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mirror of https://github.com/qvacua/vimr.git synced 2024-12-19 03:31:32 +03:00
vimr/NvimView/NvimServer/server.c
2020-02-07 18:18:35 +01:00

477 lines
12 KiB
C

/**
* Tae Won Ha - http://taewon.de - @hataewon
* See LICENSE
*/
#include <stdlib.h>
#include <uv.h>
#define FileInfo CarbonFileInfo
#define Boolean CarbonBoolean
#include "server.h"
#include "server_log.h"
#undef FileInfo
#undef Boolean
#include <nvim/main.h>
#include <nvim/edit.h>
#include <nvim/mouse.h>
#include <nvim/screen.h>
#include <nvim/fileio.h>
#include <nvim/api/private/helpers.h>
#include <api/vim.h.generated.h>
#include <nvim/ui.h>
#include <ui.h.generated.h>
#include <fileio.h.generated.h>
#include <nvim/aucmd.h>
#include "server_ui_bridge.h"
#pragma mark cond_var_t
typedef struct {
uv_mutex_t mutex;
uv_cond_t condition;
uint64_t timeout;
bool posted;
} cond_var_t;
static void cond_var_init(cond_var_t *cond_var, uint64_t timeout, bool posted) {
memset(cond_var, 0, sizeof((*cond_var)));
(*cond_var).timeout = timeout;
(*cond_var).posted = posted;
uv_cond_init(&(*cond_var).condition);
uv_mutex_init(&(*cond_var).mutex);
}
static void cond_var_destroy(cond_var_t *cond_var) {
uv_mutex_destroy(&(*cond_var).mutex);
uv_cond_destroy(&(*cond_var).condition);
}
#pragma mark server
static CFMessagePortRef local_port;
static CFRunLoopRef local_port_run_loop;
static uv_thread_t local_port_thread;
static CFMessagePortRef remote_port;
static uv_thread_t nvim_thread;
static const char *cfstr2cstr(CFStringRef cfstr, bool *free_bytes);
static void setenv_vimruntime(void);
static void start_nvim(void *_);
static int nvim_argc = 0;
static const char **nvim_argv;
static CFDataRef data_async(CFDataRef data, argv_callback cb);
typedef void (^async_work_block)(CFDataRef);
static void run_local_port(void *cond_var);
static CFDataRef local_port_callback(
CFMessagePortRef local,
SInt32 msgid,
CFDataRef data,
void *info
);
static String backspace;
static void scroll(void **argv);
static void resize(void **argv);
static void delete_and_input(void **argv);
static void focus_gained(void **argv);
static void ready_for_rpcevents(void **argv);
static void debug1(void **argv);
static void do_autocmd_guienter(void **argv);
// We declare nvim_main because it's not declared in any header files of neovim
extern int nvim_main(int argc, const char **argv);
#ifdef DEBUG
void debug_function() {
}
#endif
void server_set_nvim_args(int argc, const char **const argv) {
nvim_argc = argc + 1;
nvim_argv = malloc(nvim_argc * sizeof(char *));
nvim_argv[0] = "nvim";
for (int i = 0; i < argc; i++) { nvim_argv[i + 1] = argv[i]; }
}
void server_init_local_port(const char *name) {
CFStringRef name_cf = CFStringCreateWithCString(
kCFAllocatorDefault,
name,
kCFStringEncodingUTF8
);
local_port = CFMessagePortCreateLocal(
kCFAllocatorDefault,
name_cf,
local_port_callback,
NULL,
NULL
);
CFRelease(name_cf);
if (local_port == NULL) {
send_msg_packing(NvimServerMsgIdFatalError, ^(msgpack_packer *packer) {
msgpack_pack_int64(packer, NvimServerFatalErrorCodeLocalPort);
});
exit(NvimServerFatalErrorCodeLocalPort);
}
cond_var_t cond_var;
cond_var_init(&cond_var, 5, false);
uv_thread_create(&local_port_thread, run_local_port, &cond_var);
uv_mutex_lock(&cond_var.mutex);
while (!cond_var.posted) {
uv_cond_timedwait(&cond_var.condition, &cond_var.mutex, cond_var.timeout);
}
uv_mutex_unlock(&cond_var.mutex);
cond_var_destroy(&cond_var);
}
void server_destroy_local_port() {
CFRunLoopStop(local_port_run_loop);
if (CFMessagePortIsValid(local_port)) { CFMessagePortInvalidate(local_port); }
CFRelease(local_port);
}
void server_init_remote_port(const char *name) {
