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authorDaniel Baumann <daniel.baumann@progress-linux.org>2024-05-05 17:28:19 +0000
committerDaniel Baumann <daniel.baumann@progress-linux.org>2024-05-05 17:28:19 +0000
commit18657a960e125336f704ea058e25c27bd3900dcb (patch)
tree17b438b680ed45a996d7b59951e6aa34023783f2 /ext/wasm/api
parentInitial commit. (diff)
downloadsqlite3-upstream.tar.xz
sqlite3-upstream.zip
Adding upstream version 3.40.1.upstream/3.40.1upstream
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'ext/wasm/api')
-rw-r--r--ext/wasm/api/EXPORTED_FUNCTIONS.sqlite3-api94
-rw-r--r--ext/wasm/api/EXPORTED_RUNTIME_METHODS.sqlite3-api3
-rw-r--r--ext/wasm/api/README.md133
-rw-r--r--ext/wasm/api/extern-post-js.js103
-rw-r--r--ext/wasm/api/extern-pre-js.js7
-rw-r--r--ext/wasm/api/post-js-footer.js4
-rw-r--r--ext/wasm/api/post-js-header.js25
-rw-r--r--ext/wasm/api/pre-js.js100
-rw-r--r--ext/wasm/api/sqlite3-api-cleanup.js70
-rw-r--r--ext/wasm/api/sqlite3-api-glue.js720
-rw-r--r--ext/wasm/api/sqlite3-api-oo1.js1800
-rw-r--r--ext/wasm/api/sqlite3-api-opfs.js1311
-rw-r--r--ext/wasm/api/sqlite3-api-prologue.js1602
-rw-r--r--ext/wasm/api/sqlite3-api-worker1.js654
-rw-r--r--ext/wasm/api/sqlite3-license-version-header.js25
-rw-r--r--ext/wasm/api/sqlite3-opfs-async-proxy.js830
-rw-r--r--ext/wasm/api/sqlite3-wasi.h69
-rw-r--r--ext/wasm/api/sqlite3-wasm.c1181
-rw-r--r--ext/wasm/api/sqlite3-worker1-promiser.js259
-rw-r--r--ext/wasm/api/sqlite3-worker1.js49
20 files changed, 9039 insertions, 0 deletions
diff --git a/ext/wasm/api/EXPORTED_FUNCTIONS.sqlite3-api b/ext/wasm/api/EXPORTED_FUNCTIONS.sqlite3-api
new file mode 100644
index 0000000..b903bed
--- /dev/null
+++ b/ext/wasm/api/EXPORTED_FUNCTIONS.sqlite3-api
@@ -0,0 +1,94 @@
+_sqlite3_aggregate_context
+_sqlite3_bind_blob
+_sqlite3_bind_double
+_sqlite3_bind_int
+_sqlite3_bind_int64
+_sqlite3_bind_null
+_sqlite3_bind_parameter_count
+_sqlite3_bind_parameter_index
+_sqlite3_bind_text
+_sqlite3_changes
+_sqlite3_changes64
+_sqlite3_clear_bindings
+_sqlite3_close_v2
+_sqlite3_column_blob
+_sqlite3_column_bytes
+_sqlite3_column_count
+_sqlite3_column_count
+_sqlite3_column_double
+_sqlite3_column_int
+_sqlite3_column_int64
+_sqlite3_column_name
+_sqlite3_column_text
+_sqlite3_column_type
+_sqlite3_compileoption_get
+_sqlite3_compileoption_used
+_sqlite3_create_function
+_sqlite3_create_function_v2
+_sqlite3_create_window_function
+_sqlite3_data_count
+_sqlite3_db_filename
+_sqlite3_db_handle
+_sqlite3_db_name
+_sqlite3_deserialize
+_sqlite3_errmsg
+_sqlite3_error_offset
+_sqlite3_errstr
+_sqlite3_exec
+_sqlite3_expanded_sql
+_sqlite3_extended_errcode
+_sqlite3_extended_result_codes
+_sqlite3_file_control
+_sqlite3_finalize
+_sqlite3_free
+_sqlite3_initialize
+_sqlite3_libversion
+_sqlite3_libversion_number
+_sqlite3_malloc
+_sqlite3_malloc64
+_sqlite3_msize
+_sqlite3_open
+_sqlite3_open_v2
+_sqlite3_prepare_v2
+_sqlite3_prepare_v3
+_sqlite3_randomness
+_sqlite3_realloc
+_sqlite3_realloc64
+_sqlite3_reset
+_sqlite3_result_blob
+_sqlite3_result_double
+_sqlite3_result_error
+_sqlite3_result_error_code
+_sqlite3_result_error_nomem
+_sqlite3_result_error_toobig
+_sqlite3_result_int
+_sqlite3_result_int64
+_sqlite3_result_null
+_sqlite3_result_text
+_sqlite3_serialize
+_sqlite3_shutdown
+_sqlite3_sourceid
+_sqlite3_sql
+_sqlite3_step
+_sqlite3_strglob
+_sqlite3_strlike
+_sqlite3_total_changes
+_sqlite3_total_changes64
+_sqlite3_trace_v2
+_sqlite3_uri_boolean
+_sqlite3_uri_int64
+_sqlite3_uri_key
+_sqlite3_uri_parameter
+_sqlite3_user_data
+_sqlite3_value_blob
+_sqlite3_value_bytes
+_sqlite3_value_double
+_sqlite3_value_int
+_sqlite3_value_int64
+_sqlite3_value_text
+_sqlite3_value_type
+_sqlite3_vfs_find
+_sqlite3_vfs_register
+_sqlite3_vfs_unregister
+_malloc
+_free
diff --git a/ext/wasm/api/EXPORTED_RUNTIME_METHODS.sqlite3-api b/ext/wasm/api/EXPORTED_RUNTIME_METHODS.sqlite3-api
new file mode 100644
index 0000000..aab1d8b
--- /dev/null
+++ b/ext/wasm/api/EXPORTED_RUNTIME_METHODS.sqlite3-api
@@ -0,0 +1,3 @@
+FS
+wasmMemory
+
diff --git a/ext/wasm/api/README.md b/ext/wasm/api/README.md
new file mode 100644
index 0000000..6440eba
--- /dev/null
+++ b/ext/wasm/api/README.md
@@ -0,0 +1,133 @@
+# sqlite3-api.js And Friends
+
+This is the README for the files `sqlite3-*.js` and
+`sqlite3-wasm.c`. This collection of files is used to build a
+single-file distribution of the sqlite3 WASM API. It is broken into
+multiple JS files because:
+
+1. To facilitate including or excluding certain components for
+ specific use cases. e.g. by removing `sqlite3-api-oo1.js` if the
+ OO#1 API is not needed.
+
+2. To facilitate modularizing the pieces for use in different WASM
+ build environments. e.g. the files `post-js-*.js` are for use with
+ Emscripten's `--post-js` feature, and nowhere else.
+
+3. Certain components must be in their own standalone files in order
+ to be loaded as JS Workers.
+
+Note that the structure described here is the current state of things,
+not necessarily the "final" state.
+
+The overall idea is that the following files get concatenated
+together, in the listed order, the resulting file is loaded by a
+browser client:
+
+- `sqlite3-api-prologue.js`\
+ Contains the initial bootstrap setup of the sqlite3 API
+ objects. This is exposed as a function, rather than objects, so that
+ the next step can pass in a config object which abstracts away parts
+ of the WASM environment, to facilitate plugging it in to arbitrary
+ WASM toolchains.
+- `../common/whwasmutil.js`\
+ A semi-third-party collection of JS/WASM utility code intended to
+ replace much of the Emscripten glue. The sqlite3 APIs internally use
+ these APIs instead of their Emscripten counterparts, in order to be
+ more portable to arbitrary WASM toolchains. This API is
+ configurable, in principle, for use with arbitrary WASM
+ toolchains. It is "semi-third-party" in that it was created in order
+ to support this tree but is standalone and maintained together
+ with...
+- `../jaccwabyt/jaccwabyt.js`\
+ Another semi-third-party API which creates bindings between JS
+ and C structs, such that changes to the struct state from either JS
+ or C are visible to the other end of the connection. This is also an
+ independent spinoff project, conceived for the sqlite3 project but
+ maintained separately.
+- `sqlite3-api-glue.js`\
+ Invokes functionality exposed by the previous two files to
+ flesh out low-level parts of `sqlite3-api-prologue.js`. Most of
+ these pieces related to the `sqlite3.capi.wasm` object.
+- `sqlite3-api-build-version.js`\
+ Gets created by the build process and populates the
+ `sqlite3.version` object. This part is not critical, but records the
+ version of the library against which this module was built.
+- `sqlite3-api-oo1.js`\
+ Provides a high-level object-oriented wrapper to the lower-level C
+ API, colloquially known as OO API #1. Its API is similar to other
+ high-level sqlite3 JS wrappers and should feel relatively familiar
+ to anyone familiar with such APIs. That said, it is not a "required
+ component" and can be elided from builds which do not want it.
+- `sqlite3-api-worker1.js`\
+ A Worker-thread-based API which uses OO API #1 to provide an
+ interface to a database which can be driven from the main Window
+ thread via the Worker message-passing interface. Like OO API #1,
+ this is an optional component, offering one of any number of
+ potential implementations for such an API.
+ - `sqlite3-worker1.js`\
+ Is not part of the amalgamated sources and is intended to be
+ loaded by a client Worker thread. It loads the sqlite3 module
+ and runs the Worker #1 API which is implemented in
+ `sqlite3-api-worker1.js`.
+ - `sqlite3-worker1-promiser.js`\
+ Is likewise not part of the amalgamated sources and provides
+ a Promise-based interface into the Worker #1 API. This is
+ a far user-friendlier way to interface with databases running
+ in a Worker thread.
+- `sqlite3-api-opfs.js`\
+ is an sqlite3 VFS implementation which supports Google Chrome's
+ Origin-Private FileSystem (OPFS) as a storage layer to provide
+ persistent storage for database files in a browser. It requires...
+ - `sqlite3-opfs-async-proxy.js`\
+ is the asynchronous backend part of the OPFS proxy. It speaks
+ directly to the (async) OPFS API and channels those results back
+ to its synchronous counterpart. This file, because it must be
+ started in its own Worker, is not part of the amalgamation.
+- **`api/sqlite3-api-cleanup.js`**\
+ The previous files do not immediately extend the library. Instead
+ they add callback functions to be called during its
+ bootstrapping. Some also temporarily create global objects in order
+ to communicate their state to the files which follow them. This file
+ cleans up any dangling globals and runs the API bootstrapping
+ process, which is what finally executes the initialization code
+ installed by the previous files. As of this writing, this code
+ ensures that the previous files leave no more than a single global
+ symbol installed. When adapting the API for non-Emscripten
+ toolchains, this "should" be the only file where changes are needed.
+
+The build process glues those files together, resulting in
+`sqlite3-api.js`, which is everything except for the `post-js-*.js`
+files, and `sqlite3.js`, which is the Emscripten-generated amalgamated
+output and includes the `post-js-*.js` parts, as well as the
+Emscripten-provided module loading pieces.
+
+The non-JS outlier file is `sqlite3-wasm.c`: it is a proxy for
+`sqlite3.c` which `#include`'s that file and adds a couple more
+WASM-specific helper functions, at least one of which requires access
+to private/static `sqlite3.c` internals. `sqlite3.wasm` is compiled
+from this file rather than `sqlite3.c`.
+
+The following files are part of the build process but are injected
+into the build-generated `sqlite3.js` along with `sqlite3-api.js`.
+
+- `extern-pre-js.js`\
+ Emscripten-specific header for Emscripten's `--extern-pre-js`
+ flag. As of this writing, that file is only used for experimentation
+ purposes and holds no code relevant to the production deliverables.
+- `pre-js.js`\
+ Emscripten-specific header for Emscripten's `--pre-js` flag. This
+ file is intended as a place to override certain Emscripten behavior
+ before it starts up, but corner-case Emscripten bugs keep that from
+ being a reality.
+- `post-js-header.js`\
+ Emscripten-specific header for the `--post-js` input. It opens up
+ a lexical scope by starting a post-run handler for Emscripten.
+- `post-js-footer.js`\
+ Emscripten-specific footer for the `--post-js` input. This closes
+ off the lexical scope opened by `post-js-header.js`.
+- `extern-post-js.js`\
+ Emscripten-specific header for Emscripten's `--extern-post-js`
+ flag. This file overwrites the Emscripten-installed
+ `sqlite3InitModule()` function with one which, after the module is
+ loaded, also initializes the asynchronous parts of the sqlite3
+ module. For example, the OPFS VFS support.
diff --git a/ext/wasm/api/extern-post-js.js b/ext/wasm/api/extern-post-js.js
new file mode 100644
index 0000000..84b99b5
--- /dev/null
+++ b/ext/wasm/api/extern-post-js.js
@@ -0,0 +1,103 @@
+/* extern-post-js.js must be appended to the resulting sqlite3.js
+ file. It gets its name from being used as the value for the
+ --extern-post-js=... Emscripten flag. Note that this code, unlike
+ most of the associated JS code, runs outside of the
+ Emscripten-generated module init scope, in the current
+ global scope. */
+(function(){
+ /**
+ In order to hide the sqlite3InitModule()'s resulting Emscripten
+ module from downstream clients (and simplify our documentation by
+ being able to elide those details), we rewrite
+ sqlite3InitModule() to return the sqlite3 object.
+
+ Unfortunately, we cannot modify the module-loader/exporter-based
+ impls which Emscripten installs at some point in the file above
+ this.
+ */
+ const originalInit = self.sqlite3InitModule;
+ if(!originalInit){
+ throw new Error("Expecting self.sqlite3InitModule to be defined by the Emscripten build.");
+ }
+ /**
+ We need to add some state which our custom Module.locateFile()
+ can see, but an Emscripten limitation currently prevents us from
+ attaching it to the sqlite3InitModule function object:
+
+ https://github.com/emscripten-core/emscripten/issues/18071
+
+ The only(?) current workaround is to temporarily stash this state
+ into the global scope and delete it when sqlite3InitModule()
+ is called.
+ */
+ const initModuleState = self.sqlite3InitModuleState = Object.assign(Object.create(null),{
+ moduleScript: self?.document?.currentScript,
+ isWorker: ('undefined' !== typeof WorkerGlobalScope),
+ location: self.location,
+ urlParams: new URL(self.location.href).searchParams
+ });
+ initModuleState.debugModule =
+ (new URL(self.location.href).searchParams).has('sqlite3.debugModule')
+ ? (...args)=>console.warn('sqlite3.debugModule:',...args)
+ : ()=>{};
+
+ if(initModuleState.urlParams.has('sqlite3.dir')){
+ initModuleState.sqlite3Dir = initModuleState.urlParams.get('sqlite3.dir') +'/';
+ }else if(initModuleState.moduleScript){
+ const li = initModuleState.moduleScript.src.split('/');
+ li.pop();
+ initModuleState.sqlite3Dir = li.join('/') + '/';
+ }
+
+ self.sqlite3InitModule = (...args)=>{
+ //console.warn("Using replaced sqlite3InitModule()",self.location);
+ return originalInit(...args).then((EmscriptenModule)=>{
+ if(self.window!==self &&
+ (EmscriptenModule['ENVIRONMENT_IS_PTHREAD']
+ || EmscriptenModule['_pthread_self']
+ || 'function'===typeof threadAlert
+ || self.location.pathname.endsWith('.worker.js')
+ )){
+ /** Workaround for wasmfs-generated worker, which calls this
+ routine from each individual thread and requires that its
+ argument be returned. All of the criteria above are fragile,
+ based solely on inspection of the offending code, not public
+ Emscripten details. */
+ return EmscriptenModule;
+ }
+ EmscriptenModule.sqlite3.scriptInfo = initModuleState;
+ //console.warn("sqlite3.scriptInfo =",EmscriptenModule.sqlite3.scriptInfo);
+ const f = EmscriptenModule.sqlite3.asyncPostInit;
+ delete EmscriptenModule.sqlite3.asyncPostInit;
+ return f();
+ }).catch((e)=>{
+ console.error("Exception loading sqlite3 module:",e);
+ throw e;
+ });
+ };
+ self.sqlite3InitModule.ready = originalInit.ready;
+
+ if(self.sqlite3InitModuleState.moduleScript){
+ const sim = self.sqlite3InitModuleState;
+ let src = sim.moduleScript.src.split('/');
+ src.pop();
+ sim.scriptDir = src.join('/') + '/';
+ }
+ initModuleState.debugModule('sqlite3InitModuleState =',initModuleState);
+ if(0){
+ console.warn("Replaced sqlite3InitModule()");
+ console.warn("self.location.href =",self.location.href);
+ if('undefined' !== typeof document){
+ console.warn("document.currentScript.src =",
+ document?.currentScript?.src);
+ }
+ }
+ /* Replace the various module exports performed by the Emscripten
+ glue... */
+ if (typeof exports === 'object' && typeof module === 'object')
+ module.exports = sqlite3InitModule;
+ else if (typeof exports === 'object')
+ exports["sqlite3InitModule"] = sqlite3InitModule;
+ /* AMD modules get injected in a way we cannot override,
+ so we can't handle those here. */
+})();
diff --git a/ext/wasm/api/extern-pre-js.js b/ext/wasm/api/extern-pre-js.js
new file mode 100644
index 0000000..7d47d33
--- /dev/null
+++ b/ext/wasm/api/extern-pre-js.js
@@ -0,0 +1,7 @@
+/* extern-pre-js.js must be prepended to the resulting sqlite3.js
+ file. This file is currently only used for holding snippets during
+ test and development.
+
+ It gets its name from being used as the value for the
+ --extern-pre-js=... Emscripten flag.
+*/
diff --git a/ext/wasm/api/post-js-footer.js b/ext/wasm/api/post-js-footer.js
new file mode 100644
index 0000000..58882cb
--- /dev/null
+++ b/ext/wasm/api/post-js-footer.js
@@ -0,0 +1,4 @@
+/* The current function scope was opened via post-js-header.js, which
+ gets prepended to this at build-time. This file closes that
+ scope. */
+})/*postRun.push(...)*/;
diff --git a/ext/wasm/api/post-js-header.js b/ext/wasm/api/post-js-header.js
new file mode 100644
index 0000000..82a80e5
--- /dev/null
+++ b/ext/wasm/api/post-js-header.js
@@ -0,0 +1,25 @@
+/**
+ post-js-header.js is to be prepended to other code to create
+ post-js.js for use with Emscripten's --post-js flag. This code
+ requires that it be running in that context. The Emscripten
+ environment must have been set up already but it will not have
+ loaded its WASM when the code in this file is run. The function it
+ installs will be run after the WASM module is loaded, at which
+ point the sqlite3 JS API bits will get set up.
+*/
+if(!Module.postRun) Module.postRun = [];
+Module.postRun.push(function(Module/*the Emscripten-style module object*/){
+ 'use strict';
+ /* This function will contain at least the following:
+
+ - post-js-header.js (this file)
+ - sqlite3-api-prologue.js => Bootstrapping bits to attach the rest to
+ - common/whwasmutil.js => Replacements for much of Emscripten's glue
+ - jaccwaby/jaccwabyt.js => Jaccwabyt (C/JS struct binding)
+ - sqlite3-api-glue.js => glues previous parts together
+ - sqlite3-api-oo.js => SQLite3 OO API #1
+ - sqlite3-api-worker1.js => Worker-based API
+ - sqlite3-api-opfs.js => OPFS VFS
+ - sqlite3-api-cleanup.js => final API cleanup
+ - post-js-footer.js => closes this postRun() function
+ */
diff --git a/ext/wasm/api/pre-js.js b/ext/wasm/api/pre-js.js
new file mode 100644
index 0000000..f31dea1
--- /dev/null
+++ b/ext/wasm/api/pre-js.js
@@ -0,0 +1,100 @@
+/**
+ BEGIN FILE: api/pre-js.js
+
+ This file is intended to be prepended to the sqlite3.js build using
+ Emscripten's --pre-js=THIS_FILE flag (or equivalent).
+*/
+
+// See notes in extern-post-js.js
+const sqlite3InitModuleState = self.sqlite3InitModuleState || Object.create(null);
+delete self.sqlite3InitModuleState;
+sqlite3InitModuleState.debugModule('self.location =',self.location);
+
+/**
+ This custom locateFile() tries to figure out where to load `path`
+ from. The intent is to provide a way for foo/bar/X.js loaded from a
+ Worker constructor or importScripts() to be able to resolve
+ foo/bar/X.wasm (in the latter case, with some help):
+
+ 1) If URL param named the same as `path` is set, it is returned.
+
+ 2) If sqlite3InitModuleState.sqlite3Dir is set, then (thatName + path)
+ is returned (note that it's assumed to end with '/').
+
+ 3) If this code is running in the main UI thread AND it was loaded
+ from a SCRIPT tag, the directory part of that URL is used
+ as the prefix. (This form of resolution unfortunately does not
+ function for scripts loaded via importScripts().)
+
+ 4) If none of the above apply, (prefix+path) is returned.
+*/
+Module['locateFile'] = function(path, prefix) {
+ let theFile;
+ const up = this.urlParams;
+ if(up.has(path)){
+ theFile = up.get(path);
+ }else if(this.sqlite3Dir){
+ theFile = this.sqlite3Dir + path;
+ }else if(this.scriptDir){
+ theFile = this.scriptDir + path;
+ }else{
+ theFile = prefix + path;
+ }
+ sqlite3InitModuleState.debugModule(
+ "locateFile(",arguments[0], ',', arguments[1],")",
+ 'sqlite3InitModuleState.scriptDir =',this.scriptDir,
+ 'up.entries() =',Array.from(up.entries()),
+ "result =", theFile
+ );
+ return theFile;
+}.bind(sqlite3InitModuleState);
+
+/**
+ Bug warning: a custom Module.instantiateWasm() does not work
+ in WASMFS builds:
+
+ https://github.com/emscripten-core/emscripten/issues/17951
+
+ In such builds we must disable this.
+*/
+const xNameOfInstantiateWasm = true
+ ? 'instantiateWasm'
+ : 'emscripten-bug-17951';
+Module[xNameOfInstantiateWasm] = function callee(imports,onSuccess){
+ imports.env.foo = function(){};
+ const uri = Module.locateFile(
+ callee.uri, (
+ ('undefined'===typeof scriptDirectory/*var defined by Emscripten glue*/)
+ ? '' : scriptDirectory)
+ );
+ sqlite3InitModuleState.debugModule(
+ "instantiateWasm() uri =", uri
+ );
+ const wfetch = ()=>fetch(uri, {credentials: 'same-origin'});
+ const loadWasm = WebAssembly.instantiateStreaming
+ ? async ()=>{
+ return WebAssembly.instantiateStreaming(wfetch(), imports)
+ .then((arg)=>onSuccess(arg.instance, arg.module));
+ }
+ : async ()=>{ // Safari < v15
+ return wfetch()
+ .then(response => response.arrayBuffer())
+ .then(bytes => WebAssembly.instantiate(bytes, imports))
+ .then((arg)=>onSuccess(arg.instance, arg.module));
+ };
+ loadWasm();
+ return {};
+};
+/*
+ It is literally impossible to reliably get the name of _this_ script
+ at runtime, so impossible to derive X.wasm from script name
+ X.js. Thus we need, at build-time, to redefine
+ Module[xNameOfInstantiateWasm].uri by appending it to a build-specific
+ copy of this file with the name of the wasm file. This is apparently
+ why Emscripten hard-codes the name of the wasm file into their glue
+ scripts.
+*/
+Module[xNameOfInstantiateWasm].uri = 'sqlite3.wasm';
+/* END FILE: api/pre-js.js, noting that the build process may add a
+ line after this one to change the above .uri to a build-specific
+ one. */
diff --git a/ext/wasm/api/sqlite3-api-cleanup.js b/ext/wasm/api/sqlite3-api-cleanup.js
new file mode 100644
index 0000000..bef4d91
--- /dev/null
+++ b/ext/wasm/api/sqlite3-api-cleanup.js
@@ -0,0 +1,70 @@
+/*
+ 2022-07-22
+
+ The author disclaims copyright to this source code. In place of a
+ legal notice, here is a blessing:
+
+ * May you do good and not evil.
+ * May you find forgiveness for yourself and forgive others.
+ * May you share freely, never taking more than you give.
+
+ ***********************************************************************
+
+ This file is the tail end of the sqlite3-api.js constellation,
+ intended to be appended after all other sqlite3-api-*.js files so
+ that it can finalize any setup and clean up any global symbols
+ temporarily used for setting up the API's various subsystems.
+*/
+'use strict';
+if('undefined' !== typeof Module){ // presumably an Emscripten build
+ /**
+ Install a suitable default configuration for sqlite3ApiBootstrap().
+ */
+ const SABC = Object.assign(
+ Object.create(null), {
+ Module: Module /* ==> Currently needs to be exposed here for
+ test code. NOT part of the public API. */,
+ exports: Module['asm'],
+ memory: Module.wasmMemory /* gets set if built with -sIMPORT_MEMORY */
+ },
+ self.sqlite3ApiConfig || Object.create(null)
+ );
+
+ /**
+ For current (2022-08-22) purposes, automatically call
+ sqlite3ApiBootstrap(). That decision will be revisited at some
+ point, as we really want client code to be able to call this to
+ configure certain parts. Clients may modify
+ self.sqlite3ApiBootstrap.defaultConfig to tweak the default
+ configuration used by a no-args call to sqlite3ApiBootstrap(),
+ but must have first loaded their WASM module in order to be
+ able to provide the necessary configuration state.
+ */
+ //console.warn("self.sqlite3ApiConfig = ",self.sqlite3ApiConfig);
+ self.sqlite3ApiConfig = SABC;
+ let sqlite3;
+ try{
+ sqlite3 = self.sqlite3ApiBootstrap();
+ }catch(e){
+ console.error("sqlite3ApiBootstrap() error:",e);
+ throw e;
+ }finally{
+ delete self.sqlite3ApiBootstrap;
+ delete self.sqlite3ApiConfig;
+ }
+
+ if(self.location && +self.location.port > 1024){
+ console.warn("Installing sqlite3 bits as global S for local dev/test purposes.");
+ self.S = sqlite3;
+ }
+
+ /* Clean up temporary references to our APIs... */
+ delete sqlite3.util /* arguable, but these are (currently) internal-use APIs */;
+ Module.sqlite3 = sqlite3 /* Needed for customized sqlite3InitModule() to be able to
+ pass the sqlite3 object off to the client. */;
+}else{
+ console.warn("This is not running in an Emscripten module context, so",
+ "self.sqlite3ApiBootstrap() is _not_ being called due to lack",
+ "of config info for the WASM environment.",
+ "It must be called manually.");
+}
diff --git a/ext/wasm/api/sqlite3-api-glue.js b/ext/wasm/api/sqlite3-api-glue.js
new file mode 100644
index 0000000..86aa1d1
--- /dev/null
+++ b/ext/wasm/api/sqlite3-api-glue.js
@@ -0,0 +1,720 @@
+/*
+ 2022-07-22
+
+ The author disclaims copyright to this source code. In place of a
+ legal notice, here is a blessing:
+
+ * May you do good and not evil.
+ * May you find forgiveness for yourself and forgive others.
+ * May you share freely, never taking more than you give.
+
+ ***********************************************************************
+
+ This file glues together disparate pieces of JS which are loaded in
+ previous steps of the sqlite3-api.js bootstrapping process:
+ sqlite3-api-prologue.js, whwasmutil.js, and jaccwabyt.js. It
+ initializes the main API pieces so that the downstream components
+ (e.g. sqlite3-api-oo1.js) have all that they need.
+*/
+self.sqlite3ApiBootstrap.initializers.push(function(sqlite3){
+ 'use strict';
+ const toss = (...args)=>{throw new Error(args.join(' '))};
+ const toss3 = sqlite3.SQLite3Error.toss;
+ const capi = sqlite3.capi, wasm = sqlite3.wasm, util = sqlite3.util;
+ self.WhWasmUtilInstaller(wasm);
+ delete self.WhWasmUtilInstaller;
+
+ /**
+ Install JS<->C struct bindings for the non-opaque struct types we
+ need... */
+ sqlite3.StructBinder = self.Jaccwabyt({
+ heap: 0 ? wasm.memory : wasm.heap8u,
+ alloc: wasm.alloc,
+ dealloc: wasm.dealloc,
+ functionTable: wasm.functionTable,
+ bigIntEnabled: wasm.bigIntEnabled,
+ memberPrefix: '$'
+ });
+ delete self.Jaccwabyt;
+
+ if(0){
+ /* "The problem" is that the following isn't even remotely
+ type-safe. OTOH, nothing about WASM pointers is. */
+ const argPointer = wasm.xWrap.argAdapter('*');
+ wasm.xWrap.argAdapter('StructType', (v)=>{
+ if(v && v.constructor && v instanceof StructBinder.StructType){
+ v = v.pointer;
+ }
+ return wasm.isPtr(v)
+ ? argPointer(v)
+ : toss("Invalid (object) type for StructType-type argument.");
+ });
+ }
+
+ {/* Convert Arrays and certain TypedArrays to strings for
+ 'flexible-string'-type arguments */
+ const xString = wasm.xWrap.argAdapter('string');
+ wasm.xWrap.argAdapter(
+ 'flexible-string', (v)=>xString(util.flexibleString(v))
+ );
+ }
+
+ if(1){// WhWasmUtil.xWrap() bindings...
+ /**
+ Add some descriptive xWrap() aliases for '*' intended to (A)
+ initially improve readability/correctness of capi.signatures
+ and (B) eventually perhaps provide automatic conversion from
+ higher-level representations, e.g. capi.sqlite3_vfs to
+ `sqlite3_vfs*` via capi.sqlite3_vfs.pointer.
+ */
+ const aPtr = wasm.xWrap.argAdapter('*');
+ wasm.xWrap.argAdapter('sqlite3*', aPtr)
+ ('sqlite3_stmt*', aPtr)
+ ('sqlite3_context*', aPtr)
+ ('sqlite3_value*', aPtr)
+ ('sqlite3_vfs*', aPtr)
+ ('void*', aPtr);
+ wasm.xWrap.resultAdapter('sqlite3*', aPtr)
+ ('sqlite3_context*', aPtr)
+ ('sqlite3_stmt*', aPtr)
+ ('sqlite3_vfs*', aPtr)
+ ('void*', aPtr);
+
+ /**
+ Populate api object with sqlite3_...() by binding the "raw" wasm
+ exports into type-converting proxies using wasm.xWrap().
+ */
+ for(const e of wasm.bindingSignatures){
+ capi[e[0]] = wasm.xWrap.apply(null, e);
+ }
+ for(const e of wasm.bindingSignatures.wasm){
+ wasm[e[0]] = wasm.xWrap.apply(null, e);
+ }
+
+ /* For C API functions which cannot work properly unless
+ wasm.bigIntEnabled is true, install a bogus impl which
+ throws if called when bigIntEnabled is false. */
+ const fI64Disabled = function(fname){
+ return ()=>toss(fname+"() disabled due to lack",
+ "of BigInt support in this build.");
+ };
+ for(const e of wasm.bindingSignatures.int64){
+ capi[e[0]] = wasm.bigIntEnabled
+ ? wasm.xWrap.apply(null, e)
+ : fI64Disabled(e[0]);
+ }
+
+ /* There's no(?) need to expose bindingSignatures to clients,
+ implicitly making it part of the public interface. */
+ delete wasm.bindingSignatures;
+
+ if(wasm.exports.sqlite3_wasm_db_error){
+ util.sqlite3_wasm_db_error = wasm.xWrap(
+ 'sqlite3_wasm_db_error', 'int', 'sqlite3*', 'int', 'string'
+ );
+ }else{
+ util.sqlite3_wasm_db_error = function(pDb,errCode,msg){
+ console.warn("sqlite3_wasm_db_error() is not exported.",arguments);
+ return errCode;
+ };
+ }
+
+ }/*xWrap() bindings*/;
+
+ /**
+ When registering a VFS and its related components it may be
+ necessary to ensure that JS keeps a reference to them to keep
+ them from getting garbage collected. Simply pass each such value
+ to this function and a reference will be held to it for the life
+ of the app.
+ */
+ capi.sqlite3_vfs_register.addReference = function f(...args){
+ if(!f._) f._ = [];
+ f._.push(...args);
+ };
+
+ /**
+ Internal helper to assist in validating call argument counts in
+ the hand-written sqlite3_xyz() wrappers. We do this only for
+ consistency with non-special-case wrappings.
+ */
+ const __dbArgcMismatch = (pDb,f,n)=>{
+ return sqlite3.util.sqlite3_wasm_db_error(pDb, capi.SQLITE_MISUSE,
+ f+"() requires "+n+" argument"+
+ (1===n?"":'s')+".");
+ };
+
+ /**
+ Helper for flexible-string conversions which require a
+ byte-length counterpart argument. Passed a value and its
+ ostensible length, this function returns [V,N], where V
+ is either v or a transformed copy of v and N is either n,
+ -1, or the byte length of v (if it's a byte array).
+ */
+ const __flexiString = function(v,n){
+ if('string'===typeof v){
+ n = -1;
+ }else if(util.isSQLableTypedArray(v)){
+ n = v.byteLength;
+ v = util.typedArrayToString(v);
+ }else if(Array.isArray(v)){
+ v = v.join("");
+ n = -1;
+ }
+ return [v, n];
+ };
+
+ if(1){/* Special-case handling of sqlite3_exec() */
+ const __exec = wasm.xWrap("sqlite3_exec", "int",
+ ["sqlite3*", "flexible-string", "*", "*", "**"]);
+ /* Documented in the api object's initializer. */
+ capi.sqlite3_exec = function f(pDb, sql, callback, pVoid, pErrMsg){
+ if(f.length!==arguments.length){
+ return __dbArgcMismatch(pDb,"sqlite3_exec",f.length);
+ }else if('function' !== typeof callback){
+ return __exec(pDb, sql, callback, pVoid, pErrMsg);
+ }
+ /* Wrap the callback in a WASM-bound function and convert the callback's
+ `(char**)` arguments to arrays of strings... */
+ const cbwrap = function(pVoid, nCols, pColVals, pColNames){
+ let rc = capi.SQLITE_ERROR;
+ try {
+ let aVals = [], aNames = [], i = 0, offset = 0;
+ for( ; i < nCols; offset += (wasm.ptrSizeof * ++i) ){
+ aVals.push( wasm.cstringToJs(wasm.getPtrValue(pColVals + offset)) );
+ aNames.push( wasm.cstringToJs(wasm.getPtrValue(pColNames + offset)) );
+ }
+ rc = callback(pVoid, nCols, aVals, aNames) | 0;
+ /* The first 2 args of the callback are useless for JS but
+ we want the JS mapping of the C API to be as close to the
+ C API as possible. */
+ }catch(e){
+ /* If we set the db error state here, the higher-level exec() call
+ replaces it with its own, so we have no way of reporting the
+ exception message except the console. We must not propagate
+ exceptions through the C API. */
+ }
+ return rc;
+ };
+ let pFunc, rc;
+ try{
+ pFunc = wasm.installFunction("ipipp", cbwrap);
+ rc = __exec(pDb, sql, pFunc, pVoid, pErrMsg);
+ }catch(e){
+ rc = util.sqlite3_wasm_db_error(pDb, capi.SQLITE_ERROR,
+ "Error running exec(): "+e.message);
+ }finally{
+ if(pFunc) wasm.uninstallFunction(pFunc);
+ }
+ return rc;
+ };
+ }/*sqlite3_exec() proxy*/;
+
+ if(1){/* Special-case handling of sqlite3_create_function_v2()
+ and sqlite3_create_window_function() */
+ const sqlite3CreateFunction = wasm.xWrap(
+ "sqlite3_create_function_v2", "int",
+ ["sqlite3*", "string"/*funcName*/, "int"/*nArg*/,
+ "int"/*eTextRep*/, "*"/*pApp*/,
+ "*"/*xStep*/,"*"/*xFinal*/, "*"/*xValue*/, "*"/*xDestroy*/]
+ );
+ const sqlite3CreateWindowFunction = wasm.xWrap(
+ "sqlite3_create_window_function", "int",
+ ["sqlite3*", "string"/*funcName*/, "int"/*nArg*/,
+ "int"/*eTextRep*/, "*"/*pApp*/,
+ "*"/*xStep*/,"*"/*xFinal*/, "*"/*xValue*/,
+ "*"/*xInverse*/, "*"/*xDestroy*/]
+ );
+
+ const __udfSetResult = function(pCtx, val){
+ //console.warn("udfSetResult",typeof val, val);
+ switch(typeof val) {
+ case 'undefined':
+ /* Assume that the client already called sqlite3_result_xxx(). */
+ break;
+ case 'boolean':
+ capi.sqlite3_result_int(pCtx, val ? 1 : 0);
+ break;
+ case 'bigint':
+ if(wasm.bigIntEnabled){
+ if(util.bigIntFits64(val)) capi.sqlite3_result_int64(pCtx, val);
+ else toss3("BigInt value",val.toString(),"is too BigInt for int64.");
+ }else if(util.bigIntFits32(val)){
+ capi.sqlite3_result_int(pCtx, Number(val));
+ }else if(util.bigIntFitsDouble(val)){
+ capi.sqlite3_result_double(pCtx, Number(val));
+ }else{
+ toss3("BigInt value",val.toString(),"is too BigInt.");
+ }
+ break;
+ case 'number': {
+ (util.isInt32(val)
+ ? capi.sqlite3_result_int
+ : capi.sqlite3_result_double)(pCtx, val);
+ break;
+ }
+ case 'string':
+ capi.sqlite3_result_text(pCtx, val, -1, capi.SQLITE_TRANSIENT);
+ break;
+ case 'object':
+ if(null===val/*yes, typeof null === 'object'*/) {
+ capi.sqlite3_result_null(pCtx);
+ break;
+ }else if(util.isBindableTypedArray(val)){
+ const pBlob = wasm.allocFromTypedArray(val);
+ capi.sqlite3_result_blob(
+ pCtx, pBlob, val.byteLength,
+ wasm.exports[sqlite3.config.deallocExportName]
+ );
+ break;
+ }
+ // else fall through
+ default:
+ toss3("Don't not how to handle this UDF result value:",(typeof val), val);
+ };
+ }/*__udfSetResult()*/;
+
+ const __udfConvertArgs = function(argc, pArgv){
+ let i, pVal, valType, arg;
+ const tgt = [];
+ for(i = 0; i < argc; ++i){
+ pVal = wasm.getPtrValue(pArgv + (wasm.ptrSizeof * i));
+ /**
+ Curiously: despite ostensibly requiring 8-byte
+ alignment, the pArgv array is parcelled into chunks of
+ 4 bytes (1 pointer each). The values those point to
+ have 8-byte alignment but the individual argv entries
+ do not.
+ */
+ valType = capi.sqlite3_value_type(pVal);
+ switch(valType){
+ case capi.SQLITE_INTEGER:
+ if(wasm.bigIntEnabled){
+ arg = capi.sqlite3_value_int64(pVal);
+ if(util.bigIntFitsDouble(arg)) arg = Number(arg);
+ }
+ else arg = capi.sqlite3_value_double(pVal)/*yes, double, for larger integers*/;
+ break;
+ case capi.SQLITE_FLOAT:
+ arg = capi.sqlite3_value_double(pVal);
+ break;
+ case capi.SQLITE_TEXT:
+ arg = capi.sqlite3_value_text(pVal);
+ break;
+ case capi.SQLITE_BLOB:{
+ const n = capi.sqlite3_value_bytes(pVal);
+ const pBlob = capi.sqlite3_value_blob(pVal);
+ if(n && !pBlob) sqlite3.WasmAllocError.toss(
+ "Cannot allocate memory for blob argument of",n,"byte(s)"
+ );
+ arg = n ? wasm.heap8u().slice(pBlob, pBlob + Number(n)) : null;
+ break;
+ }
+ case capi.SQLITE_NULL:
+ arg = null; break;
+ default:
+ toss3("Unhandled sqlite3_value_type()",valType,
+ "is possibly indicative of incorrect",
+ "pointer size assumption.");
+ }
+ tgt.push(arg);
+ }
+ return tgt;
+ }/*__udfConvertArgs()*/;
+
+ const __udfSetError = (pCtx, e)=>{
+ if(e instanceof sqlite3.WasmAllocError){
+ capi.sqlite3_result_error_nomem(pCtx);
+ }else{
+ const msg = ('string'===typeof e) ? e : e.message;
+ capi.sqlite3_result_error(pCtx, msg, -1);
+ }
+ };
+
+ const __xFunc = function(callback){
+ return function(pCtx, argc, pArgv){
+ try{ __udfSetResult(pCtx, callback(pCtx, ...__udfConvertArgs(argc, pArgv))) }
+ catch(e){
+ //console.error('xFunc() caught:',e);
+ __udfSetError(pCtx, e);
+ }
+ };
+ };
+
+ const __xInverseAndStep = function(callback){
+ return function(pCtx, argc, pArgv){
+ try{ callback(pCtx, ...__udfConvertArgs(argc, pArgv)) }
+ catch(e){ __udfSetError(pCtx, e) }
+ };
+ };
+
+ const __xFinalAndValue = function(callback){
+ return function(pCtx){
+ try{ __udfSetResult(pCtx, callback(pCtx)) }
+ catch(e){ __udfSetError(pCtx, e) }
+ };
+ };
+
+ const __xDestroy = function(callback){
+ return function(pVoid){
+ try{ callback(pVoid) }
+ catch(e){ console.error("UDF xDestroy method threw:",e) }
+ };
+ };
+
+ const __xMap = Object.assign(Object.create(null), {
+ xFunc: {sig:'v(pip)', f:__xFunc},
+ xStep: {sig:'v(pip)', f:__xInverseAndStep},
+ xInverse: {sig:'v(pip)', f:__xInverseAndStep},
+ xFinal: {sig:'v(p)', f:__xFinalAndValue},
+ xValue: {sig:'v(p)', f:__xFinalAndValue},
+ xDestroy: {sig:'v(p)', f:__xDestroy}
+ });
+
+ const __xWrapFuncs = function(theFuncs, tgtUninst){
+ const rc = []
+ let k;
+ for(k in theFuncs){
+ let fArg = theFuncs[k];
+ if('function'===typeof fArg){
+ const w = __xMap[k];
+ fArg = wasm.installFunction(w.sig, w.f(fArg));
+ tgtUninst.push(fArg);
+ }
+ rc.push(fArg);
+ }
+ return rc;
+ };
+
+ /* Documented in the api object's initializer. */
+ capi.sqlite3_create_function_v2 = function f(
+ pDb, funcName, nArg, eTextRep, pApp,
+ xFunc, //void (*xFunc)(sqlite3_context*,int,sqlite3_value**)
+ xStep, //void (*xStep)(sqlite3_context*,int,sqlite3_value**)
+ xFinal, //void (*xFinal)(sqlite3_context*)
+ xDestroy //void (*xDestroy)(void*)
+ ){
+ if(f.length!==arguments.length){
+ return __dbArgcMismatch(pDb,"sqlite3_create_function_v2",f.length);
+ }
+ /* Wrap the callbacks in a WASM-bound functions... */
+ const uninstall = [/*funcs to uninstall on error*/];
+ let rc;
+ try{
+ const funcArgs = __xWrapFuncs({xFunc, xStep, xFinal, xDestroy},
+ uninstall);
+ rc = sqlite3CreateFunction(pDb, funcName, nArg, eTextRep,
+ pApp, ...funcArgs);
+ }catch(e){
+ console.error("sqlite3_create_function_v2() setup threw:",e);
+ for(let v of uninstall){
+ wasm.uninstallFunction(v);
+ }
+ rc = util.sqlite3_wasm_db_error(pDb, capi.SQLITE_ERROR,
+ "Creation of UDF threw: "+e.message);
+ }
+ return rc;
+ };
+
+ capi.sqlite3_create_function = function f(
+ pDb, funcName, nArg, eTextRep, pApp,
+ xFunc, xStep, xFinal
+ ){
+ return (f.length===arguments.length)
+ ? capi.sqlite3_create_function_v2(pDb, funcName, nArg, eTextRep,
+ pApp, xFunc, xStep, xFinal, 0)
+ : __dbArgcMismatch(pDb,"sqlite3_create_function",f.length);
+ };
+
+ /* Documented in the api object's initializer. */
+ capi.sqlite3_create_window_function = function f(
+ pDb, funcName, nArg, eTextRep, pApp,
+ xStep, //void (*xStep)(sqlite3_context*,int,sqlite3_value**)
+ xFinal, //void (*xFinal)(sqlite3_context*)
+ xValue, //void (*xFinal)(sqlite3_context*)
+ xInverse,//void (*xStep)(sqlite3_context*,int,sqlite3_value**)
+ xDestroy //void (*xDestroy)(void*)
+ ){
+ if(f.length!==arguments.length){
+ return __dbArgcMismatch(pDb,"sqlite3_create_window_function",f.length);
+ }
+ /* Wrap the callbacks in a WASM-bound functions... */
+ const uninstall = [/*funcs to uninstall on error*/];
+ let rc;
+ try{
+ const funcArgs = __xWrapFuncs({xStep, xFinal, xValue, xInverse, xDestroy},
+ uninstall);
+ rc = sqlite3CreateWindowFunction(pDb, funcName, nArg, eTextRep,
+ pApp, ...funcArgs);
+ }catch(e){
+ console.error("sqlite3_create_window_function() setup threw:",e);
+ for(let v of uninstall){
+ wasm.uninstallFunction(v);
+ }
+ rc = util.sqlite3_wasm_db_error(pDb, capi.SQLITE_ERROR,
+ "Creation of UDF threw: "+e.message);
+ }
+ return rc;
+ };
+ /**
+ A helper for UDFs implemented in JS and bound to WASM by the
+ client. Given a JS value, udfSetResult(pCtx,X) calls one of the
+ sqlite3_result_xyz(pCtx,...) routines, depending on X's data
+ type:
+
+ - `null`: sqlite3_result_null()
+ - `boolean`: sqlite3_result_int()
+ - `number`: sqlite3_result_int() or sqlite3_result_double()
+ - `string`: sqlite3_result_text()
+ - Uint8Array or Int8Array: sqlite3_result_blob()
+ - `undefined`: indicates that the UDF called one of the
+ `sqlite3_result_xyz()` routines on its own, making this
+ function a no-op. Results are _undefined_ if this function is
+ passed the `undefined` value but did _not_ call one of the
+ `sqlite3_result_xyz()` routines.
