From 7d0b6e781d9d0167ccd462d9e1d8e3da95c0a801 Mon Sep 17 00:00:00 2001 From: Crimson-Hawk Date: Fri, 26 Apr 2024 17:29:03 +0800 Subject: [PATCH] fix clang V2 --- src/common/minicoro.h | 2486 +++++++++++++++++++++-------------------- 1 file changed, 1265 insertions(+), 1221 deletions(-) diff --git a/src/common/minicoro.h b/src/common/minicoro.h index 6a69b9c43b..496126fc1c 100644 --- a/src/common/minicoro.h +++ b/src/common/minicoro.h @@ -1,4 +1,4 @@ - /* +/* Minimal asymmetric stackful cross-platform coroutine library in pure C. minicoro - v0.2.0 - 15/Nov/2023 Eduardo Bart - edub4rt@gmail.com @@ -50,14 +50,21 @@ to create, resume, yield or destroy a coroutine. # Caveats -- Avoid using coroutines with C++ exceptions, this is not recommended, it may not behave as you expect. -- When using C++ RAII (i.e. destructors) you must resume the coroutine until it dies to properly execute all destructors. +- Avoid using coroutines with C++ exceptions, this is not recommended, it may not behave as you +expect. +- When using C++ RAII (i.e. destructors) you must resume the coroutine until it dies to properly +execute all destructors. - Some unsupported sanitizers for C may trigger false warnings when using coroutines. -- The `mco_coro` object is not thread safe, you should use a mutex for manipulating it in multithread applications. -- To use in multithread applications, you must compile with C compiler that supports `thread_local` qualifier. -- Avoid using `thread_local` inside coroutine code, the compiler may cache thread local variables pointers which can be invalid when a coroutine switch threads. -- Stack space is limited. By default it has 56KB of space, this can be changed on coroutine creation, or by enabling the virtual memory backed allocator to make it 2040KB. -- Take care to not cause stack overflows (run out of stack space), otherwise your program may crash or not, the behavior is undefined. +- The `mco_coro` object is not thread safe, you should use a mutex for manipulating it in +multithread applications. +- To use in multithread applications, you must compile with C compiler that supports `thread_local` +qualifier. +- Avoid using `thread_local` inside coroutine code, the compiler may cache thread local variables +pointers which can be invalid when a coroutine switch threads. +- Stack space is limited. By default it has 56KB of space, this can be changed on coroutine +creation, or by enabling the virtual memory backed allocator to make it 2040KB. +- Take care to not cause stack overflows (run out of stack space), otherwise your program may crash +or not, the behavior is undefined. - On WebAssembly you must compile with Emscripten flag `-s ASYNCIFY=1`. - The WebAssembly Binaryen asyncify method can be used when explicitly enabled, you may want to do this only to use minicoro with WebAssembly native interpreters @@ -72,7 +79,8 @@ a coroutine only suspends its execution by explicitly calling a yield function. You create a coroutine by calling `mco_create`. Its sole argument is a `mco_desc` structure with a description for the coroutine. -The `mco_create` function only creates a new coroutine and returns a handle to it, it does not start the coroutine. +The `mco_create` function only creates a new coroutine and returns a handle to it, it does not start +the coroutine. You execute a coroutine by calling `mco_resume`. When calling a resume function the coroutine starts its execution by calling its body function. @@ -81,7 +89,8 @@ After the coroutine starts running, it runs until it terminates or yields. A coroutine yields by calling `mco_yield`. When a coroutine yields, the corresponding resume returns immediately, even if the yield happens inside nested