = JS_GetContextOpaque(context);
	const char* zip = tf_task_get_zip_path(task);
	JS_SetPropertyStr(context, global, "File", file);
	JS_SetPropertyStr(context, file, "readFile", JS_NewCFunction(context, zip ? _file_read_file_zip : _file_read_file, "readFile", 1));
	JS_SetPropertyStr(context, file, "writeFile", JS_NewCFunction(context, _file_write_file, "writeFile", 2));
	JS_SetPropertyStr(context, file, "stat", JS_NewCFunction(context, zip ? _file_stat_zip : _file_stat, "stat", 1));
	JS_FreeValue(context, global);
}

enum
{
	k_file_read_max = 8 * 1024 * 1024
};

static void _file_async_close_callback(uv_fs_t* req)
{
	uv_fs_req_cleanup(req);
	tf_free(req);
}

static void _file_write_write_callback(uv_fs_t* req)
{
	uv_fs_req_cleanup(req);
	fs_req_t* fsreq = (fs_req_t*)req;
	tf_task_t* task = req->loop->data;
	JSContext* context = tf_task_get_context(task);
	promiseid_t promise = (promiseid_t)(intptr_t)req->data;
	if (req->result >= 0)
	{
		tf_task_resolve_promise(task, promise, JS_NewInt64(context, req->result));
	}
	else
	{
		tf_task_reject_promise(task, promise, JS_ThrowInternalError(context, "Failed to write %s: %s", req->path, uv_strerror(req->result)));
	}
	int result = uv_fs_close(req->loop, req, fsreq->file, _file_async_close_callback);
	if (result < 0)
	{
		uv_fs_req_cleanup(req);
		tf_free(fsreq);
	}
}

static void _file_write_open_callback(uv_fs_t* req)
{
	fs_req_t* fsreq = (fs_req_t*)req;
	const char* path = tf_strdup(req->path);
	uv_fs_req_cleanup(req);
	tf_task_t* task = req->loop->data;
	JSContext* context = tf_task_get_context(task);
	promiseid_t promise = (promiseid_t)(intptr_t)req->data;
	if (req->result >= 0)
	{
		uv_buf_t buf = { .base = fsreq->buffer, .len = fsreq->size };
		fsreq->file = req->result;
		int result = uv_fs_write(req->loop, req, fsreq->file, &buf, 1, 0, _file_write_write_callback);
		if (result < 0)
		{
			uv_fs_req_cleanup(req);
			tf_task_reject_promise(task, promise, JS_ThrowInternalError(context, "Failed to write %s: %s", path, uv_strerror(result)));
			result = uv_fs_close(req->loop, req, fsreq->file, _file_async_close_callback);
			if (result < 0)
			{
				uv_fs_req_cleanup(req);
				tf_free(fsreq);
			}
		}
	}
	else
	{
		tf_task_reject_promise(task, promise, JS_ThrowInternalError(context, "%s", uv_strerror(req->result)));
		tf_free(req);
	}
	tf_free((void*)path);
}

static JSValue _file_write_file(JSContext* context, JSValueConst this_val, int argc, JSValueConst* argv)
{
	void* task = JS_GetContextOpaque(context);
	const char* file_name = JS_ToCString(context, argv[0]);

	size_t size;
	uint8_t* buffer = tf_util_try_get_array_buffer(context, &size, argv[1]);
	bool is_array_buffer = false;
	if (buffer)
	{
		is_array_buffer = true;
	}
	else
	{
		buffer = (uint8_t*)JS_ToCStringLen(context, &size, argv[1]);
	}

	promiseid_t promise = -1;
	JSValue promise_value = tf_task_allocate_promise(task, &promise);
	fs_req_t* req = tf_malloc(sizeof(fs_req_t) + size);
	*req = (fs_req_t)
	{
		.fs =
		{
			.data = (void*)(intptr_t)promise,
		},
		.size = size,
	};
	memcpy(req->buffer, buffer, size);
	if (!is_array_buffer)
	{
		JS_FreeCString(context, (const char*)buffer);
	}