+
+ Anything else triggers sqlite3_result_error().
+ */
+ capi.sqlite3_create_function_v2.udfSetResult =
+ capi.sqlite3_create_function.udfSetResult =
+ capi.sqlite3_create_window_function.udfSetResult = __udfSetResult;
+
+ /**
+ A helper for UDFs implemented in JS and bound to WASM by the
+ client. When passed the
+ (argc,argv) values from the UDF-related functions which receive
+ them (xFunc, xStep, xInverse), it creates a JS array
+ representing those arguments, converting each to JS in a manner
+ appropriate to its data type: numeric, text, blob
+ (Uint8Array), or null.
+
+ Results are undefined if it's passed anything other than those
+ two arguments from those specific contexts.
+
+ Thus an argc of 4 will result in a length-4 array containing
+ the converted values from the corresponding argv.
+
+ The conversion will throw only on allocation error or an internal
+ error.
+ */
+ capi.sqlite3_create_function_v2.udfConvertArgs =
+ capi.sqlite3_create_function.udfConvertArgs =
+ capi.sqlite3_create_window_function.udfConvertArgs = __udfConvertArgs;
+
+ /**
+ A helper for UDFs implemented in JS and bound to WASM by the
+ client. It expects to be a passed `(sqlite3_context*, Error)`
+ (an exception object or message string). And it sets the
+ current UDF's result to sqlite3_result_error_nomem() or
+ sqlite3_result_error(), depending on whether the 2nd argument
+ is a sqlite3.WasmAllocError object or not.
+ */
+ capi.sqlite3_create_function_v2.udfSetError =
+ capi.sqlite3_create_function.udfSetError =
+ capi.sqlite3_create_window_function.udfSetError = __udfSetError;
+
+ }/*sqlite3_create_function_v2() and sqlite3_create_window_function() proxies*/;
+
+ if(1){/* Special-case handling of sqlite3_prepare_v2() and
+ sqlite3_prepare_v3() */
+ /**
+ Scope-local holder of the two impls of sqlite3_prepare_v2/v3().
+ */
+ const __prepare = Object.create(null);
+ /**
+ This binding expects a JS string as its 2nd argument and
+ null as its final argument. In order to compile multiple
+ statements from a single string, the "full" impl (see
+ below) must be used.
+ */
+ __prepare.basic = wasm.xWrap('sqlite3_prepare_v3',
+ "int", ["sqlite3*", "string",
+ "int"/*ignored for this impl!*/,
+ "int", "**",
+ "**"/*MUST be 0 or null or undefined!*/]);
+ /**
+ Impl which requires that the 2nd argument be a pointer
+ to the SQL string, instead of being converted to a
+ string. This variant is necessary for cases where we
+ require a non-NULL value for the final argument
+ (exec()'ing multiple statements from one input
+ string). For simpler cases, where only the first
+ statement in the SQL string is required, the wrapper
+ named sqlite3_prepare_v2() is sufficient and easier to
+ use because it doesn't require dealing with pointers.
+ */
+ __prepare.full = wasm.xWrap('sqlite3_prepare_v3',
+ "int", ["sqlite3*", "*", "int", "int",
+ "**", "**"]);
+
+ /* Documented in the api object's initializer. */
+ capi.sqlite3_prepare_v3 = function f(pDb, sql, sqlLen, prepFlags, ppStmt, pzTail){
+ if(f.length!==arguments.length){
+ return __dbArgcMismatch(pDb,"sqlite3_prepare_v3",f.length);
+ }
+ const [xSql, xSqlLen] = __flexiString(sql, sqlLen);
+ switch(typeof xSql){
+ case 'string': return __prepare.basic(pDb, xSql, xSqlLen, prepFlags, ppStmt, null);
+ case 'number': return __prepare.full(pDb, xSql, xSqlLen, prepFlags, ppStmt, pzTail);
+ default:
+ return util.sqlite3_wasm_db_error(
+ pDb, capi.SQLITE_MISUSE,
+ "Invalid SQL argument type for sqlite3_prepare_v2/v3()."
+ );
+ }
+ };
+
+ /* Documented in the api object's initializer. */
+ capi.sqlite3_prepare_v2 = function f(pDb, sql, sqlLen, ppStmt, pzTail){
+ return (f.length===arguments.length)
+ ? capi.sqlite3_prepare_v3(pDb, sql, sqlLen, 0, ppStmt, pzTail)
+ : __dbArgcMismatch(pDb,"sqlite3_prepare_v2",f.length);
+ };
+ }/*sqlite3_prepare_v2/v3()*/;
+
+ {/* Import C-level constants and structs... */
+ const cJson = wasm.xCall('sqlite3_wasm_enum_json');
+ if(!cJson){
+ toss("Maintenance required: increase sqlite3_wasm_enum_json()'s",
+ "static buffer size!");
+ }
+ wasm.ctype = JSON.parse(wasm.cstringToJs(cJson));
+ //console.debug('wasm.ctype length =',wasm.cstrlen(cJson));
+ for(const t of ['access', 'blobFinalizers', 'dataTypes',
+ 'encodings', 'fcntl', 'flock', 'ioCap',
+ 'openFlags', 'prepareFlags', 'resultCodes',
+ 'serialize', 'syncFlags', 'trace', 'udfFlags',
+ 'version'
+ ]){
+ for(const e of Object.entries(wasm.ctype[t])){
+ // ^^^ [k,v] there triggers a buggy code transormation via one
+ // of the Emscripten-driven optimizers.
+ capi[e[0]] = e[1];
+ }
+ }
+ const __rcMap = Object.create(null);
+ for(const t of ['resultCodes']){
+ for(const e of Object.entries(wasm.ctype[t])){
+ __rcMap[e[1]] = e[0];
+ }
+ }
+ /**
+ For the given integer, returns the SQLITE_xxx result code as a
+ string, or undefined if no such mapping is found.
+ */
+ capi.sqlite3_js_rc_str = (rc)=>__rcMap[rc];
+ /* Bind all registered C-side structs... */
+ const notThese = Object.assign(Object.create(null),{
+ // Structs NOT to register
+ WasmTestStruct: true
+ });
+ if(!util.isUIThread()){
+ /* We remove the kvvfs VFS from Worker threads below. */
+ notThese.sqlite3_kvvfs_methods = true;
+ }
+ for(const s of wasm.ctype.structs){
+ if(!notThese[s.name]){
+ capi[s.name] = sqlite3.StructBinder(s);
+ }
+ }
+ }/*end C constant imports*/
+
+ const pKvvfs = capi.sqlite3_vfs_find("kvvfs");
+ if( pKvvfs ){/* kvvfs-specific glue */
+ if(util.isUIThread()){
+ const kvvfsMethods = new capi.sqlite3_kvvfs_methods(
+ wasm.exports.sqlite3_wasm_kvvfs_methods()
+ );
+ delete capi.sqlite3_kvvfs_methods;
+
+ const kvvfsMakeKey = wasm.exports.sqlite3_wasm_kvvfsMakeKeyOnPstack,
+ pstack = wasm.pstack,
+ pAllocRaw = wasm.exports.sqlite3_wasm_pstack_alloc;
+
+ const kvvfsStorage = (zClass)=>
+ ((115/*=='s'*/===wasm.getMemValue(zClass))
+ ? sessionStorage : localStorage);
+
+ /**
+ Implementations for members of the object referred to by
+ sqlite3_wasm_kvvfs_methods(). We swap out the native
+ implementations with these, which use localStorage or
+ sessionStorage for their backing store.
+ */
+ const kvvfsImpls = {
+ xRead: (zClass, zKey, zBuf, nBuf)=>{
+ const stack = pstack.pointer,
+ astack = wasm.scopedAllocPush();
+ try {
+ const zXKey = kvvfsMakeKey(zClass,zKey);
+ if(!zXKey) return -3/*OOM*/;
+ const jKey = wasm.cstringToJs(zXKey);
+ const jV = kvvfsStorage(zClass).getItem(jKey);
+ if(!jV) return -1;
+ const nV = jV.length /* Note that we are relying 100% on v being
+ ASCII so that jV.length is equal to the
+ C-string's byte length. */;
+ if(nBuf<=0) return nV;
+ else if(1===nBuf){
+ wasm.setMemValue(zBuf, 0);
+ return nV;
+ }
+ const zV = wasm.scopedAllocCString(jV);
+ if(nBuf > nV + 1) nBuf = nV + 1;
+ wasm.heap8u().copyWithin(zBuf, zV, zV + nBuf - 1);
+ wasm.setMemValue(zBuf + nBuf - 1, 0);
+ return nBuf - 1;
+ }catch(e){
+ console.error("kvstorageRead()",e);
+ return -2;
+ }finally{
+ pstack.restore(stack);
+ wasm.scopedAllocPop(astack);
+ }
+ },
+ xWrite: (zClass, zKey, zData)=>{
+ const stack = pstack.pointer;
+ try {
+ const zXKey = kvvfsMakeKey(zClass,zKey);
+ if(!zXKey) return 1/*OOM*/;
+ const jKey = wasm.cstringToJs(zXKey);
+ kvvfsStorage(zClass).setItem(jKey, wasm.cstringToJs(zData));
+ return 0;
+ }catch(e){
+ console.error("kvstorageWrite()",e);
+ return capi.SQLITE_IOERR;
+ }finally{
+ pstack.restore(stack);
+ }
+ },
+ xDelete: (zClass, zKey)=>{
+ const stack = pstack.pointer;
+ try {
+ const zXKey = kvvfsMakeKey(zClass,zKey);
+ if(!zXKey) return 1/*OOM*/;
+ kvvfsStorage(zClass).removeItem(wasm.cstringToJs(zXKey));
+ return 0;
+ }catch(e){
+ console.error("kvstorageDelete()",e);
+ return capi.SQLITE_IOERR;
+ }finally{
+ pstack.restore(stack);
+ }
+ }
+ }/*kvvfsImpls*/;
+ for(const k of Object.keys(kvvfsImpls)){
+ kvvfsMethods[kvvfsMethods.memberKey(k)] =
+ wasm.installFunction(
+ kvvfsMethods.memberSignature(k),
+ kvvfsImpls[k]
+ );
+ }
+ }else{
+ /* Worker thread: unregister kvvfs to avoid it being used
+ for anything other than local/sessionStorage. It "can"
+ be used that way but it's not really intended to be. */
+ capi.sqlite3_vfs_unregister(pKvvfs);
+ }
+ }/*pKvvfs*/
+
+});
diff --git a/ext/wasm/api/sqlite3-api-oo1.js b/ext/wasm/api/sqlite3-api-oo1.js
new file mode 100644
index 0000000..02ce9c0
--- /dev/null
+++ b/ext/wasm/api/sqlite3-api-oo1.js
@@ -0,0 +1,1800 @@
+/*
+ 2022-07-22
+
+ The author disclaims copyright to this source code. In place of a
+ legal notice, here is a blessing:
+
+ * May you do good and not evil.
+ * May you find forgiveness for yourself and forgive others.
+ * May you share freely, never taking more than you give.
+
+ ***********************************************************************
+
+ This file contains the so-called OO #1 API wrapper for the sqlite3
+ WASM build. It requires that sqlite3-api-glue.js has already run
+ and it installs its deliverable as self.sqlite3.oo1.
+*/
+self.sqlite3ApiBootstrap.initializers.push(function(sqlite3){
+ const toss = (...args)=>{throw new Error(args.join(' '))};
+ const toss3 = (...args)=>{throw new sqlite3.SQLite3Error(...args)};
+
+ const capi = sqlite3.capi, wasm = sqlite3.wasm, util = sqlite3.util;
+ /* What follows is colloquially known as "OO API #1". It is a
+ binding of the sqlite3 API which is designed to be run within
+ the same thread (main or worker) as the one in which the
+ sqlite3 WASM binding was initialized. This wrapper cannot use
+ the sqlite3 binding if, e.g., the wrapper is in the main thread
+ and the sqlite3 API is in a worker. */
+
+ /**
+ In order to keep clients from manipulating, perhaps
+ inadvertently, the underlying pointer values of DB and Stmt
+ instances, we'll gate access to them via the `pointer` property
+ accessor and store their real values in this map. Keys = DB/Stmt
+ objects, values = pointer values. This also unifies how those are
+ accessed, for potential use downstream via custom
+ wasm.xWrap() function signatures which know how to extract
+ it.
+ */
+ const __ptrMap = new WeakMap();
+ /**
+ Map of DB instances to objects, each object being a map of Stmt
+ wasm pointers to Stmt objects.
+ */
+ const __stmtMap = new WeakMap();
+
+ /** If object opts has _its own_ property named p then that
+ property's value is returned, else dflt is returned. */
+ const getOwnOption = (opts, p, dflt)=>{
+ const d = Object.getOwnPropertyDescriptor(opts,p);
+ return d ? d.value : dflt;
+ };
+
+ // Documented in DB.checkRc()
+ const checkSqlite3Rc = function(dbPtr, sqliteResultCode){
+ if(sqliteResultCode){
+ if(dbPtr instanceof DB) dbPtr = dbPtr.pointer;
+ toss3(
+ "sqlite result code",sqliteResultCode+":",
+ (dbPtr
+ ? capi.sqlite3_errmsg(dbPtr)
+ : capi.sqlite3_errstr(sqliteResultCode))
+ );
+ }
+ };
+
+ /**
+ sqlite3_trace_v2() callback which gets installed by the DB ctor
+ if its open-flags contain "t".
+ */
+ const __dbTraceToConsole =
+ wasm.installFunction('i(ippp)', function(t,c,p,x){
+ if(capi.SQLITE_TRACE_STMT===t){
+ // x == SQL, p == sqlite3_stmt*
+ console.log("SQL TRACE #"+(++this.counter),
+ wasm.cstringToJs(x));
+ }
+ }.bind({counter: 0}));
+
+ /**
+ A map of sqlite3_vfs pointers to SQL code to run when the DB
+ constructor opens a database with the given VFS.
+ */
+ const __vfsPostOpenSql = Object.create(null);
+
+ /**
+ A proxy for DB class constructors. It must be called with the
+ being-construct DB object as its "this". See the DB constructor
+ for the argument docs. This is split into a separate function
+ in order to enable simple creation of special-case DB constructors,
+ e.g. JsStorageDb and OpfsDb.
+
+ Expects to be passed a configuration object with the following
+ properties:
+
+ - `.filename`: the db filename. It may be a special name like ":memory:"
+ or "".
+
+ - `.flags`: as documented in the DB constructor.
+
+ - `.vfs`: as documented in the DB constructor.
+
+ It also accepts those as the first 3 arguments.
+ */
+ const dbCtorHelper = function ctor(...args){
+ if(!ctor._name2vfs){
+ /**
+ Map special filenames which we handle here (instead of in C)
+ to some helpful metadata...
+
+ As of 2022-09-20, the C API supports the names :localStorage:
+ and :sessionStorage: for kvvfs. However, C code cannot
+ determine (without embedded JS code, e.g. via Emscripten's
+ EM_JS()) whether the kvvfs is legal in the current browser
+ context (namely the main UI thread). In order to help client
+ code fail early on, instead of it being delayed until they
+ try to read or write a kvvfs-backed db, we'll check for those
+ names here and throw if they're not legal in the current
+ context.
+ */
+ ctor._name2vfs = Object.create(null);
+ const isWorkerThread = ('function'===typeof importScripts/*===running in worker thread*/)
+ ? (n)=>toss3("The VFS for",n,"is only available in the main window thread.")
+ : false;
+ ctor._name2vfs[':localStorage:'] = {
+ vfs: 'kvvfs', filename: isWorkerThread || (()=>'local')
+ };
+ ctor._name2vfs[':sessionStorage:'] = {
+ vfs: 'kvvfs', filename: isWorkerThread || (()=>'session')
+ };
+ }
+ const opt = ctor.normalizeArgs(...args);
+ let fn = opt.filename, vfsName = opt.vfs, flagsStr = opt.flags;
+ if(('string'!==typeof fn && 'number'!==typeof fn)
+ || 'string'!==typeof flagsStr
+ || (vfsName && ('string'!==typeof vfsName && 'number'!==typeof vfsName))){
+ console.error("Invalid DB ctor args",opt,arguments);
+ toss3("Invalid arguments for DB constructor.");
+ }
+ let fnJs = ('number'===typeof fn) ? wasm.cstringToJs(fn) : fn;
+ const vfsCheck = ctor._name2vfs[fnJs];
+ if(vfsCheck){
+ vfsName = vfsCheck.vfs;
+ fn = fnJs = vfsCheck.filename(fnJs);
+ }
+ let pDb, oflags = 0;
+ if( flagsStr.indexOf('c')>=0 ){
+ oflags |= capi.SQLITE_OPEN_CREATE | capi.SQLITE_OPEN_READWRITE;
+ }
+ if( flagsStr.indexOf('w')>=0 ) oflags |= capi.SQLITE_OPEN_READWRITE;
+ if( 0===oflags ) oflags |= capi.SQLITE_OPEN_READONLY;
+ oflags |= capi.SQLITE_OPEN_EXRESCODE;
+ const stack = wasm.pstack.pointer;
+ try {
+ const pPtr = wasm.pstack.allocPtr() /* output (sqlite3**) arg */;
+ let rc = capi.sqlite3_open_v2(fn, pPtr, oflags, vfsName || 0);
+ pDb = wasm.getPtrValue(pPtr);
+ checkSqlite3Rc(pDb, rc);
+ if(flagsStr.indexOf('t')>=0){
+ capi.sqlite3_trace_v2(pDb, capi.SQLITE_TRACE_STMT,
+ __dbTraceToConsole, 0);
+ }
+ // Check for per-VFS post-open SQL...
+ const pVfs = capi.sqlite3_js_db_vfs(pDb);
+ //console.warn("Opened db",fn,"with vfs",vfsName,pVfs);
+ if(!pVfs) toss3("Internal error: cannot get VFS for new db handle.");
+ const postInitSql = __vfsPostOpenSql[pVfs];
+ if(postInitSql){
+ rc = capi.sqlite3_exec(pDb, postInitSql, 0, 0, 0);
+ checkSqlite3Rc(pDb, rc);
+ }
+ }catch( e ){
+ if( pDb ) capi.sqlite3_close_v2(pDb);
+ throw e;
+ }finally{
+ wasm.pstack.restore(stack);
+ }
+ this.filename = fnJs;
+ __ptrMap.set(this, pDb);
+ __stmtMap.set(this, Object.create(null));
+ };
+
+ /**
+ Sets SQL which should be exec()'d on a DB instance after it is
+ opened with the given VFS pointer. This is intended only for use
+ by DB subclasses or sqlite3_vfs implementations.
+ */
+ dbCtorHelper.setVfsPostOpenSql = function(pVfs, sql){
+ __vfsPostOpenSql[pVfs] = sql;
+ };
+
+ /**
+ A helper for DB constructors. It accepts either a single
+ config-style object or up to 3 arguments (filename, dbOpenFlags,
+ dbVfsName). It returns a new object containing:
+
+ { filename: ..., flags: ..., vfs: ... }
+
+ If passed an object, any additional properties it has are copied
+ as-is into the new object.
+ */
+ dbCtorHelper.normalizeArgs = function(filename=':memory:',flags = 'c',vfs = null){
+ const arg = {};
+ if(1===arguments.length && 'object'===typeof arguments[0]){
+ const x = arguments[0];
+ Object.keys(x).forEach((k)=>arg[k] = x[k]);
+ if(undefined===arg.flags) arg.flags = 'c';
+ if(undefined===arg.vfs) arg.vfs = null;
+ if(undefined===arg.filename) arg.filename = ':memory:';
+ }else{
+ arg.filename = filename;
+ arg.flags = flags;
+ arg.vfs = vfs;
+ }
+ return arg;
+ };
+ /**
+ The DB class provides a high-level OO wrapper around an sqlite3
+ db handle.
+
+ The given db filename must be resolvable using whatever
+ filesystem layer (virtual or otherwise) is set up for the default
+ sqlite3 VFS.
+
+ Note that the special sqlite3 db names ":memory:" and ""
+ (temporary db) have their normal special meanings here and need
+ not resolve to real filenames, but "" uses an on-storage
+ temporary database and requires that the VFS support that.
+
+ The second argument specifies the open/create mode for the
+ database. It must be string containing a sequence of letters (in
+ any order, but case sensitive) specifying the mode:
+
+ - "c": create if it does not exist, else fail if it does not
+ exist. Implies the "w" flag.
+
+ - "w": write. Implies "r": a db cannot be write-only.
+
+ - "r": read-only if neither "w" nor "c" are provided, else it
+ is ignored.
+
+ - "t": enable tracing of SQL executed on this database handle,
+ sending it to `console.log()`. To disable it later, call
+ `sqlite3.capi.sqlite3_trace_v2(thisDb.pointer, 0, 0, 0)`.
+
+ If "w" is not provided, the db is implicitly read-only, noting
+ that "rc" is meaningless
+
+ Any other letters are currently ignored. The default is
+ "c". These modes are ignored for the special ":memory:" and ""
+ names and _may_ be ignored altogether for certain VFSes.
+
+ The final argument is analogous to the final argument of
+ sqlite3_open_v2(): the name of an sqlite3 VFS. Pass a falsy value,
+ or none at all, to use the default. If passed a value, it must
+ be the string name of a VFS.
+
+ The constructor optionally (and preferably) takes its arguments
+ in the form of a single configuration object with the following
+ properties:
+
+ - `filename`: database file name
+ - `flags`: open-mode flags
+ - `vfs`: the VFS fname
+
+ The `filename` and `vfs` arguments may be either JS strings or
+ C-strings allocated via WASM. `flags` is required to be a JS
+ string (because it's specific to this API, which is specific
+ to JS).
+
+ For purposes of passing a DB instance to C-style sqlite3
+ functions, the DB object's read-only `pointer` property holds its
+ `sqlite3*` pointer value. That property can also be used to check
+ whether this DB instance is still open.
+
+ In the main window thread, the filenames `":localStorage:"` and
+ `":sessionStorage:"` are special: they cause the db to use either
+ localStorage or sessionStorage for storing the database using
+ the kvvfs. If one of these names are used, they trump
+ any vfs name set in the arguments.
+ */
+ const DB = function(...args){
+ dbCtorHelper.apply(this, args);
+ };
+ DB.dbCtorHelper = dbCtorHelper;
+
+ /**
+ Internal-use enum for mapping JS types to DB-bindable types.
+ These do not (and need not) line up with the SQLITE_type
+ values. All values in this enum must be truthy and distinct
+ but they need not be numbers.
+ */
+ const BindTypes = {
+ null: 1,
+ number: 2,
+ string: 3,
+ boolean: 4,
+ blob: 5
+ };
+ BindTypes['undefined'] == BindTypes.null;
+ if(wasm.bigIntEnabled){
+ BindTypes.bigint = BindTypes.number;
+ }
+
+ /**
+ This class wraps sqlite3_stmt. Calling this constructor
+ directly will trigger an exception. Use DB.prepare() to create
+ new instances.
+
+ For purposes of passing a Stmt instance to C-style sqlite3
+ functions, its read-only `pointer` property holds its `sqlite3_stmt*`
+ pointer value.
+
+ Other non-function properties include:
+
+ - `db`: the DB object which created the statement.
+
+ - `columnCount`: the number of result columns in the query, or 0 for
+ queries which cannot return results.
+
+ - `parameterCount`: the number of bindable paramters in the query.
+ */
+ const Stmt = function(){
+ if(BindTypes!==arguments[2]){
+ toss3("Do not call the Stmt constructor directly. Use DB.prepare().");
+ }
+ this.db = arguments[0];
+ __ptrMap.set(this, arguments[1]);
+ this.columnCount = capi.sqlite3_column_count(this.pointer);
+ this.parameterCount = capi.sqlite3_bind_parameter_count(this.pointer);
+ };
+
+ /** Throws if the given DB has been closed, else it is returned. */
+ const affirmDbOpen = function(db){
+ if(!db.pointer) toss3("DB has been closed.");
+ return db;
+ };
+
+ /** Throws if ndx is not an integer or if it is out of range
+ for stmt.columnCount, else returns stmt.
+
+ Reminder: this will also fail after the statement is finalized
+ but the resulting error will be about an out-of-bounds column
+ index rather than a statement-is-finalized error.
+ */
+ const affirmColIndex = function(stmt,ndx){
+ if((ndx !== (ndx|0)) || ndx<0 || ndx>=stmt.columnCount){
+ toss3("Column index",ndx,"is out of range.");
+ }
+ return stmt;
+ };
+
+ /**
+ Expects to be passed the `arguments` object from DB.exec(). Does
+ the argument processing/validation, throws on error, and returns
+ a new object on success:
+
+ { sql: the SQL, opt: optionsObj, cbArg: function}
+
+ The opt object is a normalized copy of any passed to this
+ function. The sql will be converted to a string if it is provided
+ in one of the supported non-string formats.
+
+ cbArg is only set if the opt.callback or opt.resultRows are set,
+ in which case it's a function which expects to be passed the
+ current Stmt and returns the callback argument of the type
+ indicated by the input arguments.
+ */
+ const parseExecArgs = function(db, args){
+ const out = Object.create(null);
+ out.opt = Object.create(null);
+ switch(args.length){
+ case 1:
+ if('string'===typeof args[0] || util.isSQLableTypedArray(args[0])){
+ out.sql = args[0];
+ }else if(Array.isArray(args[0])){
+ out.sql = args[0];
+ }else if(args[0] && 'object'===typeof args[0]){
+ out.opt = args[0];
+ out.sql = out.opt.sql;
+ }
+ break;
+ case 2:
+ out.sql = args[0];
+ out.opt = args[1];
+ break;
+ default: toss3("Invalid argument count for exec().");
+ };
+ out.sql = util.flexibleString(out.sql);
+ if('string'!==typeof out.sql){
+ toss3("Missing SQL argument or unsupported SQL value type.");
+ }
+ const opt = out.opt;
+ switch(opt.returnValue){
+ case 'resultRows':
+ if(!opt.resultRows) opt.resultRows = [];
+ out.returnVal = ()=>opt.resultRows;
+ break;
+ case 'saveSql':
+ if(!opt.saveSql) opt.saveSql = [];
+ out.returnVal = ()=>opt.saveSql;
+ break;
+ case undefined:
+ case 'this':
+ out.returnVal = ()=>db;
+ break;
+ default:
+ toss3("Invalid returnValue value:",opt.returnValue);
+ }
+ if(opt.callback || opt.resultRows){
+ switch((undefined===opt.rowMode)
+ ? 'array' : opt.rowMode) {
+ case 'object': out.cbArg = (stmt)=>stmt.get(Object.create(null)); break;
+ case 'array': out.cbArg = (stmt)=>stmt.get([]); break;
+ case 'stmt':
+ if(Array.isArray(opt.resultRows)){
+ toss3("exec(): invalid rowMode for a resultRows array: must",
+ "be one of 'array', 'object',",
+ "a result column number, or column name reference.");
+ }
+ out.cbArg = (stmt)=>stmt;
+ break;
+ default:
+ if(util.isInt32(opt.rowMode)){
+ out.cbArg = (stmt)=>stmt.get(opt.rowMode);
+ break;
+ }else if('string'===typeof opt.rowMode && opt.rowMode.length>1){
+ /* "$X", ":X", and "@X" fetch column named "X" (case-sensitive!) */
+ const prefix = opt.rowMode[0];
+ if(':'===prefix || '@'===prefix || '$'===prefix){
+ out.cbArg = function(stmt){
+ const rc = stmt.get(this.obj)[this.colName];
+ return (undefined===rc) ? toss3("exec(): unknown result column:",this.colName) : rc;
+ }.bind({
+ obj:Object.create(null),
+ colName: opt.rowMode.substr(1)
+ });
+ break;
+ }
+ }
+ toss3("Invalid rowMode:",opt.rowMode);
+ }
+ }
+ return out;
+ };
+
+ /**
+ Internal impl of the DB.selectArray() and
+ selectObject() methods.
+ */
+ const __selectFirstRow = (db, sql, bind, getArg)=>{
+ let stmt, rc;
+ try {
+ stmt = db.prepare(sql).bind(bind);
+ if(stmt.step()) rc = stmt.get(getArg);
+ }finally{
+ if(stmt) stmt.finalize();
+ }
+ return rc;
+ };
+
+ /**
+ Expects to be given a DB instance or an `sqlite3*` pointer (may
+ be null) and an sqlite3 API result code. If the result code is
+ not falsy, this function throws an SQLite3Error with an error
+ message from sqlite3_errmsg(), using dbPtr as the db handle, or
+ sqlite3_errstr() if dbPtr is falsy. Note that if it's passed a
+ non-error code like SQLITE_ROW or SQLITE_DONE, it will still
+ throw but the error string might be "Not an error." The various
+ non-0 non-error codes need to be checked for in
+ client code where they are expected.
+ */
+ DB.checkRc = checkSqlite3Rc;
+
+ DB.prototype = {
+ /** Returns true if this db handle is open, else false. */
+ isOpen: function(){
+ return !!this.pointer;
+ },
+ /** Throws if this given DB has been closed, else returns `this`. */
+ affirmOpen: function(){
+ return affirmDbOpen(this);
+ },
+ /**
+ Finalizes all open statements and closes this database
+ connection. This is a no-op if the db has already been
+ closed. After calling close(), `this.pointer` will resolve to
+ `undefined`, so that can be used to check whether the db
+ instance is still opened.
+
+ If this.onclose.before is a function then it is called before
+ any close-related cleanup.
+
+ If this.onclose.after is a function then it is called after the
+ db is closed but before auxiliary state like this.filename is
+ cleared.
+
+ Both onclose handlers are passed this object. If this db is not
+ opened, neither of the handlers are called. Any exceptions the
+ handlers throw are ignored because "destructors must not
+ throw."
+
+ Note that garbage collection of a db handle, if it happens at
+ all, will never trigger close(), so onclose handlers are not a
+ reliable way to implement close-time cleanup or maintenance of
+ a db.
+ */
+ close: function(){
+ if(this.pointer){
+ if(this.onclose && (this.onclose.before instanceof Function)){
+ try{this.onclose.before(this)}
+ catch(e){/*ignore*/}
+ }
+ const pDb = this.pointer;
+ Object.keys(__stmtMap.get(this)).forEach((k,s)=>{
+ if(s && s.pointer) s.finalize();
+ });
+ __ptrMap.delete(this);
+ __stmtMap.delete(this);
+ capi.sqlite3_close_v2(pDb);
+ if(this.onclose && (this.onclose.after instanceof Function)){
+ try{this.onclose.after(this)}
+ catch(e){/*ignore*/}
+ }
+ delete this.filename;
+ }
+ },
+ /**
+ Returns the number of changes, as per sqlite3_changes()
+ (if the first argument is false) or sqlite3_total_changes()
+ (if it's true). If the 2nd argument is true, it uses
+ sqlite3_changes64() or sqlite3_total_changes64(), which
+ will trigger an exception if this build does not have
+ BigInt support enabled.
+ */
+ changes: function(total=false,sixtyFour=false){
+ const p = affirmDbOpen(this).pointer;
+ if(total){
+ return sixtyFour
+ ? capi.sqlite3_total_changes64(p)
+ : capi.sqlite3_total_changes(p);
+ }else{
+ return sixtyFour
+ ? capi.sqlite3_changes64(p)
+ : capi.sqlite3_changes(p);
+ }
+ },
+ /**
+ Similar to the this.filename but returns the
+ sqlite3_db_filename() value for the given database name,
+ defaulting to "main". The argument may be either a JS string
+ or a pointer to a WASM-allocated C-string.
+ */
+ dbFilename: function(dbName='main'){
+ return capi.sqlite3_db_filename(affirmDbOpen(this).pointer, dbName);
+ },
+ /**
+ Returns the name of the given 0-based db number, as documented
+ for sqlite3_db_name().
+ */
+ dbName: function(dbNumber=0){
+ return capi.sqlite3_db_name(affirmDbOpen(this).pointer, dbNumber);
+ },
+ /**
+ Returns the name of the sqlite3_vfs used by the given database
+ of this connection (defaulting to 'main'). The argument may be
+ either a JS string or a WASM C-string. Returns undefined if the
+ given db name is invalid. Throws if this object has been
+ close()d.
+ */
+ dbVfsName: function(dbName=0){
+ let rc;
+ const pVfs = capi.sqlite3_js_db_vfs(
+ affirmDbOpen(this).pointer, dbName
+ );
+ if(pVfs){
+ const v = new capi.sqlite3_vfs(pVfs);
+ try{ rc = wasm.cstringToJs(v.$zName) }
+ finally { v.dispose() }
+ }
+ return rc;
+ },
+ /**
+ Compiles the given SQL and returns a prepared Stmt. This is
+ the only way to create new Stmt objects. Throws on error.
+
+ The given SQL must be a string, a Uint8Array holding SQL, a
+ WASM pointer to memory holding the NUL-terminated SQL string,
+ or an array of strings. In the latter case, the array is
+ concatenated together, with no separators, to form the SQL
+ string (arrays are often a convenient way to formulate long
+ statements). If the SQL contains no statements, an
+ SQLite3Error is thrown.
+
+ Design note: the C API permits empty SQL, reporting it as a 0
+ result code and a NULL stmt pointer. Supporting that case here
+ would cause extra work for all clients: any use of the Stmt API
+ on such a statement will necessarily throw, so clients would be
+ required to check `stmt.pointer` after calling `prepare()` in
+ order to determine whether the Stmt instance is empty or not.
+ Long-time practice (with other sqlite3 script bindings)
+ suggests that the empty-prepare case is sufficiently rare that
+ supporting it here would simply hurt overall usability.
+ */
+ prepare: function(sql){
+ affirmDbOpen(this);
+ const stack = wasm.pstack.pointer;
+ let ppStmt, pStmt;
+ try{
+ ppStmt = wasm.pstack.alloc(8)/* output (sqlite3_stmt**) arg */;
+ DB.checkRc(this, capi.sqlite3_prepare_v2(this.pointer, sql, -1, ppStmt, null));
+ pStmt = wasm.getPtrValue(ppStmt);
+ }
+ finally {
+ wasm.pstack.restore(stack);
+ }
+ if(!pStmt) toss3("Cannot prepare empty SQL.");
+ const stmt = new Stmt(this, pStmt, BindTypes);
+ __stmtMap.get(this)[pStmt] = stmt;
+ return stmt;
+ },
+ /**
+ Executes one or more SQL statements in the form of a single
+ string. Its arguments must be either (sql,optionsObject) or
+ (optionsObject). In the latter case, optionsObject.sql must
+ contain the SQL to execute. By default it returns this object
+ but that can be changed via the `returnValue` option as
+ described below. Throws on error.
+
+ If no SQL is provided, or a non-string is provided, an
+ exception is triggered. Empty SQL, on the other hand, is
+ simply a no-op.
+
+ The optional options object may contain any of the following
+ properties:
+
+ - `sql` = the SQL to run (unless it's provided as the first
+ argument). This must be of type string, Uint8Array, or an array
+ of strings. In the latter case they're concatenated together
+ as-is, _with no separator_ between elements, before evaluation.
+ The array form is often simpler for long hand-written queries.
+
+ - `bind` = a single value valid as an argument for
+ Stmt.bind(). This is _only_ applied to the _first_ non-empty
+ statement in the SQL which has any bindable parameters. (Empty
+ statements are skipped entirely.)
+
+ - `saveSql` = an optional array. If set, the SQL of each
+ executed statement is appended to this array before the
+ statement is executed (but after it is prepared - we don't have
+ the string until after that). Empty SQL statements are elided
+ but can have odd effects in the output. e.g. SQL of: `"select
+ 1; -- empty\n; select 2"` will result in an array containing
+ `["select 1;", "--empty \n; select 2"]`. That's simply how
+ sqlite3 records the SQL for the 2nd statement.
+
+ ==================================================================
+ The following options apply _only_ to the _first_ statement
+ which has a non-zero result column count, regardless of whether
+ the statement actually produces any result rows.
+ ==================================================================
+
+ - `columnNames`: if this is an array, the column names of the
+ result set are stored in this array before the callback (if
+ any) is triggered (regardless of whether the query produces any
+ result rows). If no statement has result columns, this value is
+ unchanged. Achtung: an SQL result may have multiple columns
+ with identical names.
+
+ - `callback` = a function which gets called for each row of
+ the result set, but only if that statement has any result
+ _rows_. The callback's "this" is the options object, noting
+ that this function synthesizes one if the caller does not pass
+ one to exec(). The second argument passed to the callback is
+ always the current Stmt object, as it's needed if the caller
+ wants to fetch the column names or some such (noting that they
+ could also be fetched via `this.columnNames`, if the client
+ provides the `columnNames` option).
+
+ ACHTUNG: The callback MUST NOT modify the Stmt object. Calling
+ any of the Stmt.get() variants, Stmt.getColumnName(), or
+ similar, is legal, but calling step() or finalize() is
+ not. Member methods which are illegal in this context will
+ trigger an exception.
+
+ The first argument passed to the callback defaults to an array of
+ values from the current result row but may be changed with ...
+
+ - `rowMode` = specifies the type of he callback's first argument.
+ It may be any of...
+
+ A) A string describing what type of argument should be passed
+ as the first argument to the callback:
+
+ A.1) `'array'` (the default) causes the results of
+ `stmt.get([])` to be passed to the `callback` and/or appended
+ to `resultRows`
+
+ A.2) `'object'` causes the results of
+ `stmt.get(Object.create(null))` to be passed to the
+ `callback` and/or appended to `resultRows`. Achtung: an SQL
+ result may have multiple columns with identical names. In
+ that case, the right-most column will be the one set in this
+ object!
+
+ A.3) `'stmt'` causes the current Stmt to be passed to the
+ callback, but this mode will trigger an exception if
+ `resultRows` is an array because appending the statement to
+ the array would be downright unhelpful.
+
+ B) An integer, indicating a zero-based column in the result
+ row. Only that one single value will be passed on.
+
+ C) A string with a minimum length of 2 and leading character of
+ ':', '$', or '@' will fetch the row as an object, extract that
+ one field, and pass that field's value to the callback. Note
+ that these keys are case-sensitive so must match the case used
+ in the SQL. e.g. `"select a A from t"` with a `rowMode` of
+ `'$A'` would work but `'$a'` would not. A reference to a column
+ not in the result set will trigger an exception on the first
+ row (as the check is not performed until rows are fetched).
+ Note also that `$` is a legal identifier character in JS so
+ need not be quoted. (Design note: those 3 characters were
+ chosen because they are the characters support for naming bound
+ parameters.)
+
+ Any other `rowMode` value triggers an exception.
+
+ - `resultRows`: if this is an array, it functions similarly to
+ the `callback` option: each row of the result set (if any),
+ with the exception that the `rowMode` 'stmt' is not legal. It
+ is legal to use both `resultRows` and `callback`, but
+ `resultRows` is likely much simpler to use for small data sets
+ and can be used over a WebWorker-style message interface.
+ exec() throws if `resultRows` is set and `rowMode` is 'stmt'.
+
+ - `returnValue`: is a string specifying what this function
+ should return:
+
+ A) The default value is `"this"`, meaning that the
+ DB object itself should be returned.
+
+ B) `"resultRows"` means to return the value of the
+ `resultRows` option. If `resultRows` is not set, this
+ function behaves as if it were set to an empty array.
+
+ C) `"saveSql"` means to return the value of the
+ `saveSql` option. If `saveSql` is not set, this
+ function behaves as if it were set to an empty array.
+
+ Potential TODOs:
+
+ - `bind`: permit an array of arrays/objects to bind. The first
+ sub-array would act on the first statement which has bindable
+ parameters (as it does now). The 2nd would act on the next such
+ statement, etc.
+
+ - `callback` and `resultRows`: permit an array entries with
+ semantics similar to those described for `bind` above.
+
+ */
+ exec: function(/*(sql [,obj]) || (obj)*/){
+ affirmDbOpen(this);
+ const arg = parseExecArgs(this, arguments);
+ if(!arg.sql){
+ return toss3("exec() requires an SQL string.");
+ }
+ const opt = arg.opt;
+ const callback = opt.callback;
+ const resultRows =
+ Array.isArray(opt.resultRows) ? opt.resultRows : undefined;
+ let stmt;
+ let bind = opt.bind;
+ let evalFirstResult = !!(arg.cbArg || opt.columnNames) /* true to evaluate the first result-returning query */;
+ const stack = wasm.scopedAllocPush();
+ try{
+ const isTA = util.isSQLableTypedArray(arg.sql)
+ /* Optimization: if the SQL is a TypedArray we can save some string
+ conversion costs. */;
+ /* Allocate the two output pointers (ppStmt, pzTail) and heap
+ space for the SQL (pSql). When prepare_v2() returns, pzTail
+ will point to somewhere in pSql. */
+ let sqlByteLen = isTA ? arg.sql.byteLength : wasm.jstrlen(arg.sql);
+ const ppStmt = wasm.scopedAlloc(/* output (sqlite3_stmt**) arg and pzTail */
+ (2 * wasm.ptrSizeof)
+ + (sqlByteLen + 1/* SQL + NUL */));
+ const pzTail = ppStmt + wasm.ptrSizeof /* final arg to sqlite3_prepare_v2() */;
+ let pSql = pzTail + wasm.ptrSizeof;
+ const pSqlEnd = pSql + sqlByteLen;
+ if(isTA) wasm.heap8().set(arg.sql, pSql);
+ else wasm.jstrcpy(arg.sql, wasm.heap8(), pSql, sqlByteLen, false);
+ wasm.setMemValue(pSql + sqlByteLen, 0/*NUL terminator*/);
+ while(pSql && wasm.getMemValue(pSql, 'i8')
+ /* Maintenance reminder:^^^ _must_ be 'i8' or else we
+ will very likely cause an endless loop. What that's
+ doing is checking for a terminating NUL byte. If we
+ use i32 or similar then we read 4 bytes, read stuff
+ around the NUL terminator, and get stuck in and
+ endless loop at the end of the SQL, endlessly
+ re-preparing an empty statement. */ ){
+ wasm.setPtrValue(ppStmt, 0);
+ wasm.setPtrValue(pzTail, 0);
+ DB.checkRc(this, capi.sqlite3_prepare_v3(
+ this.pointer, pSql, sqlByteLen, 0, ppStmt, pzTail
+ ));
+ const pStmt = wasm.getPtrValue(ppStmt);
+ pSql = wasm.getPtrValue(pzTail);
+ sqlByteLen = pSqlEnd - pSql;
+ if(!pStmt) continue;
+ if(Array.isArray(opt.saveSql)){
+ opt.saveSql.push(capi.sqlite3_sql(pStmt).trim());
+ }
+ stmt = new Stmt(this, pStmt, BindTypes);
+ if(bind && stmt.parameterCount){
+ stmt.bind(bind);
+ bind = null;
+ }
+ if(evalFirstResult && stmt.columnCount){
+ /* Only forward SELECT results for the FIRST query
+ in the SQL which potentially has them. */
+ evalFirstResult = false;
+ if(Array.isArray(opt.columnNames)){
+ stmt.getColumnNames(opt.columnNames);
+ }
+ while(!!arg.cbArg && stmt.step()){
+ stmt._isLocked = true;
+ const row = arg.cbArg(stmt);
+ if(resultRows) resultRows.push(row);
+ if(callback) callback.call(opt, row, stmt);
+ stmt._isLocked = false;
+ }
+ }else{
+ stmt.step();
+ }
+ stmt.finalize();
+ stmt = null;
+ }
+ }/*catch(e){
+ console.warn("DB.exec() is propagating exception",opt,e);
+ throw e;
+ }*/finally{
+ if(stmt){
+ delete stmt._isLocked;
+ stmt.finalize();
+ }
+ wasm.scopedAllocPop(stack);
+ }
+ return arg.returnVal();
+ }/*exec()*/,
+ /**
+ Creates a new scalar UDF (User-Defined Function) which is
+ accessible via SQL code. This function may be called in any
+ of the following forms:
+
+ - (name, function)
+ - (name, function, optionsObject)
+ - (name, optionsObject)
+ - (optionsObject)
+
+ In the final two cases, the function must be defined as the
+ `callback` property of the options object (optionally called
+ `xFunc` to align with the C API documentation). In the final
+ case, the function's name must be the 'name' property.
+
+ The first two call forms can only be used for creating scalar
+ functions. Creating an aggregate or window function requires
+ the options-object form (see below for details).
+
+ UDFs cannot currently be removed from a DB handle after they're
+ added. More correctly, they can be removed as documented for
+ sqlite3_create_function_v2(), but doing so will "leak" the
+ JS-created WASM binding of those functions.