function calls (that is, not in the main function). -The next time you resume the same coroutine, it continues its execution from the point where it yielded. +The next time you resume the same coroutine, it continues its execution from the point where it +yielded. To associate a persistent value with the coroutine, you can optionally set `user_data` on its creation and later retrieve with `mco_get_user_data`. @@ -89,7 +98,8 @@ you can optionally set `user_data` on its creation and later retrieve with `mco To pass values between resume and yield, you can optionally use `mco_push` and `mco_pop` APIs, they are intended to pass temporary values using a LIFO style buffer. -The storage system can also be used to send and receive initial values on coroutine creation or before it finishes. +The storage system can also be used to send and receive initial values on coroutine creation or +before it finishes. # Usage @@ -108,42 +118,42 @@ The following simple example demonstrates on how to use the library: ```c #define MINICORO_IMPL -#include "minicoro.h" -#include #include +#include +#include "minicoro.h" // Coroutine entry function. void coro_entry(mco_coro* co) { - printf("coroutine 1\n"); - mco_yield(co); - printf("coroutine 2\n"); + printf("coroutine 1\n"); + mco_yield(co); + printf("coroutine 2\n"); } int main() { - // First initialize a `desc` object through `mco_desc_init`. - mco_desc desc = mco_desc_init(coro_entry, 0); - // Configure `desc` fields when needed (e.g. customize user_data or allocation functions). - desc.user_data = NULL; - // Call `mco_create` with the output coroutine pointer and `desc` pointer. - mco_coro* co; - mco_result res = mco_create(&co, &desc); - assert(res == MCO_SUCCESS); - // The coroutine should be now in suspended state. - assert(mco_status(co) == MCO_SUSPENDED); - // Call `mco_resume` to start for the first time, switching to its context. - res = mco_resume(co); // Should print "coroutine 1". - assert(res == MCO_SUCCESS); - // We get back from coroutine context in suspended state (because it's unfinished). - assert(mco_status(co) == MCO_SUSPENDED); - // Call `mco_resume` to resume for a second time. - res = mco_resume(co); // Should print "coroutine 2". - assert(res == MCO_SUCCESS); - // The coroutine finished and should be now dead. - assert(mco_status(co) == MCO_DEAD); - // Call `mco_destroy` to destroy the coroutine. - res = mco_destroy(co); - assert(res == MCO_SUCCESS); - return 0; + // First initialize a `desc` object through `mco_desc_init`. + mco_desc desc = mco_desc_init(coro_entry, 0); + // Configure `desc` fields when needed (e.g. customize user_data or allocation functions). + desc.user_data = NULL; + // Call `mco_create` with the output coroutine pointer and `desc` pointer. + mco_coro* co; + mco_result res = mco_create(&co, &desc); + assert(res == MCO_SUCCESS); + // The coroutine should be now in suspended state. + assert(mco_status(co) == MCO_SUSPENDED); + // Call `mco_resume` to start for the first time, switching to its context. + res = mco_resume(co); // Should print "coroutine 1". + assert(res == MCO_SUCCESS); + // We get back from coroutine context in suspended state (because it's unfinished). + assert(mco_status(co) == MCO_SUSPENDED); + // Call `mco_resume` to resume for a second time. + res = mco_resume(co); // Should print "coroutine 2". + assert(res == MCO_SUCCESS); + // The coroutine finished and should be now dead. + assert(mco_status(co) == MCO_DEAD); + // Call `mco_destroy` to destroy the coroutine. + res = mco_destroy(co); + assert(res == MCO_SUCCESS); + return 0; } ``` @@ -181,8 +191,9 @@ for example, an application with 100 thousands coroutine with stacks of 56KB wou as 5GB of memory, however