	int result = uv_fs_open(tf_task_get_loop(task), &req->fs, file_name, UV_FS_O_CREAT | UV_FS_O_WRONLY, 0644, _file_write_open_callback);
	if (result < 0)
	{
		tf_task_reject_promise(task, promise, JS_ThrowInternalError(context, "Failed to open %s for write: %s", file_name, uv_strerror(result)));
	}
	JS_FreeCString(context, file_name);
	return promise_value;
}

static void _file_read_read_callback(uv_fs_t* req)
{
	fs_req_t* fsreq = (fs_req_t*)req;
	tf_task_t* task = req->loop->data;
	JSContext* context = tf_task_get_context(task);
	promiseid_t promise = (promiseid_t)(intptr_t)req->data;
	if (req->result >= 0)
	{
		JSValue array = tf_util_new_uint8_array(context, (const uint8_t*)fsreq->buffer, req->result);
		tf_task_resolve_promise(task, promise, array);
		JS_FreeValue(context, array);
	}
	else
	{
		tf_task_reject_promise(task, promise, JS_ThrowInternalError(context, "Failed to read %s: %s", req->path, uv_strerror(req->result)));
	}
	uv_fs_req_cleanup(req);
	int result = uv_fs_close(req->loop, req, fsreq->file, _file_async_close_callback);
	if (result < 0)
	{
		uv_fs_req_cleanup(req);
		tf_free(fsreq);
	}
}

static void _file_read_open_callback(uv_fs_t* req)
{
	const char* path = tf_strdup(req->path);
	uv_fs_req_cleanup(req);
	fs_req_t* fsreq = (fs_req_t*)req;
	tf_task_t* task = req->loop->data;
	JSContext* context = tf_task_get_context(task);
	promiseid_t promise = (promiseid_t)(intptr_t)req->data;
	if (req->result >= 0)
	{
		uv_buf_t buf = { .base = fsreq->buffer, .len = fsreq->size };
		fsreq->file = req->result;
		int result = uv_fs_read(req->loop, req, fsreq->file, &buf, 1, 0, _file_read_read_callback);
		if (result < 0)
		{
			tf_task_reject_promise(task, promise, JS_ThrowInternalError(context, "Failed to read %s: %s", path, uv_strerror(result)));
			result = uv_fs_close(req->loop, req, fsreq->file, _file_async_close_callback);
			if (result < 0)
			{
				uv_fs_req_cleanup(req);
				tf_free(fsreq);
			}
		}
	}
	else
	{
		tf_task_reject_promise(task, promise, JS_ThrowInternalError(context, "Failed to open %s for read: %s", path, uv_strerror(req->result)));
		uv_fs_req_cleanup(req);
		tf_free(req);
	}
	tf_free((void*)path);
}

static JSValue _file_read_file(JSContext* context, JSValueConst this_val, int argc, JSValueConst* argv)
{
	void* task = JS_GetContextOpaque(context);
	const char* file_name = JS_ToCString(context, argv[0]);

	promiseid_t promise = -1;
	JSValue promise_value = tf_task_allocate_promise(task, &promise);
	fs_req_t* req = tf_malloc(sizeof(fs_req_t) + k_file_read_max);
	*req = (fs_req_t)
	{
		.fs =
		{
			.data = (void*)(intptr_t)promise,
		},
		.size = k_file_read_max,
	};
	memset(req + 1, 0, k_file_read_max);
	int result = uv_fs_open(tf_task_get_loop(task), &req->fs, file_name, UV_FS_O_RDONLY, 0, _file_read_open_callback);
	if (result < 0)
	{
		tf_task_reject_promise(task, promise, JS_ThrowInternalError(context, "Failed to open %s for read: %s", file_name, uv_strerror(result)));
		uv_fs_req_cleanup(&req->fs);
		tf_free(req);
	}
	JS_FreeCString(context, file_name);
	return promise_value;
}