+
+ On success, returns this object. Throws on error.
+
+ When called from SQL arguments to the UDF, and its result,
+ will be converted between JS and SQL with as much fidelity as
+ is feasible, triggering an exception if a type conversion
+ cannot be determined. The docs for sqlite3_create_function_v2()
+ describe the conversions in more detail.
+
+ The values set in the options object differ for scalar and
+ aggregate functions:
+
+ - Scalar: set the `xFunc` function-type property to the UDF
+ function.
+
+ - Aggregate: set the `xStep` and `xFinal` function-type
+ properties to the "step" and "final" callbacks for the
+ aggregate. Do not set the `xFunc` property.
+
+ - Window: set the `xStep`, `xFinal`, `xValue`, and `xInverse`
+ function-type properties. Do not set the `xFunc` property.
+
+ The options object may optionally have an `xDestroy`
+ function-type property, as per sqlite3_create_function_v2().
+ Its argument will be the WASM-pointer-type value of the `pApp`
+ property, and this function will throw if `pApp` is defined but
+ is not null, undefined, or a numeric (WASM pointer)
+ value. i.e. `pApp`, if set, must be value suitable for use as a
+ WASM pointer argument, noting that `null` or `undefined` will
+ translate to 0 for that purpose.
+
+ The options object may contain flags to modify how
+ the function is defined:
+
+ - `arity`: the number of arguments which SQL calls to this
+ function expect or require. The default value is `xFunc.length`
+ or `xStep.length` (i.e. the number of declared parameters it
+ has) **MINUS 1** (see below for why). As a special case, if the
+ `length` is 0, its arity is also 0 instead of -1. A negative
+ arity value means that the function is variadic and may accept
+ any number of arguments, up to sqlite3's compile-time
+ limits. sqlite3 will enforce the argument count if is zero or
+ greater. The callback always receives a pointer to an
+ `sqlite3_context` object as its first argument. Any arguments
+ after that are from SQL code. The leading context argument does
+ _not_ count towards the function's arity. See the docs for
+ sqlite3.capi.sqlite3_create_function_v2() for why that argument
+ is needed in the interface.
+
+ The following options-object properties correspond to flags
+ documented at:
+
+ https://sqlite.org/c3ref/create_function.html
+
+ - `deterministic` = sqlite3.capi.SQLITE_DETERMINISTIC
+ - `directOnly` = sqlite3.capi.SQLITE_DIRECTONLY
+ - `innocuous` = sqlite3.capi.SQLITE_INNOCUOUS
+
+ Sidebar: the ability to add new WASM-accessible functions to
+ the runtime requires that the WASM build is compiled with the
+ equivalent functionality as that provided by Emscripten's
+ `-sALLOW_TABLE_GROWTH` flag.
+ */
+ createFunction: function f(name, xFunc, opt){
+ const isFunc = (f)=>(f instanceof Function);
+ switch(arguments.length){
+ case 1: /* (optionsObject) */
+ opt = name;
+ name = opt.name;
+ xFunc = opt.xFunc || 0;
+ break;
+ case 2: /* (name, callback|optionsObject) */
+ if(!isFunc(xFunc)){
+ opt = xFunc;
+ xFunc = opt.xFunc || 0;
+ }
+ break;
+ case 3: /* name, xFunc, opt */
+ break;
+ default: break;
+ }
+ if(!opt) opt = {};
+ if('string' !== typeof name){
+ toss3("Invalid arguments: missing function name.");
+ }
+ let xStep = opt.xStep || 0;
+ let xFinal = opt.xFinal || 0;
+ const xValue = opt.xValue || 0;
+ const xInverse = opt.xInverse || 0;
+ let isWindow = undefined;
+ if(isFunc(xFunc)){
+ isWindow = false;
+ if(isFunc(xStep) || isFunc(xFinal)){
+ toss3("Ambiguous arguments: scalar or aggregate?");
+ }
+ xStep = xFinal = null;
+ }else if(isFunc(xStep)){
+ if(!isFunc(xFinal)){
+ toss3("Missing xFinal() callback for aggregate or window UDF.");
+ }
+ xFunc = null;
+ }else if(isFunc(xFinal)){
+ toss3("Missing xStep() callback for aggregate or window UDF.");
+ }else{
+ toss3("Missing function-type properties.");
+ }
+ if(false === isWindow){
+ if(isFunc(xValue) || isFunc(xInverse)){
+ toss3("xValue and xInverse are not permitted for non-window UDFs.");
+ }
+ }else if(isFunc(xValue)){
+ if(!isFunc(xInverse)){
+ toss3("xInverse must be provided if xValue is.");
+ }
+ isWindow = true;
+ }else if(isFunc(xInverse)){
+ toss3("xValue must be provided if xInverse is.");
+ }
+ const pApp = opt.pApp;
+ if(undefined!==pApp &&
+ null!==pApp &&
+ (('number'!==typeof pApp) || !util.isInt32(pApp))){
+ toss3("Invalid value for pApp property. Must be a legal WASM pointer value.");
+ }
+ const xDestroy = opt.xDestroy || 0;
+ if(xDestroy && !isFunc(xDestroy)){
+ toss3("xDestroy property must be a function.");
+ }
+ let fFlags = 0 /*flags for sqlite3_create_function_v2()*/;
+ if(getOwnOption(opt, 'deterministic')) fFlags |= capi.SQLITE_DETERMINISTIC;
+ if(getOwnOption(opt, 'directOnly')) fFlags |= capi.SQLITE_DIRECTONLY;
+ if(getOwnOption(opt, 'innocuous')) fFlags |= capi.SQLITE_INNOCUOUS;
+ name = name.toLowerCase();
+ const xArity = xFunc || xStep;
+ const arity = getOwnOption(opt, 'arity');
+ const arityArg = ('number'===typeof arity
+ ? arity
+ : (xArity.length ? xArity.length-1/*for pCtx arg*/ : 0));
+ let rc;
+ if( isWindow ){
+ rc = capi.sqlite3_create_window_function(
+ this.pointer, name, arityArg,
+ capi.SQLITE_UTF8 | fFlags, pApp || 0,
+ xStep, xFinal, xValue, xInverse, xDestroy);
+ }else{
+ rc = capi.sqlite3_create_function_v2(
+ this.pointer, name, arityArg,
+ capi.SQLITE_UTF8 | fFlags, pApp || 0,
+ xFunc, xStep, xFinal, xDestroy);
+ }
+ DB.checkRc(this, rc);
+ return this;
+ }/*createFunction()*/,
+ /**
+ Prepares the given SQL, step()s it one time, and returns
+ the value of the first result column. If it has no results,
+ undefined is returned.
+
+ If passed a second argument, it is treated like an argument
+ to Stmt.bind(), so may be any type supported by that
+ function. Passing the undefined value is the same as passing
+ no value, which is useful when...
+
+ If passed a 3rd argument, it is expected to be one of the
+ SQLITE_{typename} constants. Passing the undefined value is
+ the same as not passing a value.
+
+ Throws on error (e.g. malformed SQL).
+ */
+ selectValue: function(sql,bind,asType){
+ let stmt, rc;
+ try {
+ stmt = this.prepare(sql).bind(bind);
+ if(stmt.step()) rc = stmt.get(0,asType);
+ }finally{
+ if(stmt) stmt.finalize();
+ }
+ return rc;
+ },
+ /**
+ Prepares the given SQL, step()s it one time, and returns an
+ array containing the values of the first result row. If it has
+ no results, `undefined` is returned.
+
+ If passed a second argument other than `undefined`, it is
+ treated like an argument to Stmt.bind(), so may be any type
+ supported by that function.
+
+ Throws on error (e.g. malformed SQL).
+ */
+ selectArray: function(sql,bind){
+ return __selectFirstRow(this, sql, bind, []);
+ },
+
+ /**
+ Prepares the given SQL, step()s it one time, and returns an
+ object containing the key/value pairs of the first result
+ row. If it has no results, `undefined` is returned.
+
+ Note that the order of returned object's keys is not guaranteed
+ to be the same as the order of the fields in the query string.
+
+ If passed a second argument other than `undefined`, it is
+ treated like an argument to Stmt.bind(), so may be any type
+ supported by that function.
+
+ Throws on error (e.g. malformed SQL).
+ */
+ selectObject: function(sql,bind){
+ return __selectFirstRow(this, sql, bind, {});
+ },
+
+ /**
+ Returns the number of currently-opened Stmt handles for this db
+ handle, or 0 if this DB instance is closed.
+ */
+ openStatementCount: function(){
+ return this.pointer ? Object.keys(__stmtMap.get(this)).length : 0;
+ },
+
+ /**
+ Starts a transaction, calls the given callback, and then either
+ rolls back or commits the savepoint, depending on whether the
+ callback throws. The callback is passed this db object as its
+ only argument. On success, returns the result of the
+ callback. Throws on error.
+
+ Note that transactions may not be nested, so this will throw if
+ it is called recursively. For nested transactions, use the
+ savepoint() method or manually manage SAVEPOINTs using exec().
+ */
+ transaction: function(callback){
+ affirmDbOpen(this).exec("BEGIN");
+ try {
+ const rc = callback(this);
+ this.exec("COMMIT");
+ return rc;
+ }catch(e){
+ this.exec("ROLLBACK");
+ throw e;
+ }
+ },
+
+ /**
+ This works similarly to transaction() but uses sqlite3's SAVEPOINT
+ feature. This function starts a savepoint (with an unspecified name)
+ and calls the given callback function, passing it this db object.
+ If the callback returns, the savepoint is released (committed). If
+ the callback throws, the savepoint is rolled back. If it does not
+ throw, it returns the result of the callback.
+ */
+ savepoint: function(callback){
+ affirmDbOpen(this).exec("SAVEPOINT oo1");
+ try {
+ const rc = callback(this);
+ this.exec("RELEASE oo1");
+ return rc;
+ }catch(e){
+ this.exec("ROLLBACK to SAVEPOINT oo1; RELEASE SAVEPOINT oo1");
+ throw e;
+ }
+ }
+ }/*DB.prototype*/;
+
+
+ /** Throws if the given Stmt has been finalized, else stmt is
+ returned. */
+ const affirmStmtOpen = function(stmt){
+ if(!stmt.pointer) toss3("Stmt has been closed.");
+ return stmt;
+ };
+
+ /** Returns an opaque truthy value from the BindTypes
+ enum if v's type is a valid bindable type, else
+ returns a falsy value. As a special case, a value of
+ undefined is treated as a bind type of null. */
+ const isSupportedBindType = function(v){
+ let t = BindTypes[(null===v||undefined===v) ? 'null' : typeof v];
+ switch(t){
+ case BindTypes.boolean:
+ case BindTypes.null:
+ case BindTypes.number:
+ case BindTypes.string:
+ return t;
+ case BindTypes.bigint:
+ if(wasm.bigIntEnabled) return t;
+ /* else fall through */
+ default:
+ //console.log("isSupportedBindType",t,v);
+ return util.isBindableTypedArray(v) ? BindTypes.blob : undefined;
+ }
+ };
+
+ /**
+ If isSupportedBindType(v) returns a truthy value, this
+ function returns that value, else it throws.
+ */
+ const affirmSupportedBindType = function(v){
+ //console.log('affirmSupportedBindType',v);
+ return isSupportedBindType(v) || toss3("Unsupported bind() argument type:",typeof v);
+ };
+
+ /**
+ If key is a number and within range of stmt's bound parameter
+ count, key is returned.
+
+ If key is not a number then it is checked against named
+ parameters. If a match is found, its index is returned.
+
+ Else it throws.
+ */
+ const affirmParamIndex = function(stmt,key){
+ const n = ('number'===typeof key)
+ ? key : capi.sqlite3_bind_parameter_index(stmt.pointer, key);
+ if(0===n || !util.isInt32(n)){
+ toss3("Invalid bind() parameter name: "+key);
+ }
+ else if(n<1 || n>stmt.parameterCount) toss3("Bind index",key,"is out of range.");
+ return n;
+ };
+
+ /**
+ If stmt._isLocked is truthy, this throws an exception
+ complaining that the 2nd argument (an operation name,
+ e.g. "bind()") is not legal while the statement is "locked".
+ Locking happens before an exec()-like callback is passed a
+ statement, to ensure that the callback does not mutate or
+ finalize the statement. If it does not throw, it returns stmt.
+ */
+ const affirmUnlocked = function(stmt,currentOpName){
+ if(stmt._isLocked){
+ toss3("Operation is illegal when statement is locked:",currentOpName);
+ }
+ return stmt;
+ };
+
+ /**
+ Binds a single bound parameter value on the given stmt at the
+ given index (numeric or named) using the given bindType (see
+ the BindTypes enum) and value. Throws on error. Returns stmt on
+ success.
+ */
+ const bindOne = function f(stmt,ndx,bindType,val){
+ affirmUnlocked(stmt, 'bind()');
+ if(!f._){
+ f._tooBigInt = (v)=>toss3(
+ "BigInt value is too big to store without precision loss:", v
+ );
+ /* Reminder: when not in BigInt mode, it's impossible for
+ JS to represent a number out of the range we can bind,
+ so we have no range checking. */
+ f._ = {
+ string: function(stmt, ndx, val, asBlob){
+ if(1){
+ /* _Hypothetically_ more efficient than the impl in the 'else' block. */
+ const stack = wasm.scopedAllocPush();
+ try{
+ const n = wasm.jstrlen(val);
+ const pStr = wasm.scopedAlloc(n);
+ wasm.jstrcpy(val, wasm.heap8u(), pStr, n, false);
+ const f = asBlob ? capi.sqlite3_bind_blob : capi.sqlite3_bind_text;
+ return f(stmt.pointer, ndx, pStr, n, capi.SQLITE_TRANSIENT);
+ }finally{
+ wasm.scopedAllocPop(stack);
+ }
+ }else{
+ const bytes = wasm.jstrToUintArray(val,false);
+ const pStr = wasm.alloc(bytes.length || 1);
+ wasm.heap8u().set(bytes.length ? bytes : [0], pStr);
+ try{
+ const f = asBlob ? capi.sqlite3_bind_blob : capi.sqlite3_bind_text;
+ return f(stmt.pointer, ndx, pStr, bytes.length, capi.SQLITE_TRANSIENT);
+ }finally{
+ wasm.dealloc(pStr);
+ }
+ }
+ }
+ };
+ }/* static init */
+ affirmSupportedBindType(val);
+ ndx = affirmParamIndex(stmt,ndx);
+ let rc = 0;
+ switch((null===val || undefined===val) ? BindTypes.null : bindType){
+ case BindTypes.null:
+ rc = capi.sqlite3_bind_null(stmt.pointer, ndx);
+ break;
+ case BindTypes.string:
+ rc = f._.string(stmt, ndx, val, false);
+ break;
+ case BindTypes.number: {
+ let m;
+ if(util.isInt32(val)) m = capi.sqlite3_bind_int;
+ else if('bigint'===typeof val){
+ if(!util.bigIntFits64(val)){
+ f._tooBigInt(val);
+ }else if(wasm.bigIntEnabled){
+ m = capi.sqlite3_bind_int64;
+ }else if(util.bigIntFitsDouble(val)){
+ val = Number(val);
+ m = capi.sqlite3_bind_double;
+ }else{
+ f._tooBigInt(val);
+ }
+ }else{ // !int32, !bigint
+ val = Number(val);
+ if(wasm.bigIntEnabled && Number.isInteger(val)){
+ m = capi.sqlite3_bind_int64;
+ }else{
+ m = capi.sqlite3_bind_double;
+ }
+ }
+ rc = m(stmt.pointer, ndx, val);
+ break;
+ }
+ case BindTypes.boolean:
+ rc = capi.sqlite3_bind_int(stmt.pointer, ndx, val ? 1 : 0);
+ break;
+ case BindTypes.blob: {
+ if('string'===typeof val){
+ rc = f._.string(stmt, ndx, val, true);
+ }else if(!util.isBindableTypedArray(val)){
+ toss3("Binding a value as a blob requires",
+ "that it be a string, Uint8Array, or Int8Array.");
+ }else if(1){
+ /* _Hypothetically_ more efficient than the impl in the 'else' block. */
+ const stack = wasm.scopedAllocPush();
+ try{
+ const pBlob = wasm.scopedAlloc(val.byteLength || 1);
+ wasm.heap8().set(val.byteLength ? val : [0], pBlob)
+ rc = capi.sqlite3_bind_blob(stmt.pointer, ndx, pBlob, val.byteLength,
+ capi.SQLITE_TRANSIENT);
+ }finally{
+ wasm.scopedAllocPop(stack);
+ }
+ }else{
+ const pBlob = wasm.allocFromTypedArray(val);
+ try{
+ rc = capi.sqlite3_bind_blob(stmt.pointer, ndx, pBlob, val.byteLength,
+ capi.SQLITE_TRANSIENT);
+ }finally{
+ wasm.dealloc(pBlob);
+ }
+ }
+ break;
+ }
+ default:
+ console.warn("Unsupported bind() argument type:",val);
+ toss3("Unsupported bind() argument type: "+(typeof val));
+ }
+ if(rc) DB.checkRc(stmt.db.pointer, rc);
+ return stmt;
+ };
+
+ Stmt.prototype = {
+ /**
+ "Finalizes" this statement. This is a no-op if the
+ statement has already been finalizes. Returns
+ undefined. Most methods in this class will throw if called
+ after this is.
+ */
+ finalize: function(){
+ if(this.pointer){
+ affirmUnlocked(this,'finalize()');
+ delete __stmtMap.get(this.db)[this.pointer];
+ capi.sqlite3_finalize(this.pointer);
+ __ptrMap.delete(this);
+ delete this._mayGet;
+ delete this.columnCount;
+ delete this.parameterCount;
+ delete this.db;
+ delete this._isLocked;
+ }
+ },
+ /** Clears all bound values. Returns this object.
+ Throws if this statement has been finalized. */
+ clearBindings: function(){
+ affirmUnlocked(affirmStmtOpen(this), 'clearBindings()')
+ capi.sqlite3_clear_bindings(this.pointer);
+ this._mayGet = false;
+ return this;
+ },
+ /**
+ Resets this statement so that it may be step()ed again
+ from the beginning. Returns this object. Throws if this
+ statement has been finalized.
+
+ If passed a truthy argument then this.clearBindings() is
+ also called, otherwise any existing bindings, along with
+ any memory allocated for them, are retained.
+ */
+ reset: function(alsoClearBinds){
+ affirmUnlocked(this,'reset()');
+ if(alsoClearBinds) this.clearBindings();
+ capi.sqlite3_reset(affirmStmtOpen(this).pointer);
+ this._mayGet = false;
+ return this;
+ },
+ /**
+ Binds one or more values to its bindable parameters. It
+ accepts 1 or 2 arguments:
+
+ If passed a single argument, it must be either an array, an
+ object, or a value of a bindable type (see below).
+
+ If passed 2 arguments, the first one is the 1-based bind
+ index or bindable parameter name and the second one must be
+ a value of a bindable type.
+
+ Bindable value types:
+
+ - null is bound as NULL.
+
+ - undefined as a standalone value is a no-op intended to
+ simplify certain client-side use cases: passing undefined as
+ a value to this function will not actually bind anything and
+ this function will skip confirmation that binding is even
+ legal. (Those semantics simplify certain client-side uses.)
+ Conversely, a value of undefined as an array or object
+ property when binding an array/object (see below) is treated
+ the same as null.
+
+ - Numbers are bound as either doubles or integers: doubles if
+ they are larger than 32 bits, else double or int32, depending
+ on whether they have a fractional part. Booleans are bound as
+ integer 0 or 1. It is not expected the distinction of binding
+ doubles which have no fractional parts is integers is
+ significant for the majority of clients due to sqlite3's data
+ typing model. If [BigInt] support is enabled then this
+ routine will bind BigInt values as 64-bit integers if they'll
+ fit in 64 bits. If that support disabled, it will store the
+ BigInt as an int32 or a double if it can do so without loss
+ of precision. If the BigInt is _too BigInt_ then it will
+ throw.
+
+ - Strings are bound as strings (use bindAsBlob() to force
+ blob binding).
+
+ - Uint8Array and Int8Array instances are bound as blobs.
+ (TODO: binding the other TypedArray types.)
+
+ If passed an array, each element of the array is bound at
+ the parameter index equal to the array index plus 1
+ (because arrays are 0-based but binding is 1-based).
+
+ If passed an object, each object key is treated as a
+ bindable parameter name. The object keys _must_ match any
+ bindable parameter names, including any `$`, `@`, or `:`
+ prefix. Because `$` is a legal identifier chararacter in
+ JavaScript, that is the suggested prefix for bindable
+ parameters: `stmt.bind({$a: 1, $b: 2})`.
+
+ It returns this object on success and throws on
+ error. Errors include:
+
+ - Any bind index is out of range, a named bind parameter
+ does not match, or this statement has no bindable
+ parameters.
+
+ - Any value to bind is of an unsupported type.
+
+ - Passed no arguments or more than two.
+
+ - The statement has been finalized.
+ */
+ bind: function(/*[ndx,] arg*/){
+ affirmStmtOpen(this);
+ let ndx, arg;
+ switch(arguments.length){
+ case 1: ndx = 1; arg = arguments[0]; break;
+ case 2: ndx = arguments[0]; arg = arguments[1]; break;
+ default: toss3("Invalid bind() arguments.");
+ }
+ if(undefined===arg){
+ /* It might seem intuitive to bind undefined as NULL
+ but this approach simplifies certain client-side
+ uses when passing on arguments between 2+ levels of
+ functions. */
+ return this;
+ }else if(!this.parameterCount){
+ toss3("This statement has no bindable parameters.");
+ }
+ this._mayGet = false;
+ if(null===arg){
+ /* bind NULL */
+ return bindOne(this, ndx, BindTypes.null, arg);
+ }
+ else if(Array.isArray(arg)){
+ /* bind each entry by index */
+ if(1!==arguments.length){
+ toss3("When binding an array, an index argument is not permitted.");
+ }
+ arg.forEach((v,i)=>bindOne(this, i+1, affirmSupportedBindType(v), v));
+ return this;
+ }
+ else if('object'===typeof arg/*null was checked above*/
+ && !util.isBindableTypedArray(arg)){
+ /* Treat each property of arg as a named bound parameter. */
+ if(1!==arguments.length){
+ toss3("When binding an object, an index argument is not permitted.");
+ }
+ Object.keys(arg)
+ .forEach(k=>bindOne(this, k,
+ affirmSupportedBindType(arg[k]),
+ arg[k]));
+ return this;
+ }else{
+ return bindOne(this, ndx, affirmSupportedBindType(arg), arg);
+ }
+ toss3("Should not reach this point.");
+ },
+ /**
+ Special case of bind() which binds the given value using the
+ BLOB binding mechanism instead of the default selected one for
+ the value. The ndx may be a numbered or named bind index. The
+ value must be of type string, null/undefined (both get treated
+ as null), or a TypedArray of a type supported by the bind()
+ API.
+
+ If passed a single argument, a bind index of 1 is assumed and
+ the first argument is the value.
+ */
+ bindAsBlob: function(ndx,arg){
+ affirmStmtOpen(this);
+ if(1===arguments.length){
+ arg = ndx;
+ ndx = 1;
+ }
+ const t = affirmSupportedBindType(arg);
+ if(BindTypes.string !== t && BindTypes.blob !== t
+ && BindTypes.null !== t){
+ toss3("Invalid value type for bindAsBlob()");
+ }
+ bindOne(this, ndx, BindTypes.blob, arg);
+ this._mayGet = false;
+ return this;
+ },
+ /**
+ Steps the statement one time. If the result indicates that a
+ row of data is available, a truthy value is returned.
+ If no row of data is available, a falsy
+ value is returned. Throws on error.
+ */
+ step: function(){
+ affirmUnlocked(this, 'step()');
+ const rc = capi.sqlite3_step(affirmStmtOpen(this).pointer);
+ switch(rc){
+ case capi.SQLITE_DONE: return this._mayGet = false;
+ case capi.SQLITE_ROW: return this._mayGet = true;
+ default:
+ this._mayGet = false;
+ console.warn("sqlite3_step() rc=",rc,
+ capi.sqlite3_js_rc_str(rc),
+ "SQL =", capi.sqlite3_sql(this.pointer));
+ DB.checkRc(this.db.pointer, rc);
+ }
+ },
+ /**
+ Functions exactly like step() except that...
+
+ 1) On success, it calls this.reset() and returns this object.
+ 2) On error, it throws and does not call reset().
+
+ This is intended to simplify constructs like:
+
+ ```
+ for(...) {
+ stmt.bind(...).stepReset();
+ }
+ ```
+
+ Note that the reset() call makes it illegal to call this.get()
+ after the step.
+ */
+ stepReset: function(){
+ this.step();
+ return this.reset();
+ },
+ /**
+ Functions like step() except that it finalizes this statement
+ immediately after stepping unless the step cannot be performed
+ because the statement is locked. Throws on error, but any error
+ other than the statement-is-locked case will also trigger
+ finalization of this statement.
+
+ On success, it returns true if the step indicated that a row of
+ data was available, else it returns false.
+
+ This is intended to simplify use cases such as:
+
+ ```
+ aDb.prepare("insert into foo(a) values(?)").bind(123).stepFinalize();
+ ```
+ */
+ stepFinalize: function(){
+ const rc = this.step();
+ this.finalize();
+ return rc;
+ },
+ /**
+ Fetches the value from the given 0-based column index of
+ the current data row, throwing if index is out of range.
+
+ Requires that step() has just returned a truthy value, else
+ an exception is thrown.
+
+ By default it will determine the data type of the result
+ automatically. If passed a second arugment, it must be one
+ of the enumeration values for sqlite3 types, which are
+ defined as members of the sqlite3 module: SQLITE_INTEGER,
+ SQLITE_FLOAT, SQLITE_TEXT, SQLITE_BLOB. Any other value,
+ except for undefined, will trigger an exception. Passing
+ undefined is the same as not passing a value. It is legal
+ to, e.g., fetch an integer value as a string, in which case
+ sqlite3 will convert the value to a string.
+
+ If ndx is an array, this function behaves a differently: it
+ assigns the indexes of the array, from 0 to the number of
+ result columns, to the values of the corresponding column,
+ and returns that array.
+
+ If ndx is a plain object, this function behaves even
+ differentlier: it assigns the properties of the object to
+ the values of their corresponding result columns.
+
+ Blobs are returned as Uint8Array instances.
+
+ Potential TODO: add type ID SQLITE_JSON, which fetches the
+ result as a string and passes it (if it's not null) to
+ JSON.parse(), returning the result of that. Until then,
+ getJSON() can be used for that.
+ */
+ get: function(ndx,asType){
+ if(!affirmStmtOpen(this)._mayGet){
+ toss3("Stmt.step() has not (recently) returned true.");
+ }
+ if(Array.isArray(ndx)){
+ let i = 0;
+ while(i<this.columnCount){
+ ndx[i] = this.get(i++);
+ }
+ return ndx;
+ }else if(ndx && 'object'===typeof ndx){
+ let i = 0;
+ while(i<this.columnCount){
+ ndx[capi.sqlite3_column_name(this.pointer,i)] = this.get(i++);
+ }
+ return ndx;
+ }
+ affirmColIndex(this, ndx);
+ switch(undefined===asType
+ ? capi.sqlite3_column_type(this.pointer, ndx)
+ : asType){
+ case capi.SQLITE_NULL: return null;
+ case capi.SQLITE_INTEGER:{
+ if(wasm.bigIntEnabled){
+ const rc = capi.sqlite3_column_int64(this.pointer, ndx);
+ if(rc>=Number.MIN_SAFE_INTEGER && rc<=Number.MAX_SAFE_INTEGER){
+ /* Coerce "normal" number ranges to normal number values,
+ and only return BigInt-type values for numbers out of this
+ range. */
+ return Number(rc).valueOf();
+ }
+ return rc;
+ }else{
+ const rc = capi.sqlite3_column_double(this.pointer, ndx);
+ if(rc>Number.MAX_SAFE_INTEGER || rc<Number.MIN_SAFE_INTEGER){
+ /* Throwing here is arguable but, since we're explicitly
+ extracting an SQLITE_INTEGER-type value, it seems fair to throw
+ if the extracted number is out of range for that type.
+ This policy may be laxened to simply pass on the number and
+ hope for the best, as the C API would do. */
+ toss3("Integer is out of range for JS integer range: "+rc);
+ }
+ //console.log("get integer rc=",rc,isInt32(rc));
+ return util.isInt32(rc) ? (rc | 0) : rc;
+ }
+ }
+ case capi.SQLITE_FLOAT:
+ return capi.sqlite3_column_double(this.pointer, ndx);
+ case capi.SQLITE_TEXT:
+ return capi.sqlite3_column_text(this.pointer, ndx);
+ case capi.SQLITE_BLOB: {
+ const n = capi.sqlite3_column_bytes(this.pointer, ndx),
+ ptr = capi.sqlite3_column_blob(this.pointer, ndx),
+ rc = new Uint8Array(n);
+ //heap = n ? wasm.heap8() : false;
+ if(n) rc.set(wasm.heap8u().slice(ptr, ptr+n), 0);
+ //for(let i = 0; i < n; ++i) rc[i] = heap[ptr + i];
+ if(n && this.db._blobXfer instanceof Array){
+ /* This is an optimization soley for the
+ Worker-based API. These values will be
+ transfered to the main thread directly
+ instead of being copied. */
+ this.db._blobXfer.push(rc.buffer);
+ }
+ return rc;
+ }
+ default: toss3("Don't know how to translate",
+ "type of result column #"+ndx+".");
+ }
+ toss3("Not reached.");
+ },
+ /** Equivalent to get(ndx) but coerces the result to an
+ integer. */
+ getInt: function(ndx){return this.get(ndx,capi.SQLITE_INTEGER)},
+ /** Equivalent to get(ndx) but coerces the result to a
+ float. */
+ getFloat: function(ndx){return this.get(ndx,capi.SQLITE_FLOAT)},
+ /** Equivalent to get(ndx) but coerces the result to a
+ string. */
+ getString: function(ndx){return this.get(ndx,capi.SQLITE_TEXT)},
+ /** Equivalent to get(ndx) but coerces the result to a
+ Uint8Array. */
+ getBlob: function(ndx){return this.get(ndx,capi.SQLITE_BLOB)},
+ /**
+ A convenience wrapper around get() which fetches the value
+ as a string and then, if it is not null, passes it to
+ JSON.parse(), returning that result. Throws if parsing
+ fails. If the result is null, null is returned. An empty
+ string, on the other hand, will trigger an exception.
+ */
+ getJSON: function(ndx){
+ const s = this.get(ndx, capi.SQLITE_STRING);
+ return null===s ? s : JSON.parse(s);
+ },
+ // Design note: the only reason most of these getters have a 'get'
+ // prefix is for consistency with getVALUE_TYPE(). The latter
+ // arguably really need that prefix for API readability and the
+ // rest arguably don't, but consistency is a powerful thing.
+ /**
+ Returns the result column name of the given index, or
+ throws if index is out of bounds or this statement has been
+ finalized. This can be used without having run step()
+ first.
+ */
+ getColumnName: function(ndx){
+ return capi.sqlite3_column_name(
+ affirmColIndex(affirmStmtOpen(this),ndx).pointer, ndx
+ );
+ },
+ /**
+ If this statement potentially has result columns, this
+ function returns an array of all such names. If passed an
+ array, it is used as the target and all names are appended
+ to it. Returns the target array. Throws if this statement
+ cannot have result columns. This object's columnCount member
+ holds the number of columns.
+ */
+ getColumnNames: function(tgt=[]){
+ affirmColIndex(affirmStmtOpen(this),0);
+ for(let i = 0; i < this.columnCount; ++i){
+ tgt.push(capi.sqlite3_column_name(this.pointer, i));
+ }
+ return tgt;
+ },
+ /**
+ If this statement has named bindable parameters and the
+ given name matches one, its 1-based bind index is
+ returned. If no match is found, 0 is returned. If it has no
+ bindable parameters, the undefined value is returned.
+ */
+ getParamIndex: function(name){
+ return (affirmStmtOpen(this).parameterCount
+ ? capi.sqlite3_bind_parameter_index(this.pointer, name)
+ : undefined);
+ }
+ }/*Stmt.prototype*/;
+
+ {/* Add the `pointer` property to DB and Stmt. */
+ const prop = {
+ enumerable: true,
+ get: function(){return __ptrMap.get(this)},
+ set: ()=>toss3("The pointer property is read-only.")
+ }
+ Object.defineProperty(Stmt.prototype, 'pointer', prop);
+ Object.defineProperty(DB.prototype, 'pointer', prop);
+ }
+
+ /** The OO API's public namespace. */
+ sqlite3.oo1 = {
+ version: {
+ lib: capi.sqlite3_libversion(),
+ ooApi: "0.1"
+ },
+ DB,
+ Stmt
+ }/*oo1 object*/;
+
+ if(util.isUIThread()){
+ /**
+ Functionally equivalent to DB(storageName,'c','kvvfs') except
+ that it throws if the given storage name is not one of 'local'
+ or 'session'.
+ */
+ sqlite3.oo1.JsStorageDb = function(storageName='session'){
+ if('session'!==storageName && 'local'!==storageName){
+ toss3("JsStorageDb db name must be one of 'session' or 'local'.");
+ }
+ dbCtorHelper.call(this, {
+ filename: storageName,
+ flags: 'c',
+ vfs: "kvvfs"
+ });
+ };
+ const jdb = sqlite3.oo1.JsStorageDb;
+ jdb.prototype = Object.create(DB.prototype);
+ /** Equivalent to sqlite3_js_kvvfs_clear(). */
+ jdb.clearStorage = capi.sqlite3_js_kvvfs_clear;
+ /**
+ Clears this database instance's storage or throws if this
+ instance has been closed. Returns the number of
+ database blocks which were cleaned up.
+ */
+ jdb.prototype.clearStorage = function(){
+ return jdb.clearStorage(affirmDbOpen(this).filename);
+ };
+ /** Equivalent to sqlite3_js_kvvfs_size(). */
+ jdb.storageSize = capi.sqlite3_js_kvvfs_size;
+ /**
+ Returns the _approximate_ number of bytes this database takes
+ up in its storage or throws if this instance has been closed.
+ */
+ jdb.prototype.storageSize = function(){
+ return jdb.storageSize(affirmDbOpen(this).filename);
+ };
+ }/*main-window-only bits*/
+
+});
+
diff --git a/ext/wasm/api/sqlite3-api-opfs.js b/ext/wasm/api/sqlite3-api-opfs.js
new file mode 100644
index 0000000..da5496f
--- /dev/null
+++ b/ext/wasm/api/sqlite3-api-opfs.js
@@ -0,0 +1,1311 @@
+/*
+ 2022-09-18
+
+ The author disclaims copyright to this source code. In place of a
+ legal notice, here is a blessing:
+
+ * May you do good and not evil.
+ * May you find forgiveness for yourself and forgive others.
+ * May you share freely, never taking more than you give.
+
+ ***********************************************************************
+
+ This file holds the synchronous half of an sqlite3_vfs
+ implementation which proxies, in a synchronous fashion, the
+ asynchronous Origin-Private FileSystem (OPFS) APIs using a second
+ Worker, implemented in sqlite3-opfs-async-proxy.js. This file is
+ intended to be appended to the main sqlite3 JS deliverable somewhere
+ after sqlite3-api-oo1.js and before sqlite3-api-cleanup.js.
+*/
+'use strict';
+self.sqlite3ApiBootstrap.initializers.push(function(sqlite3){
+/**
+ installOpfsVfs() returns a Promise which, on success, installs an
+ sqlite3_vfs named "opfs", suitable for use with all sqlite3 APIs
+ which accept a VFS. It is intended to be called via
+ sqlite3ApiBootstrap.initializersAsync or an equivalent mechanism.
+
+ The installed VFS uses the Origin-Private FileSystem API for
+ all file storage. On error it is rejected with an exception
+ explaining the problem. Reasons for rejection include, but are
+ not limited to:
+
+ - The counterpart Worker (see below) could not be loaded.
+
+ - The environment does not support OPFS. That includes when
+ this function is called from the main window thread.
+
+ Significant notes and limitations:
+
+ - As of this writing, OPFS is still very much in flux and only
+ available in bleeding-edge versions of Chrome (v102+, noting that
+ that number will increase as the OPFS API matures).
+
+ - The OPFS features used here are only available in dedicated Worker
+ threads. This file tries to detect that case, resulting in a
+ rejected Promise if those features do not seem to be available.
+
+ - It requires the SharedArrayBuffer and Atomics classes, and the
+ former is only available if the HTTP server emits the so-called
+ COOP and COEP response headers. These features are required for
+ proxying OPFS's synchronous API via the synchronous interface
+ required by the sqlite3_vfs API.
+
+ - This function may only be called a single time. When called, this
+ function removes itself from the sqlite3 object.
+
+ All arguments to this function are for internal/development purposes
+ only. They do not constitute a public API and may change at any
+ time.
+
+ The argument may optionally be a plain object with the following
+ configuration options:
+
+ - proxyUri: as described above
+
+ - verbose (=2): an integer 0-3. 0 disables all logging, 1 enables
+ logging of errors. 2 enables logging of warnings and errors. 3
+ additionally enables debugging info.
+
+ - sanityChecks (=false): if true, some basic sanity tests are
+ run on the OPFS VFS API after it's initialized, before the
+ returned Promise resolves.
+
+ On success, the Promise resolves to the top-most sqlite3 namespace
+ object and that object gets a new object installed in its
+ `opfs` property, containing several OPFS-specific utilities.
+*/
+const installOpfsVfs = function callee(options){
+ if(!self.SharedArrayBuffer ||
+ !self.Atomics ||
+ !self.FileSystemHandle ||
+ !self.FileSystemDirectoryHandle ||
+ !self.FileSystemFileHandle ||
+ !self.FileSystemFileHandle.prototype.createSyncAccessHandle ||
+ !navigator.storage.getDirectory){
+ return Promise.reject(
+ new Error("This environment does not have OPFS support.")
+ );
+ }
+ if(!options || 'object'!==typeof options){
+ options = Object.create(null);
+ }
+ const urlParams = new URL(self.location.href).searchParams;
+ if(undefined===options.verbose){
+ options.verbose = urlParams.has('opfs-verbose') ? 3 : 2;
+ }
+ if(undefined===options.sanityChecks){
+ options.sanityChecks = urlParams.has('opfs-sanity-check');
+ }
+ if(undefined===options.proxyUri){
+ options.proxyUri = callee.defaultProxyUri;
+ }
+
+ if('function' === typeof options.proxyUri){
+ options.proxyUri = options.proxyUri();
+ }
+ const thePromise = new Promise(function(promiseResolve, promiseReject_){
+ const loggers = {
+ 0:console.error.bind(console),
+ 1:console.warn.bind(console),
+ 2:console.log.bind(console)
+ };
+ const logImpl = (level,...args)=>{
+ if(options.verbose>level) loggers[level]("OPFS syncer:",...args);
+ };
+ const log = (...args)=>logImpl(2, ...args);
+ const warn = (...args)=>logImpl(1, ...args);
+ const error = (...args)=>logImpl(0, ...args);
+ const toss = function(...args){throw new Error(args.join(' '))};
+ const capi = sqlite3.capi;
+ const wasm = sqlite3.wasm;
+ const sqlite3_vfs = capi.sqlite3_vfs;
+ const sqlite3_file = capi.sqlite3_file;
+ const sqlite3_io_methods = capi.sqlite3_io_methods;
+ /**
+ Generic utilities for working with OPFS. This will get filled out
+ by the Promise setup and, on success, installed as sqlite3.opfs.
+ */
+ const opfsUtil = Object.create(null);
+ /**
+ Not part of the public API. Solely for internal/development
+ use.
+ */
+ opfsUtil.metrics = {
+ dump: function(){
+ let k, n = 0, t = 0, w = 0;
+ for(k in state.opIds){
+ const m = metrics[k];
+ n += m.count;
+ t += m.time;
+ w += m.wait;
+ m.avgTime = (m.count && m.time) ? (m.time / m.count) : 0;
+ m.avgWait = (m.count && m.wait) ? (m.wait / m.count) : 0;
+ }
+ console.log(self.location.href,
+ "metrics for",self.location.href,":",metrics,
+ "\nTotal of",n,"op(s) for",t,
+ "ms (incl. "+w+" ms of waiting on the async side)");
+ console.log("Serialization metrics:",metrics.s11n);
+ W.postMessage({type:'opfs-async-metrics'});
+ },
+ reset: function(){
+ let k;
+ const r = (m)=>(m.count = m.time = m.wait = 0);
+ for(k in state.opIds){
+ r(metrics[k] = Object.create(null));
+ }
+ let s = metrics.s11n = Object.create(null);
+ s = s.serialize = Object.create(null);
+ s.count = s.time = 0;
+ s = metrics.s11n.deserialize = Object.create(null);
+ s.count = s.time = 0;
+ }
+ }/*metrics*/;
+ const promiseReject = function(err){
+ opfsVfs.dispose();
+ return promiseReject_(err);
+ };
+ const W = new Worker(options.proxyUri);
+ W._originalOnError = W.onerror /* will be restored later */;
+ W.onerror = function(err){
+ // The error object doesn't contain any useful info when the
+ // failure is, e.g., that the remote script is 404.
+ error("Error initializing OPFS asyncer:",err);
+ promiseReject(new Error("Loading OPFS async Worker failed for unknown reasons."));
+ };
+ const pDVfs = capi.sqlite3_vfs_find(null)/*pointer to default VFS*/;
+ const dVfs = pDVfs
+ ? new sqlite3_vfs(pDVfs)
+ : null /* dVfs will be null when sqlite3 is built with
+ SQLITE_OS_OTHER. Though we cannot currently handle
+ that case, the hope is to eventually be able to. */;
+ const opfsVfs = new sqlite3_vfs();
+ const opfsIoMethods = new sqlite3_io_methods();
+ opfsVfs.$iVersion = 2/*yes, two*/;
+ opfsVfs.$szOsFile = capi.sqlite3_file.structInfo.sizeof;
+ opfsVfs.$mxPathname = 1024/*sure, why not?*/;
+ opfsVfs.$zName = wasm.allocCString("opfs");
+ // All C-side memory of opfsVfs is zeroed out, but just to be explicit:
+ opfsVfs.$xDlOpen = opfsVfs.$xDlError = opfsVfs.$xDlSym = opfsVfs.$xDlClose = null;
+ opfsVfs.ondispose = [
+ '$zName', opfsVfs.$zName,
+ 'cleanup default VFS wrapper', ()=>(dVfs ? dVfs.dispose() : null),
+ 'cleanup opfsIoMethods', ()=>opfsIoMethods.dispose()
+ ];
+ /**
+ Pedantic sidebar about opfsVfs.ondispose: the entries in that array
+ are items to clean up when opfsVfs.dispose() is called, but in this
+ environment it will never be called. The VFS instance simply
+ hangs around until the WASM module instance is cleaned up. We
+ "could" _hypothetically_ clean it up by "importing" an
+ sqlite3_os_end() impl into the wasm build, but the shutdown order
+ of the wasm engine and the JS one are undefined so there is no
+ guaranty that the opfsVfs instance would be available in one
+ environment or the other when sqlite3_os_end() is called (_if_ it
+ gets called at all in a wasm build, which is undefined).
+ */
+ /**
+ State which we send to the async-api Worker or share with it.
+ This object must initially contain only cloneable or sharable
+ objects. After the worker's "inited" message arrives, other types
+ of data may be added to it.
+
+ For purposes of Atomics.wait() and Atomics.notify(), we use a
+ SharedArrayBuffer with one slot reserved for each of the API
+ proxy's methods. The sync side of the API uses Atomics.wait()
+ on the corresponding slot and the async side uses
+ Atomics.notify() on that slot.
+
+ The approach of using a single SAB to serialize comms for all
+ instances might(?) lead to deadlock situations in multi-db
+ cases. We should probably have one SAB here with a single slot
+ for locking a per-file initialization step and then allocate a
+ separate SAB like the above one for each file. That will
+ require a bit of acrobatics but should be feasible. The most
+ problematic part is that xOpen() would have to use
+ postMessage() to communicate its SharedArrayBuffer, and mixing
+ that approach with Atomics.wait/notify() gets a bit messy.
+ */
+ const state = Object.create(null);
+ state.verbose = options.verbose;
+ state.littleEndian = (()=>{
+ const buffer = new ArrayBuffer(2);
+ new DataView(buffer).setInt16(0, 256, true /* ==>littleEndian */);
+ // Int16Array uses the platform's endianness.
+ return new Int16Array(buffer)[0] === 256;
+ })();
+ /**
+ Whether the async counterpart should log exceptions to
+ the serialization channel. That produces a great deal of
+ noise for seemingly innocuous things like xAccess() checks
+ for missing files, so this option may have one of 3 values:
+
+ 0 = no exception logging
+
+ 1 = only log exceptions for "significant" ops like xOpen(),
+ xRead(), and xWrite().
+
+ 2 = log all exceptions.
+ */
+ state.asyncS11nExceptions = 1;
+ /* Size of file I/O buffer block. 64k = max sqlite3 page size, and
+ xRead/xWrite() will never deal in blocks larger than that. */
+ state.fileBufferSize = 1024 * 64;
+ state.sabS11nOffset = state.fileBufferSize;
+ /**
+ The size of the block in our SAB for serializing arguments and
+ result values. Needs to be large enough to hold serialized
+ values of any of the proxied APIs. Filenames are the largest
+ part but are limited to opfsVfs.$mxPathname bytes.