CFStringRef name_cf = CFStringCreateWithCString(
kCFAllocatorDefault,
name,
kCFStringEncodingUTF8
);
remote_port = CFMessagePortCreateRemote(kCFAllocatorDefault, name_cf);
CFRelease(name_cf);
if (remote_port == NULL) {
send_msg_packing(NvimServerMsgIdFatalError, ^(msgpack_packer *packer) {
msgpack_pack_int64(packer, NvimServerFatalErrorCodeRemotePort);
});
exit(NvimServerFatalErrorCodeRemotePort);
}
}
void server_destroy_remote_port() {
if (CFMessagePortIsValid(remote_port)) { CFMessagePortInvalidate(remote_port); }
CFRelease(remote_port);
}
void server_send_msg(NvimServerMsgId msgid, CFDataRef data) {
SInt32 response_code = CFMessagePortSendRequest(
remote_port,
(SInt32) msgid,
data,
5.0,
5.0,
NULL,
NULL
);
if (response_code == kCFMessagePortSuccess) { return; }
os_log_error(logger, "The msg (%lu) could not be sent: %d", (long) msgid, response_code);
}
void msgpack_pack_cstr(msgpack_packer *packer, const char *cstr) {
const size_t len = strlen(cstr);
msgpack_pack_str(packer, len);
msgpack_pack_str_body(packer, cstr, len);
}
void msgpack_pack_bool(msgpack_packer *packer, bool value) {
if (value) { msgpack_pack_true(packer); }
else { msgpack_pack_false(packer); }
}
void send_msg_packing(NvimServerMsgId msgid, pack_block body) {
msgpack_sbuffer sbuf;
msgpack_sbuffer_init(&sbuf);
msgpack_packer packer;
msgpack_packer_init(&packer, &sbuf, msgpack_sbuffer_write);
body(&packer);
CFDataRef const data = CFDataCreateWithBytesNoCopy(
kCFAllocatorDefault,
(const UInt8 *) sbuf.data,
sbuf.size,
kCFAllocatorNull
);
server_send_msg(msgid, data);
CFRelease(data);
msgpack_sbuffer_destroy(&sbuf);
}
static void start_nvim(void *arg __unused) {
backspace = cstr_as_string("<BS>");
setenv_vimruntime();
// Set $LANG to en_US.UTF-8 such that the copied text to the system clipboard
// is not garbled.
setenv("LANG", "en_US.UTF-8", true);
nvim_main(nvim_argc, nvim_argv);
}
static void setenv_vimruntime() {
CFBundleRef main_bundle = CFBundleGetMainBundle();
CFURLRef bundle_url = CFBundleCopyBundleURL(main_bundle);
CFURLRef rsrc_url = CFURLCreateCopyAppendingPathComponent(
kCFAllocatorDefault,
bundle_url,
CFSTR("Resources"),
true
);
CFRelease(bundle_url);
CFURLRef runtime_url = CFURLCreateCopyAppendingPathComponent(
kCFAllocatorDefault,
rsrc_url,
CFSTR("runtime"),
true
);
CFRelease(rsrc_url);
CFStringRef runtime_path = CFURLCopyPath(runtime_url);
CFRelease(runtime_url);
bool free_runtime_cstr;
const char *runtime_cstr = cfstr2cstr(runtime_path, &free_runtime_cstr);
setenv("VIMRUNTIME", runtime_cstr, true);
if (free_runtime_cstr) { free((void *) runtime_cstr); }
CFRelease(runtime_path);
}
static CFDataRef data_async(CFDataRef data, argv_callback cb) {
loop_schedule_fast(&main_loop, event_create(cb, 3, data));
return NULL;
}
static void work_async(void **argv, async_work_block body) {
CFDataRef data = argv[0];
body(data);
CFRelease(data); // retained in local_port_callback
}
static CFDataRef local_port_callback(
CFMessagePortRef local __unused,
SInt32 msgid,
CFDataRef data,
void *info __unused
) {
if (data != NULL) {
CFRetain(data); // released in work_async (or in the case block below)
}
switch (msgid) {
case NvimBridgeMsgIdAgentReady: {
const NSInteger *const values = (NSInteger *) CFDataGetBytePtr(data);
bridge_data.init_width = (int) values[0];
bridge_data.init_height = (int) values[1];
CFRelease(data);
uv_thread_create(&nvim_thread, start_nvim, NULL);
return NULL;
}
case NvimBridgeMsgIdScroll:
return data_async(data, scroll);
case NvimBridgeMsgIdResize:
return data_async(data, resize);
case NvimBridgeMsgIdDeleteInput:
return data_async(data, delete_and_input);
case NvimBridgeMsgIdFocusGained:
return data_async(data, focus_gained);