your application may not really full stack usage for every coroutine. Some developers often prefer stackless coroutines over stackful coroutines -because of this problem, stackless memory footprint is low, therefore often considered more lightweight. -However stackless have many other limitations, like you cannot run unconstrained code inside them. +because of this problem, stackless memory footprint is low, therefore often considered more +lightweight. However stackless have many other limitations, like you cannot run unconstrained code +inside them. One remedy to the solution is to make stackful coroutines growable, to only use physical memory on demand when its really needed, @@ -192,19 +203,21 @@ when supported by the operating system. The virtual memory backed allocator will reserve virtual memory in the OS for each coroutine stack, but not trigger real physical memory usage yet. While the application virtual memory usage will be high, -the physical memory usage will be low and actually grow on demand (usually every 4KB chunk in Linux). +the physical memory usage will be low and actually grow on demand (usually every 4KB chunk in +Linux). The virtual memory backed allocator also raises the default stack size to about 2MB, typically the size of extra threads in Linux, so you have more space in your coroutines and the risk of stack overflow is low. As an example, allocating 100 thousands coroutines with nearly 2MB stack reserved space -with the virtual memory allocator uses 783MB of physical memory usage, that is about 8KB per coroutine, -however the virtual memory usage will be at 98GB. +with the virtual memory allocator uses 783MB of physical memory usage, that is about 8KB per +coroutine, however the virtual memory usage will be at 98GB. It is recommended to enable this option only if you plan to spawn thousands of coroutines while wanting to have a low memory footprint. -Not all environments have an OS with virtual memory support, therefore this option is disabled by default. +Not all environments have an OS with virtual memory support, therefore this option is disabled by +default. This option may add an order of magnitude overhead to `mco_create()`/`mco_destroy()`, because they will request the OS to manage virtual memory page tables, @@ -215,17 +228,23 @@ if this is a problem for you, please customize a custom allocator for your own n The following can be defined to change the library behavior: - `MCO_API` - Public API qualifier. Default is `extern`. -- `MCO_MIN_STACK_SIZE` - Minimum stack size when creating a coroutine. Default is 32768 (32KB). +- `MCO_MIN_STACK_SIZE` - Minimum stack size when creating a coroutine. Default is 32768 +(32KB). - `MCO_DEFAULT_STORAGE_SIZE` - Size of coroutine storage buffer. Default is 1024. -- `MCO_DEFAULT_STACK_SIZE` - Default stack size when creating a coroutine. Default is 57344 (56KB). When `MCO_USE_VMEM_ALLOCATOR` is true the default is 2040KB (nearly 2MB). +- `MCO_DEFAULT_STACK_SIZE` - Default stack size when creating a coroutine. Default is 57344 +(56KB). When `MCO_USE_VMEM_ALLOCATOR` is true the default is 2040KB (nearly 2MB). - `MCO_ALLOC` - Default allocation function. Default is `calloc`. - `MCO_DEALLOC` - Default deallocation function. Default is `free`. -- `MCO_USE_VMEM_ALLOCATOR` - Use virtual memory backed allocator, improving memory footprint per coroutine. +- `MCO_USE_VMEM_ALLOCATOR` - Use virtual memory backed allocator, improving memory footprint per +coroutine. - `MCO_NO_DEFAULT_ALLOCATOR` - Disable the default allocator using `MCO_ALLOC` and `MCO_DEALLOC`. -- `MCO_ZERO_MEMORY` - Zero memory of stack when poping storage, intended for garbage collected environments. -- `MCO_DEBUG` - Enable