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https://github.com/denoland/deno.git
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157 lines
5.4 KiB
C
157 lines
5.4 KiB
C
// Copyright 2018-2019 the Deno authors. All rights reserved. MIT license.
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#ifndef DENO_H_
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#define DENO_H_
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#include <stddef.h>
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#include <stdint.h>
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#include "buffer.h"
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// Neither Rust nor Go support calling directly into C++ functions, therefore
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// the public interface to libdeno is done in C.
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#ifdef __cplusplus
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extern "C" {
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#endif
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typedef deno::PinnedBuf::Raw deno_pinned_buf;
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// Data that gets transmitted.
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typedef struct {
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uint8_t* data_ptr;
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size_t data_len;
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} deno_buf;
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typedef struct {
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uint8_t* data_ptr;
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size_t data_len;
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} deno_snapshot;
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typedef struct deno_s Deno;
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typedef uint32_t deno_op_id;
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// A callback to receive a message from a Deno.core.send() javascript call.
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// control_buf is valid for only for the lifetime of this callback.
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// data_buf is valid until deno_respond() is called.
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//
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// op_id corresponds to the first argument of Deno.core.send().
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// op_id is an extra user-defined integer valued which is not interpreted by
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// libdeno.
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//
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// control_buf corresponds to the second argument of Deno.core.send().
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//
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// zero_copy_buf corresponds to the third argument of Deno.core.send().
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// The user must call deno_pinned_buf_delete on each zero_copy_buf received.
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typedef void (*deno_recv_cb)(void* user_data, deno_op_id op_id,
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deno_buf control_buf,
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deno_pinned_buf zero_copy_buf);
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typedef int deno_dyn_import_id;
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// Called when dynamic import is called in JS: import('foo')
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// Embedder must call deno_dyn_import_done() with the specified id and
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// the module.
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typedef void (*deno_dyn_import_cb)(void* user_data, const char* specifier,
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const char* referrer, deno_dyn_import_id id);
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void deno_init();
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const char* deno_v8_version();
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void deno_set_v8_flags(int* argc, char** argv);
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typedef struct {
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int will_snapshot; // Default 0. If calling deno_snapshot_new 1.
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deno_snapshot load_snapshot; // A startup snapshot to use.
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deno_buf shared; // Shared buffer to be mapped to libdeno.shared
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deno_recv_cb recv_cb; // Maps to Deno.core.send() calls.
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deno_dyn_import_cb dyn_import_cb;
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} deno_config;
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// Create a new deno isolate.
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// Warning: If config.will_snapshot is set, deno_snapshot_new() must be called
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// or an error will result.
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Deno* deno_new(deno_config config);
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void deno_delete(Deno* d);
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// Generate a snapshot. The resulting buf can be used in as the load_snapshot
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// member in deno_confg.
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// When calling this function, the caller must have created the isolate "d" with
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// "will_snapshot" set to 1.
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// The caller must free the returned data with deno_snapshot_delete().
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deno_snapshot deno_snapshot_new(Deno* d);
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// Only for use with data returned from deno_snapshot_new.
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void deno_snapshot_delete(deno_snapshot);
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void deno_lock(Deno* d);
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void deno_unlock(Deno* d);
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// Compile and execute a traditional JavaScript script that does not use
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// module import statements.
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// If it succeeded deno_last_exception() will return NULL.
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void deno_execute(Deno* d, void* user_data, const char* js_filename,
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const char* js_source);
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// deno_respond sends one message back for every deno_recv_cb made.
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//
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// If this is called during deno_recv_cb, the issuing Deno.core.send() in
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// javascript will synchronously return the specified buf as an ArrayBuffer (or
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// null if buf is empty).
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//
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// If this is called after deno_recv_cb has returned, the deno_respond
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// will call into the JS callback specified by Deno.core.recv().
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//
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// (Ideally, but not currently: After calling deno_respond(), the caller no
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// longer owns `buf` and must not use it; deno_respond() is responsible for
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// releasing its memory.)
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//
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// op_id is an extra user-defined integer valued which is not currently
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// interpreted by libdeno. But it should probably correspond to the op_id in
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// deno_recv_cb.
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//
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// If a JS exception was encountered, deno_last_exception() will be non-NULL.
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void deno_respond(Deno* d, void* user_data, deno_op_id op_id, deno_buf buf);
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// consumes zero_copy
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void deno_pinned_buf_delete(deno_pinned_buf* buf);
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void deno_check_promise_errors(Deno* d);
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const char* deno_last_exception(Deno* d);
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void deno_terminate_execution(Deno* d);
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void deno_run_microtasks(Deno* d, void* user_data);
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// Module API
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typedef int deno_mod;
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// Returns zero on error - check deno_last_exception().
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deno_mod deno_mod_new(Deno* d, bool main, const char* name, const char* source);
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size_t deno_mod_imports_len(Deno* d, deno_mod id);
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// Returned pointer is valid for the lifetime of the Deno isolate "d".
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const char* deno_mod_imports_get(Deno* d, deno_mod id, size_t index);
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typedef deno_mod (*deno_resolve_cb)(void* user_data, const char* specifier,
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deno_mod referrer);
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// If it succeeded deno_last_exception() will return NULL.
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void deno_mod_instantiate(Deno* d, void* user_data, deno_mod id,
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deno_resolve_cb cb);
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// If it succeeded deno_last_exception() will return NULL.
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void deno_mod_evaluate(Deno* d, void* user_data, deno_mod id);
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// Call exactly once for every deno_dyn_import_cb.
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// Note this call will execute JS.
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// Either mod_id is zero and error_str is not null OR mod_id is valid and
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// error_str is null.
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// TODO(ry) The errors arising from dynamic import are not exactly the same as
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// those arising from ops in Deno.
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void deno_dyn_import_done(Deno* d, void* user_data, deno_dyn_import_id id,
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deno_mod mod_id, const char* error_str);
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#ifdef __cplusplus
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} // extern "C"
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#endif
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#endif // DENO_H_
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