case NvimBridgeMsgIdReadyForRpcEvents:
return data_async(data, ready_for_rpcevents);
case NvimBridgeMsgIdDebug1:
return data_async(data, debug1);
default:
os_log(logger, "msgid received: %{public}ld", (long) msgid);
if (data != NULL) { CFRelease(data); }
return NULL;
}
}
static void run_local_port(void *arg) {
local_port_run_loop = CFRunLoopGetCurrent();
CFRunLoopSourceRef const run_loop_src = CFMessagePortCreateRunLoopSource(
kCFAllocatorDefault,
local_port,
0
);
CFRunLoopAddSource(local_port_run_loop, run_loop_src, kCFRunLoopCommonModes);
CFRelease(run_loop_src);
cond_var_t *cond_var = (cond_var_t *) arg;
uv_mutex_lock(&cond_var->mutex);
cond_var->posted = true;
uv_cond_signal(&cond_var->condition);
uv_mutex_unlock(&cond_var->mutex);
CFRunLoopRun();
}
static const char *cfstr2cstr(CFStringRef cfstr, bool *free_bytes) {
*free_bytes = false;
const char *cptr = CFStringGetCStringPtr(cfstr, kCFStringEncodingUTF8);
if (cptr != NULL) { return cptr; }
CFIndex out_len = 0;
CFRange whole_range = CFRangeMake(0, CFStringGetLength(cfstr));
CFIndex converted = CFStringGetBytes(
cfstr,
whole_range,
kCFStringEncodingUTF8,
0,
false,
NULL,
0,
&out_len
);
if (converted == 0 || out_len == 0) { return NULL; }
char *result = malloc((size_t) (out_len + 1));
converted = CFStringGetBytes(
cfstr,
whole_range,
kCFStringEncodingUTF8,
0,
false,
(UInt8 *) result,
out_len,
NULL
);
if (converted == 0) {
free((void *) result);
return NULL;
}
*free_bytes = true;
result[out_len] = '\0';
return result;
}
#pragma mark local message port callbacks
static void scroll(void **argv) {
work_async(argv, ^(CFDataRef data) {
const NSInteger *const values
= (const NSInteger *const) CFDataGetBytePtr(data);
const int horiz = (int) values[0];
const int vert = (int) values[1];
int row = (int) values[2];
int column = (int) values[3];
if (horiz == 0 && vert == 0) { return; }
if (row < 0 || column < 0) {
row = 0;
column = 0;
}
// value > 0 => down or right
int horizDir;
int vertDir;
if (horiz != 0) {
horizDir = horiz > 0 ? MSCR_RIGHT : MSCR_LEFT;
custom_ui_scroll(horizDir, abs(horiz), row, column);
}
if (vert != 0) {
vertDir = vert > 0 ? MSCR_DOWN : MSCR_UP;
custom_ui_scroll(vertDir, abs(vert), row, column);
}
update_screen(VALID);
setcursor();
ui_flush();
});
}
static void resize(void **argv) {
work_async(argv, ^(CFDataRef data) {
const NSInteger *const values = (const NSInteger *const) CFDataGetBytePtr(data);
const NSInteger width = values[0];
const NSInteger height = values[1];
server_set_ui_size(bridge_data.bridge, (int) width, (int) height);
ui_refresh();
});
}
static void delete_and_input(void **argv) {
work_async(argv, ^(CFDataRef data) {
const NSInteger *const values = (const NSInteger *const) CFDataGetBytePtr(data);
const NSInteger count = values[0];
for (int i = 0; i < count; i++) { nvim_input(backspace); }
const char *stringPtr = (const char *) (values + 1);
String string = cbuf_to_string(stringPtr, CFDataGetLength(data) - sizeof(NSInteger));
nvim_input(string);
api_free_string(string);
});
}
static void focus_gained(void **argv) {
work_async(argv, ^(CFDataRef data) {
const bool *values = (const bool *) CFDataGetBytePtr(data);
aucmd_schedule_focusgained(values[0]);
});
}
static void ready_for_rpcevents(void **argv) {
work_async(argv, ^(CFDataRef data) {
loop_schedule_deferred(&main_loop, event_create(do_autocmd_guienter, 0));
});
}
static void debug1(void **argv) {
work_async(argv, ^(CFDataRef data) {
// yet noop
os_log(logger, "debug1");
});
}
static void do_autocmd_guienter(void **argv __unused) {
static bool recursive = false;
if (recursive) {
return; // disallow recursion
}
recursive = true;
apply_autocmds(EVENT_GUIENTER, NULL, NULL, false, curbuf);
recursive = false;
}