debug mode, logging any runtime error to stdout. Defined automatically unless `NDEBUG` or `MCO_NO_DEBUG` is defined. +- `MCO_ZERO_MEMORY` - Zero memory of stack when poping storage, intended for garbage +collected environments. +- `MCO_DEBUG` - Enable debug mode, logging any runtime error to stdout. Defined +automatically unless `NDEBUG` or `MCO_NO_DEBUG` is defined. - `MCO_NO_DEBUG` - Disable debug mode. -- `MCO_NO_MULTITHREAD` - Disable multithread usage. Multithread is supported when `thread_local` is supported. +- `MCO_NO_MULTITHREAD` - Disable multithread usage. Multithread is supported when +`thread_local` is supported. - `MCO_USE_ASM` - Force use of assembly context switch implementation. - `MCO_USE_UCONTEXT` - Force use of ucontext context switch implementation. - `MCO_USE_FIBERS` - Force use of fibers context switch implementation. @@ -237,7 +256,6 @@ The following can be defined to change the library behavior: Your choice of either Public Domain or MIT No Attribution, see end of file. */ - #ifndef MINICORO_H #define MINICORO_H @@ -261,85 +279,102 @@ extern "C" { /* Coroutine states. */ typedef enum mco_state { - MCO_DEAD = 0, /* The coroutine has finished normally or was uninitialized before finishing. */ - MCO_NORMAL, /* The coroutine is active but not running (that is, it has resumed another coroutine). */ - MCO_RUNNING, /* The coroutine is active and running. */ - MCO_SUSPENDED /* The coroutine is suspended (in a call to yield, or it has not started running yet). */ + MCO_DEAD = 0, /* The coroutine has finished normally or was uninitialized before finishing. */ + MCO_NORMAL, /* The coroutine is active but not running (that is, it has resumed another + coroutine). */ + MCO_RUNNING, /* The coroutine is active and running. */ + MCO_SUSPENDED /* The coroutine is suspended (in a call to yield, or it has not started running + yet). */ } mco_state; /* Coroutine result codes. */ typedef enum mco_result { - MCO_SUCCESS = 0, - MCO_GENERIC_ERROR, - MCO_INVALID_POINTER, - MCO_INVALID_COROUTINE, - MCO_NOT_SUSPENDED, - MCO_NOT_RUNNING, - MCO_MAKE_CONTEXT_ERROR, - MCO_SWITCH_CONTEXT_ERROR, - MCO_NOT_ENOUGH_SPACE, - MCO_OUT_OF_MEMORY, - MCO_INVALID_ARGUMENTS, - MCO_INVALID_OPERATION, - MCO_STACK_OVERFLOW + MCO_SUCCESS = 0, + MCO_GENERIC_ERROR, + MCO_INVALID_POINTER, + MCO_INVALID_COROUTINE, + MCO_NOT_SUSPENDED, + MCO_NOT_RUNNING, + MCO_MAKE_CONTEXT_ERROR, + MCO_SWITCH_CONTEXT_ERROR, + MCO_NOT_ENOUGH_SPACE, + MCO_OUT_OF_MEMORY, + MCO_INVALID_ARGUMENTS, + MCO_INVALID_OPERATION, + MCO_STACK_OVERFLOW } mco_result; /* Coroutine structure. */ typedef struct mco_coro mco_coro; struct mco_coro { - void* context; - mco_state state; - void (*func)(mco_coro* co); - mco_coro* prev_co; - void* user_data; - size_t coro_size; - void* allocator_data; - void (*dealloc_cb)(void* ptr, size_t size, void* allocator_data); - void* stack_base; /* Stack base address, can be used to scan memory in a garbage collector. */ - size_t stack_size; - unsigned char* storage; - size_t bytes_stored; - size_t storage_size; - void* asan_prev_stack; /* Used by address sanitizer. */ - void* tsan_prev_fiber; /* Used by thread sanitizer. */ - void* tsan_fiber; /* Used by thread sanitizer. */ - size_t magic_number; /* Used to check stack overflow. */ + void* context; + mco_state state; + void (*func)(mco_coro* co); + mco_coro* prev_co; + void* user_data; + size_t coro_size; + void* allocator_data; + void (*dealloc_cb)(void* ptr, size_t size, void* allocator_data); + void* stack_base; /* Stack base address, can be used to scan memory in a garbage collector. */ + size_t stack_size; + unsigned char* storage; + size_t bytes_stored; + size_t storage_size; + void* asan_prev_stack; /* Used by address