+ */
+ state.sabS11nSize = opfsVfs.$mxPathname * 2;
+ /**
+ The SAB used for all data I/O between the synchronous and
+ async halves (file i/o and arg/result s11n).
+ */
+ state.sabIO = new SharedArrayBuffer(
+ state.fileBufferSize/* file i/o block */
+ + state.sabS11nSize/* argument/result serialization block */
+ );
+ state.opIds = Object.create(null);
+ const metrics = Object.create(null);
+ {
+ /* Indexes for use in our SharedArrayBuffer... */
+ let i = 0;
+ /* SAB slot used to communicate which operation is desired
+ between both workers. This worker writes to it and the other
+ listens for changes. */
+ state.opIds.whichOp = i++;
+ /* Slot for storing return values. This worker listens to that
+ slot and the other worker writes to it. */
+ state.opIds.rc = i++;
+ /* Each function gets an ID which this worker writes to
+ the whichOp slot. The async-api worker uses Atomic.wait()
+ on the whichOp slot to figure out which operation to run
+ next. */
+ state.opIds.xAccess = i++;
+ state.opIds.xClose = i++;
+ state.opIds.xDelete = i++;
+ state.opIds.xDeleteNoWait = i++;
+ state.opIds.xFileControl = i++;
+ state.opIds.xFileSize = i++;
+ state.opIds.xLock = i++;
+ state.opIds.xOpen = i++;
+ state.opIds.xRead = i++;
+ state.opIds.xSleep = i++;
+ state.opIds.xSync = i++;
+ state.opIds.xTruncate = i++;
+ state.opIds.xUnlock = i++;
+ state.opIds.xWrite = i++;
+ state.opIds.mkdir = i++;
+ state.opIds['opfs-async-metrics'] = i++;
+ state.opIds['opfs-async-shutdown'] = i++;
+ /* The retry slot is used by the async part for wait-and-retry
+ semantics. Though we could hypothetically use the xSleep slot
+ for that, doing so might lead to undesired side effects. */
+ state.opIds.retry = i++;
+ state.sabOP = new SharedArrayBuffer(
+ i * 4/* ==sizeof int32, noting that Atomics.wait() and friends
+ can only function on Int32Array views of an SAB. */);
+ opfsUtil.metrics.reset();
+ }
+ /**
+ SQLITE_xxx constants to export to the async worker
+ counterpart...
+ */
+ state.sq3Codes = Object.create(null);
+ [
+ 'SQLITE_ACCESS_EXISTS',
+ 'SQLITE_ACCESS_READWRITE',
+ 'SQLITE_ERROR',
+ 'SQLITE_IOERR',
+ 'SQLITE_IOERR_ACCESS',
+ 'SQLITE_IOERR_CLOSE',
+ 'SQLITE_IOERR_DELETE',
+ 'SQLITE_IOERR_FSYNC',
+ 'SQLITE_IOERR_LOCK',
+ 'SQLITE_IOERR_READ',
+ 'SQLITE_IOERR_SHORT_READ',
+ 'SQLITE_IOERR_TRUNCATE',
+ 'SQLITE_IOERR_UNLOCK',
+ 'SQLITE_IOERR_WRITE',
+ 'SQLITE_LOCK_EXCLUSIVE',
+ 'SQLITE_LOCK_NONE',
+ 'SQLITE_LOCK_PENDING',
+ 'SQLITE_LOCK_RESERVED',
+ 'SQLITE_LOCK_SHARED',
+ 'SQLITE_MISUSE',
+ 'SQLITE_NOTFOUND',
+ 'SQLITE_OPEN_CREATE',
+ 'SQLITE_OPEN_DELETEONCLOSE',
+ 'SQLITE_OPEN_READONLY'
+ ].forEach((k)=>{
+ if(undefined === (state.sq3Codes[k] = capi[k])){
+ toss("Maintenance required: not found:",k);
+ }
+ });
+
+ /**
+ Runs the given operation (by name) in the async worker
+ counterpart, waits for its response, and returns the result
+ which the async worker writes to SAB[state.opIds.rc]. The
+ 2nd and subsequent arguments must be the aruguments for the
+ async op.
+ */
+ const opRun = (op,...args)=>{
+ const opNdx = state.opIds[op] || toss("Invalid op ID:",op);
+ state.s11n.serialize(...args);
+ Atomics.store(state.sabOPView, state.opIds.rc, -1);
+ Atomics.store(state.sabOPView, state.opIds.whichOp, opNdx);
+ Atomics.notify(state.sabOPView, state.opIds.whichOp)
+ /* async thread will take over here */;
+ const t = performance.now();
+ Atomics.wait(state.sabOPView, state.opIds.rc, -1)
+ /* When this wait() call returns, the async half will have
+ completed the operation and reported its results. */;
+ const rc = Atomics.load(state.sabOPView, state.opIds.rc);
+ metrics[op].wait += performance.now() - t;
+ if(rc && state.asyncS11nExceptions){
+ const err = state.s11n.deserialize();
+ if(err) error(op+"() async error:",...err);
+ }
+ return rc;
+ };
+
+ /**
+ Not part of the public API. Only for test/development use.
+ */
+ opfsUtil.debug = {
+ asyncShutdown: ()=>{
+ warn("Shutting down OPFS async listener. The OPFS VFS will no longer work.");
+ opRun('opfs-async-shutdown');
+ },
+ asyncRestart: ()=>{
+ warn("Attempting to restart OPFS VFS async listener. Might work, might not.");
+ W.postMessage({type: 'opfs-async-restart'});
+ }
+ };
+
+ const initS11n = ()=>{
+ /**
+ !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
+ ACHTUNG: this code is 100% duplicated in the other half of
+ this proxy! The documentation is maintained in the
+ "synchronous half".
+ !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
+
+ This proxy de/serializes cross-thread function arguments and
+ output-pointer values via the state.sabIO SharedArrayBuffer,
+ using the region defined by (state.sabS11nOffset,
+ state.sabS11nOffset]. Only one dataset is recorded at a time.
+
+ This is not a general-purpose format. It only supports the
+ range of operations, and data sizes, needed by the
+ sqlite3_vfs and sqlite3_io_methods operations. Serialized
+ data are transient and this serialization algorithm may
+ change at any time.
+
+ The data format can be succinctly summarized as:
+
+ Nt...Td...D
+
+ Where:
+
+ - N = number of entries (1 byte)
+
+ - t = type ID of first argument (1 byte)
+
+ - ...T = type IDs of the 2nd and subsequent arguments (1 byte
+ each).
+
+ - d = raw bytes of first argument (per-type size).
+
+ - ...D = raw bytes of the 2nd and subsequent arguments (per-type
+ size).
+
+ All types except strings have fixed sizes. Strings are stored
+ using their TextEncoder/TextDecoder representations. It would
+ arguably make more sense to store them as Int16Arrays of
+ their JS character values, but how best/fastest to get that
+ in and out of string form is an open point. Initial
+ experimentation with that approach did not gain us any speed.
+
+ Historical note: this impl was initially about 1% this size by
+ using using JSON.stringify/parse(), but using fit-to-purpose
+ serialization saves considerable runtime.
+ */
+ if(state.s11n) return state.s11n;
+ const textDecoder = new TextDecoder(),
+ textEncoder = new TextEncoder('utf-8'),
+ viewU8 = new Uint8Array(state.sabIO, state.sabS11nOffset, state.sabS11nSize),
+ viewDV = new DataView(state.sabIO, state.sabS11nOffset, state.sabS11nSize);
+ state.s11n = Object.create(null);
+ /* Only arguments and return values of these types may be
+ serialized. This covers the whole range of types needed by the
+ sqlite3_vfs API. */
+ const TypeIds = Object.create(null);
+ TypeIds.number = { id: 1, size: 8, getter: 'getFloat64', setter: 'setFloat64' };
+ TypeIds.bigint = { id: 2, size: 8, getter: 'getBigInt64', setter: 'setBigInt64' };
+ TypeIds.boolean = { id: 3, size: 4, getter: 'getInt32', setter: 'setInt32' };
+ TypeIds.string = { id: 4 };
+
+ const getTypeId = (v)=>(
+ TypeIds[typeof v]
+ || toss("Maintenance required: this value type cannot be serialized.",v)
+ );
+ const getTypeIdById = (tid)=>{
+ switch(tid){
+ case TypeIds.number.id: return TypeIds.number;
+ case TypeIds.bigint.id: return TypeIds.bigint;
+ case TypeIds.boolean.id: return TypeIds.boolean;
+ case TypeIds.string.id: return TypeIds.string;
+ default: toss("Invalid type ID:",tid);
+ }
+ };
+
+ /**
+ Returns an array of the deserialized state stored by the most
+ recent serialize() operation (from from this thread or the
+ counterpart thread), or null if the serialization buffer is
+ empty. If passed a truthy argument, the serialization buffer
+ is cleared after deserialization.
+ */
+ state.s11n.deserialize = function(clear=false){
+ ++metrics.s11n.deserialize.count;
+ const t = performance.now();
+ const argc = viewU8[0];
+ const rc = argc ? [] : null;
+ if(argc){
+ const typeIds = [];
+ let offset = 1, i, n, v;
+ for(i = 0; i < argc; ++i, ++offset){
+ typeIds.push(getTypeIdById(viewU8[offset]));
+ }
+ for(i = 0; i < argc; ++i){
+ const t = typeIds[i];
+ if(t.getter){
+ v = viewDV[t.getter](offset, state.littleEndian);
+ offset += t.size;
+ }else{/*String*/
+ n = viewDV.getInt32(offset, state.littleEndian);
+ offset += 4;
+ v = textDecoder.decode(viewU8.slice(offset, offset+n));
+ offset += n;
+ }
+ rc.push(v);
+ }
+ }
+ if(clear) viewU8[0] = 0;
+ //log("deserialize:",argc, rc);
+ metrics.s11n.deserialize.time += performance.now() - t;
+ return rc;
+ };
+
+ /**
+ Serializes all arguments to the shared buffer for consumption
+ by the counterpart thread.
+
+ This routine is only intended for serializing OPFS VFS
+ arguments and (in at least one special case) result values,
+ and the buffer is sized to be able to comfortably handle
+ those.
+
+ If passed no arguments then it zeroes out the serialization
+ state.
+ */
+ state.s11n.serialize = function(...args){
+ const t = performance.now();
+ ++metrics.s11n.serialize.count;
+ if(args.length){
+ //log("serialize():",args);
+ const typeIds = [];
+ let i = 0, offset = 1;
+ viewU8[0] = args.length & 0xff /* header = # of args */;
+ for(; i < args.length; ++i, ++offset){
+ /* Write the TypeIds.id value into the next args.length
+ bytes. */
+ typeIds.push(getTypeId(args[i]));
+ viewU8[offset] = typeIds[i].id;
+ }
+ for(i = 0; i < args.length; ++i) {
+ /* Deserialize the following bytes based on their
+ corresponding TypeIds.id from the header. */
+ const t = typeIds[i];
+ if(t.setter){
+ viewDV[t.setter](offset, args[i], state.littleEndian);
+ offset += t.size;
+ }else{/*String*/
+ const s = textEncoder.encode(args[i]);
+ viewDV.setInt32(offset, s.byteLength, state.littleEndian);
+ offset += 4;
+ viewU8.set(s, offset);
+ offset += s.byteLength;
+ }
+ }
+ //log("serialize() result:",viewU8.slice(0,offset));
+ }else{
+ viewU8[0] = 0;
+ }
+ metrics.s11n.serialize.time += performance.now() - t;
+ };
+ return state.s11n;
+ }/*initS11n()*/;
+
+ /**
+ Generates a random ASCII string len characters long, intended for
+ use as a temporary file name.
+ */
+ const randomFilename = function f(len=16){
+ if(!f._chars){
+ f._chars = "abcdefghijklmnopqrstuvwxyz"+
+ "ABCDEFGHIJKLMNOPQRSTUVWXYZ"+
+ "012346789";
+ f._n = f._chars.length;
+ }
+ const a = [];
+ let i = 0;
+ for( ; i < len; ++i){
+ const ndx = Math.random() * (f._n * 64) % f._n | 0;
+ a[i] = f._chars[ndx];
+ }
+ return a.join('');
+ };
+
+ /**
+ Map of sqlite3_file pointers to objects constructed by xOpen().
+ */
+ const __openFiles = Object.create(null);
+
+ /**
+ Installs a StructBinder-bound function pointer member of the
+ given name and function in the given StructType target object.
+ It creates a WASM proxy for the given function and arranges for
+ that proxy to be cleaned up when tgt.dispose() is called. Throws
+ on the slightest hint of error (e.g. tgt is-not-a StructType,
+ name does not map to a struct-bound member, etc.).
+
+ Returns a proxy for this function which is bound to tgt and takes
+ 2 args (name,func). That function returns the same thing,
+ permitting calls to be chained.
+
+ If called with only 1 arg, it has no side effects but returns a
+ func with the same signature as described above.
+ */
+ const installMethod = function callee(tgt, name, func){
+ if(!(tgt instanceof sqlite3.StructBinder.StructType)){
+ toss("Usage error: target object is-not-a StructType.");
+ }
+ if(1===arguments.length){
+ return (n,f)=>callee(tgt,n,f);
+ }
+ if(!callee.argcProxy){
+ callee.argcProxy = function(func,sig){
+ return function(...args){
+ if(func.length!==arguments.length){
+ toss("Argument mismatch. Native signature is:",sig);
+ }
+ return func.apply(this, args);
+ }
+ };
+ callee.removeFuncList = function(){
+ if(this.ondispose.__removeFuncList){
+ this.ondispose.__removeFuncList.forEach(
+ (v,ndx)=>{
+ if('number'===typeof v){
+ try{wasm.uninstallFunction(v)}
+ catch(e){/*ignore*/}
+ }
+ /* else it's a descriptive label for the next number in
+ the list. */
+ }
+ );
+ delete this.ondispose.__removeFuncList;
+ }
+ };
+ }/*static init*/
+ const sigN = tgt.memberSignature(name);
+ if(sigN.length<2){
+ toss("Member",name," is not a function pointer. Signature =",sigN);
+ }
+ const memKey = tgt.memberKey(name);
+ const fProxy = 0
+ /** This middle-man proxy is only for use during development, to
+ confirm that we always pass the proper number of
+ arguments. We know that the C-level code will always use the
+ correct argument count. */
+ ? callee.argcProxy(func, sigN)
+ : func;
+ const pFunc = wasm.installFunction(fProxy, tgt.memberSignature(name, true));
+ tgt[memKey] = pFunc;
+ if(!tgt.ondispose) tgt.ondispose = [];
+ if(!tgt.ondispose.__removeFuncList){
+ tgt.ondispose.push('ondispose.__removeFuncList handler',
+ callee.removeFuncList);
+ tgt.ondispose.__removeFuncList = [];
+ }
+ tgt.ondispose.__removeFuncList.push(memKey, pFunc);
+ return (n,f)=>callee(tgt, n, f);
+ }/*installMethod*/;
+
+ const opTimer = Object.create(null);
+ opTimer.op = undefined;
+ opTimer.start = undefined;
+ const mTimeStart = (op)=>{
+ opTimer.start = performance.now();
+ opTimer.op = op;
+ ++metrics[op].count;
+ };
+ const mTimeEnd = ()=>(
+ metrics[opTimer.op].time += performance.now() - opTimer.start
+ );
+
+ /**
+ Impls for the sqlite3_io_methods methods. Maintenance reminder:
+ members are in alphabetical order to simplify finding them.
+ */
+ const ioSyncWrappers = {
+ xCheckReservedLock: function(pFile,pOut){
+ /**
+ As of late 2022, only a single lock can be held on an OPFS
+ file. We have no way of checking whether any _other_ db
+ connection has a lock except by trying to obtain and (on
+ success) release a sync-handle for it, but doing so would
+ involve an inherent race condition. For the time being,
+ pending a better solution, we simply report whether the
+ given pFile instance has a lock.
+ */
+ const f = __openFiles[pFile];
+ wasm.setMemValue(pOut, f.lockMode ? 1 : 0, 'i32');
+ return 0;
+ },
+ xClose: function(pFile){
+ mTimeStart('xClose');
+ let rc = 0;
+ const f = __openFiles[pFile];
+ if(f){
+ delete __openFiles[pFile];
+ rc = opRun('xClose', pFile);
+ if(f.sq3File) f.sq3File.dispose();
+ }
+ mTimeEnd();
+ return rc;
+ },
+ xDeviceCharacteristics: function(pFile){
+ //debug("xDeviceCharacteristics(",pFile,")");
+ return capi.SQLITE_IOCAP_UNDELETABLE_WHEN_OPEN;
+ },
+ xFileControl: function(pFile, opId, pArg){
+ mTimeStart('xFileControl');
+ const rc = (capi.SQLITE_FCNTL_SYNC===opId)
+ ? opRun('xSync', pFile, 0)
+ : capi.SQLITE_NOTFOUND;
+ mTimeEnd();
+ return rc;
+ },
+ xFileSize: function(pFile,pSz64){
+ mTimeStart('xFileSize');
+ const rc = opRun('xFileSize', pFile);
+ if(0==rc){
+ const sz = state.s11n.deserialize()[0];
+ wasm.setMemValue(pSz64, sz, 'i64');
+ }
+ mTimeEnd();
+ return rc;
+ },
+ xLock: function(pFile,lockType){
+ mTimeStart('xLock');
+ const f = __openFiles[pFile];
+ let rc = 0;
+ if( capi.SQLITE_LOCK_NONE === f.lockType ) {
+ rc = opRun('xLock', pFile, lockType);
+ if( 0===rc ) f.lockType = lockType;
+ }else{
+ f.lockType = lockType;
+ }
+ mTimeEnd();
+ return rc;
+ },
+ xRead: function(pFile,pDest,n,offset64){
+ mTimeStart('xRead');
+ const f = __openFiles[pFile];
+ let rc;
+ try {
+ rc = opRun('xRead',pFile, n, Number(offset64));
+ if(0===rc || capi.SQLITE_IOERR_SHORT_READ===rc){
+ /**
+ Results get written to the SharedArrayBuffer f.sabView.
+ Because the heap is _not_ a SharedArrayBuffer, we have
+ to copy the results. TypedArray.set() seems to be the
+ fastest way to copy this. */
+ wasm.heap8u().set(f.sabView.subarray(0, n), pDest);
+ }
+ }catch(e){
+ error("xRead(",arguments,") failed:",e,f);
+ rc = capi.SQLITE_IOERR_READ;
+ }
+ mTimeEnd();
+ return rc;
+ },
+ xSync: function(pFile,flags){
+ ++metrics.xSync.count;
+ return 0; // impl'd in xFileControl()
+ },
+ xTruncate: function(pFile,sz64){
+ mTimeStart('xTruncate');
+ const rc = opRun('xTruncate', pFile, Number(sz64));
+ mTimeEnd();
+ return rc;
+ },
+ xUnlock: function(pFile,lockType){
+ mTimeStart('xUnlock');
+ const f = __openFiles[pFile];
+ let rc = 0;
+ if( capi.SQLITE_LOCK_NONE === lockType
+ && f.lockType ){
+ rc = opRun('xUnlock', pFile, lockType);
+ }
+ if( 0===rc ) f.lockType = lockType;
+ mTimeEnd();
+ return rc;
+ },
+ xWrite: function(pFile,pSrc,n,offset64){
+ mTimeStart('xWrite');
+ const f = __openFiles[pFile];
+ let rc;
+ try {
+ f.sabView.set(wasm.heap8u().subarray(pSrc, pSrc+n));
+ rc = opRun('xWrite', pFile, n, Number(offset64));
+ }catch(e){
+ error("xWrite(",arguments,") failed:",e,f);
+ rc = capi.SQLITE_IOERR_WRITE;
+ }
+ mTimeEnd();
+ return rc;
+ }
+ }/*ioSyncWrappers*/;
+
+ /**
+ Impls for the sqlite3_vfs methods. Maintenance reminder: members
+ are in alphabetical order to simplify finding them.
+ */
+ const vfsSyncWrappers = {
+ xAccess: function(pVfs,zName,flags,pOut){
+ mTimeStart('xAccess');
+ const rc = opRun('xAccess', wasm.cstringToJs(zName));
+ wasm.setMemValue( pOut, (rc ? 0 : 1), 'i32' );
+ mTimeEnd();
+ return 0;
+ },
+ xCurrentTime: function(pVfs,pOut){
+ /* If it turns out that we need to adjust for timezone, see:
+ https://stackoverflow.com/a/11760121/1458521 */
+ wasm.setMemValue(pOut, 2440587.5 + (new Date().getTime()/86400000),
+ 'double');
+ return 0;
+ },
+ xCurrentTimeInt64: function(pVfs,pOut){
+ // TODO: confirm that this calculation is correct
+ wasm.setMemValue(pOut, (2440587.5 * 86400000) + new Date().getTime(),
+ 'i64');
+ return 0;
+ },
+ xDelete: function(pVfs, zName, doSyncDir){
+ mTimeStart('xDelete');
+ opRun('xDelete', wasm.cstringToJs(zName), doSyncDir, false);
+ /* We're ignoring errors because we cannot yet differentiate
+ between harmless and non-harmless failures. */
+ mTimeEnd();
+ return 0;
+ },
+ xFullPathname: function(pVfs,zName,nOut,pOut){
+ /* Until/unless we have some notion of "current dir"
+ in OPFS, simply copy zName to pOut... */
+ const i = wasm.cstrncpy(pOut, zName, nOut);
+ return i<nOut ? 0 : capi.SQLITE_CANTOPEN
+ /*CANTOPEN is required by the docs but SQLITE_RANGE would be a closer match*/;
+ },
+ xGetLastError: function(pVfs,nOut,pOut){
+ /* TODO: store exception.message values from the async
+ partner in a dedicated SharedArrayBuffer, noting that we'd have
+ to encode them... TextEncoder can do that for us. */
+ warn("OPFS xGetLastError() has nothing sensible to return.");
+ return 0;
+ },
+ //xSleep is optionally defined below
+ xOpen: function f(pVfs, zName, pFile, flags, pOutFlags){
+ mTimeStart('xOpen');
+ if(0===zName){
+ zName = randomFilename();
+ }else if('number'===typeof zName){
+ zName = wasm.cstringToJs(zName);
+ }
+ const fh = Object.create(null);
+ fh.fid = pFile;
+ fh.filename = zName;
+ fh.sab = new SharedArrayBuffer(state.fileBufferSize);
+ fh.flags = flags;
+ const rc = opRun('xOpen', pFile, zName, flags);
+ if(!rc){
+ /* Recall that sqlite3_vfs::xClose() will be called, even on
+ error, unless pFile->pMethods is NULL. */
+ if(fh.readOnly){
+ wasm.setMemValue(pOutFlags, capi.SQLITE_OPEN_READONLY, 'i32');
+ }
+ __openFiles[pFile] = fh;
+ fh.sabView = state.sabFileBufView;
+ fh.sq3File = new sqlite3_file(pFile);
+ fh.sq3File.$pMethods = opfsIoMethods.pointer;
+ fh.lockType = capi.SQLITE_LOCK_NONE;
+ }
+ mTimeEnd();
+ return rc;
+ }/*xOpen()*/
+ }/*vfsSyncWrappers*/;
+
+ if(dVfs){
+ opfsVfs.$xRandomness = dVfs.$xRandomness;
+ opfsVfs.$xSleep = dVfs.$xSleep;
+ }
+ if(!opfsVfs.$xRandomness){
+ /* If the default VFS has no xRandomness(), add a basic JS impl... */
+ vfsSyncWrappers.xRandomness = function(pVfs, nOut, pOut){
+ const heap = wasm.heap8u();
+ let i = 0;
+ for(; i < nOut; ++i) heap[pOut + i] = (Math.random()*255000) & 0xFF;
+ return i;
+ };
+ }
+ if(!opfsVfs.$xSleep){
+ /* If we can inherit an xSleep() impl from the default VFS then
+ assume it's sane and use it, otherwise install a JS-based
+ one. */
+ vfsSyncWrappers.xSleep = function(pVfs,ms){
+ Atomics.wait(state.sabOPView, state.opIds.xSleep, 0, ms);
+ return 0;
+ };
+ }
+
+ /* Install the vfs/io_methods into their C-level shared instances... */
+ for(let k of Object.keys(ioSyncWrappers)){
+ installMethod(opfsIoMethods, k, ioSyncWrappers[k]);
+ }
+ for(let k of Object.keys(vfsSyncWrappers)){
+ installMethod(opfsVfs, k, vfsSyncWrappers[k]);
+ }
+
+ /**
+ Expects an OPFS file path. It gets resolved, such that ".."
+ components are properly expanded, and returned. If the 2nd arg
+ is true, the result is returned as an array of path elements,
+ else an absolute path string is returned.
+ */
+ opfsUtil.getResolvedPath = function(filename,splitIt){
+ const p = new URL(filename, "file://irrelevant").pathname;
+ return splitIt ? p.split('/').filter((v)=>!!v) : p;
+ };
+
+ /**
+ Takes the absolute path to a filesystem element. Returns an
+ array of [handleOfContainingDir, filename]. If the 2nd argument
+ is truthy then each directory element leading to the file is
+ created along the way. Throws if any creation or resolution
+ fails.
+ */
+ opfsUtil.getDirForFilename = async function f(absFilename, createDirs = false){
+ const path = opfsUtil.getResolvedPath(absFilename, true);
+ const filename = path.pop();
+ let dh = opfsUtil.rootDirectory;
+ for(const dirName of path){
+ if(dirName){
+ dh = await dh.getDirectoryHandle(dirName, {create: !!createDirs});
+ }
+ }
+ return [dh, filename];
+ };
+
+ /**
+ Creates the given directory name, recursively, in
+ the OPFS filesystem. Returns true if it succeeds or the
+ directory already exists, else false.
+ */
+ opfsUtil.mkdir = async function(absDirName){
+ try {
+ await opfsUtil.getDirForFilename(absDirName+"/filepart", true);
+ return true;
+ }catch(e){
+ //console.warn("mkdir(",absDirName,") failed:",e);
+ return false;
+ }
+ };
+ /**
+ Checks whether the given OPFS filesystem entry exists,
+ returning true if it does, false if it doesn't.
+ */
+ opfsUtil.entryExists = async function(fsEntryName){
+ try {
+ const [dh, fn] = await opfsUtil.getDirForFilename(fsEntryName);
+ await dh.getFileHandle(fn);
+ return true;
+ }catch(e){
+ return false;
+ }
+ };
+
+ /**
+ Generates a random ASCII string, intended for use as a
+ temporary file name. Its argument is the length of the string,
+ defaulting to 16.
+ */
+ opfsUtil.randomFilename = randomFilename;
+
+ /**
+ Re-registers the OPFS VFS. This is intended only for odd use
+ cases which have to call sqlite3_shutdown() as part of their
+ initialization process, which will unregister the VFS
+ registered by installOpfsVfs(). If passed a truthy value, the
+ OPFS VFS is registered as the default VFS, else it is not made
+ the default. Returns the result of the the
+ sqlite3_vfs_register() call.
+
+ Design note: the problem of having to re-register things after
+ a shutdown/initialize pair is more general. How to best plug
+ that in to the library is unclear. In particular, we cannot
+ hook in to any C-side calls to sqlite3_initialize(), so we
+ cannot add an after-initialize callback mechanism.
+ */
+ opfsUtil.registerVfs = (asDefault=false)=>{
+ return wasm.exports.sqlite3_vfs_register(
+ opfsVfs.pointer, asDefault ? 1 : 0
+ );
+ };
+
+ /**
+ Returns a promise which resolves to an object which represents
+ all files and directories in the OPFS tree. The top-most object
+ has two properties: `dirs` is an array of directory entries
+ (described below) and `files` is a list of file names for all
+ files in that directory.
+
+ Traversal starts at sqlite3.opfs.rootDirectory.
+
+ Each `dirs` entry is an object in this form:
+
+ ```
+ { name: directoryName,
+ dirs: [...subdirs],
+ files: [...file names]
+ }
+ ```
+
+ The `files` and `subdirs` entries are always set but may be
+ empty arrays.
+
+ The returned object has the same structure but its `name` is
+ an empty string. All returned objects are created with
+ Object.create(null), so have no prototype.
+
+ Design note: the entries do not contain more information,
+ e.g. file sizes, because getting such info is not only
+ expensive but is subject to locking-related errors.
+ */
+ opfsUtil.treeList = async function(){
+ const doDir = async function callee(dirHandle,tgt){
+ tgt.name = dirHandle.name;
+ tgt.dirs = [];
+ tgt.files = [];
+ for await (const handle of dirHandle.values()){
+ if('directory' === handle.kind){
+ const subDir = Object.create(null);
+ tgt.dirs.push(subDir);
+ await callee(handle, subDir);
+ }else{
+ tgt.files.push(handle.name);
+ }
+ }
+ };
+ const root = Object.create(null);
+ await doDir(opfsUtil.rootDirectory, root);
+ return root;
+ };
+
+ /**
+ Irrevocably deletes _all_ files in the current origin's OPFS.
+ Obviously, this must be used with great caution. It may throw
+ an exception if removal of anything fails (e.g. a file is
+ locked), but the precise conditions under which it will throw
+ are not documented (so we cannot tell you what they are).
+ */
+ opfsUtil.rmfr = async function(){
+ const dir = opfsUtil.rootDirectory, opt = {recurse: true};
+ for await (const handle of dir.values()){
+ dir.removeEntry(handle.name, opt);
+ }
+ };
+
+ /**
+ Deletes the given OPFS filesystem entry. As this environment
+ has no notion of "current directory", the given name must be an
+ absolute path. If the 2nd argument is truthy, deletion is
+ recursive (use with caution!).
+
+ The returned Promise resolves to true if the deletion was
+ successful, else false (but...). The OPFS API reports the
+ reason for the failure only in human-readable form, not
+ exceptions which can be type-checked to determine the
+ failure. Because of that...
+
+ If the final argument is truthy then this function will
+ propagate any exception on error, rather than returning false.
+ */
+ opfsUtil.unlink = async function(fsEntryName, recursive = false,
+ throwOnError = false){
+ try {
+ const [hDir, filenamePart] =
+ await opfsUtil.getDirForFilename(fsEntryName, false);
+ await hDir.removeEntry(filenamePart, {recursive});
+ return true;
+ }catch(e){
+ if(throwOnError){
+ throw new Error("unlink(",arguments[0],") failed: "+e.message,{
+ cause: e
+ });
+ }
+ return false;
+ }
+ };
+
+ /**
+ Traverses the OPFS filesystem, calling a callback for each one.
+ The argument may be either a callback function or an options object
+ with any of the following properties:
+
+ - `callback`: function which gets called for each filesystem
+ entry. It gets passed 3 arguments: 1) the
+ FileSystemFileHandle or FileSystemDirectoryHandle of each
+ entry (noting that both are instanceof FileSystemHandle). 2)
+ the FileSystemDirectoryHandle of the parent directory. 3) the
+ current depth level, with 0 being at the top of the tree
+ relative to the starting directory. If the callback returns a
+ literal false, as opposed to any other falsy value, traversal
+ stops without an error. Any exceptions it throws are
+ propagated. Results are undefined if the callback manipulate
+ the filesystem (e.g. removing or adding entries) because the
+ how OPFS iterators behave in the face of such changes is
+ undocumented.
+
+ - `recursive` [bool=true]: specifies whether to recurse into
+ subdirectories or not. Whether recursion is depth-first or
+ breadth-first is unspecified!
+
+ - `directory` [FileSystemDirectoryEntry=sqlite3.opfs.rootDirectory]
+ specifies the starting directory.
+
+ If this function is passed a function, it is assumed to be the
+ callback.
+
+ Returns a promise because it has to (by virtue of being async)
+ but that promise has no specific meaning: the traversal it
+ performs is synchronous. The promise must be used to catch any
+ exceptions propagated by the callback, however.
+
+ TODO: add an option which specifies whether to traverse
+ depth-first or breadth-first. We currently do depth-first but
+ an incremental file browsing widget would benefit more from
+ breadth-first.
+ */
+ opfsUtil.traverse = async function(opt){
+ const defaultOpt = {
+ recursive: true,
+ directory: opfsUtil.rootDirectory
+ };
+ if('function'===typeof opt){
+ opt = {callback:opt};
+ }
+ opt = Object.assign(defaultOpt, opt||{});
+ const doDir = async function callee(dirHandle, depth){
+ for await (const handle of dirHandle.values()){
+ if(false === opt.callback(handle, dirHandle, depth)) return false;
+ else if(opt.recursive && 'directory' === handle.kind){
+ if(false === await callee(handle, depth + 1)) break;
+ }
+ }
+ };
+ doDir(opt.directory, 0);
+ };
+
+ //TODO to support fiddle and worker1 db upload:
+ //opfsUtil.createFile = function(absName, content=undefined){...}
+
+ if(sqlite3.oo1){
+ opfsUtil.OpfsDb = function(...args){
+ const opt = sqlite3.oo1.DB.dbCtorHelper.normalizeArgs(...args);
+ opt.vfs = opfsVfs.$zName;
+ sqlite3.oo1.DB.dbCtorHelper.call(this, opt);
+ };
+ opfsUtil.OpfsDb.prototype = Object.create(sqlite3.oo1.DB.prototype);
+ sqlite3.oo1.DB.dbCtorHelper.setVfsPostOpenSql(
+ opfsVfs.pointer,
+ [
+ /* Truncate journal mode is faster than delete or wal for
+ this vfs, per speedtest1. */
+ "pragma journal_mode=truncate;"
+ /*
+ This vfs benefits hugely from cache on moderate/large
+ speedtest1 --size 50 and --size 100 workloads. We currently
+ rely on setting a non-default cache size when building
+ sqlite3.wasm. If that policy changes, the cache can
+ be set here.
+ */
+ //"pragma cache_size=-8388608;"
+ ].join('')
+ );
+ }
+
+ /**
+ Potential TODOs:
+
+ - Expose one or both of the Worker objects via opfsUtil and
+ publish an interface for proxying the higher-level OPFS
+ features like getting a directory listing.
+ */
+ const sanityCheck = function(){
+ const scope = wasm.scopedAllocPush();
+ const sq3File = new sqlite3_file();
+ try{
+ const fid = sq3File.pointer;
+ const openFlags = capi.SQLITE_OPEN_CREATE
+ | capi.SQLITE_OPEN_READWRITE
+ //| capi.SQLITE_OPEN_DELETEONCLOSE
+ | capi.SQLITE_OPEN_MAIN_DB;
+ const pOut = wasm.scopedAlloc(8);
+ const dbFile = "/sanity/check/file"+randomFilename(8);
+ const zDbFile = wasm.scopedAllocCString(dbFile);
+ let rc;
+ state.s11n.serialize("This is ä string.");
+ rc = state.s11n.deserialize();
+ log("deserialize() says:",rc);
+ if("This is ä string."!==rc[0]) toss("String d13n error.");
+ vfsSyncWrappers.xAccess(opfsVfs.pointer, zDbFile, 0, pOut);
+ rc = wasm.getMemValue(pOut,'i32');
+ log("xAccess(",dbFile,") exists ?=",rc);
+ rc = vfsSyncWrappers.xOpen(opfsVfs.pointer, zDbFile,
+ fid, openFlags, pOut);
+ log("open rc =",rc,"state.sabOPView[xOpen] =",
+ state.sabOPView[state.opIds.xOpen]);
+ if(0!==rc){
+ error("open failed with code",rc);
+ return;
+ }
+ vfsSyncWrappers.xAccess(opfsVfs.pointer, zDbFile, 0, pOut);
+ rc = wasm.getMemValue(pOut,'i32');
+ if(!rc) toss("xAccess() failed to detect file.");
+ rc = ioSyncWrappers.xSync(sq3File.pointer, 0);
+ if(rc) toss('sync failed w/ rc',rc);
+ rc = ioSyncWrappers.xTruncate(sq3File.pointer, 1024);
+ if(rc) toss('truncate failed w/ rc',rc);
+ wasm.setMemValue(pOut,0,'i64');
+ rc = ioSyncWrappers.xFileSize(sq3File.pointer, pOut);
+ if(rc) toss('xFileSize failed w/ rc',rc);
+ log("xFileSize says:",wasm.getMemValue(pOut, 'i64'));
+ rc = ioSyncWrappers.xWrite(sq3File.pointer, zDbFile, 10, 1);
+ if(rc) toss("xWrite() failed!");
+ const readBuf = wasm.scopedAlloc(16);
+ rc = ioSyncWrappers.xRead(sq3File.pointer, readBuf, 6, 2);
+ wasm.setMemValue(readBuf+6,0);
+ let jRead = wasm.cstringToJs(readBuf);
+ log("xRead() got:",jRead);
+ if("sanity"!==jRead) toss("Unexpected xRead() value.");
+ if(vfsSyncWrappers.xSleep){
+ log("xSleep()ing before close()ing...");
+ vfsSyncWrappers.xSleep(opfsVfs.pointer,2000);
+ log("waking up from xSleep()");
+ }
+ rc = ioSyncWrappers.xClose(fid);
+ log("xClose rc =",rc,"sabOPView =",state.sabOPView);
+ log("Deleting file:",dbFile);
+ vfsSyncWrappers.xDelete(opfsVfs.pointer, zDbFile, 0x1234);
+ vfsSyncWrappers.xAccess(opfsVfs.pointer, zDbFile, 0, pOut);
+ rc = wasm.getMemValue(pOut,'i32');
+ if(rc) toss("Expecting 0 from xAccess(",dbFile,") after xDelete().");
+ warn("End of OPFS sanity checks.");
+ }finally{
+ sq3File.dispose();
+ wasm.scopedAllocPop(scope);
+ }
+ }/*sanityCheck()*/;
+
+ W.onmessage = function({data}){
+ //log("Worker.onmessage:",data);
+ switch(data.type){
+ case 'opfs-async-loaded':
+ /*Arrives as soon as the asyc proxy finishes loading.
+ Pass our config and shared state on to the async worker.*/
+ W.postMessage({type: 'opfs-async-init',args: state});
+ break;
+ case 'opfs-async-inited':{
+ /*Indicates that the async partner has received the 'init'
+ and has finished initializing, so the real work can
+ begin...*/
+ try {
+ const rc = capi.sqlite3_vfs_register(opfsVfs.pointer, 0);
+ if(rc){
+ toss("sqlite3_vfs_register(OPFS) failed with rc",rc);
+ }
+ if(opfsVfs.pointer !== capi.sqlite3_vfs_find("opfs")){
+ toss("BUG: sqlite3_vfs_find() failed for just-installed OPFS VFS");
+ }
+ capi.sqlite3_vfs_register.addReference(opfsVfs, opfsIoMethods);
+ state.sabOPView = new Int32Array(state.sabOP);
+ state.sabFileBufView = new Uint8Array(state.sabIO, 0, state.fileBufferSize);
+ state.sabS11nView = new Uint8Array(state.sabIO, state.sabS11nOffset, state.sabS11nSize);
+ initS11n();
+ if(options.sanityChecks){
+ warn("Running sanity checks because of opfs-sanity-check URL arg...");
+ sanityCheck();
+ }
+ navigator.storage.getDirectory().then((d)=>{
+ W.onerror = W._originalOnError;
+ delete W._originalOnError;
+ sqlite3.opfs = opfsUtil;
+ opfsUtil.rootDirectory = d;
+ log("End of OPFS sqlite3_vfs setup.", opfsVfs);
+ promiseResolve(sqlite3);
+ });
+ }catch(e){
+ error(e);
+ promiseReject(e);
+ }
+ break;
+ }
+ default:
+ promiseReject(e);
+ error("Unexpected message from the async worker:",data);
+ break;
+ }/*switch(data.type)*/
+ }/*W.onmessage()*/;
+ })/*thePromise*/;
+ return thePromise;
+}/*installOpfsVfs()*/;
+installOpfsVfs.defaultProxyUri =
+ "sqlite3-opfs-async-proxy.js";
+self.sqlite3ApiBootstrap.initializersAsync.push(async (sqlite3)=>{
+ if(sqlite3.scriptInfo && !sqlite3.scriptInfo.isWorker){
+ return;
+ }
+ try{
+ let proxyJs = installOpfsVfs.defaultProxyUri;
+ if(sqlite3.scriptInfo.sqlite3Dir){
+ installOpfsVfs.defaultProxyUri =
+ sqlite3.scriptInfo.sqlite3Dir + proxyJs;
+ //console.warn("installOpfsVfs.defaultProxyUri =",installOpfsVfs.defaultProxyUri);
+ }
+ return installOpfsVfs().catch((e)=>{
+ console.warn("Ignoring inability to install OPFS sqlite3_vfs:",e.message);
+ });
+ }catch(e){
+ console.error("installOpfsVfs() exception:",e);
+ throw e;
+ }
+});
+}/*sqlite3ApiBootstrap.initializers.push()*/);
diff --git a/ext/wasm/api/sqlite3-api-prologue.js b/ext/wasm/api/sqlite3-api-prologue.js
new file mode 100644
index 0000000..fed1c56
--- /dev/null
+++ b/ext/wasm/api/sqlite3-api-prologue.js
@@ -0,0 +1,1602 @@
+/*
+ 2022-05-22
+
+ The author disclaims copyright to this source code. In place of a
+ legal notice, here is a blessing:
+
+ * May you do good and not evil.
+ * May you find forgiveness for yourself and forgive others.
+ * May you share freely, never taking more than you give.
+
+ ***********************************************************************
+
+ This file is intended to be combined at build-time with other
+ related code, most notably a header and footer which wraps this whole
+ file into an Emscripten Module.postRun() handler which has a parameter
+ named "Module" (the Emscripten Module object). The exact requirements,
+ conventions, and build process are very much under construction and
+ will be (re)documented once they've stopped fluctuating so much.
+
+ Project home page: https://sqlite.org
+
+ Documentation home page: https://sqlite.org/wasm
+
+ Specific goals of this subproject:
+
+ - Except where noted in the non-goals, provide a more-or-less
+ feature-complete wrapper to the sqlite3 C API, insofar as WASM
+ feature parity with C allows for. In fact, provide at least 4
+ APIs...
+
+ 1) 1-to-1 bindings as exported from WASM, with no automatic
+ type conversions between JS and C.
+
+ 2) A binding of (1) which provides certain JS/C type conversions
+ to greatly simplify its use.
+
+ 3) A higher-level API, more akin to sql.js and node.js-style
+ implementations. This one speaks directly to the low-level
+ API. This API must be used from the same thread as the
+ low-level API.
+
+ 4) A second higher-level API which speaks to the previous APIs via
+ worker messages. This one is intended for use in the main
+ thread, with the lower-level APIs installed in a Worker thread,
+ and talking to them via Worker messages. Because Workers are
+ asynchronouns and have only a single message channel, some
+ acrobatics are needed here to feed async work results back to
+ the client (as we cannot simply pass around callbacks between
+ the main and Worker threads).
+
+ - Insofar as possible, support client-side storage using JS
+ filesystem APIs. As of this writing, such things are still very
+ much under development.
+
+ Specific non-goals of this project:
+
+ - As WASM is a web-centric technology and UTF-8 is the King of
+ Encodings in that realm, there are no currently plans to support
+ the UTF16-related sqlite3 APIs. They would add a complication to
+ the bindings for no appreciable benefit. Though web-related
+ implementation details take priority, and the JavaScript
+ components of the API specifically focus on browser clients, the
+ lower-level WASM module "should" work in non-web WASM
+ environments.
+
+ - Supporting old or niche-market platforms. WASM is built for a
+ modern web and requires modern platforms.
+
+ - Though scalar User-Defined Functions (UDFs) may be created in
+ JavaScript, there are currently no plans to add support for
+ aggregate and window functions.
+
+ Attribution:
+
+ This project is endebted to the work of sql.js:
+
+ https://github.com/sql-js/sql.js
+
+ sql.js was an essential stepping stone in this code's development as
+ it demonstrated how to handle some of the WASM-related voodoo (like
+ handling pointers-to-pointers and adding JS implementations of
+ C-bound callback functions). These APIs have a considerably
+ different shape than sql.js's, however.
+*/
+
+/**
+ sqlite3ApiBootstrap() is the only global symbol persistently
+ exposed by this API. It is intended to be called one time at the
+ end of the API amalgamation process, passed configuration details
+ for the current environment, and then optionally be removed from
+ the global object using `delete self.sqlite3ApiBootstrap`.
+
+ This function expects a configuration object, intended to abstract
+ away details specific to any given WASM environment, primarily so
+ that it can be used without any _direct_ dependency on
+ Emscripten. (Note the default values for the config object!) The
+ config object is only honored the first time this is
+ called. Subsequent calls ignore the argument and return the same
+ (configured) object which gets initialized by the first call.
+ This function will throw if any of the required config options are
+ missing.
+
+ The config object properties include:
+
+ - `exports`[^1]: the "exports" object for the current WASM
+ environment. In an Emscripten-based build, this should be set to
+ `Module['asm']`.
+
+ - `memory`[^1]: optional WebAssembly.Memory object, defaulting to
+ `exports.memory`. In Emscripten environments this should be set
+ to `Module.wasmMemory` if the build uses `-sIMPORT_MEMORY`, or be
+ left undefined/falsy to default to `exports.memory` when using
+ WASM-exported memory.
+
+ - `bigIntEnabled`: true if BigInt support is enabled. Defaults to
+ true if `self.BigInt64Array` is available, else false. Some APIs
+ will throw exceptions if called without BigInt support, as BigInt
+ is required for marshalling C-side int64 into and out of JS.