typedef struct _zip_read_work_t
{
	uv_work_t request;
	JSContext* context;
	tf_task_t* task;
	const char* file_path;
	promiseid_t promise;
	int result;
	uint8_t* buffer;
	size_t size;
} zip_read_work_t;

static void _file_read_file_zip_work(uv_work_t* work)
{
	zip_read_work_t* data = work->data;
	tf_trace_t* trace = tf_task_get_trace(data->task);
	tf_trace_begin(trace, "file_read_zip_work");
	unzFile zip = unzOpen(tf_task_get_zip_path(data->task));
	bool is_file_open = false;
	if (!zip)
	{
		data->result = errno;
		tf_trace_end(trace);
		return;
	}

	data->result = unzLocateFile(zip, data->file_path, 1);
	if (data->result != UNZ_OK)
	{
		goto done;
	}

	unz_file_info64 info = { 0 };
	data->result = unzGetCurrentFileInfo64(zip, &info, NULL, 0, NULL, 0, NULL, 0);
	if (data->result != UNZ_OK)
	{
		goto done;
	}

	data->result = unzOpenCurrentFile(zip);
	if (data->result != UNZ_OK)
	{
		goto done;
	}
	is_file_open = true;

	data->buffer = tf_malloc(info.uncompressed_size);
	data->result = unzReadCurrentFile(zip, data->buffer, info.uncompressed_size);
	if (data->result <= 0)
	{
		tf_free(data->buffer);
		data->buffer = NULL;
	}
	tf_trace_end(trace);

done:
	if (is_file_open)
	{
		unzCloseCurrentFile(zip);
	}
	unzClose(zip);
}

static void _file_read_file_zip_after_work(uv_work_t* work, int status)
{
	zip_read_work_t* data = work->data;
	tf_trace_t* trace = tf_task_get_trace(data->task);
	tf_trace_begin(trace, "file_read_zip_after_work");
	if (data->result >= 0)
	{
		JSValue array = tf_util_new_uint8_array(data->context, data->buffer, data->result);
		tf_task_resolve_promise(data->task, data->promise, array);
		JS_FreeValue(data->context, array);
	}
	else
	{
		tf_task_reject_promise(data->task, data->promise, JS_ThrowInternalError(data->context, "Failed to read %s: %d.", data->file_path, data->result));
	}
	tf_free(data->buffer);
	tf_free((void*)data->file_path);
	tf_free(data);
	tf_trace_end(trace);
}

static JSValue _file_read_file_zip(JSContext* context, JSValueConst this_val, int argc, JSValueConst* argv)
{
	tf_task_t* task = JS_GetContextOpaque(context);
	const char* file_name = JS_ToCString(context, argv[0]);

	zip_read_work_t* work = tf_malloc(sizeof(zip_read_work_t));
	*work = (zip_read_work_t)
	{
		.request =
		{
			.data = work,
		},
		.context = context,
		.task = task,
		.file_path = tf_strdup(file_name),
	};

	JSValue promise_value = tf_task_allocate_promise(task, &work->promise);

	int r = uv_queue_work(tf_task_get_loop(task), &work->request, _file_read_file_zip_work, _file_read_file_zip_after_work);
	if (r)
	{
		tf_task_reject_promise(task, work->promise, JS_ThrowInternalError(context, "Failed to create read work for %s: %s", file_name, uv_strerror(r)));
		tf_free((void*)work->file_path);
		tf_free(work);
	}