sanitizer. */ + void* tsan_prev_fiber; /* Used by thread sanitizer. */ + void* tsan_fiber; /* Used by thread sanitizer. */ + size_t magic_number; /* Used to check stack overflow. */ }; /* Structure used to initialize a coroutine. */ typedef struct mco_desc { - void (*func)(mco_coro* co); /* Entry point function for the coroutine. */ - void* user_data; /* Coroutine user data, can be get with `mco_get_user_data`. */ - /* Custom allocation interface. */ - void* (*alloc_cb)(size_t size, void* allocator_data); /* Custom allocation function. */ - void (*dealloc_cb)(void* ptr, size_t size, void* allocator_data); /* Custom deallocation function. */ - void* allocator_data; /* User data pointer passed to `alloc`/`dealloc` allocation functions. */ - size_t storage_size; /* Coroutine storage size, to be used with the storage APIs. */ - /* These must be initialized only through `mco_init_desc`. */ - size_t coro_size; /* Coroutine structure size. */ - size_t stack_size; /* Coroutine stack size. */ + void (*func)(mco_coro* co); /* Entry point function for the coroutine. */ + void* user_data; /* Coroutine user data, can be get with `mco_get_user_data`. */ + /* Custom allocation interface. */ + void* (*alloc_cb)(size_t size, void* allocator_data); /* Custom allocation function. */ + void (*dealloc_cb)(void* ptr, size_t size, + void* allocator_data); /* Custom deallocation function. */ + void* allocator_data; /* User data pointer passed to `alloc`/`dealloc` allocation functions. */ + size_t storage_size; /* Coroutine storage size, to be used with the storage APIs. */ + /* These must be initialized only through `mco_init_desc`. */ + size_t coro_size; /* Coroutine structure size. */ + size_t stack_size; /* Coroutine stack size. */ } mco_desc; /* Coroutine functions. */ -MCO_API mco_desc mco_desc_init(void (*func)(mco_coro* co), size_t stack_size); /* Initialize description of a coroutine. When stack size is 0 then MCO_DEFAULT_STACK_SIZE is used. */ -MCO_API mco_result mco_init(mco_coro* co, mco_desc* desc); /* Initialize the coroutine. */ -MCO_API mco_result mco_uninit(mco_coro* co); /* Uninitialize the coroutine, may fail if it's not dead or suspended. */ -MCO_API mco_result mco_create(mco_coro** out_co, mco_desc* desc); /* Allocates and initializes a new coroutine. */ -MCO_API mco_result mco_destroy(mco_coro* co); /* Uninitialize and deallocate the coroutine, may fail if it's not dead or suspended. */ -MCO_API mco_result mco_resume(mco_coro* co); /* Starts or continues the execution of the coroutine. */ -MCO_API mco_result mco_yield(mco_coro* co); /* Suspends the execution of a coroutine. */ -MCO_API mco_state mco_status(mco_coro* co); /* Returns the status of the coroutine. */ -MCO_API void* mco_get_user_data(mco_coro* co); /* Get coroutine user data supplied on coroutine creation. */ +MCO_API mco_desc +mco_desc_init(void (*func)(mco_coro* co), + size_t stack_size); /* Initialize description of a coroutine. When stack size is 0 + then MCO_DEFAULT_STACK_SIZE is used. */ +MCO_API mco_result mco_init(mco_coro* co, mco_desc* desc); /* Initialize the coroutine. */ +MCO_API mco_result +mco_uninit(mco_coro* co); /* Uninitialize the coroutine, may fail if it's not dead or suspended. */ +MCO_API mco_result mco_create(mco_coro** out_co, + mco_desc* desc); /* Allocates and initializes a new coroutine. */ +MCO_API mco_result mco_destroy(mco_coro* co); /* Uninitialize and deallocate the coroutine, may fail + if it's not dead or suspended. */ +MCO_API mco_result +mco_resume(mco_coro* co); /* Starts or continues the execution of the coroutine. */ +MCO_API mco_result mco_yield(mco_coro* co); /* Suspends the execution of a coroutine. */ +MCO_API mco_state mco_status(mco_coro* co); /* Returns