+
+ - `allocExportName`: the name of the function, in `exports`, of the
+ `malloc(3)`-compatible routine for the WASM environment. Defaults
+ to `"malloc"`.
+
+ - `deallocExportName`: the name of the function, in `exports`, of
+ the `free(3)`-compatible routine for the WASM
+ environment. Defaults to `"free"`.
+
+ - `wasmfsOpfsDir`[^1]: if the environment supports persistent
+ storage, this directory names the "mount point" for that
+ directory. It must be prefixed by `/` and may contain only a
+ single directory-name part. Using the root directory name is not
+ supported by any current persistent backend. This setting is
+ only used in WASMFS-enabled builds.
+
+
+ [^1] = This property may optionally be a function, in which case this
+ function re-assigns it to the value returned from that function,
+ enabling delayed evaluation.
+
+*/
+'use strict';
+self.sqlite3ApiBootstrap = function sqlite3ApiBootstrap(
+ apiConfig = (self.sqlite3ApiConfig || sqlite3ApiBootstrap.defaultConfig)
+){
+ if(sqlite3ApiBootstrap.sqlite3){ /* already initalized */
+ console.warn("sqlite3ApiBootstrap() called multiple times.",
+ "Config and external initializers are ignored on calls after the first.");
+ return sqlite3ApiBootstrap.sqlite3;
+ }
+ const config = Object.assign(Object.create(null),{
+ exports: undefined,
+ memory: undefined,
+ bigIntEnabled: (()=>{
+ if('undefined'!==typeof Module){
+ /* Emscripten module will contain HEAPU64 when built with
+ -sWASM_BIGINT=1, else it will not. */
+ return !!Module.HEAPU64;
+ }
+ return !!self.BigInt64Array;
+ })(),
+ allocExportName: 'malloc',
+ deallocExportName: 'free',
+ wasmfsOpfsDir: '/opfs'
+ }, apiConfig || {});
+
+ [
+ // If any of these config options are functions, replace them with
+ // the result of calling that function...
+ 'exports', 'memory', 'wasmfsOpfsDir'
+ ].forEach((k)=>{
+ if('function' === typeof config[k]){
+ config[k] = config[k]();
+ }
+ });
+
+ /**
+ The main sqlite3 binding API gets installed into this object,
+ mimicking the C API as closely as we can. The numerous members
+ names with prefixes 'sqlite3_' and 'SQLITE_' behave, insofar as
+ possible, identically to the C-native counterparts, as documented at:
+
+ https://www.sqlite.org/c3ref/intro.html
+
+ A very few exceptions require an additional level of proxy
+ function or may otherwise require special attention in the WASM
+ environment, and all such cases are documented somewhere below
+ in this file or in sqlite3-api-glue.js. capi members which are
+ not documented are installed as 1-to-1 proxies for their
+ C-side counterparts.
+ */
+ const capi = Object.create(null);
+ /**
+ Holds state which are specific to the WASM-related
+ infrastructure and glue code. It is not expected that client
+ code will normally need these, but they're exposed here in case
+ it does. These APIs are _not_ to be considered an
+ official/stable part of the sqlite3 WASM API. They may change
+ as the developers' experience suggests appropriate changes.
+
+ Note that a number of members of this object are injected
+ dynamically after the api object is fully constructed, so
+ not all are documented in this file.
+ */
+ const wasm = Object.create(null);
+
+ /** Internal helper for SQLite3Error ctor. */
+ const __rcStr = (rc)=>{
+ return (capi.sqlite3_js_rc_str && capi.sqlite3_js_rc_str(rc))
+ || ("Unknown result code #"+rc);
+ };
+
+ /** Internal helper for SQLite3Error ctor. */
+ const __isInt = (n)=>'number'===typeof n && n===(n | 0);
+
+ /**
+ An Error subclass specifically for reporting DB-level errors and
+ enabling clients to unambiguously identify such exceptions.
+ The C-level APIs never throw, but some of the higher-level
+ C-style APIs do and the object-oriented APIs use exceptions
+ exclusively to report errors.
+ */
+ class SQLite3Error extends Error {
+ /**
+ Constructs this object with a message depending on its arguments:
+
+ - If it's passed only a single integer argument, it is assumed
+ to be an sqlite3 C API result code. The message becomes the
+ result of sqlite3.capi.sqlite3_js_rc_str() or (if that returns
+ falsy) a synthesized string which contains that integer.
+
+ - If passed 2 arguments and the 2nd is a object, it bevaves
+ like the Error(string,object) constructor except that the first
+ argument is subject to the is-integer semantics from the
+ previous point.
+
+ - Else all arguments are concatenated with a space between each
+ one, using args.join(' '), to create the error message.
+ */
+ constructor(...args){
+ if(1===args.length && __isInt(args[0])){
+ super(__rcStr(args[0]));
+ }else if(2===args.length && 'object'===typeof args){
+ if(__isInt(args[0])) super(__rcStr(args[0]), args[1]);
+ else super(...args);
+ }else{
+ super(args.join(' '));
+ }
+ this.name = 'SQLite3Error';
+ }
+ };
+
+ /**
+ Functionally equivalent to the SQLite3Error constructor but may
+ be used as part of an expression, e.g.:
+
+ ```
+ return someFunction(x) || SQLite3Error.toss(...);
+ ```
+ */
+ SQLite3Error.toss = (...args)=>{
+ throw new SQLite3Error(...args);
+ };
+ const toss3 = SQLite3Error.toss;
+
+ if(config.wasmfsOpfsDir && !/^\/[^/]+$/.test(config.wasmfsOpfsDir)){
+ toss3("config.wasmfsOpfsDir must be falsy or in the form '/dir-name'.");
+ }
+
+ /**
+ Returns true if n is a 32-bit (signed) integer, else
+ false. This is used for determining when we need to switch to
+ double-type DB operations for integer values in order to keep
+ more precision.
+ */
+ const isInt32 = (n)=>{
+ return ('bigint'!==typeof n /*TypeError: can't convert BigInt to number*/)
+ && !!(n===(n|0) && n<=2147483647 && n>=-2147483648);
+ };
+ /**
+ Returns true if the given BigInt value is small enough to fit
+ into an int64 value, else false.
+ */
+ const bigIntFits64 = function f(b){
+ if(!f._max){
+ f._max = BigInt("0x7fffffffffffffff");
+ f._min = ~f._max;
+ }
+ return b >= f._min && b <= f._max;
+ };
+
+ /**
+ Returns true if the given BigInt value is small enough to fit
+ into an int32, else false.
+ */
+ const bigIntFits32 = (b)=>(b >= (-0x7fffffffn - 1n) && b <= 0x7fffffffn);
+
+ /**
+ Returns true if the given BigInt value is small enough to fit
+ into a double value without loss of precision, else false.
+ */
+ const bigIntFitsDouble = function f(b){
+ if(!f._min){
+ f._min = Number.MIN_SAFE_INTEGER;
+ f._max = Number.MAX_SAFE_INTEGER;
+ }
+ return b >= f._min && b <= f._max;
+ };
+
+ /** Returns v if v appears to be a TypedArray, else false. */
+ const isTypedArray = (v)=>{
+ return (v && v.constructor && isInt32(v.constructor.BYTES_PER_ELEMENT)) ? v : false;
+ };
+
+
+ /** Internal helper to use in operations which need to distinguish
+ between TypedArrays which are backed by a SharedArrayBuffer
+ from those which are not. */
+ const __SAB = ('undefined'===typeof SharedArrayBuffer)
+ ? function(){} : SharedArrayBuffer;
+ /** Returns true if the given TypedArray object is backed by a
+ SharedArrayBuffer, else false. */
+ const isSharedTypedArray = (aTypedArray)=>(aTypedArray.buffer instanceof __SAB);
+
+ /**
+ Returns either aTypedArray.slice(begin,end) (if
+ aTypedArray.buffer is a SharedArrayBuffer) or
+ aTypedArray.subarray(begin,end) (if it's not).
+
+ This distinction is important for APIs which don't like to
+ work on SABs, e.g. TextDecoder, and possibly for our
+ own APIs which work on memory ranges which "might" be
+ modified by other threads while they're working.
+ */
+ const typedArrayPart = (aTypedArray, begin, end)=>{
+ return isSharedTypedArray(aTypedArray)
+ ? aTypedArray.slice(begin, end)
+ : aTypedArray.subarray(begin, end);
+ };
+
+ /**
+ Returns true if v appears to be one of our bind()-able
+ TypedArray types: Uint8Array or Int8Array. Support for
+ TypedArrays with element sizes >1 is TODO.
+ */
+ const isBindableTypedArray = (v)=>{
+ return v && v.constructor && (1===v.constructor.BYTES_PER_ELEMENT);
+ };
+
+ /**
+ Returns true if v appears to be one of the TypedArray types
+ which is legal for holding SQL code (as opposed to binary blobs).
+
+ Currently this is the same as isBindableTypedArray() but it
+ seems likely that we'll eventually want to add Uint32Array
+ and friends to the isBindableTypedArray() list but not to the
+ isSQLableTypedArray() list.
+ */
+ const isSQLableTypedArray = (v)=>{
+ return v && v.constructor && (1===v.constructor.BYTES_PER_ELEMENT);
+ };
+
+ /** Returns true if isBindableTypedArray(v) does, else throws with a message
+ that v is not a supported TypedArray value. */
+ const affirmBindableTypedArray = (v)=>{
+ return isBindableTypedArray(v)
+ || toss3("Value is not of a supported TypedArray type.");
+ };
+
+ const utf8Decoder = new TextDecoder('utf-8');
+
+ /**
+ Uses TextDecoder to decode the given half-open range of the
+ given TypedArray to a string. This differs from a simple
+ call to TextDecoder in that it accounts for whether the
+ first argument is backed by a SharedArrayBuffer or not,
+ and can work more efficiently if it's not (TextDecoder
+ refuses to act upon an SAB).
+ */
+ const typedArrayToString = function(typedArray, begin, end){
+ return utf8Decoder.decode(typedArrayPart(typedArray, begin,end));
+ };
+
+ /**
+ If v is-a Array, its join("") result is returned. If
+ isSQLableTypedArray(v) is true then typedArrayToString(v) is
+ returned. If it looks like a WASM pointer, wasm.cstringToJs(v) is
+ returned. Else v is returned as-is.
+ */
+ const flexibleString = function(v){
+ if(isSQLableTypedArray(v)) return typedArrayToString(v);
+ else if(Array.isArray(v)) return v.join("");
+ else if(wasm.isPtr(v)) v = wasm.cstringToJs(v);
+ return v;
+ };
+
+ /**
+ An Error subclass specifically for reporting Wasm-level malloc()
+ failure and enabling clients to unambiguously identify such
+ exceptions.
+ */
+ class WasmAllocError extends Error {
+ /**
+ If called with 2 arguments and the 2nd one is an object, it
+ behaves like the Error constructor, else it concatenates all
+ arguments together with a single space between each to
+ construct an error message string. As a special case, if
+ called with no arguments then it uses a default error
+ message.
+ */
+ constructor(...args){
+ if(2===args.length && 'object'===typeof args){
+ super(...args);
+ }else if(args.length){
+ super(args.join(' '));
+ }else{
+ super("Allocation failed.");
+ }
+ this.name = 'WasmAllocError';
+ }
+ };
+ /**
+ Functionally equivalent to the WasmAllocError constructor but may
+ be used as part of an expression, e.g.:
+
+ ```
+ return someAllocatingFunction(x) || WasmAllocError.toss(...);
+ ```
+ */
+ WasmAllocError.toss = (...args)=>{
+ throw new WasmAllocError(...args);
+ };
+
+ Object.assign(capi, {
+ /**
+ sqlite3_create_function_v2() differs from its native
+ counterpart only in the following ways:
+
+ 1) The fourth argument (`eTextRep`) argument must not specify
+ any encoding other than sqlite3.SQLITE_UTF8. The JS API does not
+ currently support any other encoding and likely never
+ will. This function does not replace that argument on its own
+ because it may contain other flags.
+
+ 2) Any of the four final arguments may be either WASM pointers
+ (assumed to be function pointers) or JS Functions. In the
+ latter case, each gets bound to WASM using
+ sqlite3.capi.wasm.installFunction() and that wrapper is passed
+ on to the native implementation.
+
+ The semantics of JS functions are:
+
+ xFunc: is passed `(pCtx, ...values)`. Its return value becomes
+ the new SQL function's result.
+
+ xStep: is passed `(pCtx, ...values)`. Its return value is
+ ignored.
+
+ xFinal: is passed `(pCtx)`. Its return value becomes the new
+ aggregate SQL function's result.
+
+ xDestroy: is passed `(void*)`. Its return value is ignored. The
+ pointer passed to it is the one from the 5th argument to
+ sqlite3_create_function_v2().
+
+ Note that:
+
+ - `pCtx` in the above descriptions is a `sqlite3_context*`. At
+ least 99 times out of a hundred, that initial argument will
+ be irrelevant for JS UDF bindings, but it needs to be there
+ so that the cases where it _is_ relevant, in particular with
+ window and aggregate functions, have full access to the
+ lower-level sqlite3 APIs.
+
+ - When wrapping JS functions, the remaining arguments are passd
+ to them as positional arguments, not as an array of
+ arguments, because that allows callback definitions to be
+ more JS-idiomatic than C-like. For example `(pCtx,a,b)=>a+b`
+ is more intuitive and legible than
+ `(pCtx,args)=>args[0]+args[1]`. For cases where an array of
+ arguments would be more convenient, the callbacks simply need
+ to be declared like `(pCtx,...args)=>{...}`, in which case
+ `args` will be an array.
+
+ - If a JS wrapper throws, it gets translated to
+ sqlite3_result_error() or sqlite3_result_error_nomem(),
+ depending on whether the exception is an
+ sqlite3.WasmAllocError object or not.
+
+ - When passing on WASM function pointers, arguments are _not_
+ converted or reformulated. They are passed on as-is in raw
+ pointer form using their native C signatures. Only JS
+ functions passed in to this routine, and thus wrapped by this
+ routine, get automatic conversions of arguments and result
+ values. The routines which perform those conversions are
+ exposed for client-side use as
+ sqlite3_create_function_v2.convertUdfArgs() and
+ sqlite3_create_function_v2.setUdfResult(). sqlite3_create_function()
+ and sqlite3_create_window_function() have those same methods.
+
+ For xFunc(), xStep(), and xFinal():
+
+ - When called from SQL, arguments to the UDF, and its result,
+ will be converted between JS and SQL with as much fidelity as
+ is feasible, triggering an exception if a type conversion
+ cannot be determined. Some freedom is afforded to numeric
+ conversions due to friction between the JS and C worlds:
+ integers which are larger than 32 bits may be treated as
+ doubles or BigInts.
+
+ If any JS-side bound functions throw, those exceptions are
+ intercepted and converted to database-side errors with the
+ exception of xDestroy(): any exception from it is ignored,
+ possibly generating a console.error() message. Destructors
+ must not throw.
+
+ Once installed, there is currently no way to uninstall the
+ automatically-converted WASM-bound JS functions from WASM. They
+ can be uninstalled from the database as documented in the C
+ API, but this wrapper currently has no infrastructure in place
+ to also free the WASM-bound JS wrappers, effectively resulting
+ in a memory leak if the client uninstalls the UDF. Improving that
+ is a potential TODO, but removing client-installed UDFs is rare
+ in practice. If this factor is relevant for a given client,
+ they can create WASM-bound JS functions themselves, hold on to their
+ pointers, and pass the pointers in to here. Later on, they can
+ free those pointers (using `wasm.uninstallFunction()` or
+ equivalent).
+
+ C reference: https://www.sqlite.org/c3ref/create_function.html
+
+ Maintenance reminder: the ability to add new
+ WASM-accessible functions to the runtime requires that the
+ WASM build is compiled with emcc's `-sALLOW_TABLE_GROWTH`
+ flag.
+ */
+ sqlite3_create_function_v2: function(
+ pDb, funcName, nArg, eTextRep, pApp,
+ xFunc, xStep, xFinal, xDestroy
+ ){/*installed later*/},
+ /**
+ Equivalent to passing the same arguments to
+ sqlite3_create_function_v2(), with 0 as the final argument.
+ */
+ sqlite3_create_function:function(
+ pDb, funcName, nArg, eTextRep, pApp,
+ xFunc, xStep, xFinal
+ ){/*installed later*/},
+ /**
+ The sqlite3_create_window_function() JS wrapper differs from
+ its native implementation in the exact same way that
+ sqlite3_create_function_v2() does. The additional function,
+ xInverse(), is treated identically to xStep() by the wrapping
+ layer.
+ */
+ sqlite3_create_window_function: function(
+ pDb, funcName, nArg, eTextRep, pApp,
+ xStep, xFinal, xValue, xInverse, xDestroy
+ ){/*installed later*/},
+ /**
+ The sqlite3_prepare_v3() binding handles two different uses
+ with differing JS/WASM semantics:
+
+ 1) sqlite3_prepare_v3(pDb, sqlString, -1, prepFlags, ppStmt , null)
+
+ 2) sqlite3_prepare_v3(pDb, sqlPointer, sqlByteLen, prepFlags, ppStmt, sqlPointerToPointer)
+
+ Note that the SQL length argument (the 3rd argument) must, for
+ usage (1), always be negative because it must be a byte length
+ and that value is expensive to calculate from JS (where only
+ the character length of strings is readily available). It is
+ retained in this API's interface for code/documentation
+ compatibility reasons but is currently _always_ ignored. With
+ usage (2), the 3rd argument is used as-is but is is still
+ critical that the C-style input string (2nd argument) be
+ terminated with a 0 byte.
+
+ In usage (1), the 2nd argument must be of type string,
+ Uint8Array, or Int8Array (either of which is assumed to
+ hold SQL). If it is, this function assumes case (1) and
+ calls the underyling C function with the equivalent of:
+
+ (pDb, sqlAsString, -1, prepFlags, ppStmt, null)
+
+ The `pzTail` argument is ignored in this case because its
+ result is meaningless when a string-type value is passed
+ through: the string goes through another level of internal
+ conversion for WASM's sake and the result pointer would refer
+ to that transient conversion's memory, not the passed-in
+ string.
+
+ If the sql argument is not a string, it must be a _pointer_ to
+ a NUL-terminated string which was allocated in the WASM memory
+ (e.g. using capi.wasm.alloc() or equivalent). In that case,
+ the final argument may be 0/null/undefined or must be a pointer
+ to which the "tail" of the compiled SQL is written, as
+ documented for the C-side sqlite3_prepare_v3(). In case (2),
+ the underlying C function is called with the equivalent of:
+
+ (pDb, sqlAsPointer, sqlByteLen, prepFlags, ppStmt, pzTail)
+
+ It returns its result and compiled statement as documented in
+ the C API. Fetching the output pointers (5th and 6th
+ parameters) requires using `capi.wasm.getMemValue()` (or
+ equivalent) and the `pzTail` will point to an address relative to
+ the `sqlAsPointer` value.
+
+ If passed an invalid 2nd argument type, this function will
+ return SQLITE_MISUSE and sqlite3_errmsg() will contain a string
+ describing the problem.
+
+ Side-note: if given an empty string, or one which contains only
+ comments or an empty SQL expression, 0 is returned but the result
+ output pointer will be NULL.
+ */
+ sqlite3_prepare_v3: (dbPtr, sql, sqlByteLen, prepFlags,
+ stmtPtrPtr, strPtrPtr)=>{}/*installed later*/,
+
+ /**
+ Equivalent to calling sqlite3_prapare_v3() with 0 as its 4th argument.
+ */
+ sqlite3_prepare_v2: (dbPtr, sql, sqlByteLen,
+ stmtPtrPtr,strPtrPtr)=>{}/*installed later*/,
+
+ /**
+ This binding enables the callback argument to be a JavaScript.
+
+ If the callback is a function, then for the duration of the
+ sqlite3_exec() call, it installs a WASM-bound function which
+ acts as a proxy for the given callback. That proxy will also
+ perform a conversion of the callback's arguments from
+ `(char**)` to JS arrays of strings. However, for API
+ consistency's sake it will still honor the C-level callback
+ parameter order and will call it like:
+
+ `callback(pVoid, colCount, listOfValues, listOfColNames)`
+
+ If the callback is not a JS function then this binding performs
+ no translation of the callback, but the sql argument is still
+ converted to a WASM string for the call using the
+ "flexible-string" argument converter.
+ */
+ sqlite3_exec: (pDb, sql, callback, pVoid, pErrMsg)=>{}/*installed later*/,
+
+ /**
+ If passed a single argument which appears to be a byte-oriented
+ TypedArray (Int8Array or Uint8Array), this function treats that
+ TypedArray as an output target, fetches `theArray.byteLength`
+ bytes of randomness, and populates the whole array with it. As
+ a special case, if the array's length is 0, this function
+ behaves as if it were passed (0,0). When called this way, it
+ returns its argument, else it returns the `undefined` value.
+
+ If called with any other arguments, they are passed on as-is
+ to the C API. Results are undefined if passed any incompatible
+ values.
+ */
+ sqlite3_randomness: (n, outPtr)=>{/*installed later*/},
+ }/*capi*/);
+
+ /**
+ Various internal-use utilities are added here as needed. They
+ are bound to an object only so that we have access to them in
+ the differently-scoped steps of the API bootstrapping
+ process. At the end of the API setup process, this object gets
+ removed. These are NOT part of the public API.
+ */
+ const util = {
+ affirmBindableTypedArray, flexibleString,
+ bigIntFits32, bigIntFits64, bigIntFitsDouble,
+ isBindableTypedArray,
+ isInt32, isSQLableTypedArray, isTypedArray,
+ typedArrayToString,
+ isUIThread: ()=>'undefined'===typeof WorkerGlobalScope,
+ isSharedTypedArray,
+ typedArrayPart
+ };
+
+ Object.assign(wasm, {
+ /**
+ Emscripten APIs have a deep-seated assumption that all pointers
+ are 32 bits. We'll remain optimistic that that won't always be
+ the case and will use this constant in places where we might
+ otherwise use a hard-coded 4.
+ */
+ ptrSizeof: config.wasmPtrSizeof || 4,
+ /**
+ The WASM IR (Intermediate Representation) value for
+ pointer-type values. It MUST refer to a value type of the
+ size described by this.ptrSizeof _or_ it may be any value
+ which ends in '*', which Emscripten's glue code internally
+ translates to i32.
+ */
+ ptrIR: config.wasmPtrIR || "i32",
+ /**
+ True if BigInt support was enabled via (e.g.) the
+ Emscripten -sWASM_BIGINT flag, else false. When
+ enabled, certain 64-bit sqlite3 APIs are enabled which
+ are not otherwise enabled due to JS/WASM int64
+ impedence mismatches.
+ */
+ bigIntEnabled: !!config.bigIntEnabled,
+ /**
+ The symbols exported by the WASM environment.
+ */
+ exports: config.exports
+ || toss3("Missing API config.exports (WASM module exports)."),
+
+ /**
+ When Emscripten compiles with `-sIMPORT_MEMORY`, it
+ initalizes the heap and imports it into wasm, as opposed to
+ the other way around. In this case, the memory is not
+ available via this.exports.memory.
+ */
+ memory: config.memory || config.exports['memory']
+ || toss3("API config object requires a WebAssembly.Memory object",
+ "in either config.exports.memory (exported)",
+ "or config.memory (imported)."),
+
+ /**
+ The API's one single point of access to the WASM-side memory
+ allocator. Works like malloc(3) (and is likely bound to
+ malloc()) but throws an WasmAllocError if allocation fails. It is
+ important that any code which might pass through the sqlite3 C
+ API NOT throw and must instead return SQLITE_NOMEM (or
+ equivalent, depending on the context).
+
+ Very few cases in the sqlite3 JS APIs can result in
+ client-defined functions propagating exceptions via the C-style
+ API. Most notably, this applies to WASM-bound JS functions
+ which are created directly by clients and passed on _as WASM
+ function pointers_ to functions such as
+ sqlite3_create_function_v2(). Such bindings created
+ transparently by this API will automatically use wrappers which
+ catch exceptions and convert them to appropriate error codes.
+
+ For cases where non-throwing allocation is required, use
+ sqlite3.wasm.alloc.impl(), which is direct binding of the
+ underlying C-level allocator.
+
+ Design note: this function is not named "malloc" primarily
+ because Emscripten uses that name and we wanted to avoid any
+ confusion early on in this code's development, when it still
+ had close ties to Emscripten's glue code.
+ */
+ alloc: undefined/*installed later*/,
+
+ /**
+ The API's one single point of access to the WASM-side memory
+ deallocator. Works like free(3) (and is likely bound to
+ free()).
+
+ Design note: this function is not named "free" for the same
+ reason that this.alloc() is not called this.malloc().
+ */
+ dealloc: undefined/*installed later*/
+
+ /* Many more wasm-related APIs get installed later on. */
+ }/*wasm*/);
+
+ /**
+ wasm.alloc()'s srcTypedArray.byteLength bytes,
+ populates them with the values from the source
+ TypedArray, and returns the pointer to that memory. The
+ returned pointer must eventually be passed to
+ wasm.dealloc() to clean it up.
+
+ As a special case, to avoid further special cases where
+ this is used, if srcTypedArray.byteLength is 0, it
+ allocates a single byte and sets it to the value
+ 0. Even in such cases, calls must behave as if the
+ allocated memory has exactly srcTypedArray.byteLength
+ bytes.
+
+ ACHTUNG: this currently only works for Uint8Array and
+ Int8Array types and will throw if srcTypedArray is of
+ any other type.
+ */
+ wasm.allocFromTypedArray = function(srcTypedArray){
+ affirmBindableTypedArray(srcTypedArray);
+ const pRet = wasm.alloc(srcTypedArray.byteLength || 1);
+ wasm.heapForSize(srcTypedArray.constructor).set(
+ srcTypedArray.byteLength ? srcTypedArray : [0], pRet
+ );
+ return pRet;
+ };
+
+ const keyAlloc = config.allocExportName || 'malloc',
+ keyDealloc = config.deallocExportName || 'free';
+ for(const key of [keyAlloc, keyDealloc]){
+ const f = wasm.exports[key];
+ if(!(f instanceof Function)) toss3("Missing required exports[",key,"] function.");
+ }
+
+ wasm.alloc = function f(n){
+ const m = f.impl(n);
+ if(!m) throw new WasmAllocError("Failed to allocate",n," bytes.");
+ return m;
+ };
+ wasm.alloc.impl = wasm.exports[keyAlloc];
+ wasm.dealloc = wasm.exports[keyDealloc];
+
+ /**
+ Reports info about compile-time options using
+ sqlite_compileoption_get() and sqlite3_compileoption_used(). It
+ has several distinct uses:
+
+ If optName is an array then it is expected to be a list of
+ compilation options and this function returns an object
+ which maps each such option to true or false, indicating
+ whether or not the given option was included in this
+ build. That object is returned.
+
+ If optName is an object, its keys are expected to be compilation
+ options and this function sets each entry to true or false,
+ indicating whether the compilation option was used or not. That
+ object is returned.
+
+ If passed no arguments then it returns an object mapping
+ all known compilation options to their compile-time values,
+ or boolean true if they are defined with no value. This
+ result, which is relatively expensive to compute, is cached
+ and returned for future no-argument calls.
+
+ In all other cases it returns true if the given option was
+ active when when compiling the sqlite3 module, else false.
+
+ Compile-time option names may optionally include their
+ "SQLITE_" prefix. When it returns an object of all options,
+ the prefix is elided.
+ */
+ wasm.compileOptionUsed = function f(optName){
+ if(!arguments.length){
+ if(f._result) return f._result;
+ else if(!f._opt){
+ f._rx = /^([^=]+)=(.+)/;
+ f._rxInt = /^-?\d+$/;
+ f._opt = function(opt, rv){
+ const m = f._rx.exec(opt);
+ rv[0] = (m ? m[1] : opt);
+ rv[1] = m ? (f._rxInt.test(m[2]) ? +m[2] : m[2]) : true;
+ };
+ }
+ const rc = {}, ov = [0,0];
+ let i = 0, k;
+ while((k = capi.sqlite3_compileoption_get(i++))){
+ f._opt(k,ov);
+ rc[ov[0]] = ov[1];
+ }
+ return f._result = rc;
+ }else if(Array.isArray(optName)){
+ const rc = {};
+ optName.forEach((v)=>{
+ rc[v] = capi.sqlite3_compileoption_used(v);
+ });
+ return rc;
+ }else if('object' === typeof optName){
+ Object.keys(optName).forEach((k)=> {
+ optName[k] = capi.sqlite3_compileoption_used(k);
+ });
+ return optName;
+ }
+ return (
+ 'string'===typeof optName
+ ) ? !!capi.sqlite3_compileoption_used(optName) : false;
+ }/*compileOptionUsed()*/;
+
+ /**
+ Signatures for the WASM-exported C-side functions. Each entry
+ is an array with 2+ elements:
+
+ [ "c-side name",
+ "result type" (wasm.xWrap() syntax),
+ [arg types in xWrap() syntax]
+ // ^^^ this needn't strictly be an array: it can be subsequent
+ // elements instead: [x,y,z] is equivalent to x,y,z
+ ]
+
+ Note that support for the API-specific data types in the
+ result/argument type strings gets plugged in at a later phase in
+ the API initialization process.
+ */
+ wasm.bindingSignatures = [
+ // Please keep these sorted by function name!
+ ["sqlite3_aggregate_context","void*", "sqlite3_context*", "int"],
+ ["sqlite3_bind_blob","int", "sqlite3_stmt*", "int", "*", "int", "*"
+ /* TODO: we should arguably write a custom wrapper which knows
+ how to handle Blob, TypedArrays, and JS strings. */
+ ],
+ ["sqlite3_bind_double","int", "sqlite3_stmt*", "int", "f64"],
+ ["sqlite3_bind_int","int", "sqlite3_stmt*", "int", "int"],
+ ["sqlite3_bind_null",undefined, "sqlite3_stmt*", "int"],
+ ["sqlite3_bind_parameter_count", "int", "sqlite3_stmt*"],
+ ["sqlite3_bind_parameter_index","int", "sqlite3_stmt*", "string"],
+ ["sqlite3_bind_text","int", "sqlite3_stmt*", "int", "string", "int", "int"
+ /* We should arguably create a hand-written binding of
+ bind_text() which does more flexible text conversion, along
+ the lines of sqlite3_prepare_v3(). The slightly problematic
+ part is the final argument (text destructor). */
+ ],
+ ["sqlite3_close_v2", "int", "sqlite3*"],
+ ["sqlite3_changes", "int", "sqlite3*"],
+ ["sqlite3_clear_bindings","int", "sqlite3_stmt*"],
+ ["sqlite3_column_blob","*", "sqlite3_stmt*", "int"],
+ ["sqlite3_column_bytes","int", "sqlite3_stmt*", "int"],
+ ["sqlite3_column_count", "int", "sqlite3_stmt*"],
+ ["sqlite3_column_double","f64", "sqlite3_stmt*", "int"],
+ ["sqlite3_column_int","int", "sqlite3_stmt*", "int"],
+ ["sqlite3_column_name","string", "sqlite3_stmt*", "int"],
+ ["sqlite3_column_text","string", "sqlite3_stmt*", "int"],
+ ["sqlite3_column_type","int", "sqlite3_stmt*", "int"],
+ ["sqlite3_compileoption_get", "string", "int"],
+ ["sqlite3_compileoption_used", "int", "string"],
+ /* sqlite3_create_function(), sqlite3_create_function_v2(), and
+ sqlite3_create_window_function() use hand-written bindings to
+ simplify handling of their function-type arguments. */
+ ["sqlite3_data_count", "int", "sqlite3_stmt*"],
+ ["sqlite3_db_filename", "string", "sqlite3*", "string"],
+ ["sqlite3_db_handle", "sqlite3*", "sqlite3_stmt*"],
+ ["sqlite3_db_name", "string", "sqlite3*", "int"],
+ ["sqlite3_deserialize", "int", "sqlite3*", "string", "*", "i64", "i64", "int"]
+ /* Careful! Short version: de/serialize() are problematic because they
+ might use a different allocator than the user for managing the
+ deserialized block. de/serialize() are ONLY safe to use with
+ sqlite3_malloc(), sqlite3_free(), and its 64-bit variants. */,
+ ["sqlite3_errmsg", "string", "sqlite3*"],
+ ["sqlite3_error_offset", "int", "sqlite3*"],
+ ["sqlite3_errstr", "string", "int"],
+ /*["sqlite3_exec", "int", "sqlite3*", "string", "*", "*", "**"
+ Handled seperately to perform translation of the callback
+ into a WASM-usable one. ],*/
+ ["sqlite3_expanded_sql", "string", "sqlite3_stmt*"],
+ ["sqlite3_extended_errcode", "int", "sqlite3*"],
+ ["sqlite3_extended_result_codes", "int", "sqlite3*", "int"],
+ ["sqlite3_file_control", "int", "sqlite3*", "string", "int", "*"],
+ ["sqlite3_finalize", "int", "sqlite3_stmt*"],
+ ["sqlite3_free", undefined,"*"],
+ ["sqlite3_initialize", undefined],
+ /*["sqlite3_interrupt", undefined, "sqlite3*"
+ ^^^ we cannot actually currently support this because JS is
+ single-threaded and we don't have a portable way to access a DB
+ from 2 SharedWorkers concurrently. ],*/
+ ["sqlite3_libversion", "string"],
+ ["sqlite3_libversion_number", "int"],
+ ["sqlite3_malloc", "*","int"],
+ ["sqlite3_open", "int", "string", "*"],
+ ["sqlite3_open_v2", "int", "string", "*", "int", "string"],
+ /* sqlite3_prepare_v2() and sqlite3_prepare_v3() are handled
+ separately due to us requiring two different sets of semantics
+ for those, depending on how their SQL argument is provided. */
+ /* sqlite3_randomness() uses a hand-written wrapper to extend
+ the range of supported argument types. */
+ ["sqlite3_realloc", "*","*","int"],
+ ["sqlite3_reset", "int", "sqlite3_stmt*"],
+ ["sqlite3_result_blob",undefined, "*", "*", "int", "*"],
+ ["sqlite3_result_double",undefined, "*", "f64"],
+ ["sqlite3_result_error",undefined, "*", "string", "int"],
+ ["sqlite3_result_error_code", undefined, "*", "int"],
+ ["sqlite3_result_error_nomem", undefined, "*"],
+ ["sqlite3_result_error_toobig", undefined, "*"],
+ ["sqlite3_result_int",undefined, "*", "int"],
+ ["sqlite3_result_null",undefined, "*"],
+ ["sqlite3_result_text",undefined, "*", "string", "int", "*"],
+ ["sqlite3_serialize","*", "sqlite3*", "string", "*", "int"],
+ ["sqlite3_shutdown", undefined],
+ ["sqlite3_sourceid", "string"],
+ ["sqlite3_sql", "string", "sqlite3_stmt*"],
+ ["sqlite3_step", "int", "sqlite3_stmt*"],
+ ["sqlite3_strglob", "int", "string","string"],
+ ["sqlite3_strlike", "int", "string","string","int"],
+ ["sqlite3_trace_v2", "int", "sqlite3*", "int", "*", "*"],
+ ["sqlite3_total_changes", "int", "sqlite3*"],
+ ["sqlite3_uri_boolean", "int", "string", "string", "int"],
+ ["sqlite3_uri_key", "string", "string", "int"],
+ ["sqlite3_uri_parameter", "string", "string", "string"],
+ ["sqlite3_user_data","void*", "sqlite3_context*"],
+ ["sqlite3_value_blob", "*", "sqlite3_value*"],
+ ["sqlite3_value_bytes","int", "sqlite3_value*"],
+ ["sqlite3_value_double","f64", "sqlite3_value*"],
+ ["sqlite3_value_int","int", "sqlite3_value*"],
+ ["sqlite3_value_text", "string", "sqlite3_value*"],
+ ["sqlite3_value_type", "int", "sqlite3_value*"],
+ ["sqlite3_vfs_find", "*", "string"],
+ ["sqlite3_vfs_register", "int", "sqlite3_vfs*", "int"],
+ ["sqlite3_vfs_unregister", "int", "sqlite3_vfs*"]
+ ]/*wasm.bindingSignatures*/;
+
+ if(false && wasm.compileOptionUsed('SQLITE_ENABLE_NORMALIZE')){
+ /* ^^^ "the problem" is that this is an option feature and the
+ build-time function-export list does not currently take
+ optional features into account. */
+ wasm.bindingSignatures.push(["sqlite3_normalized_sql", "string", "sqlite3_stmt*"]);
+ }
+
+ /**
+ Functions which require BigInt (int64) support are separated from
+ the others because we need to conditionally bind them or apply
+ dummy impls, depending on the capabilities of the environment.
+ */
+ wasm.bindingSignatures.int64 = [
+ ["sqlite3_bind_int64","int", ["sqlite3_stmt*", "int", "i64"]],
+ ["sqlite3_changes64","i64", ["sqlite3*"]],
+ ["sqlite3_column_int64","i64", ["sqlite3_stmt*", "int"]],
+ ["sqlite3_malloc64", "*","i64"],
+ ["sqlite3_msize", "i64", "*"],
+ ["sqlite3_realloc64", "*","*", "i64"],
+ ["sqlite3_result_int64",undefined, "*", "i64"],
+ ["sqlite3_total_changes64", "i64", ["sqlite3*"]],
+ ["sqlite3_uri_int64", "i64", ["string", "string", "i64"]],
+ ["sqlite3_value_int64","i64", "sqlite3_value*"],
+ ];
+
+ /**
+ Functions which are intended solely for API-internal use by the
+ WASM components, not client code. These get installed into
+ sqlite3.wasm.
+ */
+ wasm.bindingSignatures.wasm = [
+ ["sqlite3_wasm_db_reset", "int", "sqlite3*"],
+ ["sqlite3_wasm_db_vfs", "sqlite3_vfs*", "sqlite3*","string"],
+ ["sqlite3_wasm_vfs_create_file", "int",
+ "sqlite3_vfs*","string","*", "int"],
+ ["sqlite3_wasm_vfs_unlink", "int", "sqlite3_vfs*","string"]
+ ];
+
+
+ /**
+ sqlite3.wasm.pstack (pseudo-stack) holds a special-case
+ stack-style allocator intended only for use with _small_ data of
+ not more than (in total) a few kb in size, managed as if it were
+ stack-based.
+
+ It has only a single intended usage:
+
+ ```
+ const stackPos = pstack.pointer;
+ try{
+ const ptr = pstack.alloc(8);
+ // ==> pstack.pointer === ptr
+ const otherPtr = pstack.alloc(8);
+ // ==> pstack.pointer === otherPtr
+ ...
+ }finally{
+ pstack.restore(stackPos);
+ // ==> pstack.pointer === stackPos
+ }
+ ```
+
+ This allocator is much faster than a general-purpose one but is
+ limited to usage patterns like the one shown above.
+
+ It operates from a static range of memory which lives outside of
+ space managed by Emscripten's stack-management, so does not
+ collide with Emscripten-provided stack allocation APIs. The
+ memory lives in the WASM heap and can be used with routines such
+ as wasm.setMemValue() and any wasm.heap8u().slice().
+ */
+ wasm.pstack = Object.assign(Object.create(null),{
+ /**
+ Sets the current pstack position to the given pointer. Results
+ are undefined if the passed-in value did not come from
+ this.pointer.
+ */
+ restore: wasm.exports.sqlite3_wasm_pstack_restore,
+ /**
+ Attempts to allocate the given number of bytes from the
+ pstack. On success, it zeroes out a block of memory of the
+ given size, adjusts the pstack pointer, and returns a pointer
+ to the memory. On error, returns throws a WasmAllocError. The
+ memory must eventually be released using restore().
+
+ This method always adjusts the given value to be a multiple
+ of 8 bytes because failing to do so can lead to incorrect
+ results when reading and writing 64-bit values from/to the WASM
+ heap. Similarly, the returned address is always 8-byte aligned.
+ */
+ alloc: (n)=>{
+ return wasm.exports.sqlite3_wasm_pstack_alloc(n)
+ || WasmAllocError.toss("Could not allocate",n,
+ "bytes from the pstack.");
+ },
+ /**
+ alloc()'s n chunks, each sz bytes, as a single memory block and
+ returns the addresses as an array of n element, each holding
+ the address of one chunk.
+
+ Throws a WasmAllocError if allocation fails.
+
+ Example:
+
+ ```
+ const [p1, p2, p3] = wasm.pstack.allocChunks(3,4);
+ ```
+ */
+ allocChunks: (n,sz)=>{
+ const mem = wasm.pstack.alloc(n * sz);
+ const rc = [];
+ let i = 0, offset = 0;
+ for(; i < n; offset = (sz * ++i)){
+ rc.push(mem + offset);
+ }
+ return rc;
+ },
+ /**
+ A convenience wrapper for allocChunks() which sizes each chunk
+ as either 8 bytes (safePtrSize is truthy) or wasm.ptrSizeof (if
+ safePtrSize is falsy).
+
+ How it returns its result differs depending on its first
+ argument: if it's 1, it returns a single pointer value. If it's
+ more than 1, it returns the same as allocChunks().
+
+ When a returned pointers will refer to a 64-bit value, e.g. a
+ double or int64, and that value must be written or fetched,
+ e.g. using wasm.setMemValue() or wasm.getMemValue(), it is
+ important that the pointer in question be aligned to an 8-byte
+ boundary or else it will not be fetched or written properly and
+ will corrupt or read neighboring memory.
+
+ However, when all pointers involved point to "small" data, it
+ is safe to pass a falsy value to save a tiny bit of memory.
+ */
+ allocPtr: (n=1,safePtrSize=true)=>{
+ return 1===n
+ ? wasm.pstack.alloc(safePtrSize ? 8 : wasm.ptrSizeof)
+ : wasm.pstack.allocChunks(n, safePtrSize ? 8 : wasm.ptrSizeof);
+ }
+ })/*wasm.pstack*/;
+ Object.defineProperties(wasm.pstack, {
+ /**
+ sqlite3.wasm.pstack.pointer resolves to the current pstack
+ position pointer. This value is intended _only_ to be saved
+ for passing to restore(). Writing to this memory, without
+ first reserving it via wasm.pstack.alloc() and friends, leads
+ to undefined results.
+ */
+ pointer: {
+ configurable: false, iterable: true, writeable: false,
+ get: wasm.exports.sqlite3_wasm_pstack_ptr
+ //Whether or not a setter as an alternative to restore() is
+ //clearer or would just lead to confusion is unclear.
+ //set: wasm.exports.sqlite3_wasm_pstack_restore
+ },
+ /**
+ sqlite3.wasm.pstack.quota to the total number of bytes
+ available in the pstack, including any space which is currently
+ allocated. This value is a compile-time constant.
+ */
+ quota: {
+ configurable: false, iterable: true, writeable: false,
+ get: wasm.exports.sqlite3_wasm_pstack_quota
+ },
+ /**
+ sqlite3.wasm.pstack.remaining resolves to the amount of space
+ remaining in the pstack.
+ */
+ remaining: {
+ configurable: false, iterable: true, writeable: false,
+ get: wasm.exports.sqlite3_wasm_pstack_remaining
+ }
+ })/*wasm.pstack properties*/;
+
+ capi.sqlite3_randomness = (...args)=>{
+ if(1===args.length && util.isTypedArray(args[0])
+ && 1===args[0].BYTES_PER_ELEMENT){
+ const ta = args[0];
+ if(0===ta.byteLength){
+ wasm.exports.sqlite3_randomness(0,0);
+ return ta;
+ }
+ const stack = wasm.pstack.pointer;
+ try {
+ let n = ta.byteLength, offset = 0;
+ const r = wasm.exports.sqlite3_randomness;
+ const heap = wasm.heap8u();
+ const nAlloc = n < 512 ? n : 512;
+ const ptr = wasm.pstack.alloc(nAlloc);
+ do{
+ const j = (n>nAlloc ? nAlloc : n);
+ r(j, ptr);
+ ta.set(typedArrayPart(heap, ptr, ptr+j), offset);
+ n -= j;
+ offset += j;
+ } while(n > 0);
+ }catch(e){
+ console.error("Highly unexpected (and ignored!) "+
+ "exception in sqlite3_randomness():",e);
+ }finally{
+ wasm.pstack.restore(stack);
+ }
+ return ta;
+ }
+ wasm.exports.sqlite3_randomness(...args);
+ };
+
+ /** State for sqlite3_wasmfs_opfs_dir(). */
+ let __wasmfsOpfsDir = undefined;
+ /**
+ If the wasm environment has a WASMFS/OPFS-backed persistent
+ storage directory, its path is returned by this function. If it
+ does not then it returns "" (noting that "" is a falsy value).
+
+ The first time this is called, this function inspects the current
+ environment to determine whether persistence support is available
+ and, if it is, enables it (if needed).
+
+ This function currently only recognizes the WASMFS/OPFS storage
+ combination and its path refers to storage rooted in the
+ Emscripten-managed virtual filesystem.
+ */
+ capi.sqlite3_wasmfs_opfs_dir = function(){
+ if(undefined !== __wasmfsOpfsDir) return __wasmfsOpfsDir;
+ // If we have no OPFS, there is no persistent dir
+ const pdir = config.wasmfsOpfsDir;
+ if(!pdir
+ || !self.FileSystemHandle
+ || !self.FileSystemDirectoryHandle
+ || !self.FileSystemFileHandle){
+ return __wasmfsOpfsDir = "";
+ }
+ try{
+ if(pdir && 0===wasm.xCallWrapped(
+ 'sqlite3_wasm_init_wasmfs', 'i32', ['string'], pdir
+ )){
+ return __wasmfsOpfsDir = pdir;
+ }else{
+ return __wasmfsOpfsDir = "";
+ }
+ }catch(e){
+ // sqlite3_wasm_init_wasmfs() is not available
+ return __wasmfsOpfsDir = "";
+ }
+ };
+
+ /**
+ Experimental and subject to change or removal.