	JS_FreeCString(context, file_name);
	return promise_value;
}

static JSValue _file_stat(JSContext* context, JSValueConst this_val, int argc, JSValueConst* argv)
{
	void* task = JS_GetContextOpaque(context);
	const char* path = JS_ToCString(context, argv[0]);
	promiseid_t promise = -1;
	JSValue promise_value = tf_task_allocate_promise(task, &promise);

	file_stat_t* data = tf_malloc(sizeof(file_stat_t));
	data->_task = task;
	data->_promise = promise;
	data->_request.data = data;
	data->_context = context;

	int result = uv_fs_stat(tf_task_get_loop(task), &data->_request, path, _file_on_stat_complete);
	if (result)
	{
		tf_task_reject_promise(task, promise, JS_NewInt32(context, result));
		uv_fs_req_cleanup(&data->_request);
		tf_free(data);
	}
	JS_FreeCString(context, path);
	return promise_value;
}

static JSValue _file_stat_zip(JSContext* context, JSValueConst this_val, int argc, JSValueConst* argv)
{
	void* task = JS_GetContextOpaque(context);
	promiseid_t promise = -1;
	JSValue promise_value = tf_task_allocate_promise(task, &promise);

	file_stat_t* data = tf_malloc(sizeof(file_stat_t));
	data->_task = task;
	data->_promise = promise;
	data->_request.data = data;
	data->_context = context;

	/* Ignore the requested path and stat the zip itself. */
	int result = uv_fs_stat(tf_task_get_loop(task), &data->_request, tf_task_get_zip_path(task), _file_on_stat_complete);
	if (result)
	{
		tf_task_reject_promise(task, promise, JS_NewInt32(context, result));
		uv_fs_req_cleanup(&data->_request);
		tf_free(data);
	}
	return promise_value;
}

static double _time_spec_to_double(const uv_timespec_t* time_spec)
{
	return time_spec->tv_sec + (double)(time_spec->tv_nsec) / 1e9;
}

static void _file_on_stat_complete(uv_fs_t* request)
{
	file_stat_t* data = (file_stat_t*)(request->data);
	JSContext* context = data->_context;

	if (request->result)
	{
		tf_task_reject_promise(data->_task, data->_promise, JS_NewInt32(context, request->result));
	}
	else
	{
		JSValue result = JS_NewObject(context);
		JS_SetPropertyStr(context, result, "mtime", JS_NewFloat64(context, _time_spec_to_double(&request->statbuf.st_mtim)));
		JS_SetPropertyStr(context, result, "ctime", JS_NewFloat64(context, _time_spec_to_double(&request->statbuf.st_ctim)));
		JS_SetPropertyStr(context, result, "atime", JS_NewFloat64(context, _time_spec_to_double(&request->statbuf.st_atim)));
		JS_SetPropertyStr(context, result, "size", JS_NewFloat64(context, request->statbuf.st_size));
		tf_task_resolve_promise(data->_task, data->_promise, result);
		JS_FreeValue(context, result);
	}
	uv_fs_req_cleanup(request);
	tf_free(data);
}

typedef struct _stat_t
{
	uv_fs_t request;
	tf_task_t* task;
	void (*callback)(tf_task_t* task, const char* path, int result, const uv_stat_t* stat, void* user_data);
	void* user_data;
	char path[];
} stat_t;

static void _file_stat_complete(uv_fs_t* request)
{
	stat_t* data = request->data;
	data->callback(data->task, data->path, request->result, &request->statbuf, data->user_data);
	uv_fs_req_cleanup(request);
	tf_free(data);
}

void tf_file_stat(tf_task_t* task, const char* path, void (*callback)(tf_task_t* task, const char* path, int result, const uv_stat_t* stat, void* user_data), void* user_data)
{
	if (!path)
	{
		callback(task, path, -EINVAL, NULL, user_data);
		return;
	}

	const char* zip = tf_task_get_zip_path(task);
	size_t path_length = strlen(path) + 1;
	stat_t* data = tf_malloc(sizeof(stat_t) + path_length);
	*data = (stat_t) { .request = { .data = data }, .task = task, .callback = callback, .user_data = user_data };
	memcpy(data->path, path, path_length);

	int result = uv_fs_stat(tf_task_get_loop(task), &data->request, zip ? zip : path, _file_stat_complete);
	if (result)
	{
		callback(task, path, result, NULL, user_data);
		uv_fs_req_cleanup(&data->request);
		tf_free(data);
	}
}