the status of the coroutine. */ +MCO_API void* mco_get_user_data( + mco_coro* co); /* Get coroutine user data supplied on coroutine creation. */ /* Storage interface functions, used to pass values between yield and resume. */ -MCO_API mco_result mco_push(mco_coro* co, const void* src, size_t len); /* Push bytes to the coroutine storage. Use to send values between yield and resume. */ -MCO_API mco_result mco_pop(mco_coro* co, void* dest, size_t len); /* Pop bytes from the coroutine storage. Use to get values between yield and resume. */ -MCO_API mco_result mco_peek(mco_coro* co, void* dest, size_t len); /* Like `mco_pop` but it does not consumes the storage. */ -MCO_API size_t mco_get_bytes_stored(mco_coro* co); /* Get the available bytes that can be retrieved with a `mco_pop`. */ -MCO_API size_t mco_get_storage_size(mco_coro* co); /* Get the total storage size. */ +MCO_API mco_result mco_push(mco_coro* co, const void* src, + size_t len); /* Push bytes to the coroutine storage. Use to send values + between yield and resume. */ +MCO_API mco_result mco_pop(mco_coro* co, void* dest, + size_t len); /* Pop bytes from the coroutine storage. Use to get values + between yield and resume. */ +MCO_API mco_result mco_peek(mco_coro* co, void* dest, + size_t len); /* Like `mco_pop` but it does not consumes the storage. */ +MCO_API size_t mco_get_bytes_stored( + mco_coro* co); /* Get the available bytes that can be retrieved with a `mco_pop`. */ +MCO_API size_t mco_get_storage_size(mco_coro* co); /* Get the total storage size. */ /* Misc functions. */ -MCO_API mco_coro* mco_running(void); /* Returns the running coroutine for the current thread. */ +MCO_API mco_coro* mco_running(void); /* Returns the running coroutine for the current thread. */ MCO_API const char* mco_result_description(mco_result res); /* Get the description of a result. */ #ifdef __cplusplus @@ -365,9 +400,10 @@ extern "C" { #ifndef MCO_DEFAULT_STACK_SIZE /* Use multiples of 64KB minus 8KB, because 8KB is reserved for coroutine internal structures. */ #ifdef MCO_USE_VMEM_ALLOCATOR -#define MCO_DEFAULT_STACK_SIZE 2040*1024 /* 2040KB, nearly the same stack size of a thread in x86_64 Linux. */ +#define MCO_DEFAULT_STACK_SIZE \ + 2040 * 1024 /* 2040KB, nearly the same stack size of a thread in x86_64 Linux. */ #else -#define MCO_DEFAULT_STACK_SIZE 56*1024 /* 56KB */ +#define MCO_DEFAULT_STACK_SIZE 56 * 1024 /* 56KB */ #endif #endif @@ -375,33 +411,32 @@ extern "C" { #define MCO_MAGIC_NUMBER 0x7E3CB1A9 /* Detect implementation based on OS, arch and compiler. */ -#if !defined(MCO_USE_UCONTEXT) && !defined(MCO_USE_FIBERS) && !defined(MCO_USE_ASM) && !defined(MCO_USE_ASYNCIFY) - #if defined(_WIN32) - #if (defined(__GNUC__) && defined(__x86_64__)) || (defined(_MSC_VER) && defined(_M_X64)) - #define MCO_USE_ASM - #else - #define MCO_USE_FIBERS - #endif - #elif defined(__CYGWIN__) /* MSYS */ - #define MCO_USE_UCONTEXT - #elif defined(__EMSCRIPTEN__) - #define MCO_USE_FIBERS - #elif defined(__wasm__) - #define MCO_USE_ASYNCIFY - #else - #if __GNUC__ >= 3 /* Assembly extension supported. */ - #if defined(__x86_64__) || \ - defined(__i386) || defined(__i386__) || \ - defined(__ARM_EABI__) || defined(__aarch64__) || \ - defined(__riscv) - #define MCO_USE_ASM - #else - #define MCO_USE_UCONTEXT - #endif - #else - #define MCO_USE_UCONTEXT - #endif - #endif +#if !defined(MCO_USE_UCONTEXT) && !defined(MCO_USE_FIBERS) && !defined(MCO_USE_ASM) && \ + !defined(MCO_USE_ASYNCIFY) +#if defined(_WIN32) +#if (defined(__GNUC__) && defined(__x86_64__)) || (defined(_MSC_VER) && defined(_M_X64)) +#define MCO_USE_ASM +#else +#define MCO_USE_FIBERS +#endif +#elif defined(__CYGWIN__) /* MSYS */ +#define MCO_USE_UCONTEXT +#elif