+
+ Returns true if sqlite3.capi.sqlite3_wasmfs_opfs_dir() is a
+ non-empty string and the given name starts with (that string +
+ '/'), else returns false.
+ */
+ capi.sqlite3_wasmfs_filename_is_persistent = function(name){
+ const p = capi.sqlite3_wasmfs_opfs_dir();
+ return (p && name) ? name.startsWith(p+'/') : false;
+ };
+
+ // This bit is highly arguable and is incompatible with the fiddle shell.
+ if(false && 0===wasm.exports.sqlite3_vfs_find(0)){
+ /* Assume that sqlite3_initialize() has not yet been called.
+ This will be the case in an SQLITE_OS_KV build. */
+ wasm.exports.sqlite3_initialize();
+ }
+
+ /**
+ Given an `sqlite3*`, an sqlite3_vfs name, and an optional db name
+ (defaulting to "main"), returns a truthy value (see below) if
+ that db uses that VFS, else returns false. If pDb is falsy then
+ the 3rd argument is ignored and this function returns a truthy
+ value if the default VFS name matches that of the 2nd
+ argument. Results are undefined if pDb is truthy but refers to an
+ invalid pointer. The 3rd argument specifies the database name of
+ the given database connection to check, defaulting to the main
+ db.
+
+ The 2nd and 3rd arguments may either be a JS string or a WASM
+ C-string. If the 2nd argument is a NULL WASM pointer, the default
+ VFS is assumed. If the 3rd is a NULL WASM pointer, "main" is
+ assumed.
+
+ The truthy value it returns is a pointer to the `sqlite3_vfs`
+ object.
+
+ To permit safe use of this function from APIs which may be called
+ via the C stack (like SQL UDFs), this function does not throw: if
+ bad arguments cause a conversion error when passing into
+ wasm-space, false is returned.
+ */
+ capi.sqlite3_js_db_uses_vfs = function(pDb,vfsName,dbName=0){
+ try{
+ const pK = capi.sqlite3_vfs_find(vfsName);
+ if(!pK) return false;
+ else if(!pDb){
+ return pK===capi.sqlite3_vfs_find(0) ? pK : false;
+ }else{
+ return pK===capi.sqlite3_js_db_vfs(pDb,dbName) ? pK : false;
+ }
+ }catch(e){
+ /* Ignore - probably bad args to a wasm-bound function. */
+ return false;
+ }
+ };
+
+ /**
+ Returns an array of the names of all currently-registered sqlite3
+ VFSes.
+ */
+ capi.sqlite3_js_vfs_list = function(){
+ const rc = [];
+ let pVfs = capi.sqlite3_vfs_find(0);
+ while(pVfs){
+ const oVfs = new capi.sqlite3_vfs(pVfs);
+ rc.push(wasm.cstringToJs(oVfs.$zName));
+ pVfs = oVfs.$pNext;
+ oVfs.dispose();
+ }
+ return rc;
+ };
+
+ /**
+ Serializes the given `sqlite3*` pointer to a Uint8Array, as per
+ sqlite3_serialize(). On success it returns a Uint8Array. On
+ error it throws with a description of the problem.
+ */
+ capi.sqlite3_js_db_export = function(pDb){
+ if(!pDb) toss3('Invalid sqlite3* argument.');
+ if(!wasm.bigIntEnabled) toss3('BigInt64 support is not enabled.');
+ const stack = wasm.pstack.pointer;
+ let pOut;
+ try{
+ const pSize = wasm.pstack.alloc(8/*i64*/ + wasm.ptrSizeof);
+ const ppOut = pSize + 8;
+ /**
+ Maintenance reminder, since this cost a full hour of grief
+ and confusion: if the order of pSize/ppOut are reversed in
+ that memory block, fetching the value of pSize after the
+ export reads a garbage size because it's not on an 8-byte
+ memory boundary!
+ */
+ let rc = wasm.exports.sqlite3_wasm_db_serialize(
+ pDb, ppOut, pSize, 0
+ );
+ if(rc){
+ toss3("Database serialization failed with code",
+ sqlite3.capi.sqlite3_js_rc_str(rc));
+ }
+ pOut = wasm.getPtrValue(ppOut);
+ const nOut = wasm.getMemValue(pSize, 'i64');
+ rc = nOut
+ ? wasm.heap8u().slice(pOut, pOut + Number(nOut))
+ : new Uint8Array();
+ return rc;
+ }finally{
+ if(pOut) wasm.exports.sqlite3_free(pOut);
+ wasm.pstack.restore(stack);
+ }
+ };
+
+ /**
+ Given a `sqlite3*` and a database name (JS string or WASM
+ C-string pointer, which may be 0), returns a pointer to the
+ sqlite3_vfs responsible for it. If the given db name is null/0,
+ or not provided, then "main" is assumed.
+ */
+ capi.sqlite3_js_db_vfs =
+ (dbPointer, dbName=0)=>wasm.sqlite3_wasm_db_vfs(dbPointer, dbName);
+
+ /**
+ A thin wrapper around capi.sqlite3_aggregate_context() which
+ behaves the same except that it throws a WasmAllocError if that
+ function returns 0. As a special case, if n is falsy it does
+ _not_ throw if that function returns 0. That special case is
+ intended for use with xFinal() implementations.
+ */
+ capi.sqlite3_js_aggregate_context = (pCtx, n)=>{
+ return capi.sqlite3_aggregate_context(pCtx, n)
+ || (n ? WasmAllocError.toss("Cannot allocate",n,
+ "bytes for sqlite3_aggregate_context()")
+ : 0);
+ };
+
+ if( util.isUIThread() ){
+ /* Features specific to the main window thread... */
+
+ /**
+ Internal helper for sqlite3_js_kvvfs_clear() and friends.
+ Its argument should be one of ('local','session',"").
+ */
+ const __kvvfsInfo = function(which){
+ const rc = Object.create(null);
+ rc.prefix = 'kvvfs-'+which;
+ rc.stores = [];
+ if('session'===which || ""===which) rc.stores.push(self.sessionStorage);
+ if('local'===which || ""===which) rc.stores.push(self.localStorage);
+ return rc;
+ };
+
+ /**
+ Clears all storage used by the kvvfs DB backend, deleting any
+ DB(s) stored there. Its argument must be either 'session',
+ 'local', or "". In the first two cases, only sessionStorage
+ resp. localStorage is cleared. If it's an empty string (the
+ default) then both are cleared. Only storage keys which match
+ the pattern used by kvvfs are cleared: any other client-side
+ data are retained.
+
+ This function is only available in the main window thread.
+
+ Returns the number of entries cleared.
+ */
+ capi.sqlite3_js_kvvfs_clear = function(which=""){
+ let rc = 0;
+ const kvinfo = __kvvfsInfo(which);
+ kvinfo.stores.forEach((s)=>{
+ const toRm = [] /* keys to remove */;
+ let i;
+ for( i = 0; i < s.length; ++i ){
+ const k = s.key(i);
+ if(k.startsWith(kvinfo.prefix)) toRm.push(k);
+ }
+ toRm.forEach((kk)=>s.removeItem(kk));
+ rc += toRm.length;
+ });
+ return rc;
+ };
+
+ /**
+ This routine guesses the approximate amount of
+ window.localStorage and/or window.sessionStorage in use by the
+ kvvfs database backend. Its argument must be one of
+ ('session', 'local', ""). In the first two cases, only
+ sessionStorage resp. localStorage is counted. If it's an empty
+ string (the default) then both are counted. Only storage keys
+ which match the pattern used by kvvfs are counted. The returned
+ value is the "length" value of every matching key and value,
+ noting that JavaScript stores each character in 2 bytes.
+
+ Note that the returned size is not authoritative from the
+ perspective of how much data can fit into localStorage and
+ sessionStorage, as the precise algorithms for determining
+ those limits are unspecified and may include per-entry
+ overhead invisible to clients.
+ */
+ capi.sqlite3_js_kvvfs_size = function(which=""){
+ let sz = 0;
+ const kvinfo = __kvvfsInfo(which);
+ kvinfo.stores.forEach((s)=>{
+ let i;
+ for(i = 0; i < s.length; ++i){
+ const k = s.key(i);
+ if(k.startsWith(kvinfo.prefix)){
+ sz += k.length;
+ sz += s.getItem(k).length;
+ }
+ }
+ });
+ return sz * 2 /* because JS uses 2-byte char encoding */;
+ };
+
+ }/* main-window-only bits */
+
+
+ /* The remainder of the API will be set up in later steps. */
+ const sqlite3 = {
+ WasmAllocError: WasmAllocError,
+ SQLite3Error: SQLite3Error,
+ capi,
+ util,
+ wasm,
+ config,
+ /**
+ Holds the version info of the sqlite3 source tree from which
+ the generated sqlite3-api.js gets built. Note that its version
+ may well differ from that reported by sqlite3_libversion(), but
+ that should be considered a source file mismatch, as the JS and
+ WASM files are intended to be built and distributed together.
+
+ This object is initially a placeholder which gets replaced by a
+ build-generated object.
+ */
+ version: Object.create(null),
+ /**
+ Performs any optional asynchronous library-level initialization
+ which might be required. This function returns a Promise which
+ resolves to the sqlite3 namespace object. Any error in the
+ async init will be fatal to the init as a whole, but init
+ routines are themselves welcome to install dummy catch()
+ handlers which are not fatal if their failure should be
+ considered non-fatal. If called more than once, the second and
+ subsequent calls are no-ops which return a pre-resolved
+ Promise.
+
+ Ideally this function is called as part of the Promise chain
+ which handles the loading and bootstrapping of the API. If not
+ then it must be called by client-level code, which must not use
+ the library until the returned promise resolves.
+
+ Bug: if called while a prior call is still resolving, the 2nd
+ call will resolve prematurely, before the 1st call has finished
+ resolving. The current build setup precludes that possibility,
+ so it's only a hypothetical problem if/when this function
+ ever needs to be invoked by clients.
+
+ In Emscripten-based builds, this function is called
+ automatically and deleted from this object.
+ */
+ asyncPostInit: async function(){
+ let lip = sqlite3ApiBootstrap.initializersAsync;
+ delete sqlite3ApiBootstrap.initializersAsync;
+ if(!lip || !lip.length) return Promise.resolve(sqlite3);
+ // Is it okay to resolve these in parallel or do we need them
+ // to resolve in order? We currently only have 1, so it
+ // makes no difference.
+ lip = lip.map((f)=>{
+ const p = (f instanceof Promise) ? f : f(sqlite3);
+ return p.catch((e)=>{
+ console.error("an async sqlite3 initializer failed:",e);
+ throw e;
+ });
+ });
+ //let p = lip.shift();
+ //while(lip.length) p = p.then(lip.shift());
+ //return p.then(()=>sqlite3);
+ return Promise.all(lip).then(()=>sqlite3);
+ },
+ /**
+ scriptInfo ideally gets injected into this object by the
+ infrastructure which assembles the JS/WASM module. It contains
+ state which must be collected before sqlite3ApiBootstrap() can
+ be declared. It is not necessarily available to any
+ sqlite3ApiBootstrap.initializers but "should" be in place (if
+ it's added at all) by the time that
+ sqlite3ApiBootstrap.initializersAsync is processed.
+
+ This state is not part of the public API, only intended for use
+ with the sqlite3 API bootstrapping and wasm-loading process.
+ */
+ scriptInfo: undefined
+ };
+ try{
+ sqlite3ApiBootstrap.initializers.forEach((f)=>{
+ f(sqlite3);
+ });
+ }catch(e){
+ /* If we don't report this here, it can get completely swallowed
+ up and disappear into the abyss of Promises and Workers. */
+ console.error("sqlite3 bootstrap initializer threw:",e);
+ throw e;
+ }
+ delete sqlite3ApiBootstrap.initializers;
+ sqlite3ApiBootstrap.sqlite3 = sqlite3;
+ return sqlite3;
+}/*sqlite3ApiBootstrap()*/;
+/**
+ self.sqlite3ApiBootstrap.initializers is an internal detail used by
+ the various pieces of the sqlite3 API's amalgamation process. It
+ must not be modified by client code except when plugging such code
+ into the amalgamation process.
+
+ Each component of the amalgamation is expected to append a function
+ to this array. When sqlite3ApiBootstrap() is called for the first
+ time, each such function will be called (in their appended order)
+ and passed the sqlite3 namespace object, into which they can install
+ their features (noting that most will also require that certain
+ features alread have been installed). At the end of that process,
+ this array is deleted.
+
+ Note that the order of insertion into this array is significant for
+ some pieces. e.g. sqlite3.capi and sqlite3.wasm cannot be fully
+ utilized until the whwasmutil.js part is plugged in via
+ sqlite3-api-glue.js.
+*/
+self.sqlite3ApiBootstrap.initializers = [];
+/**
+ self.sqlite3ApiBootstrap.initializersAsync is an internal detail
+ used by the sqlite3 API's amalgamation process. It must not be
+ modified by client code except when plugging such code into the
+ amalgamation process.
+
+ The counterpart of self.sqlite3ApiBootstrap.initializers,
+ specifically for initializers which are asynchronous. All entries in
+ this list must be either async functions, non-async functions which
+ return a Promise, or a Promise. Each function in the list is called
+ with the sqlite3 ojbect as its only argument.
+
+ The resolved value of any Promise is ignored and rejection will kill
+ the asyncPostInit() process (at an indeterminate point because all
+ of them are run asynchronously in parallel).
+
+ This list is not processed until the client calls
+ sqlite3.asyncPostInit(). This means, for example, that intializers
+ added to self.sqlite3ApiBootstrap.initializers may push entries to
+ this list.
+*/
+self.sqlite3ApiBootstrap.initializersAsync = [];
+/**
+ Client code may assign sqlite3ApiBootstrap.defaultConfig an
+ object-type value before calling sqlite3ApiBootstrap() (without
+ arguments) in order to tell that call to use this object as its
+ default config value. The intention of this is to provide
+ downstream clients with a reasonably flexible approach for plugging in
+ an environment-suitable configuration without having to define a new
+ global-scope symbol.
+*/
+self.sqlite3ApiBootstrap.defaultConfig = Object.create(null);
+/**
+ Placeholder: gets installed by the first call to
+ self.sqlite3ApiBootstrap(). However, it is recommended that the
+ caller of sqlite3ApiBootstrap() capture its return value and delete
+ self.sqlite3ApiBootstrap after calling it. It returns the same
+ value which will be stored here.
+*/
+self.sqlite3ApiBootstrap.sqlite3 = undefined;
+
diff --git a/ext/wasm/api/sqlite3-api-worker1.js b/ext/wasm/api/sqlite3-api-worker1.js
new file mode 100644
index 0000000..62e2bb9
--- /dev/null
+++ b/ext/wasm/api/sqlite3-api-worker1.js
@@ -0,0 +1,654 @@
+/*
+ 2022-07-22
+
+ The author disclaims copyright to this source code. In place of a
+ legal notice, here is a blessing:
+
+ * May you do good and not evil.
+ * May you find forgiveness for yourself and forgive others.
+ * May you share freely, never taking more than you give.
+
+ ***********************************************************************
+
+ This file implements the initializer for the sqlite3 "Worker API
+ #1", a very basic DB access API intended to be scripted from a main
+ window thread via Worker-style messages. Because of limitations in
+ that type of communication, this API is minimalistic and only
+ capable of serving relatively basic DB requests (e.g. it cannot
+ process nested query loops concurrently).
+
+ This file requires that the core C-style sqlite3 API and OO API #1
+ have been loaded.
+*/
+
+/**
+ sqlite3.initWorker1API() implements a Worker-based wrapper around
+ SQLite3 OO API #1, colloquially known as "Worker API #1".
+
+ In order to permit this API to be loaded in worker threads without
+ automatically registering onmessage handlers, initializing the
+ worker API requires calling initWorker1API(). If this function is
+ called from a non-worker thread then it throws an exception. It
+ must only be called once per Worker.
+
+ When initialized, it installs message listeners to receive Worker
+ messages and then it posts a message in the form:
+
+ ```
+ {type:'sqlite3-api', result:'worker1-ready'}
+ ```
+
+ to let the client know that it has been initialized. Clients may
+ optionally depend on this function not returning until
+ initialization is complete, as the initialization is synchronous.
+ In some contexts, however, listening for the above message is
+ a better fit.
+
+ Note that the worker-based interface can be slightly quirky because
+ of its async nature. In particular, any number of messages may be posted
+ to the worker before it starts handling any of them. If, e.g., an
+ "open" operation fails, any subsequent messages will fail. The
+ Promise-based wrapper for this API (`sqlite3-worker1-promiser.js`)
+ is more comfortable to use in that regard.
+
+ The documentation for the input and output worker messages for
+ this API follows...
+
+ ====================================================================
+ Common message format...
+
+ Each message posted to the worker has an operation-independent
+ envelope and operation-dependent arguments:
+
+ ```
+ {
+ type: string, // one of: 'open', 'close', 'exec', 'config-get'
+
+ messageId: OPTIONAL arbitrary value. The worker will copy it as-is
+ into response messages to assist in client-side dispatching.
+
+ dbId: a db identifier string (returned by 'open') which tells the
+ operation which database instance to work on. If not provided, the
+ first-opened db is used. This is an "opaque" value, with no
+ inherently useful syntax or information. Its value is subject to
+ change with any given build of this API and cannot be used as a
+ basis for anything useful beyond its one intended purpose.
+
+ args: ...operation-dependent arguments...
+
+ // the framework may add other properties for testing or debugging
+ // purposes.
+
+ }
+ ```
+
+ Response messages, posted back to the main thread, look like:
+
+ ```
+ {
+ type: string. Same as above except for error responses, which have the type
+ 'error',
+
+ messageId: same value, if any, provided by the inbound message
+
+ dbId: the id of the db which was operated on, if any, as returned
+ by the corresponding 'open' operation.
+
+ result: ...operation-dependent result...
+
+ }
+ ```
+
+ ====================================================================
+ Error responses
+
+ Errors are reported messages in an operation-independent format:
+
+ ```
+ {
+ type: "error",
+
+ messageId: ...as above...,
+
+ dbId: ...as above...
+
+ result: {
+
+ operation: type of the triggering operation: 'open', 'close', ...
+
+ message: ...error message text...
+
+ errorClass: string. The ErrorClass.name property from the thrown exception.
+
+ input: the message object which triggered the error.
+
+ stack: _if available_, a stack trace array.
+
+ }
+
+ }
+ ```
+
+
+ ====================================================================
+ "config-get"
+
+ This operation fetches the serializable parts of the sqlite3 API
+ configuration.
+
+ Message format:
+
+ ```
+ {
+ type: "config-get",
+ messageId: ...as above...,
+ args: currently ignored and may be elided.
+ }
+ ```
+
+ Response:
+
+ ```
+ {
+ type: "config-get",
+ messageId: ...as above...,
+ result: {
+
+ version: sqlite3.version object
+
+ bigIntEnabled: bool. True if BigInt support is enabled.
+
+ wasmfsOpfsDir: path prefix, if any, _intended_ for use with
+ WASMFS OPFS persistent storage.
+
+ wasmfsOpfsEnabled: true if persistent storage is enabled in the
+ current environment. Only files stored under wasmfsOpfsDir
+ will persist using that mechanism, however. It is legal to use
+ the non-WASMFS OPFS VFS to open a database via a URI-style
+ db filename.
+
+ vfsList: result of sqlite3.capi.sqlite3_js_vfs_list()
+ }
+ }
+ ```
+
+
+ ====================================================================
+ "open" a database
+
+ Message format:
+
+ ```
+ {
+ type: "open",
+ messageId: ...as above...,
+ args:{
+
+ filename [=":memory:" or "" (unspecified)]: the db filename.
+ See the sqlite3.oo1.DB constructor for peculiarities and
+ transformations,
+
+ vfs: sqlite3_vfs name. Ignored if filename is ":memory:" or "".
+ This may change how the given filename is resolved.
+ }
+ }
+ ```
+
+ Response:
+
+ ```
+ {
+ type: "open",
+ messageId: ...as above...,
+ result: {
+ filename: db filename, possibly differing from the input.
+
+ dbId: an opaque ID value which must be passed in the message
+ envelope to other calls in this API to tell them which db to
+ use. If it is not provided to future calls, they will default to
+ operating on the least-recently-opened db. This property is, for
+ API consistency's sake, also part of the containing message
+ envelope. Only the `open` operation includes it in the `result`
+ property.
+
+ persistent: true if the given filename resides in the
+ known-persistent storage, else false.
+
+ vfs: name of the VFS the "main" db is using.
+ }
+ }
+ ```
+
+ ====================================================================
+ "close" a database
+
+ Message format:
+
+ ```
+ {
+ type: "close",
+ messageId: ...as above...
+ dbId: ...as above...
+ args: OPTIONAL {unlink: boolean}
+ }
+ ```
+
+ If the `dbId` does not refer to an opened ID, this is a no-op. If
+ the `args` object contains a truthy `unlink` value then the database
+ will be unlinked (deleted) after closing it. The inability to close a
+ db (because it's not opened) or delete its file does not trigger an
+ error.
+
+ Response:
+
+ ```
+ {
+ type: "close",
+ messageId: ...as above...,
+ result: {
+
+ filename: filename of closed db, or undefined if no db was closed
+
+ }
+ }
+ ```
+
+ ====================================================================
+ "exec" SQL
+
+ All SQL execution is processed through the exec operation. It offers
+ most of the features of the oo1.DB.exec() method, with a few limitations
+ imposed by the state having to cross thread boundaries.
+
+ Message format:
+
+ ```
+ {
+ type: "exec",
+ messageId: ...as above...
+ dbId: ...as above...
+ args: string (SQL) or {... see below ...}
+ }
+ ```
+
+ Response:
+
+ ```
+ {
+ type: "exec",
+ messageId: ...as above...,
+ dbId: ...as above...
+ result: {
+ input arguments, possibly modified. See below.
+ }
+ }
+ ```
+
+ The arguments are in the same form accepted by oo1.DB.exec(), with
+ the exceptions noted below.
+
+ A function-type args.callback property cannot cross
+ the window/Worker boundary, so is not useful here. If
+ args.callback is a string then it is assumed to be a
+ message type key, in which case a callback function will be
+ applied which posts each row result via:
+
+ postMessage({type: thatKeyType,
+ rowNumber: 1-based-#,
+ row: theRow,
+ columnNames: anArray
+ })
+
+ And, at the end of the result set (whether or not any result rows
+ were produced), it will post an identical message with
+ (row=undefined, rowNumber=null) to alert the caller than the result
+ set is completed. Note that a row value of `null` is a legal row
+ result for certain arg.rowMode values.
+
+ (Design note: we don't use (row=undefined, rowNumber=undefined) to
+ indicate end-of-results because fetching those would be
+ indistinguishable from fetching from an empty object unless the
+ client used hasOwnProperty() (or similar) to distinguish "missing
+ property" from "property with the undefined value". Similarly,
+ `null` is a legal value for `row` in some case , whereas the db
+ layer won't emit a result value of `undefined`.)
+
+ The callback proxy must not recurse into this interface. An exec()
+ call will tie up the Worker thread, causing any recursion attempt
+ to wait until the first exec() is completed.
+
+ The response is the input options object (or a synthesized one if
+ passed only a string), noting that options.resultRows and
+ options.columnNames may be populated by the call to db.exec().
+
+*/
+self.sqlite3ApiBootstrap.initializers.push(function(sqlite3){
+sqlite3.initWorker1API = function(){
+ 'use strict';
+ const toss = (...args)=>{throw new Error(args.join(' '))};
+ if('function' !== typeof importScripts){
+ toss("initWorker1API() must be run from a Worker thread.");
+ }
+ const self = this.self;
+ const sqlite3 = this.sqlite3 || toss("Missing this.sqlite3 object.");
+ const DB = sqlite3.oo1.DB;
+
+ /**
+ Returns the app-wide unique ID for the given db, creating one if
+ needed.
+ */
+ const getDbId = function(db){
+ let id = wState.idMap.get(db);
+ if(id) return id;
+ id = 'db#'+(++wState.idSeq)+'@'+db.pointer;
+ /** ^^^ can't simply use db.pointer b/c closing/opening may re-use
+ the same address, which could map pending messages to a wrong
+ instance. */
+ wState.idMap.set(db, id);
+ return id;
+ };
+
+ /**
+ Internal helper for managing Worker-level state.
+ */
+ const wState = {
+ /**
+ Each opened DB is added to this.dbList, and the first entry in
+ that list is the default db. As each db is closed, its entry is
+ removed from the list.
+ */
+ dbList: [],
+ /** Sequence number of dbId generation. */
+ idSeq: 0,
+ /** Map of DB instances to dbId. */
+ idMap: new WeakMap,
+ /** Temp holder for "transferable" postMessage() state. */
+ xfer: [],
+ open: function(opt){
+ const db = new DB(opt);
+ this.dbs[getDbId(db)] = db;
+ if(this.dbList.indexOf(db)<0) this.dbList.push(db);
+ return db;
+ },
+ close: function(db,alsoUnlink){
+ if(db){
+ delete this.dbs[getDbId(db)];
+ const filename = db.filename;
+ const pVfs = sqlite3.wasm.sqlite3_wasm_db_vfs(db.pointer, 0);
+ db.close();
+ const ddNdx = this.dbList.indexOf(db);
+ if(ddNdx>=0) this.dbList.splice(ddNdx, 1);
+ if(alsoUnlink && filename && pVfs){
+ sqlite3.wasm.sqlite3_wasm_vfs_unlink(pVfs, filename);
+ }
+ }
+ },
+ /**
+ Posts the given worker message value. If xferList is provided,
+ it must be an array, in which case a copy of it passed as
+ postMessage()'s second argument and xferList.length is set to
+ 0.
+ */
+ post: function(msg,xferList){
+ if(xferList && xferList.length){
+ self.postMessage( msg, Array.from(xferList) );
+ xferList.length = 0;
+ }else{
+ self.postMessage(msg);
+ }
+ },
+ /** Map of DB IDs to DBs. */
+ dbs: Object.create(null),
+ /** Fetch the DB for the given id. Throw if require=true and the
+ id is not valid, else return the db or undefined. */
+ getDb: function(id,require=true){
+ return this.dbs[id]
+ || (require ? toss("Unknown (or closed) DB ID:",id) : undefined);
+ }
+ };
+
+ /** Throws if the given db is falsy or not opened, else returns its
+ argument. */
+ const affirmDbOpen = function(db = wState.dbList[0]){
+ return (db && db.pointer) ? db : toss("DB is not opened.");
+ };
+
+ /** Extract dbId from the given message payload. */
+ const getMsgDb = function(msgData,affirmExists=true){
+ const db = wState.getDb(msgData.dbId,false) || wState.dbList[0];
+ return affirmExists ? affirmDbOpen(db) : db;
+ };
+
+ const getDefaultDbId = function(){
+ return wState.dbList[0] && getDbId(wState.dbList[0]);
+ };
+
+ const guessVfs = function(filename){
+ const m = /^file:.+(vfs=(\w+))/.exec(filename);
+ return sqlite3.capi.sqlite3_vfs_find(m ? m[2] : 0);
+ };
+
+ const isSpecialDbFilename = (n)=>{
+ return ""===n || ':'===n[0];
+ };
+
+ /**
+ A level of "organizational abstraction" for the Worker1
+ API. Each method in this object must map directly to a Worker1
+ message type key. The onmessage() dispatcher attempts to
+ dispatch all inbound messages to a method of this object,
+ passing it the event.data part of the inbound event object. All
+ methods must return a plain Object containing any result
+ state, which the dispatcher may amend. All methods must throw
+ on error.
+ */
+ const wMsgHandler = {
+ open: function(ev){
+ const oargs = Object.create(null), args = (ev.args || Object.create(null));
+ if(args.simulateError){ // undocumented internal testing option
+ toss("Throwing because of simulateError flag.");
+ }
+ const rc = Object.create(null);
+ const pDir = sqlite3.capi.sqlite3_wasmfs_opfs_dir();
+ let byteArray, pVfs;
+ oargs.vfs = args.vfs;
+ if(isSpecialDbFilename(args.filename)){
+ oargs.filename = args.filename || "";
+ }else{
+ oargs.filename = args.filename;
+ byteArray = args.byteArray;
+ if(byteArray) pVfs = guessVfs(args.filename);
+ }
+ if(pVfs){
+ /* 2022-11-02: this feature is as-yet untested except that
+ sqlite3_wasm_vfs_create_file() has been tested from the
+ browser dev console. */
+ let pMem;
+ try{
+ pMem = sqlite3.wasm.allocFromTypedArray(byteArray);
+ const rc = sqlite3.wasm.sqlite3_wasm_vfs_create_file(
+ pVfs, oargs.filename, pMem, byteArray.byteLength
+ );
+ if(rc) sqlite3.SQLite3Error.toss(rc);
+ }catch(e){
+ throw new sqlite3.SQLite3Error(
+ e.name+' creating '+args.filename+": "+e.message, {
+ cause: e
+ }
+ );
+ }finally{
+ if(pMem) sqlite3.wasm.dealloc(pMem);
+ }
+ }
+ const db = wState.open(oargs);
+ rc.filename = db.filename;
+ rc.persistent = (!!pDir && db.filename.startsWith(pDir+'/'))
+ || !!sqlite3.capi.sqlite3_js_db_uses_vfs(db.pointer, "opfs");
+ rc.dbId = getDbId(db);
+ rc.vfs = db.dbVfsName();
+ return rc;
+ },
+
+ close: function(ev){
+ const db = getMsgDb(ev,false);
+ const response = {
+ filename: db && db.filename
+ };
+ if(db){
+ const doUnlink = ((ev.args && 'object'===typeof ev.args)
+ ? !!ev.args.unlink : false);
+ wState.close(db, doUnlink);
+ }
+ return response;
+ },
+
+ exec: function(ev){
+ const rc = (
+ 'string'===typeof ev.args
+ ) ? {sql: ev.args} : (ev.args || Object.create(null));
+ if('stmt'===rc.rowMode){
+ toss("Invalid rowMode for 'exec': stmt mode",
+ "does not work in the Worker API.");
+ }else if(!rc.sql){
+ toss("'exec' requires input SQL.");
+ }
+ const db = getMsgDb(ev);
+ if(rc.callback || Array.isArray(rc.resultRows)){
+ // Part of a copy-avoidance optimization for blobs
+ db._blobXfer = wState.xfer;
+ }
+ const theCallback = rc.callback;
+ let rowNumber = 0;
+ const hadColNames = !!rc.columnNames;
+ if('string' === typeof theCallback){
+ if(!hadColNames) rc.columnNames = [];
+ /* Treat this as a worker message type and post each
+ row as a message of that type. */
+ rc.callback = function(row,stmt){
+ wState.post({
+ type: theCallback,
+ columnNames: rc.columnNames,
+ rowNumber: ++rowNumber,
+ row: row
+ }, wState.xfer);
+ }
+ }
+ try {
+ db.exec(rc);
+ if(rc.callback instanceof Function){
+ rc.callback = theCallback;
+ /* Post a sentinel message to tell the client that the end
+ of the result set has been reached (possibly with zero
+ rows). */
+ wState.post({
+ type: theCallback,
+ columnNames: rc.columnNames,
+ rowNumber: null /*null to distinguish from "property not set"*/,
+ row: undefined /*undefined because null is a legal row value
+ for some rowType values, but undefined is not*/
+ });
+ }
+ }finally{
+ delete db._blobXfer;
+ if(rc.callback) rc.callback = theCallback;
+ }
+ return rc;
+ }/*exec()*/,
+
+ 'config-get': function(){
+ const rc = Object.create(null), src = sqlite3.config;
+ [
+ 'wasmfsOpfsDir', 'bigIntEnabled'
+ ].forEach(function(k){
+ if(Object.getOwnPropertyDescriptor(src, k)) rc[k] = src[k];
+ });
+ rc.wasmfsOpfsEnabled = !!sqlite3.capi.sqlite3_wasmfs_opfs_dir();
+ rc.version = sqlite3.version;
+ rc.vfsList = sqlite3.capi.sqlite3_js_vfs_list();
+ rc.opfsEnabled = !!sqlite3.opfs;
+ return rc;
+ },
+
+ /**
+ Exports the database to a byte array, as per
+ sqlite3_serialize(). Response is an object:
+
+ {
+ byteArray: Uint8Array (db file contents),
+ filename: the current db filename,
+ mimetype: 'application/x-sqlite3'
+ }
+ */
+ export: function(ev){
+ const db = getMsgDb(ev);
+ const response = {
+ byteArray: sqlite3.capi.sqlite3_js_db_export(db.pointer),
+ filename: db.filename,
+ mimetype: 'application/x-sqlite3'
+ };
+ wState.xfer.push(response.byteArray.buffer);
+ return response;
+ }/*export()*/,
+
+ toss: function(ev){
+ toss("Testing worker exception");
+ },
+
+ 'opfs-tree': async function(ev){
+ if(!sqlite3.opfs) toss("OPFS support is unavailable.");
+ const response = await sqlite3.opfs.treeList();
+ return response;
+ }
+ }/*wMsgHandler*/;
+
+ self.onmessage = async function(ev){
+ ev = ev.data;
+ let result, dbId = ev.dbId, evType = ev.type;
+ const arrivalTime = performance.now();
+ try {
+ if(wMsgHandler.hasOwnProperty(evType) &&
+ wMsgHandler[evType] instanceof Function){
+ result = await wMsgHandler[evType](ev);
+ }else{
+ toss("Unknown db worker message type:",ev.type);
+ }
+ }catch(err){
+ evType = 'error';
+ result = {
+ operation: ev.type,
+ message: err.message,
+ errorClass: err.name,
+ input: ev
+ };
+ if(err.stack){
+ result.stack = ('string'===typeof err.stack)
+ ? err.stack.split(/\n\s*/) : err.stack;
+ }
+ if(0) console.warn("Worker is propagating an exception to main thread.",
+ "Reporting it _here_ for the stack trace:",err,result);
+ }
+ if(!dbId){
+ dbId = result.dbId/*from 'open' cmd*/
+ || getDefaultDbId();
+ }
+ // Timing info is primarily for use in testing this API. It's not part of
+ // the public API. arrivalTime = when the worker got the message.
+ wState.post({
+ type: evType,
+ dbId: dbId,
+ messageId: ev.messageId,
+ workerReceivedTime: arrivalTime,
+ workerRespondTime: performance.now(),
+ departureTime: ev.departureTime,
+ // TODO: move the timing bits into...
+ //timing:{
+ // departure: ev.departureTime,
+ // workerReceived: arrivalTime,
+ // workerResponse: performance.now();
+ //},
+ result: result
+ }, wState.xfer);
+ };
+ self.postMessage({type:'sqlite3-api',result:'worker1-ready'});
+}.bind({self, sqlite3});
+});
diff --git a/ext/wasm/api/sqlite3-license-version-header.js b/ext/wasm/api/sqlite3-license-version-header.js
new file mode 100644
index 0000000..f8b3edd
--- /dev/null
+++ b/ext/wasm/api/sqlite3-license-version-header.js
@@ -0,0 +1,25 @@
+/*
+** LICENSE for the sqlite3 WebAssembly/JavaScript APIs.
+**
+** This bundle (typically released as sqlite3.js or sqlite3-wasmfs.js)
+** is an amalgamation of JavaScript source code from two projects:
+**
+** 1) https://emscripten.org: the Emscripten "glue code" is covered by
+** the terms of the MIT license and University of Illinois/NCSA
+** Open Source License, as described at:
+**
+** https://emscripten.org/docs/introducing_emscripten/emscripten_license.html
+**
+** 2) https://sqlite.org: all code and documentation labeled as being
+** from this source are released under the same terms as the sqlite3
+** C library:
+**
+** 2022-10-16
+**
+** The author disclaims copyright to this source code. In place of a
+** legal notice, here is a blessing:
+**
+** * May you do good and not evil.
+** * May you find forgiveness for yourself and forgive others.
+** * May you share freely, never taking more than you give.
+*/
diff --git a/ext/wasm/api/sqlite3-opfs-async-proxy.js b/ext/wasm/api/sqlite3-opfs-async-proxy.js
new file mode 100644
index 0000000..e465748
--- /dev/null
+++ b/ext/wasm/api/sqlite3-opfs-async-proxy.js
@@ -0,0 +1,830 @@
+/*
+ 2022-09-16
+
+ The author disclaims copyright to this source code. In place of a
+ legal notice, here is a blessing:
+
+ * May you do good and not evil.
+ * May you find forgiveness for yourself and forgive others.
+ * May you share freely, never taking more than you give.
+
+ ***********************************************************************
+
+ A Worker which manages asynchronous OPFS handles on behalf of a
+ synchronous API which controls it via a combination of Worker
+ messages, SharedArrayBuffer, and Atomics. It is the asynchronous
+ counterpart of the API defined in sqlite3-api-opfs.js.
+
+ Highly indebted to:
+
+ https://github.com/rhashimoto/wa-sqlite/blob/master/src/examples/OriginPrivateFileSystemVFS.js
+
+ for demonstrating how to use the OPFS APIs.
+
+ This file is to be loaded as a Worker. It does not have any direct
+ access to the sqlite3 JS/WASM bits, so any bits which it needs (most
+ notably SQLITE_xxx integer codes) have to be imported into it via an
+ initialization process.
+
+ This file represents an implementation detail of a larger piece of
+ code, and not a public interface. Its details may change at any time
+ and are not intended to be used by any client-level code.
+*/
+"use strict";
+const toss = function(...args){throw new Error(args.join(' '))};
+if(self.window === self){
+ toss("This code cannot run from the main thread.",
+ "Load it as a Worker from a separate Worker.");
+}else if(!navigator.storage.getDirectory){
+ toss("This API requires navigator.storage.getDirectory.");
+}
+
+/**
+ Will hold state copied to this object from the syncronous side of
+ this API.
+*/
+const state = Object.create(null);
+
+/**
+ verbose:
+
+ 0 = no logging output
+ 1 = only errors
+ 2 = warnings and errors
+ 3 = debug, warnings, and errors
+*/
+state.verbose = 2;
+
+const loggers = {
+ 0:console.error.bind(console),
+ 1:console.warn.bind(console),
+ 2:console.log.bind(console)
+};
+const logImpl = (level,...args)=>{
+ if(state.verbose>level) loggers[level]("OPFS asyncer:",...args);
+};
+const log = (...args)=>logImpl(2, ...args);
+const warn = (...args)=>logImpl(1, ...args);
+const error = (...args)=>logImpl(0, ...args);
+const metrics = Object.create(null);
+metrics.reset = ()=>{
+ let k;
+ const r = (m)=>(m.count = m.time = m.wait = 0);
+ for(k in state.opIds){
+ r(metrics[k] = Object.create(null));
+ }
+ let s = metrics.s11n = Object.create(null);
+ s = s.serialize = Object.create(null);
+ s.count = s.time = 0;
+ s = metrics.s11n.deserialize = Object.create(null);
+ s.count = s.time = 0;
+};
+metrics.dump = ()=>{
+ let k, n = 0, t = 0, w = 0;
+ for(k in state.opIds){
+ const m = metrics[k];
+ n += m.count;
+ t += m.time;
+ w += m.wait;
+ m.avgTime = (m.count && m.time) ? (m.time / m.count) : 0;
+ }
+ console.log(self.location.href,
+ "metrics for",self.location.href,":\n",
+ metrics,
+ "\nTotal of",n,"op(s) for",t,"ms",
+ "approx",w,"ms spent waiting on OPFS APIs.");
+ console.log("Serialization metrics:",metrics.s11n);
+};
+
+/**
+ __openFiles is a map of sqlite3_file pointers (integers) to
+ metadata related to a given OPFS file handles. The pointers are, in
+ this side of the interface, opaque file handle IDs provided by the
+ synchronous part of this constellation. Each value is an object
+ with a structure demonstrated in the xOpen() impl.
+*/
+const __openFiles = Object.create(null);
+/**
+ __autoLocks is a Set of sqlite3_file pointers (integers) which were
+ "auto-locked". i.e. those for which we obtained a sync access
+ handle without an explicit xLock() call. Such locks will be
+ released during db connection idle time, whereas a sync access
+ handle obtained via xLock(), or subsequently xLock()'d after
+ auto-acquisition, will not be released until xUnlock() is called.
+
+ Maintenance reminder: if we relinquish auto-locks at the end of the
+ operation which acquires them, we pay a massive performance
+ penalty: speedtest1 benchmarks take up to 4x as long. By delaying
+ the lock release until idle time, the hit is negligible.
+*/
+const __autoLocks = new Set();
+
+/**
+ Expects an OPFS file path. It gets resolved, such that ".."
+ components are properly expanded, and returned. If the 2nd arg is
+ true, the result is returned as an array of path elements, else an
+ absolute path string is returned.
+*/
+const getResolvedPath = function(filename,splitIt){
+ const p = new URL(
+ filename, 'file://irrelevant'
+ ).pathname;
+ return splitIt ? p.split('/').filter((v)=>!!v) : p;
+};
+
+/**
+ Takes the absolute path to a filesystem element. Returns an array
+ of [handleOfContainingDir, filename]. If the 2nd argument is truthy
+ then each directory element leading to the file is created along
+ the way. Throws if any creation or resolution fails.
+*/
+const getDirForFilename = async function f(absFilename, createDirs = false){
+ const path = getResolvedPath(absFilename, true);
+ const filename = path.pop();
+ let dh = state.rootDir;
+ for(const dirName of path){
+ if(dirName){
+ dh = await dh.getDirectoryHandle(dirName, {create: !!createDirs});
+ }
+ }
+ return [dh, filename];
+};
+
+/**
+ An error class specifically for use with getSyncHandle(), the goal
+ of which is to eventually be able to distinguish unambiguously
+ between locking-related failures and other types, noting that we
+ cannot currently do so because createSyncAccessHandle() does not
+ define its exceptions in the required level of detail.
+*/
+class GetSyncHandleError extends Error {
+ constructor(errorObject, ...msg){
+ super();
+ this.error = errorObject;
+ this.message = [
+ ...msg, ': Original exception ['+errorObject.name+']:',
+ errorObject.message
+ ].join(' ');
+ this.name = 'GetSyncHandleError';
+ }
+};
+
+/**
+ Returns the sync access handle associated with the given file
+ handle object (which must be a valid handle object, as created by
+ xOpen()), lazily opening it if needed.
+
+ In order to help alleviate cross-tab contention for a dabase,
+ if an exception is thrown while acquiring the handle, this routine
+ will wait briefly and try again, up to 3 times. If acquisition
+ still fails at that point it will give up and propagate the
+ exception.
+*/
+const getSyncHandle = async (fh)=>{
+ if(!fh.syncHandle){
+ const t = performance.now();
+ log("Acquiring sync handle for",fh.filenameAbs);
+ const maxTries = 4, msBase = 300;
+ let i = 1, ms = msBase;
+ for(; true; ms = msBase * ++i){
+ try {
+ //if(i<3) toss("Just testing getSyncHandle() wait-and-retry.");
+ //TODO? A config option which tells it to throw here
+ //randomly every now and then, for testing purposes.
+ fh.syncHandle = await fh.fileHandle.createSyncAccessHandle();
+ break;
+ }catch(e){
+ if(i === maxTries){
+ throw new GetSyncHandleError(
+ e, "Error getting sync handle.",maxTries,
+ "attempts failed.",fh.filenameAbs
+ );
+ }
+ warn("Error getting sync handle. Waiting",ms,
+ "ms and trying again.",fh.filenameAbs,e);
+ Atomics.wait(state.sabOPView, state.opIds.retry, 0, ms);
+ }
+ }
+ log("Got sync handle for",fh.filenameAbs,'in',performance.now() - t,'ms');
+ if(!fh.xLock){
+ __autoLocks.add(fh.fid);
+ log("Auto-locked",fh.fid,fh.filenameAbs);
+ }
+ }
+ return fh.syncHandle;
+};
+
+/**
+ If the given file-holding object has a sync handle attached to it,
+ that handle is remove and asynchronously closed. Though it may
+ sound sensible to continue work as soon as the close() returns
+ (noting that it's asynchronous), doing so can cause operations
+ performed soon afterwards, e.g. a call to getSyncHandle() to fail
+ because they may happen out of order from the close(). OPFS does
+ not guaranty that the actual order of operations is retained in
+ such cases. i.e. always "await" on the result of this function.
+*/
+const closeSyncHandle = async (fh)=>{
+ if(fh.syncHandle){
+ log("Closing sync handle for",fh.filenameAbs);
+ const h = fh.syncHandle;
+ delete fh.syncHandle;
+ delete fh.xLock;
+ __autoLocks.delete(fh.fid);
+ return h.close();
+ }
+};
+
+/**
+ A proxy for closeSyncHandle() which is guaranteed to not throw.
+
+ This function is part of a lock/unlock step in functions which
+ require a sync access handle but may be called without xLock()
+ having been called first. Such calls need to release that
+ handle to avoid locking the file for all of time. This is an
+ _attempt_ at reducing cross-tab contention but it may prove
+ to be more of a problem than a solution and may need to be
+ removed.