typedef struct _read_t
{
	uv_work_t work;
	tf_task_t* task;
	void (*callback)(tf_task_t* task, const char* path, int result, const void* data, void* user_data);
	void* user_data;
	int64_t result;
	char buffer[k_file_read_max];
	char path[];
} read_t;

static void _file_read_work(uv_work_t* work)
{
	read_t* data = work->data;
	const char* zip_path = tf_task_get_zip_path(data->task);
	if (zip_path)
	{
		tf_trace_t* trace = tf_task_get_trace(data->task);
		tf_trace_begin(trace, "file_read_zip_work");
		unzFile zip = unzOpen(zip_path);
		if (zip)
		{
			data->result = unzLocateFile(zip, data->path, 1);
			if (data->result == UNZ_OK)
			{
				unz_file_info64 info = { 0 };
				data->result = unzGetCurrentFileInfo64(zip, &info, NULL, 0, NULL, 0, NULL, 0);
				if (data->result == UNZ_OK && info.uncompressed_size > sizeof(data->buffer))
				{
					data->result = -EFBIG;
				}
				else if (data->result == UNZ_OK)
				{
					data->result = unzOpenCurrentFile(zip);
					if (data->result == UNZ_OK)
					{
						data->result = unzReadCurrentFile(zip, data->buffer, info.uncompressed_size);
						if (data->result == (int64_t)info.uncompressed_size)
						{
							int r = unzCloseCurrentFile(zip);
							if (r != UNZ_OK)
							{
								data->result = r;
							}
						}
						else
						{
							data->result = EAGAIN;
						}
					}
				}
			}
			unzClose(zip);
		}
		else
		{
			data->result = errno;
		}
		tf_trace_end(trace);
	}
	else
	{
		tf_trace_t* trace = tf_task_get_trace(data->task);
		tf_trace_begin(trace, "file_read_zip_work");
		uv_loop_t* loop = tf_task_get_loop(data->task);
		uv_fs_t open_req = { 0 };
		int open_result = uv_fs_open(loop, &open_req, data->path, UV_FS_O_RDONLY, 0, NULL);
		if (open_result >= 0)
		{
			uv_buf_t buf = { .base = data->buffer, .len = sizeof(data->buffer) };
			uv_fs_t read_req = { 0 };
			int result = uv_fs_read(loop, &read_req, open_result, &buf, 1, 0, NULL);
			if ((size_t)result >= sizeof(data->buffer))
			{
				data->result = -EFBIG;
			}
			else
			{
				data->result = result;
			}
			uv_fs_req_cleanup(&read_req);

			uv_fs_t close_req = { 0 };
			result = uv_fs_close(loop, &close_req, open_result, NULL);
			if (result && data->result >= 0)
			{
				data->result = result;
			}
			uv_fs_req_cleanup(&close_req);
		}
		else
		{
			data->result = errno;
		}
		uv_fs_req_cleanup(&open_req);
		tf_trace_end(trace);
	}
}

static void _file_read_after_work(uv_work_t* work, int result)
{
	read_t* data = work->data;
	data->callback(data->task, data->path, data->result, data->buffer, data->user_data);
	tf_free(data);
}

void tf_file_read(tf_task_t* task, const char* path, void (*callback)(tf_task_t* task, const char* path, int result, const void* data, void* user_data), void* user_data)
{
	if (!path)
	{
		callback(task, path, -EINVAL, NULL, user_data);
		return;
	}

	size_t path_length = strlen(path) + 1;
	read_t* data = tf_malloc(sizeof(read_t) + path_length);
	memset(data, 0, sizeof(read_t));
	data->callback = callback;
	data->user_data = user_data;
	data->work.data = data;
	data->task = task;
	memcpy(data->path, path, path_length);
	int r = uv_queue_work(tf_task_get_loop(task), &data->work, _file_read_work, _file_read_after_work);
	if (r)
	{
		_file_read_after_work(&data->work, r);
	}
}