+*/
+const closeSyncHandleNoThrow = async (fh)=>{
+ try{await closeSyncHandle(fh)}
+ catch(e){
+ warn("closeSyncHandleNoThrow() ignoring:",e,fh);
+ }
+};
+
+/**
+ Stores the given value at state.sabOPView[state.opIds.rc] and then
+ Atomics.notify()'s it.
+*/
+const storeAndNotify = (opName, value)=>{
+ log(opName+"() => notify(",value,")");
+ Atomics.store(state.sabOPView, state.opIds.rc, value);
+ Atomics.notify(state.sabOPView, state.opIds.rc);
+};
+
+/**
+ Throws if fh is a file-holding object which is flagged as read-only.
+*/
+const affirmNotRO = function(opName,fh){
+ if(fh.readOnly) toss(opName+"(): File is read-only: "+fh.filenameAbs);
+};
+const affirmLocked = function(opName,fh){
+ //if(!fh.syncHandle) toss(opName+"(): File does not have a lock: "+fh.filenameAbs);
+ /**
+ Currently a no-op, as speedtest1 triggers xRead() without a
+ lock (that seems like a bug but it's currently uninvestigated).
+ This means, however, that some OPFS VFS routines may trigger
+ acquisition of a lock but never let it go until xUnlock() is
+ called (which it likely won't be if xLock() was not called).
+ */
+};
+
+/**
+ We track 2 different timers: the "metrics" timer records how much
+ time we spend performing work. The "wait" timer records how much
+ time we spend waiting on the underlying OPFS timer. See the calls
+ to mTimeStart(), mTimeEnd(), wTimeStart(), and wTimeEnd()
+ throughout this file to see how they're used.
+*/
+const __mTimer = Object.create(null);
+__mTimer.op = undefined;
+__mTimer.start = undefined;
+const mTimeStart = (op)=>{
+ __mTimer.start = performance.now();
+ __mTimer.op = op;
+ //metrics[op] || toss("Maintenance required: missing metrics for",op);
+ ++metrics[op].count;
+};
+const mTimeEnd = ()=>(
+ metrics[__mTimer.op].time += performance.now() - __mTimer.start
+);
+const __wTimer = Object.create(null);
+__wTimer.op = undefined;
+__wTimer.start = undefined;
+const wTimeStart = (op)=>{
+ __wTimer.start = performance.now();
+ __wTimer.op = op;
+ //metrics[op] || toss("Maintenance required: missing metrics for",op);
+};
+const wTimeEnd = ()=>(
+ metrics[__wTimer.op].wait += performance.now() - __wTimer.start
+);
+
+/**
+ Gets set to true by the 'opfs-async-shutdown' command to quit the
+ wait loop. This is only intended for debugging purposes: we cannot
+ inspect this file's state while the tight waitLoop() is running and
+ need a way to stop that loop for introspection purposes.
+*/
+let flagAsyncShutdown = false;
+
+
+/**
+ Asynchronous wrappers for sqlite3_vfs and sqlite3_io_methods
+ methods, as well as helpers like mkdir(). Maintenance reminder:
+ members are in alphabetical order to simplify finding them.
+*/
+const vfsAsyncImpls = {
+ 'opfs-async-metrics': async ()=>{
+ mTimeStart('opfs-async-metrics');
+ metrics.dump();
+ storeAndNotify('opfs-async-metrics', 0);
+ mTimeEnd();
+ },
+ 'opfs-async-shutdown': async ()=>{
+ flagAsyncShutdown = true;
+ storeAndNotify('opfs-async-shutdown', 0);
+ },
+ mkdir: async (dirname)=>{
+ mTimeStart('mkdir');
+ let rc = 0;
+ wTimeStart('mkdir');
+ try {
+ await getDirForFilename(dirname+"/filepart", true);
+ }catch(e){
+ state.s11n.storeException(2,e);
+ rc = state.sq3Codes.SQLITE_IOERR;
+ }finally{
+ wTimeEnd();
+ }
+ storeAndNotify('mkdir', rc);
+ mTimeEnd();
+ },
+ xAccess: async (filename)=>{
+ mTimeStart('xAccess');
+ /* OPFS cannot support the full range of xAccess() queries sqlite3
+ calls for. We can essentially just tell if the file is
+ accessible, but if it is it's automatically writable (unless
+ it's locked, which we cannot(?) know without trying to open
+ it). OPFS does not have the notion of read-only.
+
+ The return semantics of this function differ from sqlite3's
+ xAccess semantics because we are limited in what we can
+ communicate back to our synchronous communication partner: 0 =
+ accessible, non-0 means not accessible.
+ */
+ let rc = 0;
+ wTimeStart('xAccess');
+ try{
+ const [dh, fn] = await getDirForFilename(filename);
+ await dh.getFileHandle(fn);
+ }catch(e){
+ state.s11n.storeException(2,e);
+ rc = state.sq3Codes.SQLITE_IOERR;
+ }finally{
+ wTimeEnd();
+ }
+ storeAndNotify('xAccess', rc);
+ mTimeEnd();
+ },
+ xClose: async function(fid/*sqlite3_file pointer*/){
+ const opName = 'xClose';
+ mTimeStart(opName);
+ __autoLocks.delete(fid);
+ const fh = __openFiles[fid];
+ let rc = 0;
+ wTimeStart(opName);
+ if(fh){
+ delete __openFiles[fid];
+ await closeSyncHandle(fh);
+ if(fh.deleteOnClose){
+ try{ await fh.dirHandle.removeEntry(fh.filenamePart) }
+ catch(e){ warn("Ignoring dirHandle.removeEntry() failure of",fh,e) }
+ }
+ }else{
+ state.s11n.serialize();
+ rc = state.sq3Codes.SQLITE_NOTFOUND;
+ }
+ wTimeEnd();
+ storeAndNotify(opName, rc);
+ mTimeEnd();
+ },
+ xDelete: async function(...args){
+ mTimeStart('xDelete');
+ const rc = await vfsAsyncImpls.xDeleteNoWait(...args);
+ storeAndNotify('xDelete', rc);
+ mTimeEnd();
+ },
+ xDeleteNoWait: async function(filename, syncDir = 0, recursive = false){
+ /* The syncDir flag is, for purposes of the VFS API's semantics,
+ ignored here. However, if it has the value 0x1234 then: after
+ deleting the given file, recursively try to delete any empty
+ directories left behind in its wake (ignoring any errors and
+ stopping at the first failure).
+
+ That said: we don't know for sure that removeEntry() fails if
+ the dir is not empty because the API is not documented. It has,
+ however, a "recursive" flag which defaults to false, so
+ presumably it will fail if the dir is not empty and that flag
+ is false.
+ */
+ let rc = 0;
+ wTimeStart('xDelete');
+ try {
+ while(filename){
+ const [hDir, filenamePart] = await getDirForFilename(filename, false);
+ if(!filenamePart) break;
+ await hDir.removeEntry(filenamePart, {recursive});
+ if(0x1234 !== syncDir) break;
+ recursive = false;
+ filename = getResolvedPath(filename, true);
+ filename.pop();
+ filename = filename.join('/');
+ }
+ }catch(e){
+ state.s11n.storeException(2,e);
+ rc = state.sq3Codes.SQLITE_IOERR_DELETE;
+ }
+ wTimeEnd();
+ return rc;
+ },
+ xFileSize: async function(fid/*sqlite3_file pointer*/){
+ mTimeStart('xFileSize');
+ const fh = __openFiles[fid];
+ let rc;
+ wTimeStart('xFileSize');
+ try{
+ affirmLocked('xFileSize',fh);
+ rc = await (await getSyncHandle(fh)).getSize();
+ state.s11n.serialize(Number(rc));
+ rc = 0;
+ }catch(e){
+ state.s11n.storeException(2,e);
+ rc = state.sq3Codes.SQLITE_IOERR;
+ }
+ wTimeEnd();
+ storeAndNotify('xFileSize', rc);
+ mTimeEnd();
+ },
+ xLock: async function(fid/*sqlite3_file pointer*/,
+ lockType/*SQLITE_LOCK_...*/){
+ mTimeStart('xLock');
+ const fh = __openFiles[fid];
+ let rc = 0;
+ const oldLockType = fh.xLock;
+ fh.xLock = lockType;
+ if( !fh.syncHandle ){
+ wTimeStart('xLock');
+ try {
+ await getSyncHandle(fh);
+ __autoLocks.delete(fid);
+ }catch(e){
+ state.s11n.storeException(1,e);
+ rc = state.sq3Codes.SQLITE_IOERR_LOCK;
+ fh.xLock = oldLockType;
+ }
+ wTimeEnd();
+ }
+ storeAndNotify('xLock',rc);
+ mTimeEnd();
+ },
+ xOpen: async function(fid/*sqlite3_file pointer*/, filename,
+ flags/*SQLITE_OPEN_...*/){
+ const opName = 'xOpen';
+ mTimeStart(opName);
+ const deleteOnClose = (state.sq3Codes.SQLITE_OPEN_DELETEONCLOSE & flags);
+ const create = (state.sq3Codes.SQLITE_OPEN_CREATE & flags);
+ wTimeStart('xOpen');
+ try{
+ let hDir, filenamePart;
+ try {
+ [hDir, filenamePart] = await getDirForFilename(filename, !!create);
+ }catch(e){
+ state.s11n.storeException(1,e);
+ storeAndNotify(opName, state.sq3Codes.SQLITE_NOTFOUND);
+ mTimeEnd();
+ wTimeEnd();
+ return;
+ }
+ const hFile = await hDir.getFileHandle(filenamePart, {create});
+ /**
+ wa-sqlite, at this point, grabs a SyncAccessHandle and
+ assigns it to the syncHandle prop of the file state
+ object, but only for certain cases and it's unclear why it
+ places that limitation on it.
+ */
+ wTimeEnd();
+ __openFiles[fid] = Object.assign(Object.create(null),{
+ fid: fid,
+ filenameAbs: filename,
+ filenamePart: filenamePart,
+ dirHandle: hDir,
+ fileHandle: hFile,
+ sabView: state.sabFileBufView,
+ readOnly: create
+ ? false : (state.sq3Codes.SQLITE_OPEN_READONLY & flags),
+ deleteOnClose: deleteOnClose
+ });
+ storeAndNotify(opName, 0);
+ }catch(e){
+ wTimeEnd();
+ error(opName,e);
+ state.s11n.storeException(1,e);
+ storeAndNotify(opName, state.sq3Codes.SQLITE_IOERR);
+ }
+ mTimeEnd();
+ },
+ xRead: async function(fid/*sqlite3_file pointer*/,n,offset64){
+ mTimeStart('xRead');
+ let rc = 0, nRead;
+ const fh = __openFiles[fid];
+ try{
+ affirmLocked('xRead',fh);
+ wTimeStart('xRead');
+ nRead = (await getSyncHandle(fh)).read(
+ fh.sabView.subarray(0, n),
+ {at: Number(offset64)}
+ );
+ wTimeEnd();
+ if(nRead < n){/* Zero-fill remaining bytes */
+ fh.sabView.fill(0, nRead, n);
+ rc = state.sq3Codes.SQLITE_IOERR_SHORT_READ;
+ }
+ }catch(e){
+ if(undefined===nRead) wTimeEnd();
+ error("xRead() failed",e,fh);
+ state.s11n.storeException(1,e);
+ rc = state.sq3Codes.SQLITE_IOERR_READ;
+ }
+ storeAndNotify('xRead',rc);
+ mTimeEnd();
+ },
+ xSync: async function(fid/*sqlite3_file pointer*/,flags/*ignored*/){
+ mTimeStart('xSync');
+ const fh = __openFiles[fid];
+ let rc = 0;
+ if(!fh.readOnly && fh.syncHandle){
+ try {
+ wTimeStart('xSync');
+ await fh.syncHandle.flush();
+ }catch(e){
+ state.s11n.storeException(2,e);
+ rc = state.sq3Codes.SQLITE_IOERR_FSYNC;
+ }
+ wTimeEnd();
+ }
+ storeAndNotify('xSync',rc);
+ mTimeEnd();
+ },
+ xTruncate: async function(fid/*sqlite3_file pointer*/,size){
+ mTimeStart('xTruncate');
+ let rc = 0;
+ const fh = __openFiles[fid];
+ wTimeStart('xTruncate');
+ try{
+ affirmLocked('xTruncate',fh);
+ affirmNotRO('xTruncate', fh);
+ await (await getSyncHandle(fh)).truncate(size);
+ }catch(e){
+ error("xTruncate():",e,fh);
+ state.s11n.storeException(2,e);
+ rc = state.sq3Codes.SQLITE_IOERR_TRUNCATE;
+ }
+ wTimeEnd();
+ storeAndNotify('xTruncate',rc);
+ mTimeEnd();
+ },
+ xUnlock: async function(fid/*sqlite3_file pointer*/,
+ lockType/*SQLITE_LOCK_...*/){
+ mTimeStart('xUnlock');
+ let rc = 0;
+ const fh = __openFiles[fid];
+ if( state.sq3Codes.SQLITE_LOCK_NONE===lockType
+ && fh.syncHandle ){
+ wTimeStart('xUnlock');
+ try { await closeSyncHandle(fh) }
+ catch(e){
+ state.s11n.storeException(1,e);
+ rc = state.sq3Codes.SQLITE_IOERR_UNLOCK;
+ }
+ wTimeEnd();
+ }
+ storeAndNotify('xUnlock',rc);
+ mTimeEnd();
+ },
+ xWrite: async function(fid/*sqlite3_file pointer*/,n,offset64){
+ mTimeStart('xWrite');
+ let rc;
+ const fh = __openFiles[fid];
+ wTimeStart('xWrite');
+ try{
+ affirmLocked('xWrite',fh);
+ affirmNotRO('xWrite', fh);
+ rc = (
+ n === (await getSyncHandle(fh))
+ .write(fh.sabView.subarray(0, n),
+ {at: Number(offset64)})
+ ) ? 0 : state.sq3Codes.SQLITE_IOERR_WRITE;
+ }catch(e){
+ error("xWrite():",e,fh);
+ state.s11n.storeException(1,e);
+ rc = state.sq3Codes.SQLITE_IOERR_WRITE;
+ }
+ wTimeEnd();
+ storeAndNotify('xWrite',rc);
+ mTimeEnd();
+ }
+}/*vfsAsyncImpls*/;
+
+const initS11n = ()=>{
+ /**
+ ACHTUNG: this code is 100% duplicated in the other half of this
+ proxy! The documentation is maintained in the "synchronous half".
+ */
+ if(state.s11n) return state.s11n;
+ const textDecoder = new TextDecoder(),
+ textEncoder = new TextEncoder('utf-8'),
+ viewU8 = new Uint8Array(state.sabIO, state.sabS11nOffset, state.sabS11nSize),
+ viewDV = new DataView(state.sabIO, state.sabS11nOffset, state.sabS11nSize);
+ state.s11n = Object.create(null);
+ const TypeIds = Object.create(null);
+ TypeIds.number = { id: 1, size: 8, getter: 'getFloat64', setter: 'setFloat64' };
+ TypeIds.bigint = { id: 2, size: 8, getter: 'getBigInt64', setter: 'setBigInt64' };
+ TypeIds.boolean = { id: 3, size: 4, getter: 'getInt32', setter: 'setInt32' };
+ TypeIds.string = { id: 4 };
+ const getTypeId = (v)=>(
+ TypeIds[typeof v]
+ || toss("Maintenance required: this value type cannot be serialized.",v)
+ );
+ const getTypeIdById = (tid)=>{
+ switch(tid){
+ case TypeIds.number.id: return TypeIds.number;
+ case TypeIds.bigint.id: return TypeIds.bigint;
+ case TypeIds.boolean.id: return TypeIds.boolean;
+ case TypeIds.string.id: return TypeIds.string;
+ default: toss("Invalid type ID:",tid);
+ }
+ };
+ state.s11n.deserialize = function(clear=false){
+ ++metrics.s11n.deserialize.count;
+ const t = performance.now();
+ const argc = viewU8[0];
+ const rc = argc ? [] : null;
+ if(argc){
+ const typeIds = [];
+ let offset = 1, i, n, v;
+ for(i = 0; i < argc; ++i, ++offset){
+ typeIds.push(getTypeIdById(viewU8[offset]));
+ }
+ for(i = 0; i < argc; ++i){
+ const t = typeIds[i];
+ if(t.getter){
+ v = viewDV[t.getter](offset, state.littleEndian);
+ offset += t.size;
+ }else{/*String*/
+ n = viewDV.getInt32(offset, state.littleEndian);
+ offset += 4;
+ v = textDecoder.decode(viewU8.slice(offset, offset+n));
+ offset += n;
+ }
+ rc.push(v);
+ }
+ }
+ if(clear) viewU8[0] = 0;
+ //log("deserialize:",argc, rc);
+ metrics.s11n.deserialize.time += performance.now() - t;
+ return rc;
+ };
+ state.s11n.serialize = function(...args){
+ const t = performance.now();
+ ++metrics.s11n.serialize.count;
+ if(args.length){
+ //log("serialize():",args);
+ const typeIds = [];
+ let i = 0, offset = 1;
+ viewU8[0] = args.length & 0xff /* header = # of args */;
+ for(; i < args.length; ++i, ++offset){
+ /* Write the TypeIds.id value into the next args.length
+ bytes. */
+ typeIds.push(getTypeId(args[i]));
+ viewU8[offset] = typeIds[i].id;
+ }
+ for(i = 0; i < args.length; ++i) {
+ /* Deserialize the following bytes based on their
+ corresponding TypeIds.id from the header. */
+ const t = typeIds[i];
+ if(t.setter){
+ viewDV[t.setter](offset, args[i], state.littleEndian);
+ offset += t.size;
+ }else{/*String*/
+ const s = textEncoder.encode(args[i]);
+ viewDV.setInt32(offset, s.byteLength, state.littleEndian);
+ offset += 4;
+ viewU8.set(s, offset);
+ offset += s.byteLength;
+ }
+ }
+ //log("serialize() result:",viewU8.slice(0,offset));
+ }else{
+ viewU8[0] = 0;
+ }
+ metrics.s11n.serialize.time += performance.now() - t;
+ };
+
+ state.s11n.storeException = state.asyncS11nExceptions
+ ? ((priority,e)=>{
+ if(priority<=state.asyncS11nExceptions){
+ state.s11n.serialize([e.name,': ',e.message].join(""));
+ }
+ })
+ : ()=>{};
+
+ return state.s11n;
+}/*initS11n()*/;
+
+const waitLoop = async function f(){
+ const opHandlers = Object.create(null);
+ for(let k of Object.keys(state.opIds)){
+ const vi = vfsAsyncImpls[k];
+ if(!vi) continue;
+ const o = Object.create(null);
+ opHandlers[state.opIds[k]] = o;
+ o.key = k;
+ o.f = vi;
+ }
+ /**
+ waitTime is how long (ms) to wait for each Atomics.wait().
+ We need to wake up periodically to give the thread a chance
+ to do other things.
+ */
+ const waitTime = 500;
+ while(!flagAsyncShutdown){
+ try {
+ if('timed-out'===Atomics.wait(
+ state.sabOPView, state.opIds.whichOp, 0, waitTime
+ )){
+ if(__autoLocks.size){
+ /* Release all auto-locks. */
+ for(const fid of __autoLocks){
+ const fh = __openFiles[fid];
+ await closeSyncHandleNoThrow(fh);
+ log("Auto-unlocked",fid,fh.filenameAbs);
+ }
+ }
+ continue;
+ }
+ const opId = Atomics.load(state.sabOPView, state.opIds.whichOp);
+ Atomics.store(state.sabOPView, state.opIds.whichOp, 0);
+ const hnd = opHandlers[opId] ?? toss("No waitLoop handler for whichOp #",opId);
+ const args = state.s11n.deserialize(
+ true /* clear s11n to keep the caller from confusing this with
+ an exception string written by the upcoming
+ operation */
+ ) || [];
+ //warn("waitLoop() whichOp =",opId, hnd, args);
+ if(hnd.f) await hnd.f(...args);
+ else error("Missing callback for opId",opId);
+ }catch(e){
+ error('in waitLoop():',e);
+ }
+ }
+};
+
+navigator.storage.getDirectory().then(function(d){
+ const wMsg = (type)=>postMessage({type});
+ state.rootDir = d;
+ self.onmessage = function({data}){
+ switch(data.type){
+ case 'opfs-async-init':{
+ /* Receive shared state from synchronous partner */
+ const opt = data.args;
+ state.littleEndian = opt.littleEndian;
+ state.asyncS11nExceptions = opt.asyncS11nExceptions;
+ state.verbose = opt.verbose ?? 2;
+ state.fileBufferSize = opt.fileBufferSize;
+ state.sabS11nOffset = opt.sabS11nOffset;
+ state.sabS11nSize = opt.sabS11nSize;
+ state.sabOP = opt.sabOP;
+ state.sabOPView = new Int32Array(state.sabOP);
+ state.sabIO = opt.sabIO;
+ state.sabFileBufView = new Uint8Array(state.sabIO, 0, state.fileBufferSize);
+ state.sabS11nView = new Uint8Array(state.sabIO, state.sabS11nOffset, state.sabS11nSize);
+ state.opIds = opt.opIds;
+ state.sq3Codes = opt.sq3Codes;
+ Object.keys(vfsAsyncImpls).forEach((k)=>{
+ if(!Number.isFinite(state.opIds[k])){
+ toss("Maintenance required: missing state.opIds[",k,"]");
+ }
+ });
+ initS11n();
+ metrics.reset();
+ log("init state",state);
+ wMsg('opfs-async-inited');
+ waitLoop();
+ break;
+ }
+ case 'opfs-async-restart':
+ if(flagAsyncShutdown){
+ warn("Restarting after opfs-async-shutdown. Might or might not work.");
+ flagAsyncShutdown = false;
+ waitLoop();
+ }
+ break;
+ case 'opfs-async-metrics':
+ metrics.dump();
+ break;
+ }
+ };
+ wMsg('opfs-async-loaded');
+}).catch((e)=>error("error initializing OPFS asyncer:",e));
diff --git a/ext/wasm/api/sqlite3-wasi.h b/ext/wasm/api/sqlite3-wasi.h
new file mode 100644
index 0000000..096f45d
--- /dev/null
+++ b/ext/wasm/api/sqlite3-wasi.h
@@ -0,0 +1,69 @@
+/**
+ Dummy function stubs to get sqlite3.c compiling with
+ wasi-sdk. This requires, in addition:
+
+ -D_WASI_EMULATED_MMAN -D_WASI_EMULATED_GETPID
+
+ -lwasi-emulated-getpid
+*/
+typedef unsigned mode_t;
+int fchmod(int fd, mode_t mode);
+int fchmod(int fd, mode_t mode){
+ return (fd && mode) ? 0 : 0;
+}
+typedef unsigned uid_t;
+typedef uid_t gid_t;
+int fchown(int fd, uid_t owner, gid_t group);
+int fchown(int fd, uid_t owner, gid_t group){
+ return (fd && owner && group) ? 0 : 0;
+}
+uid_t geteuid(void);
+uid_t geteuid(void){return 0;}
+#if !defined(F_WRLCK)
+enum {
+F_WRLCK,
+F_RDLCK,
+F_GETLK,
+F_SETLK,
+F_UNLCK
+};
+#endif
+
+#undef HAVE_PREAD
+
+#include <wasi/api.h>
+#define WASM__KEEP __attribute__((used))
+
+#if 0
+/**
+ wasi-sdk cannot build sqlite3's default VFS without at least the following
+ functions. They are apparently syscalls which clients have to implement or
+ otherwise obtain.
+
+ https://github.com/WebAssembly/WASI/blob/main/phases/snapshot/docs.md
+*/
+environ_get
+environ_sizes_get
+clock_time_get
+fd_close
+fd_fdstat_get
+fd_fdstat_set_flags
+fd_filestat_get
+fd_filestat_set_size
+fd_pread
+fd_prestat_get
+fd_prestat_dir_name
+fd_read
+fd_seek
+fd_sync
+fd_write
+path_create_directory
+path_filestat_get
+path_filestat_set_times
+path_open
+path_readlink
+path_remove_directory
+path_unlink_file
+poll_oneoff
+proc_exit
+#endif
diff --git a/ext/wasm/api/sqlite3-wasm.c b/ext/wasm/api/sqlite3-wasm.c
new file mode 100644
index 0000000..af5ed6b
--- /dev/null
+++ b/ext/wasm/api/sqlite3-wasm.c
@@ -0,0 +1,1181 @@
+/*
+** This file requires access to sqlite3.c static state in order to
+** implement certain WASM-specific features, and thus directly
+** includes that file. Unlike the rest of sqlite3.c, this file
+** requires compiling with -std=c99 (or equivalent, or a later C
+** version) because it makes use of features not available in C89.
+**
+** At its simplest, to build sqlite3.wasm either place this file
+** in the same directory as sqlite3.c/h before compilation or use the
+** -I/path flag to tell the compiler where to find both of those
+** files, then compile this file. For example:
+**
+** emcc -o sqlite3.wasm ... -I/path/to/sqlite3-c-and-h sqlite3-wasm.c
+*/
+#define SQLITE_WASM
+#ifdef SQLITE_WASM_ENABLE_C_TESTS
+/*
+** Code blocked off by SQLITE_WASM_TESTS is intended solely for use in
+** unit/regression testing. They may be safely omitted from
+** client-side builds. The main unit test script, tester1.js, will
+** skip related tests if it doesn't find the corresponding functions
+** in the WASM exports.
+*/
+# define SQLITE_WASM_TESTS 1
+#else
+# define SQLITE_WASM_TESTS 0
+#endif
+
+/*
+** Threading and file locking: JS is single-threaded. Each Worker
+** thread is a separate instance of the JS engine so can never access
+** the same db handle as another thread, thus multi-threading support
+** is unnecessary in the library. Because the filesystems are virtual
+** and local to a given wasm runtime instance, two Workers can never
+** access the same db file at once, with the exception of OPFS. As of
+** this writing (2022-09-30), OPFS exclusively locks a file when
+** opening it, so two Workers can never open the same OPFS-backed file
+** at once. That situation will change if and when lower-level locking
+** features are added to OPFS (as is currently planned, per folks
+** involved with its development).
+**
+** Summary: except for the case of future OPFS, which supports
+** locking, and any similar future filesystems, threading and file
+** locking support are unnecessary in the wasm build.
+*/
+
+/*
+** Undefine any SQLITE_... config flags which we specifically do not
+** want undefined. Please keep these alphabetized.
+*/
+#undef SQLITE_OMIT_DESERIALIZE
+#undef SQLITE_OMIT_MEMORYDB
+
+/*
+** Define any SQLITE_... config defaults we want if they aren't
+** overridden by the builder. Please keep these alphabetized.
+*/
+
+/**********************************************************************/
+/* SQLITE_D... */
+#ifndef SQLITE_DEFAULT_CACHE_SIZE
+/*
+** The OPFS impls benefit tremendously from an increased cache size
+** when working on large workloads, e.g. speedtest1 --size 50 or
+** higher. On smaller workloads, e.g. speedtest1 --size 25, they
+** clearly benefit from having 4mb of cache, but not as much as a
+** larger cache benefits the larger workloads. Speed differences
+** between 2x and nearly 3x have been measured with ample page cache.
+*/
+# define SQLITE_DEFAULT_CACHE_SIZE -16384
+#endif
+#if 0 && !defined(SQLITE_DEFAULT_PAGE_SIZE)
+/* TODO: experiment with this. */
+# define SQLITE_DEFAULT_PAGE_SIZE 8192 /*4096*/
+#endif
+#ifndef SQLITE_DEFAULT_UNIX_VFS
+# define SQLITE_DEFAULT_UNIX_VFS "unix-none"
+#endif
+#undef SQLITE_DQS
+#define SQLITE_DQS 0
+
+/**********************************************************************/
+/* SQLITE_ENABLE_... */
+#ifndef SQLITE_ENABLE_BYTECODE_VTAB
+# define SQLITE_ENABLE_BYTECODE_VTAB 1
+#endif
+#ifndef SQLITE_ENABLE_DBPAGE_VTAB
+# define SQLITE_ENABLE_DBPAGE_VTAB 1
+#endif
+#ifndef SQLITE_ENABLE_DBSTAT_VTAB
+# define SQLITE_ENABLE_DBSTAT_VTAB 1
+#endif
+#ifndef SQLITE_ENABLE_EXPLAIN_COMMENTS
+# define SQLITE_ENABLE_EXPLAIN_COMMENTS 1
+#endif
+#ifndef SQLITE_ENABLE_FTS4
+# define SQLITE_ENABLE_FTS4 1
+#endif
+#ifndef SQLITE_ENABLE_OFFSET_SQL_FUNC
+# define SQLITE_ENABLE_OFFSET_SQL_FUNC 1
+#endif
+#ifndef SQLITE_ENABLE_RTREE
+# define SQLITE_ENABLE_RTREE 1
+#endif
+#ifndef SQLITE_ENABLE_STMTVTAB
+# define SQLITE_ENABLE_STMTVTAB 1
+#endif
+#ifndef SQLITE_ENABLE_UNKNOWN_SQL_FUNCTION
+# define SQLITE_ENABLE_UNKNOWN_SQL_FUNCTION
+#endif
+
+/**********************************************************************/
+/* SQLITE_O... */
+#ifndef SQLITE_OMIT_DEPRECATED
+# define SQLITE_OMIT_DEPRECATED 1
+#endif
+#ifndef SQLITE_OMIT_LOAD_EXTENSION
+# define SQLITE_OMIT_LOAD_EXTENSION 1
+#endif
+#ifndef SQLITE_OMIT_SHARED_CACHE
+# define SQLITE_OMIT_SHARED_CACHE 1
+#endif
+#ifndef SQLITE_OMIT_UTF16
+# define SQLITE_OMIT_UTF16 1
+#endif
+#ifndef SQLITE_OMIT_WAL
+# define SQLITE_OMIT_WAL 1
+#endif
+#ifndef SQLITE_OS_KV_OPTIONAL
+# define SQLITE_OS_KV_OPTIONAL 1
+#endif
+
+/**********************************************************************/
+/* SQLITE_T... */
+#ifndef SQLITE_TEMP_STORE
+# define SQLITE_TEMP_STORE 3
+#endif
+#ifndef SQLITE_THREADSAFE
+# define SQLITE_THREADSAFE 0
+#endif
+
+/**********************************************************************/
+/* SQLITE_USE_... */
+#ifndef SQLITE_USE_URI
+# define SQLITE_USE_URI 1
+#endif
+
+#include <assert.h>
+#include "sqlite3.c" /* yes, .c instead of .h. */
+
+#if defined(__EMSCRIPTEN__)
+# include <emscripten/console.h>
+#endif
+
+/*
+** SQLITE_WASM_KEEP is functionally identical to EMSCRIPTEN_KEEPALIVE
+** but is not Emscripten-specific. It explicitly marks functions for
+** export into the target wasm file without requiring explicit listing
+** of those functions in Emscripten's -sEXPORTED_FUNCTIONS=... list
+** (or equivalent in other build platforms). Any function with neither
+** this attribute nor which is listed as an explicit export will not
+** be exported from the wasm file (but may still be used internally
+** within the wasm file).
+**
+** The functions in this file (sqlite3-wasm.c) which require exporting
+** are marked with this flag. They may also be added to any explicit
+** build-time export list but need not be. All of these APIs are
+** intended for use only within the project's own JS/WASM code, and
+** not by client code, so an argument can be made for reducing their
+** visibility by not including them in any build-time export lists.
+**
+** 2022-09-11: it's not yet _proven_ that this approach works in
+** non-Emscripten builds. If not, such builds will need to export
+** those using the --export=... wasm-ld flag (or equivalent). As of
+** this writing we are tied to Emscripten for various reasons
+** and cannot test the library with other build environments.
+*/
+#define SQLITE_WASM_KEEP __attribute__((used,visibility("default")))
+// See also:
+//__attribute__((export_name("theExportedName"), used, visibility("default")))
+
+
+#if 0
+/*
+** An EXPERIMENT in implementing a stack-based allocator analog to
+** Emscripten's stackSave(), stackAlloc(), stackRestore().
+** Unfortunately, this cannot work together with Emscripten because
+** Emscripten defines its own native one and we'd stomp on each
+** other's memory. Other than that complication, basic tests show it
+** to work just fine.
+**
+** Another option is to malloc() a chunk of our own and call that our
+** "stack".
+*/
+SQLITE_WASM_KEEP void * sqlite3_wasm_stack_end(void){
+ extern void __heap_base
+ /* see https://stackoverflow.com/questions/10038964 */;
+ return &__heap_base;
+}
+SQLITE_WASM_KEEP void * sqlite3_wasm_stack_begin(void){
+ extern void __data_end;
+ return &__data_end;
+}
+static void * pWasmStackPtr = 0;
+SQLITE_WASM_KEEP void * sqlite3_wasm_stack_ptr(void){
+ if(!pWasmStackPtr) pWasmStackPtr = sqlite3_wasm_stack_end();
+ return pWasmStackPtr;
+}
+SQLITE_WASM_KEEP void sqlite3_wasm_stack_restore(void * p){
+ pWasmStackPtr = p;
+}
+SQLITE_WASM_KEEP void * sqlite3_wasm_stack_alloc(int n){
+ if(n<=0) return 0;
+ n = (n + 7) & ~7 /* align to 8-byte boundary */;
+ unsigned char * const p = (unsigned char *)sqlite3_wasm_stack_ptr();
+ unsigned const char * const b = (unsigned const char *)sqlite3_wasm_stack_begin();
+ if(b + n >= p || b + n < b/*overflow*/) return 0;
+ return pWasmStackPtr = p - n;
+}
+#endif /* stack allocator experiment */
+
+/*
+** State for the "pseudo-stack" allocator implemented in
+** sqlite3_wasm_pstack_xyz(). In order to avoid colliding with
+** Emscripten-controled stack space, it carves out a bit of stack
+** memory to use for that purpose. This memory ends up in the
+** WASM-managed memory, such that routines which manipulate the wasm
+** heap can also be used to manipulate this memory.
+**
+** This particular allocator is intended for small allocations such as
+** storage for output pointers. We cannot reasonably size it large
+** enough for general-purpose string conversions because some of our
+** tests use input files (strings) of 16MB+.
+*/
+static unsigned char PStack_mem[512 * 8] = {0};
+static struct {
+ unsigned const char * const pBegin;/* Start (inclusive) of memory */
+ unsigned const char * const pEnd; /* One-after-the-end of memory */
+ unsigned char * pPos; /* Current stack pointer */
+} PStack = {
+ &PStack_mem[0],
+ &PStack_mem[0] + sizeof(PStack_mem),
+ &PStack_mem[0] + sizeof(PStack_mem)
+};
+/*
+** Returns the current pstack position.
+*/
+SQLITE_WASM_KEEP void * sqlite3_wasm_pstack_ptr(void){
+ return PStack.pPos;
+}
+/*
+** Sets the pstack position poitner to p. Results are undefined if the
+** given value did not come from sqlite3_wasm_pstack_ptr().
+*/
+SQLITE_WASM_KEEP void sqlite3_wasm_pstack_restore(unsigned char * p){
+ assert(p>=PStack.pBegin && p<=PStack.pEnd && p>=PStack.pPos);
+ assert(0==(p & 0x7));
+ if(p>=PStack.pBegin && p<=PStack.pEnd /*&& p>=PStack.pPos*/){
+ PStack.pPos = p;
+ }
+}
+/*
+** Allocate and zero out n bytes from the pstack. Returns a pointer to
+** the memory on success, 0 on error (including a negative n value). n
+** is always adjusted to be a multiple of 8 and returned memory is
+** always zeroed out before returning (because this keeps the client
+** JS code from having to do so, and most uses of the pstack will
+** call for doing so).
+*/
+SQLITE_WASM_KEEP void * sqlite3_wasm_pstack_alloc(int n){
+ if( n<=0 ) return 0;
+ //if( n & 0x7 ) n += 8 - (n & 0x7) /* align to 8-byte boundary */;
+ n = (n + 7) & ~7 /* align to 8-byte boundary */;
+ if( PStack.pBegin + n > PStack.pPos /*not enough space left*/
+ || PStack.pBegin + n <= PStack.pBegin /*overflow*/ ) return 0;
+ memset((PStack.pPos = PStack.pPos - n), 0, (unsigned int)n);
+ return PStack.pPos;
+}
+/*
+** Return the number of bytes left which can be
+** sqlite3_wasm_pstack_alloc()'d.
+*/
+SQLITE_WASM_KEEP int sqlite3_wasm_pstack_remaining(void){
+ assert(PStack.pPos >= PStack.pBegin);
+ assert(PStack.pPos <= PStack.pEnd);
+ return (int)(PStack.pPos - PStack.pBegin);
+}
+
+/*
+** Return the total number of bytes available in the pstack, including
+** any space which is currently allocated. This value is a
+** compile-time constant.
+*/
+SQLITE_WASM_KEEP int sqlite3_wasm_pstack_quota(void){
+ return (int)(PStack.pEnd - PStack.pBegin);
+}
+
+/*
+** This function is NOT part of the sqlite3 public API. It is strictly
+** for use by the sqlite project's own JS/WASM bindings.
+**
+** For purposes of certain hand-crafted C/Wasm function bindings, we
+** need a way of reporting errors which is consistent with the rest of
+** the C API, as opposed to throwing JS exceptions. To that end, this
+** internal-use-only function is a thin proxy around
+** sqlite3ErrorWithMessage(). The intent is that it only be used from
+** Wasm bindings such as sqlite3_prepare_v2/v3(), and definitely not
+** from client code.
+**
+** Returns err_code.
+*/
+SQLITE_WASM_KEEP
+int sqlite3_wasm_db_error(sqlite3*db, int err_code, const char *zMsg){
+ if( 0!=zMsg ){
+ const int nMsg = sqlite3Strlen30(zMsg);
+ sqlite3ErrorWithMsg(db, err_code, "%.*s", nMsg, zMsg);
+ }else{
+ sqlite3ErrorWithMsg(db, err_code, NULL);
+ }
+ return err_code;
+}
+
+#if SQLITE_WASM_TESTS
+struct WasmTestStruct {
+ int v4;
+ void * ppV;
+ const char * cstr;
+ int64_t v8;
+ void (*xFunc)(void*);
+};
+typedef struct WasmTestStruct WasmTestStruct;
+SQLITE_WASM_KEEP
+void sqlite3_wasm_test_struct(WasmTestStruct * s){
+ if(s){
+ s->v4 *= 2;
+ s->v8 = s->v4 * 2;
+ s->ppV = s;
+ s->cstr = __FILE__;
+ if(s->xFunc) s->xFunc(s);
+ }
+ return;
+}
+#endif /* SQLITE_WASM_TESTS */
+
+/*
+** This function is NOT part of the sqlite3 public API. It is strictly
+** for use by the sqlite project's own JS/WASM bindings. Unlike the
+** rest of the sqlite3 API, this part requires C99 for snprintf() and
+** variadic macros.
+**
+** Returns a string containing a JSON-format "enum" of C-level
+** constants and struct-related metadata intended to be imported into
+** the JS environment. The JSON is initialized the first time this
+** function is called and that result is reused for all future calls.
+**
+** If this function returns NULL then it means that the internal
+** buffer is not large enough for the generated JSON and needs to be
+** increased. In debug builds that will trigger an assert().
+*/
+SQLITE_WASM_KEEP
+const char * sqlite3_wasm_enum_json(void){
+ static char aBuffer[1024 * 12] = {0} /* where the JSON goes */;
+ int n = 0, nChildren = 0, nStruct = 0
+ /* output counters for figuring out where commas go */;
+ char * zPos = &aBuffer[1] /* skip first byte for now to help protect
+ ** against a small race condition */;
+ char const * const zEnd = &aBuffer[0] + sizeof(aBuffer) /* one-past-the-end */;
+ if(aBuffer[0]) return aBuffer;
+ /* Leave aBuffer[0] at 0 until the end to help guard against a tiny
+ ** race condition. If this is called twice concurrently, they might
+ ** end up both writing to aBuffer, but they'll both write the same
+ ** thing, so that's okay. If we set byte 0 up front then the 2nd
+ ** instance might return and use the string before the 1st instance
+ ** is done filling it. */
+
+/* Core output macros... */
+#define lenCheck assert(zPos < zEnd - 128 \
+ && "sqlite3_wasm_enum_json() buffer is too small."); \
+ if( zPos >= zEnd - 128 ) return 0
+#define outf(format,...) \
+ zPos += snprintf(zPos, ((size_t)(zEnd - zPos)), format, __VA_ARGS__); \
+ lenCheck
+#define out(TXT) outf("%s",TXT)
+#define CloseBrace(LEVEL) \
+ assert(LEVEL<5); memset(zPos, '}', LEVEL); zPos+=LEVEL; lenCheck
+
+/* Macros for emitting maps of integer- and string-type macros to
+** their values. */
+#define DefGroup(KEY) n = 0; \
+ outf("%s\"" #KEY "\": {",(nChildren++ ? "," : ""));
+#define DefInt(KEY) \
+ outf("%s\"%s\": %d", (n++ ? ", " : ""), #KEY, (int)KEY)
+#define DefStr(KEY) \
+ outf("%s\"%s\": \"%s\"", (n++ ? ", " : ""), #KEY, KEY)
+#define _DefGroup CloseBrace(1)
+
+ /* The following groups are sorted alphabetic by group name. */
+ DefGroup(access){
+ DefInt(SQLITE_ACCESS_EXISTS);
+ DefInt(SQLITE_ACCESS_READWRITE);
+ DefInt(SQLITE_ACCESS_READ)/*docs say this is unused*/;
+ } _DefGroup;
+
+ DefGroup(blobFinalizers) {
+ /* SQLITE_STATIC/TRANSIENT need to be handled explicitly as
+ ** integers to avoid casting-related warnings. */
+ out("\"SQLITE_STATIC\":0, \"SQLITE_TRANSIENT\":-1");
+ } _DefGroup;
+
+ DefGroup(dataTypes) {
+ DefInt(SQLITE_INTEGER);
+ DefInt(SQLITE_FLOAT);
+ DefInt(SQLITE_TEXT);
+ DefInt(SQLITE_BLOB);
+ DefInt(SQLITE_NULL);
+ } _DefGroup;
+
+ DefGroup(encodings) {
+ /* Noting that the wasm binding only aims to support UTF-8. */
+ DefInt(SQLITE_UTF8);
+ DefInt(SQLITE_UTF16LE);
+ DefInt(SQLITE_UTF16BE);
+ DefInt(SQLITE_UTF16);
+ /*deprecated DefInt(SQLITE_ANY); */
+ DefInt(SQLITE_UTF16_ALIGNED);
+ } _DefGroup;
+
+ DefGroup(fcntl) {
+ DefInt(SQLITE_FCNTL_LOCKSTATE);
+ DefInt(SQLITE_FCNTL_GET_LOCKPROXYFILE);
+ DefInt(SQLITE_FCNTL_SET_LOCKPROXYFILE);
+ DefInt(SQLITE_FCNTL_LAST_ERRNO);
+ DefInt(SQLITE_FCNTL_SIZE_HINT);
+ DefInt(SQLITE_FCNTL_CHUNK_SIZE);
+ DefInt(SQLITE_FCNTL_FILE_POINTER);
+ DefInt(SQLITE_FCNTL_SYNC_OMITTED);
+ DefInt(SQLITE_FCNTL_WIN32_AV_RETRY);
+ DefInt(SQLITE_FCNTL_PERSIST_WAL);
+ DefInt(SQLITE_FCNTL_OVERWRITE);
+ DefInt(SQLITE_FCNTL_VFSNAME);
+ DefInt(SQLITE_FCNTL_POWERSAFE_OVERWRITE);
+ DefInt(SQLITE_FCNTL_PRAGMA);
+ DefInt(SQLITE_FCNTL_BUSYHANDLER);
+ DefInt(SQLITE_FCNTL_TEMPFILENAME);
+ DefInt(SQLITE_FCNTL_MMAP_SIZE);
+ DefInt(SQLITE_FCNTL_TRACE);
+ DefInt(SQLITE_FCNTL_HAS_MOVED);
+ DefInt(SQLITE_FCNTL_SYNC);
+ DefInt(SQLITE_FCNTL_COMMIT_PHASETWO);
+ DefInt(SQLITE_FCNTL_WIN32_SET_HANDLE);
+ DefInt(SQLITE_FCNTL_WAL_BLOCK);
+ DefInt(SQLITE_FCNTL_ZIPVFS);
+ DefInt(SQLITE_FCNTL_RBU);
+ DefInt(SQLITE_FCNTL_VFS_POINTER);
+ DefInt(SQLITE_FCNTL_JOURNAL_POINTER);
+ DefInt(SQLITE_FCNTL_WIN32_GET_HANDLE);
+ DefInt(SQLITE_FCNTL_PDB);
+ DefInt(SQLITE_FCNTL_BEGIN_ATOMIC_WRITE);
+ DefInt(SQLITE_FCNTL_COMMIT_ATOMIC_WRITE);
+ DefInt(SQLITE_FCNTL_ROLLBACK_ATOMIC_WRITE);
+ DefInt(SQLITE_FCNTL_LOCK_TIMEOUT);
+ DefInt(SQLITE_FCNTL_DATA_VERSION);
+ DefInt(SQLITE_FCNTL_SIZE_LIMIT);
+ DefInt(SQLITE_FCNTL_CKPT_DONE);
+ DefInt(SQLITE_FCNTL_RESERVE_BYTES);
+ DefInt(SQLITE_FCNTL_CKPT_START);
+ DefInt(SQLITE_FCNTL_EXTERNAL_READER);
+ DefInt(SQLITE_FCNTL_CKSM_FILE);
+ } _DefGroup;
+
+ DefGroup(flock) {
+ DefInt(SQLITE_LOCK_NONE);
+ DefInt(SQLITE_LOCK_SHARED);
+ DefInt(SQLITE_LOCK_RESERVED);
+ DefInt(SQLITE_LOCK_PENDING);
+ DefInt(SQLITE_LOCK_EXCLUSIVE);
+ } _DefGroup;
+
+ DefGroup(ioCap) {
+ DefInt(SQLITE_IOCAP_ATOMIC);
+ DefInt(SQLITE_IOCAP_ATOMIC512);
+ DefInt(SQLITE_IOCAP_ATOMIC1K);
+ DefInt(SQLITE_IOCAP_ATOMIC2K);
+ DefInt(SQLITE_IOCAP_ATOMIC4K);
+ DefInt(SQLITE_IOCAP_ATOMIC8K);
+ DefInt(SQLITE_IOCAP_ATOMIC16K);
+ DefInt(SQLITE_IOCAP_ATOMIC32K);
+ DefInt(SQLITE_IOCAP_ATOMIC64K);
+ DefInt(SQLITE_IOCAP_SAFE_APPEND);
+ DefInt(SQLITE_IOCAP_SEQUENTIAL);
+ DefInt(SQLITE_IOCAP_UNDELETABLE_WHEN_OPEN);
+ DefInt(SQLITE_IOCAP_POWERSAFE_OVERWRITE);
+ DefInt(SQLITE_IOCAP_IMMUTABLE);
+ DefInt(SQLITE_IOCAP_BATCH_ATOMIC);
+ } _DefGroup;
+
+ DefGroup(openFlags) {
+ /* Noting that not all of these will have any effect in
+ ** WASM-space. */
+ DefInt(SQLITE_OPEN_READONLY);
+ DefInt(SQLITE_OPEN_READWRITE);
+ DefInt(SQLITE_OPEN_CREATE);
+ DefInt(SQLITE_OPEN_URI);
+ DefInt(SQLITE_OPEN_MEMORY);
+ DefInt(SQLITE_OPEN_NOMUTEX);
+ DefInt(SQLITE_OPEN_FULLMUTEX);
+ DefInt(SQLITE_OPEN_SHAREDCACHE);
+ DefInt(SQLITE_OPEN_PRIVATECACHE);
+ DefInt(SQLITE_OPEN_EXRESCODE);
+ DefInt(SQLITE_OPEN_NOFOLLOW);
+ /* OPEN flags for use with VFSes... */
+ DefInt(SQLITE_OPEN_MAIN_DB);
+ DefInt(SQLITE_OPEN_MAIN_JOURNAL);
+ DefInt(SQLITE_OPEN_TEMP_DB);
+ DefInt(SQLITE_OPEN_TEMP_JOURNAL);
+ DefInt(SQLITE_OPEN_TRANSIENT_DB);
+ DefInt(SQLITE_OPEN_SUBJOURNAL);
+ DefInt(SQLITE_OPEN_SUPER_JOURNAL);
+ DefInt(SQLITE_OPEN_WAL);
+ DefInt(SQLITE_OPEN_DELETEONCLOSE);
+ DefInt(SQLITE_OPEN_EXCLUSIVE);
+ } _DefGroup;
+
+ DefGroup(prepareFlags) {
+ DefInt(SQLITE_PREPARE_PERSISTENT);
+ DefInt(SQLITE_PREPARE_NORMALIZE);
+ DefInt(SQLITE_PREPARE_NO_VTAB);
+ } _DefGroup;
+
+ DefGroup(resultCodes) {
+ DefInt(SQLITE_OK);
+ DefInt(SQLITE_ERROR);
+ DefInt(SQLITE_INTERNAL);
+ DefInt(SQLITE_PERM);
+ DefInt(SQLITE_ABORT);
+ DefInt(SQLITE_BUSY);
+ DefInt(SQLITE_LOCKED);
+ DefInt(SQLITE_NOMEM);
+ DefInt(SQLITE_READONLY);
+ DefInt(SQLITE_INTERRUPT);
+ DefInt(SQLITE_IOERR);
+ DefInt(SQLITE_CORRUPT);
+ DefInt(SQLITE_NOTFOUND);
+ DefInt(SQLITE_FULL);
+ DefInt(SQLITE_CANTOPEN);
+ DefInt(SQLITE_PROTOCOL);
+ DefInt(SQLITE_EMPTY);
+ DefInt(SQLITE_SCHEMA);
+ DefInt(SQLITE_TOOBIG);
+ DefInt(SQLITE_CONSTRAINT);
+ DefInt(SQLITE_MISMATCH);
+ DefInt(SQLITE_MISUSE);
+ DefInt(SQLITE_NOLFS);
+ DefInt(SQLITE_AUTH);
+ DefInt(SQLITE_FORMAT);
+ DefInt(SQLITE_RANGE);
+ DefInt(SQLITE_NOTADB);
+ DefInt(SQLITE_NOTICE);
+ DefInt(SQLITE_WARNING);
+ DefInt(SQLITE_ROW);
+ DefInt(SQLITE_DONE);
+ // Extended Result Codes
+ DefInt(SQLITE_ERROR_MISSING_COLLSEQ);
+ DefInt(SQLITE_ERROR_RETRY);
+ DefInt(SQLITE_ERROR_SNAPSHOT);
+ DefInt(SQLITE_IOERR_READ);
+ DefInt(SQLITE_IOERR_SHORT_READ);
+ DefInt(SQLITE_IOERR_WRITE);
+ DefInt(SQLITE_IOERR_FSYNC);
+ DefInt(SQLITE_IOERR_DIR_FSYNC);
+ DefInt(SQLITE_IOERR_TRUNCATE);
+ DefInt(SQLITE_IOERR_FSTAT);
+ DefInt(SQLITE_IOERR_UNLOCK);
+ DefInt(SQLITE_IOERR_RDLOCK);
+ DefInt(SQLITE_IOERR_DELETE);
+ DefInt(SQLITE_IOERR_BLOCKED);
+ DefInt(SQLITE_IOERR_NOMEM);
+ DefInt(SQLITE_IOERR_ACCESS);
+ DefInt(SQLITE_IOERR_CHECKRESERVEDLOCK);
+ DefInt(SQLITE_IOERR_LOCK);
+ DefInt(SQLITE_IOERR_CLOSE);
+ DefInt(SQLITE_IOERR_DIR_CLOSE);
+ DefInt(SQLITE_IOERR_SHMOPEN);
+ DefInt(SQLITE_IOERR_SHMSIZE);
+ DefInt(SQLITE_IOERR_SHMLOCK);
+ DefInt(SQLITE_IOERR_SHMMAP);
+ DefInt(SQLITE_IOERR_SEEK);
+ DefInt(SQLITE_IOERR_DELETE_NOENT);
+ DefInt(SQLITE_IOERR_MMAP);
+ DefInt(SQLITE_IOERR_GETTEMPPATH);
+ DefInt(SQLITE_IOERR_CONVPATH);
+ DefInt(SQLITE_IOERR_VNODE);
+ DefInt(SQLITE_IOERR_AUTH);
+ DefInt(SQLITE_IOERR_BEGIN_ATOMIC);
+ DefInt(SQLITE_IOERR_COMMIT_ATOMIC);
+ DefInt(SQLITE_IOERR_ROLLBACK_ATOMIC);
+ DefInt(SQLITE_IOERR_DATA);
+ DefInt(SQLITE_IOERR_CORRUPTFS);
+ DefInt(SQLITE_LOCKED_SHAREDCACHE);
+ DefInt(SQLITE_LOCKED_VTAB);
+ DefInt(SQLITE_BUSY_RECOVERY);
+ DefInt(SQLITE_BUSY_SNAPSHOT);
+ DefInt(SQLITE_BUSY_TIMEOUT);
+ DefInt(SQLITE_CANTOPEN_NOTEMPDIR);
+ DefInt(SQLITE_CANTOPEN_ISDIR);
+ DefInt(SQLITE_CANTOPEN_FULLPATH);
+ DefInt(SQLITE_CANTOPEN_CONVPATH);
+ //DefInt(SQLITE_CANTOPEN_DIRTYWAL)/*docs say not used*/;
+ DefInt(SQLITE_CANTOPEN_SYMLINK);
+ DefInt(SQLITE_CORRUPT_VTAB);
+ DefInt(SQLITE_CORRUPT_SEQUENCE);
+ DefInt(SQLITE_CORRUPT_INDEX);
+ DefInt(SQLITE_READONLY_RECOVERY);
+ DefInt(SQLITE_READONLY_CANTLOCK);
+ DefInt(SQLITE_READONLY_ROLLBACK);
+ DefInt(SQLITE_READONLY_DBMOVED);
+ DefInt(SQLITE_READONLY_CANTINIT);
+ DefInt(SQLITE_READONLY_DIRECTORY);
+ DefInt(SQLITE_ABORT_ROLLBACK);
+ DefInt(SQLITE_CONSTRAINT_CHECK);
+ DefInt(SQLITE_CONSTRAINT_COMMITHOOK);
+ DefInt(SQLITE_CONSTRAINT_FOREIGNKEY);
+ DefInt(SQLITE_CONSTRAINT_FUNCTION);
+ DefInt(SQLITE_CONSTRAINT_NOTNULL);
+ DefInt(SQLITE_CONSTRAINT_PRIMARYKEY);
+ DefInt(SQLITE_CONSTRAINT_TRIGGER);
+ DefInt(SQLITE_CONSTRAINT_UNIQUE);
+ DefInt(SQLITE_CONSTRAINT_VTAB);
+ DefInt(SQLITE_CONSTRAINT_ROWID);
+ DefInt(SQLITE_CONSTRAINT_PINNED);
+ DefInt(SQLITE_CONSTRAINT_DATATYPE);
+ DefInt(SQLITE_NOTICE_RECOVER_WAL);
+ DefInt(SQLITE_NOTICE_RECOVER_ROLLBACK);
+ DefInt(SQLITE_WARNING_AUTOINDEX);
+ DefInt(SQLITE_AUTH_USER);
+ DefInt(SQLITE_OK_LOAD_PERMANENTLY);
+ //DefInt(SQLITE_OK_SYMLINK) /* internal use only */;
+ } _DefGroup;
+
+ DefGroup(serialize){
+ DefInt(SQLITE_SERIALIZE_NOCOPY);
+ DefInt(SQLITE_DESERIALIZE_FREEONCLOSE);
+ DefInt(SQLITE_DESERIALIZE_READONLY);
+ DefInt(SQLITE_DESERIALIZE_RESIZEABLE);
+ } _DefGroup;
+
+ DefGroup(syncFlags) {
+ DefInt(SQLITE_SYNC_NORMAL);
+ DefInt(SQLITE_SYNC_FULL);
+ DefInt(SQLITE_SYNC_DATAONLY);
+ } _DefGroup;
+
+ DefGroup(trace) {
+ DefInt(SQLITE_TRACE_STMT);
+ DefInt(SQLITE_TRACE_PROFILE);
+ DefInt(SQLITE_TRACE_ROW);
+ DefInt(SQLITE_TRACE_CLOSE);
+ } _DefGroup;
+
+ DefGroup(udfFlags) {
+ DefInt(SQLITE_DETERMINISTIC);
+ DefInt(SQLITE_DIRECTONLY);
+ DefInt(SQLITE_INNOCUOUS);
+ } _DefGroup;
+
+ DefGroup(version) {
+ DefInt(SQLITE_VERSION_NUMBER);
+ DefStr(SQLITE_VERSION);
+ DefStr(SQLITE_SOURCE_ID);
+ } _DefGroup;
+
+#undef DefGroup
+#undef DefStr
+#undef DefInt
+#undef _DefGroup
+
+ /*
+ ** Emit an array of "StructBinder" struct descripions, which look
+ ** like:
+ **
+ ** {
+ ** "name": "MyStruct",
+ ** "sizeof": 16,
+ ** "members": {
+ ** "member1": {"offset": 0,"sizeof": 4,"signature": "i"},
+ ** "member2": {"offset": 4,"sizeof": 4,"signature": "p"},
+ ** "member3": {"offset": 8,"sizeof": 8,"signature": "j"}
+ ** }
+ ** }
+ **
+ ** Detailed documentation for those bits are in the docs for the
+ ** Jaccwabyt JS-side component.
+ */
+
+ /** Macros for emitting StructBinder description. */
+#define StructBinder__(TYPE) \
+ n = 0; \
+ outf("%s{", (nStruct++ ? ", " : "")); \
+ out("\"name\": \"" # TYPE "\","); \
+ outf("\"sizeof\": %d", (int)sizeof(TYPE)); \
+ out(",\"members\": {");
+#define StructBinder_(T) StructBinder__(T)
+ /** ^^^ indirection needed to expand CurrentStruct */
+#define StructBinder StructBinder_(CurrentStruct)
+#define _StructBinder CloseBrace(2)
+#define M(MEMBER,SIG) \
+ outf("%s\"%s\": " \
+ "{\"offset\":%d,\"sizeof\": %d,\"signature\":\"%s\"}", \
+ (n++ ? ", " : ""), #MEMBER, \
+ (int)offsetof(CurrentStruct,MEMBER), \
+ (int)sizeof(((CurrentStruct*)0)->MEMBER), \
+ SIG)
+
+ nStruct = 0;
+ out(", \"structs\": ["); {
+
+#define CurrentStruct sqlite3_vfs
+ StructBinder {
+ M(iVersion,"i");
+ M(szOsFile,"i");
+ M(mxPathname,"i");
+ M(pNext,"p");
+ M(zName,"s");
+ M(pAppData,"p");
+ M(xOpen,"i(pppip)");
+ M(xDelete,"i(ppi)");
+ M(xAccess,"i(ppip)");
+ M(xFullPathname,"i(ppip)");
+ M(xDlOpen,"p(pp)");
+ M(xDlError,"p(pip)");
+ M(xDlSym,"p()");
+ M(xDlClose,"v(pp)");
+ M(xRandomness,"i(pip)");
+ M(xSleep,"i(pi)");
+ M(xCurrentTime,"i(pp)");
+ M(xGetLastError,"i(pip)");
+ M(xCurrentTimeInt64,"i(pp)");
+ M(xSetSystemCall,"i(ppp)");
+ M(xGetSystemCall,"p(pp)");
+ M(xNextSystemCall,"p(pp)");
+ } _StructBinder;
+#undef CurrentStruct
+
+#define CurrentStruct sqlite3_io_methods
+ StructBinder {
+ M(iVersion,"i");
+ M(xClose,"i(p)");
+ M(xRead,"i(ppij)");
+ M(xWrite,"i(ppij)");
+ M(xTruncate,"i(pj)");
+ M(xSync,"i(pi)");
+ M(xFileSize,"i(pp)");
+ M(xLock,"i(pi)");
+ M(xUnlock,"i(pi)");
+ M(xCheckReservedLock,"i(pp)");
+ M(xFileControl,"i(pip)");
+ M(xSectorSize,"i(p)");
+ M(xDeviceCharacteristics,"i(p)");
+ M(xShmMap,"i(piiip)");
+ M(xShmLock,"i(piii)");
+ M(xShmBarrier,"v(p)");
+ M(xShmUnmap,"i(pi)");
+ M(xFetch,"i(pjip)");
+ M(xUnfetch,"i(pjp)");
+ } _StructBinder;
+#undef CurrentStruct
+
+#define CurrentStruct sqlite3_file
+ StructBinder {
+ M(pMethods,"p");
+ } _StructBinder;
+#undef CurrentStruct
+
+#define CurrentStruct sqlite3_kvvfs_methods
+ StructBinder {
+ M(xRead,"i(sspi)");
+ M(xWrite,"i(sss)");
+ M(xDelete,"i(ss)");
+ M(nKeySize,"i");
+ } _StructBinder;
+#undef CurrentStruct
+
+#if SQLITE_WASM_TESTS
+#define CurrentStruct WasmTestStruct
+ StructBinder {
+ M(v4,"i");
+ M(cstr,"s");
+ M(ppV,"p");
+ M(v8,"j");
+ M(xFunc,"v(p)");
+ } _StructBinder;
+#undef CurrentStruct
+#endif
+
+ } out( "]"/*structs*/);
+
+ out("}"/*top-level object*/);
+ *zPos = 0;
+ aBuffer[0] = '{'/*end of the race-condition workaround*/;
+ return aBuffer;
+#undef StructBinder
+#undef StructBinder_
+#undef StructBinder__
+#undef M
+#undef _StructBinder
+#undef CloseBrace
+#undef out
+#undef outf
+#undef lenCheck
+}
+
+/*
+** This function is NOT part of the sqlite3 public API. It is strictly
+** for use by the sqlite project's own JS/WASM bindings.
+**
+** This function invokes the xDelete method of the given VFS (or the
+** default VFS if pVfs is NULL), passing on the given filename. If
+** zName is NULL, no default VFS is found, or it has no xDelete
+** method, SQLITE_MISUSE is returned, else the result of the xDelete()
+** call is returned.
+*/
+SQLITE_WASM_KEEP
+int sqlite3_wasm_vfs_unlink(sqlite3_vfs *pVfs, const char * zName){
+ int rc = SQLITE_MISUSE /* ??? */;
+ if( 0==pVfs && 0!=zName ) pVfs = sqlite3_vfs_find(0);
+ if( zName && pVfs && pVfs->xDelete ){
+ rc = pVfs->xDelete(pVfs, zName, 1);
+ }
+ return rc;
+}
+
+/*
+** This function is NOT part of the sqlite3 public API. It is strictly
+** for use by the sqlite project's own JS/WASM bindings.
+**
+** Returns a pointer to the given DB's VFS for the given DB name,
+** defaulting to "main" if zDbName is 0. Returns 0 if no db with the
+** given name is open.
+*/
+SQLITE_WASM_KEEP
+sqlite3_vfs * sqlite3_wasm_db_vfs(sqlite3 *pDb, const char *zDbName){
+ sqlite3_vfs * pVfs = 0;
+ sqlite3_file_control(pDb, zDbName ? zDbName : "main",
+ SQLITE_FCNTL_VFS_POINTER, &pVfs);
+ return pVfs;
+}
+
+/*
+** This function is NOT part of the sqlite3 public API. It is strictly
+** for use by the sqlite project's own JS/WASM bindings.
+**
+** This function resets the given db pointer's database as described at
+**
+** https://www.sqlite.org/c3ref/c_dbconfig_defensive.html#sqlitedbconfigresetdatabase
+**
+** Returns 0 on success, an SQLITE_xxx code on error. Returns
+** SQLITE_MISUSE if pDb is NULL.
+*/
+SQLITE_WASM_KEEP
+int sqlite3_wasm_db_reset(sqlite3*pDb){
+ int rc = SQLITE_MISUSE;
+ if( pDb ){
+ rc = sqlite3_db_config(pDb, SQLITE_DBCONFIG_RESET_DATABASE, 1, 0);
+ if( 0==rc ) rc = sqlite3_exec(pDb, "VACUUM", 0, 0, 0);
+ sqlite3_db_config(pDb, SQLITE_DBCONFIG_RESET_DATABASE, 0, 0);
+ }
+ return rc;
+}
+
+/*
+** Uses the given database's VFS xRead to stream the db file's
+** contents out to the given callback. The callback gets a single
+** chunk of size n (its 2nd argument) on each call and must return 0
+** on success, non-0 on error. This function returns 0 on success,
+** SQLITE_NOTFOUND if no db is open, or propagates any other non-0
+** code from the callback. Note that this is not thread-friendly: it
+** expects that it will be the only thread reading the db file and
+** takes no measures to ensure that is the case.
+**
+** This implementation appears to work fine, but
+** sqlite3_wasm_db_serialize() is arguably the better way to achieve
+** this.
+*/
+SQLITE_WASM_KEEP
+int sqlite3_wasm_db_export_chunked( sqlite3* pDb,
+ int (*xCallback)(unsigned const char *zOut, int n) ){
+ sqlite3_int64 nSize = 0;
+ sqlite3_int64 nPos = 0;
+ sqlite3_file * pFile = 0;
+ unsigned char buf[1024 * 8];
+ int nBuf = (int)sizeof(buf);
+ int rc = pDb
+ ? sqlite3_file_control(pDb, "main",
+ SQLITE_FCNTL_FILE_POINTER, &pFile)
+ : SQLITE_NOTFOUND;
+ if( rc ) return rc;
+ rc = pFile->pMethods->xFileSize(pFile, &nSize);
+ if( rc ) return rc;
+ if(nSize % nBuf){
+ /* DB size is not an even multiple of the buffer size. Reduce
+ ** buffer size so that we do not unduly inflate the db size
+ ** with zero-padding when exporting. */
+ if(0 == nSize % 4096) nBuf = 4096;
+ else if(0 == nSize % 2048) nBuf = 2048;
+ else if(0 == nSize % 1024) nBuf = 1024;
+ else nBuf = 512;
+ }
+ for( ; 0==rc && nPos<nSize; nPos += nBuf ){
+ rc = pFile->pMethods->xRead(pFile, buf, nBuf, nPos);
+ if(SQLITE_IOERR_SHORT_READ == rc){
+ rc = (nPos + nBuf) < nSize ? rc : 0/*assume EOF*/;
+ }
+ if( 0==rc ) rc = xCallback(buf, nBuf);
+ }
+ return rc;
+}
+
+/*
+** A proxy for sqlite3_serialize() which serializes the "main" schema
+** of pDb, placing the serialized output in pOut and nOut. nOut may be
+** NULL. If pDb or pOut are NULL then SQLITE_MISUSE is returned. If
+** allocation of the serialized copy fails, SQLITE_NOMEM is returned.
+** On success, 0 is returned and `*pOut` will contain a pointer to the
+** memory unless mFlags includes SQLITE_SERIALIZE_NOCOPY and the
+** database has no contiguous memory representation, in which case
+** `*pOut` will be NULL but 0 will be returned.
+**
+** If `*pOut` is not NULL, the caller is responsible for passing it to
+** sqlite3_free() to free it.
+*/
+SQLITE_WASM_KEEP
+int sqlite3_wasm_db_serialize( sqlite3 *pDb, unsigned char **pOut,
+ sqlite3_int64 *nOut, unsigned int mFlags ){
+ unsigned char * z;
+ if( !pDb || !pOut ) return SQLITE_MISUSE;
+ if(nOut) *nOut = 0;
+ z = sqlite3_serialize(pDb, "main", nOut, mFlags);
+ if( z || (SQLITE_SERIALIZE_NOCOPY & mFlags) ){
+ *pOut = z;
+ return 0;
+ }else{
+ return SQLITE_NOMEM;
+ }
+}
+
+/*
+** This function is NOT part of the sqlite3 public API. It is strictly
+** for use by the sqlite project's own JS/WASM bindings.
+**
+** Creates a new file using the I/O API of the given VFS, containing
+** the given number of bytes of the given data. If the file exists,
+** it is truncated to the given length and populated with the given
+** data.
+**
+** This function exists so that we can implement the equivalent of
+** Emscripten's FS.createDataFile() in a VFS-agnostic way. This
+** functionality is intended for use in uploading database files.
+**
+** If pVfs is NULL, sqlite3_vfs_find(0) is used.
+**
+** If zFile is NULL, pVfs is NULL (and sqlite3_vfs_find(0) returns
+** NULL), or nData is negative, SQLITE_MISUSE are returned.
+**
+** On success, it creates a new file with the given name, populated
+** with the fist nData bytes of pData. If pData is NULL, the file is
+** created and/or truncated to nData bytes.
+**
+** Whether or not directory components of zFilename are created
+** automatically or not is unspecified: that detail is left to the
+** VFS. The "opfs" VFS, for example, create them.
+**
+** Not all VFSes support this functionality, e.g. the "kvvfs" does
+** not.
+**
+** If an error happens while populating or truncating the file, the
+** target file will be deleted (if needed) if this function created
+** it. If this function did not create it, it is not deleted but may
+** be left in an undefined state.
+**
+** Returns 0 on success. On error, it returns a code described above
+** or propagates a code from one of the I/O methods.
+**
+** Design note: nData is an integer, instead of int64, for WASM
+** portability, so that the API can still work in builds where BigInt
+** support is disabled or unavailable.
+*/
+SQLITE_WASM_KEEP
+int sqlite3_wasm_vfs_create_file( sqlite3_vfs *pVfs,
+ const char *zFilename,
+ const unsigned char * pData,
+ int nData ){
+ int rc;
+ sqlite3_file *pFile = 0;
+ sqlite3_io_methods const *pIo;
+ const int openFlags = SQLITE_OPEN_READWRITE | SQLITE_OPEN_CREATE;
+ int flagsOut = 0;
+ int fileExisted = 0;
+ int doUnlock = 0;
+ const unsigned char *pPos = pData;
+ const int blockSize = 512
+ /* Because we are using pFile->pMethods->xWrite() for writing, and
+ ** it may have a buffer limit related to sqlite3's pager size, we
+ ** conservatively write in 512-byte blocks (smallest page
+ ** size). */;
+
+ if( !pVfs ) pVfs = sqlite3_vfs_find(0);
+ if( !pVfs || !zFilename || nData<0 ) return SQLITE_MISUSE;
+ pVfs->xAccess(pVfs, zFilename, SQLITE_ACCESS_EXISTS, &fileExisted);
+ rc = sqlite3OsOpenMalloc(pVfs, zFilename, &pFile, openFlags, &flagsOut);
+ if(rc) return rc;
+ pIo = pFile->pMethods;
+ if( pIo->xLock ) {
+ /* We need xLock() in order to accommodate the OPFS VFS, as it
+ ** obtains a writeable handle via the lock operation and releases
+ ** it in xUnlock(). If we don't do those here, we have to add code
+ ** to the VFS to account check whether it was locked before
+ ** xFileSize(), xTruncate(), and the like, and release the lock
+ ** only if it was unlocked when the op was started. */
+ rc = pIo->xLock(pFile, SQLITE_LOCK_EXCLUSIVE);
+ doUnlock = 0==rc;
+ }
+ if( 0==rc) rc = pIo->xTruncate(pFile, nData);
+ if( 0==rc && 0!=pData && nData>0 ){
+ while( 0==rc && nData>0 ){
+ const int n = nData>=blockSize ? blockSize : nData;
+ rc = pIo->xWrite(pFile, pPos, n, (sqlite3_int64)(pPos - pData));
+ nData -= n;
+ pPos += n;
+ }
+ if( 0==rc && nData>0 ){
+ assert( nData<blockSize );
+ rc = pIo->xWrite(pFile, pPos, nData, (sqlite3_int64)(pPos - pData));
+ }
+ }
+ if( pIo->xUnlock && doUnlock!=0 ) pIo->xUnlock(pFile, SQLITE_LOCK_NONE);
+ pIo->xClose(pFile);
+ if( rc!=0 && 0==fileExisted ){
+ pVfs->xDelete(pVfs, zFilename, 1);
+ }
+ return rc;
+}
+
+/*
+** This function is NOT part of the sqlite3 public API. It is strictly
+** for use by the sqlite project's own JS/WASM bindings.
+**
+** Allocates sqlite3KvvfsMethods.nKeySize bytes from
+** sqlite3_wasm_pstack_alloc() and returns 0 if that allocation fails,
+** else it passes that string to kvstorageMakeKey() and returns a
+** NUL-terminated pointer to that string. It is up to the caller to
+** use sqlite3_wasm_pstack_restore() to free the returned pointer.
+*/
+SQLITE_WASM_KEEP
+char * sqlite3_wasm_kvvfsMakeKeyOnPstack(const char *zClass,
+ const char *zKeyIn){
+ assert(sqlite3KvvfsMethods.nKeySize>24);
+ char *zKeyOut =
+ (char *)sqlite3_wasm_pstack_alloc(sqlite3KvvfsMethods.nKeySize);
+ if(zKeyOut){
+ kvstorageMakeKey(zClass, zKeyIn, zKeyOut);
+ }
+ return zKeyOut;
+}
+
+/*
+** This function is NOT part of the sqlite3 public API. It is strictly
+** for use by the sqlite project's own JS/WASM bindings.
+**
+** Returns the pointer to the singleton object which holds the kvvfs
+** I/O methods and associated state.
+*/
+SQLITE_WASM_KEEP
+sqlite3_kvvfs_methods * sqlite3_wasm_kvvfs_methods(void){
+ return &sqlite3KvvfsMethods;
+}
+
+#if defined(__EMSCRIPTEN__) && defined(SQLITE_ENABLE_WASMFS)
+#include <emscripten/wasmfs.h>
+
+/*
+** This function is NOT part of the sqlite3 public API. It is strictly
+** for use by the sqlite project's own JS/WASM bindings, specifically
+** only when building with Emscripten's WASMFS support.
+**
+** This function should only be called if the JS side detects the
+** existence of the Origin-Private FileSystem (OPFS) APIs in the
+** client. The first time it is called, this function instantiates a
+** WASMFS backend impl for OPFS. On success, subsequent calls are
+** no-ops.
+**
+** This function may be passed a "mount point" name, which must have a
+** leading "/" and is currently restricted to a single path component,
+** e.g. "/foo" is legal but "/foo/" and "/foo/bar" are not. If it is
+** NULL or empty, it defaults to "/opfs".
+**
+** Returns 0 on success, SQLITE_NOMEM if instantiation of the backend
+** object fails, SQLITE_IOERR if mkdir() of the zMountPoint dir in
+** the virtual FS fails. In builds compiled without SQLITE_ENABLE_WASMFS
+** defined, SQLITE_NOTFOUND is returned without side effects.
+*/
+SQLITE_WASM_KEEP
+int sqlite3_wasm_init_wasmfs(const char *zMountPoint){
+ static backend_t pOpfs = 0;
+ if( !zMountPoint || !*zMountPoint ) zMountPoint = "/opfs";
+ if( !pOpfs ){
+ pOpfs = wasmfs_create_opfs_backend();
+ }
+ /** It's not enough to instantiate the backend. We have to create a
+ mountpoint in the VFS and attach the backend to it. */
+ if( pOpfs && 0!=access(zMountPoint, F_OK) ){
+ /* Note that this check and is not robust but it will
+ hypothetically suffice for the transient wasm-based virtual
+ filesystem we're currently running in. */
+ const int rc = wasmfs_create_directory(zMountPoint, 0777, pOpfs);
+ /*emscripten_console_logf("OPFS mkdir(%s) rc=%d", zMountPoint, rc);*/
+ if(rc) return SQLITE_IOERR;
+ }
+ return pOpfs ? 0 : SQLITE_NOMEM;
+}
+#else
+SQLITE_WASM_KEEP
+int sqlite3_wasm_init_wasmfs(const char *zUnused){
+ //emscripten_console_warn("WASMFS OPFS is not compiled in.");
+ if(zUnused){/*unused*/}
+ return SQLITE_NOTFOUND;
+}
+#endif /* __EMSCRIPTEN__ && SQLITE_ENABLE_WASMFS */
+
+#if SQLITE_WASM_TESTS
+
+SQLITE_WASM_KEEP
+int sqlite3_wasm_test_intptr(int * p){
+ return *p = *p * 2;
+}
+
+SQLITE_WASM_KEEP
+int64_t sqlite3_wasm_test_int64_max(void){
+ return (int64_t)0x7fffffffffffffff;
+}
+
+SQLITE_WASM_KEEP
+int64_t sqlite3_wasm_test_int64_min(void){
+ return ~sqlite3_wasm_test_int64_max();
+}
+
+SQLITE_WASM_KEEP
+int64_t sqlite3_wasm_test_int64_times2(int64_t x){
+ return x * 2;
+}
+
+SQLITE_WASM_KEEP
+void sqlite3_wasm_test_int64_minmax(int64_t * min, int64_t *max){
+ *max = sqlite3_wasm_test_int64_max();
+ *min = sqlite3_wasm_test_int64_min();
+ /*printf("minmax: min=%lld, max=%lld\n", *min, *max);*/
+}
+
+SQLITE_WASM_KEEP
+int64_t sqlite3_wasm_test_int64ptr(int64_t * p){
+ /*printf("sqlite3_wasm_test_int64ptr( @%lld = 0x%llx )\n", (int64_t)p, *p);*/
+ return *p = *p * 2;
+}
+
+SQLITE_WASM_KEEP
+void sqlite3_wasm_test_stack_overflow(int recurse){
+ if(recurse) sqlite3_wasm_test_stack_overflow(recurse);
+}
+
+/* For testing the 'string-free' whwasmutil.xWrap() conversion. */
+SQLITE_WASM_KEEP
+char * sqlite3_wasm_test_str_hello(int fail){
+ char * s = fail ? 0 : (char *)malloc(6);
+ if(s){
+ memcpy(s, "hello", 5);
+ s[5] = 0;
+ }
+ return s;
+}
+#endif /* SQLITE_WASM_TESTS */
+
+#undef SQLITE_WASM_KEEP
diff --git a/ext/wasm/api/sqlite3-worker1-promiser.js b/ext/wasm/api/sqlite3-worker1-promiser.js
new file mode 100644
index 0000000..7360512
--- /dev/null
+++ b/ext/wasm/api/sqlite3-worker1-promiser.js
@@ -0,0 +1,259 @@
+/*
+ 2022-08-24
+
+ The author disclaims copyright to this source code. In place of a
+ legal notice, here is a blessing:
+
+ * May you do good and not evil.
+ * May you find forgiveness for yourself and forgive others.
+ * May you share freely, never taking more than you give.
+
+ ***********************************************************************
+
+ This file implements a Promise-based proxy for the sqlite3 Worker
+ API #1. It is intended to be included either from the main thread or
+ a Worker, but only if (A) the environment supports nested Workers
+ and (B) it's _not_ a Worker which loads the sqlite3 WASM/JS
+ module. This file's features will load that module and provide a
+ slightly simpler client-side interface than the slightly-lower-level
+ Worker API does.
+
+ This script necessarily exposes one global symbol, but clients may
+ freely `delete` that symbol after calling it.
+*/
+'use strict';
+/**
+ Configures an sqlite3 Worker API #1 Worker such that it can be
+ manipulated via a Promise-based interface and returns a factory
+ function which returns Promises for communicating with the worker.
+ This proxy has an _almost_ identical interface to the normal
+ worker API, with any exceptions documented below.
+
+ It requires a configuration object with the following properties:
+
+ - `worker` (required): a Worker instance which loads
+ `sqlite3-worker1.js` or a functional equivalent. Note that the
+ promiser factory replaces the worker.onmessage property. This
+ config option may alternately be a function, in which case this
+ function re-assigns this property with the result of calling that
+ function, enabling delayed instantiation of a Worker.
+
+ - `onready` (optional, but...): this callback is called with no
+ arguments when the worker fires its initial
+ 'sqlite3-api'/'worker1-ready' message, which it does when
+ sqlite3.initWorker1API() completes its initialization. This is
+ the simplest way to tell the worker to kick off work at the
+ earliest opportunity.
+
+ - `onunhandled` (optional): a callback which gets passed the
+ message event object for any worker.onmessage() events which
+ are not handled by this proxy. Ideally that "should" never
+ happen, as this proxy aims to handle all known message types.
+
+ - `generateMessageId` (optional): a function which, when passed an
+ about-to-be-posted message object, generates a _unique_ message ID
+ for the message, which this API then assigns as the messageId
+ property of the message. It _must_ generate unique IDs on each call
+ so that dispatching can work. If not defined, a default generator
+ is used (which should be sufficient for most or all cases).
+
+ - `debug` (optional): a console.debug()-style function for logging
+ information about messages.
+
+ This function returns a stateful factory function with the
+ following interfaces:
+
+ - Promise function(messageType, messageArgs)
+ - Promise function({message object})
+
+ The first form expects the "type" and "args" values for a Worker
+ message. The second expects an object in the form {type:...,
+ args:...} plus any other properties the client cares to set. This
+ function will always set the `messageId` property on the object,
+ even if it's already set, and will set the `dbId` property to the
+ current database ID if it is _not_ set in the message object.
+
+ The function throws on error.
+
+ The function installs a temporary message listener, posts a
+ message to the configured Worker, and handles the message's
+ response via the temporary message listener. The then() callback
+ of the returned Promise is passed the `message.data` property from
+ the resulting message, i.e. the payload from the worker, stripped
+ of the lower-level event state which the onmessage() handler
+ receives.
+
+ Example usage:
+
+ ```
+ const config = {...};
+ const sq3Promiser = sqlite3Worker1Promiser(config);
+ sq3Promiser('open', {filename:"/foo.db"}).then(function(msg){
+ console.log("open response",msg); // => {type:'open', result: {filename:'/foo.db'}, ...}
+ });
+ sq3Promiser({type:'close'}).then((msg)=>{
+ console.log("close response",msg); // => {type:'close', result: {filename:'/foo.db'}, ...}
+ });
+ ```
+
+ Differences from Worker API #1:
+
+ - exec's {callback: STRING} option does not work via this
+ interface (it triggers an exception), but {callback: function}
+ does and works exactly like the STRING form does in the Worker:
+ the callback is called one time for each row of the result set,
+ passed the same worker message format as the worker API emits:
+
+ {type:typeString,
+ row:VALUE,
+ rowNumber:1-based-#,
+ columnNames: array}
+
+ Where `typeString` is an internally-synthesized message type string
+ used temporarily for worker message dispatching. It can be ignored
+ by all client code except that which tests this API. The `row`
+ property contains the row result in the form implied by the
+ `rowMode` option (defaulting to `'array'`). The `rowNumber` is a
+ 1-based integer value incremented by 1 on each call into th
+ callback.
+
+ At the end of the result set, the same event is fired with
+ (row=undefined, rowNumber=null) to indicate that
+ the end of the result set has been reached. Note that the rows
+ arrive via worker-posted messages, with all the implications
+ of that.
+*/
+self.sqlite3Worker1Promiser = function callee(config = callee.defaultConfig){
+ // Inspired by: https://stackoverflow.com/a/52439530
+ if(1===arguments.length && 'function'===typeof arguments[0]){
+ const f = config;
+ config = Object.assign(Object.create(null), callee.defaultConfig);
+ config.onready = f;
+ }else{
+ config = Object.assign(Object.create(null), callee.defaultConfig, config);
+ }
+ const handlerMap = Object.create(null);
+ const noop = function(){};
+ const err = config.onerror
+ || noop /* config.onerror is intentionally undocumented
+ pending finding a less ambiguous name */;
+ const debug = config.debug || noop;
+ const idTypeMap = config.generateMessageId ? undefined : Object.create(null);
+ const genMsgId = config.generateMessageId || function(msg){
+ return msg.type+'#'+(idTypeMap[msg.type] = (idTypeMap[msg.type]||0) + 1);
+ };
+ const toss = (...args)=>{throw new Error(args.join(' '))};
+ if(!config.worker) config.worker = callee.defaultConfig.worker;
+ if('function'===typeof config.worker) config.worker = config.worker();
+ let dbId;
+ config.worker.onmessage = function(ev){
+ ev = ev.data;
+ debug('worker1.onmessage',ev);
+ let msgHandler = handlerMap[ev.messageId];
+ if(!msgHandler){
+ if(ev && 'sqlite3-api'===ev.type && 'worker1-ready'===ev.result) {
+ /*fired one time when the Worker1 API initializes*/
+ if(config.onready) config.onready();
+ return;
+ }
+ msgHandler = handlerMap[ev.type] /* check for exec per-row callback */;
+ if(msgHandler && msgHandler.onrow){
+ msgHandler.onrow(ev);
+ return;
+ }
+ if(config.onunhandled) config.onunhandled(arguments[0]);
+ else err("sqlite3Worker1Promiser() unhandled worker message:",ev);
+ return;
+ }
+ delete handlerMap[ev.messageId];
+ switch(ev.type){
+ case 'error':
+ msgHandler.reject(ev);
+ return;
+ case 'open':
+ if(!dbId) dbId = ev.dbId;
+ break;
+ case 'close':
+ if(ev.dbId===dbId) dbId = undefined;
+ break;
+ default:
+ break;
+ }
+ try {msgHandler.resolve(ev)}
+ catch(e){msgHandler.reject(e)}
+ }/*worker.onmessage()*/;
+ return function(/*(msgType, msgArgs) || (msgEnvelope)*/){
+ let msg;
+ if(1===arguments.length){
+ msg = arguments[0];
+ }else if(2===arguments.length){
+ msg = {
+ type: arguments[0],
+ args: arguments[1]
+ };
+ }else{
+ toss("Invalid arugments for sqlite3Worker1Promiser()-created factory.");
+ }
+ if(!msg.dbId) msg.dbId = dbId;
+ msg.messageId = genMsgId(msg);
+ msg.departureTime = performance.now();
+ const proxy = Object.create(null);
+ proxy.message = msg;
+ let rowCallbackId /* message handler ID for exec on-row callback proxy */;
+ if('exec'===msg.type && msg.args){
+ if('function'===typeof msg.args.callback){
+ rowCallbackId = msg.messageId+':row';
+ proxy.onrow = msg.args.callback;
+ msg.args.callback = rowCallbackId;
+ handlerMap[rowCallbackId] = proxy;
+ }else if('string' === typeof msg.args.callback){
+ toss("exec callback may not be a string when using the Promise interface.");
+ /**
+ Design note: the reason for this limitation is that this
+ API takes over worker.onmessage() and the client has no way
+ of adding their own message-type handlers to it. Per-row
+ callbacks are implemented as short-lived message.type
+ mappings for worker.onmessage().
+
+ We "could" work around this by providing a new
+ config.fallbackMessageHandler (or some such) which contains
+ a map of event type names to callbacks. Seems like overkill
+ for now, seeing as the client can pass callback functions
+ to this interface (whereas the string-form "callback" is
+ needed for the over-the-Worker interface).
+ */
+ }
+ }
+ //debug("requestWork", msg);
+ let p = new Promise(function(resolve, reject){
+ proxy.resolve = resolve;
+ proxy.reject = reject;
+ handlerMap[msg.messageId] = proxy;
+ debug("Posting",msg.type,"message to Worker dbId="+(dbId||'default')+':',msg);
+ config.worker.postMessage(msg);
+ });
+ if(rowCallbackId) p = p.finally(()=>delete handlerMap[rowCallbackId]);
+ return p;
+ };
+}/*sqlite3Worker1Promiser()*/;
+self.sqlite3Worker1Promiser.defaultConfig = {
+ worker: function(){
+ let theJs = "sqlite3-worker1.js";
+ if(this.currentScript){
+ const src = this.currentScript.src.split('/');
+ src.pop();
+ theJs = src.join('/')+'/' + theJs;
+ //console.warn("promiser currentScript, theJs =",this.currentScript,theJs);
+ }else{
+ //console.warn("promiser self.location =",self.location);
+ const urlParams = new URL(self.location.href).searchParams;
+ if(urlParams.has('sqlite3.dir')){
+ theJs = urlParams.get('sqlite3.dir') + '/' + theJs;
+ }
+ }
+ return new Worker(theJs + self.location.search);
+ }.bind({
+ currentScript: self?.document?.currentScript
+ }),
+ onerror: (...args)=>console.error('worker1 promiser error',...args)
+};
diff --git a/ext/wasm/api/sqlite3-worker1.js b/ext/wasm/api/sqlite3-worker1.js
new file mode 100644
index 0000000..9424379
--- /dev/null
+++ b/ext/wasm/api/sqlite3-worker1.js
@@ -0,0 +1,49 @@
+/*
+ 2022-05-23
+
+ The author disclaims copyright to this source code. In place of a
+ legal notice, here is a blessing:
+
+ * May you do good and not evil.
+ * May you find forgiveness for yourself and forgive others.
+ * May you share freely, never taking more than you give.
+
+ ***********************************************************************
+
+ This is a JS Worker file for the main sqlite3 api. It loads
+ sqlite3.js, initializes the module, and postMessage()'s a message
+ after the module is initialized:
+
+ {type: 'sqlite3-api', result: 'worker1-ready'}
+
+ This seemingly superfluous level of indirection is necessary when
+ loading sqlite3.js via a Worker. Instantiating a worker with new
+ Worker("sqlite.js") will not (cannot) call sqlite3InitModule() to
+ initialize the module due to a timing/order-of-operations conflict
+ (and that symbol is not exported in a way that a Worker loading it
+ that way can see it). Thus JS code wanting to load the sqlite3
+ Worker-specific API needs to pass _this_ file (or equivalent) to the
+ Worker constructor and then listen for an event in the form shown
+ above in order to know when the module has completed initialization.
+
+ This file accepts a URL arguments to adjust how it loads sqlite3.js:
+
+ - `sqlite3.dir`, if set, treats the given directory name as the
+ directory from which `sqlite3.js` will be loaded.
+*/
+"use strict";
+(()=>{
+ const urlParams = new URL(self.location.href).searchParams;
+ let theJs = 'sqlite3.js';
+ if(urlParams.has('sqlite3.dir')){
+ theJs = urlParams.get('sqlite3.dir') + '/' + theJs;
+ }
+ //console.warn("worker1 theJs =",theJs);
+ importScripts(theJs);
+ sqlite3InitModule().then((sqlite3)=>{
+ if(sqlite3.capi.sqlite3_wasmfs_opfs_dir){
+ sqlite3.capi.sqlite3_wasmfs_opfs_dir();
+ }
+ sqlite3.initWorker1API();
+ });
+})();
generated by cgit v1.2.3 (git 2.39.1) at 2024-12-26 01:58:06 +0000