defined(__EMSCRIPTEN__) +#define MCO_USE_FIBERS +#elif defined(__wasm__) +#define MCO_USE_ASYNCIFY +#else +#if __GNUC__ >= 3 /* Assembly extension supported. */ +#if defined(__x86_64__) || defined(__i386) || defined(__i386__) || defined(__ARM_EABI__) || \ + defined(__aarch64__) || defined(__riscv) +#define MCO_USE_ASM +#else +#define MCO_USE_UCONTEXT +#endif +#else +#define MCO_USE_UCONTEXT +#endif +#endif #endif #define _MCO_UNUSED(x) (void)(x) @@ -411,141 +446,144 @@ extern "C" { #endif #ifndef MCO_LOG - #ifdef MCO_DEBUG - #include - #define MCO_LOG(s) puts(s) - #else - #define MCO_LOG(s) - #endif +#ifdef MCO_DEBUG +#include +#define MCO_LOG(s) puts(s) +#else +#define MCO_LOG(s) +#endif #endif #ifndef MCO_ASSERT - #ifdef MCO_DEBUG - #include - #define MCO_ASSERT(c) assert(c) - #else - #define MCO_ASSERT(c) - #endif +#ifdef MCO_DEBUG +#include +#define MCO_ASSERT(c) assert(c) +#else +#define MCO_ASSERT(c) +#endif #endif #ifndef MCO_THREAD_LOCAL - #ifdef MCO_NO_MULTITHREAD - #define MCO_THREAD_LOCAL - #else - #ifdef thread_local - #define MCO_THREAD_LOCAL thread_local - #elif __STDC_VERSION__ >= 201112 && !defined(__STDC_NO_THREADS__) - #define MCO_THREAD_LOCAL _Thread_local - #elif defined(_WIN32) && (defined(_MSC_VER) || defined(__ICL) || defined(__DMC__) || defined(__BORLANDC__)) - #define MCO_THREAD_LOCAL __declspec(thread) - #elif defined(__GNUC__) || defined(__SUNPRO_C) || defined(__xlC__) - #define MCO_THREAD_LOCAL __thread - #else /* No thread local support, `mco_running` will be thread unsafe. */ - #define MCO_THREAD_LOCAL - #define MCO_NO_MULTITHREAD - #endif - #endif +#ifdef MCO_NO_MULTITHREAD +#define MCO_THREAD_LOCAL +#else +#ifdef thread_local +#define MCO_THREAD_LOCAL thread_local +#elif __STDC_VERSION__ >= 201112 && !defined(__STDC_NO_THREADS__) +#define MCO_THREAD_LOCAL _Thread_local +#elif defined(_WIN32) && \ + (defined(_MSC_VER) || defined(__ICL) || defined(__DMC__) || defined(__BORLANDC__)) +#define MCO_THREAD_LOCAL __declspec(thread) +#elif defined(__GNUC__) || defined(__SUNPRO_C) || defined(__xlC__) +#define MCO_THREAD_LOCAL __thread +#else /* No thread local support, `mco_running` will be thread unsafe. */ +#define MCO_THREAD_LOCAL +#define MCO_NO_MULTITHREAD +#endif +#endif #endif #ifndef MCO_FORCE_INLINE - #ifdef _MSC_VER - #define MCO_FORCE_INLINE __forceinline - #elif defined(__GNUC__) - #if defined(__STRICT_ANSI__) - #define MCO_FORCE_INLINE __inline__ __attribute__((always_inline)) - #else - #define MCO_FORCE_INLINE inline __attribute__((always_inline)) - #endif - #elif defined(__BORLANDC__) || defined(__DMC__) || defined(__SC__) || defined(__WATCOMC__) || defined(__LCC__) || defined(__DECC) - #define MCO_FORCE_INLINE __inline - #else /* No inline support. */ - #define MCO_FORCE_INLINE - #endif +#ifdef _MSC_VER +#define MCO_FORCE_INLINE __forceinline +#elif defined(__GNUC__) +#if defined(__STRICT_ANSI__) +#define MCO_FORCE_INLINE __inline__ __attribute__((always_inline)) +#else +#define MCO_FORCE_INLINE inline __attribute__((always_inline)) +#endif +#elif defined(__BORLANDC__) || defined(__DMC__) || defined(__SC__) || defined(__WATCOMC__) || \ + defined(__LCC__) || defined(__DECC) +#define MCO_FORCE_INLINE __inline +#else /* No inline support. */ +#define MCO_FORCE_INLINE +#endif #endif #ifndef MCO_NO_INLINE - #ifdef __GNUC__ - #define MCO_NO_INLINE __attribute__((noinline)) - #elif defined(_MSC_VER) - #define MCO_NO_INLINE __declspec(noinline) - #else - #define MCO_NO_INLINE - #endif +#ifdef __GNUC__ +#define MCO_NO_INLINE __attribute__((noinline)) +#elif defined(_MSC_VER) +#define MCO_NO_INLINE __declspec(noinline) +#else +#define MCO_NO_INLINE +#endif #endif #if defined(_WIN32) && (defined(MCO_USE_FIBERS) || defined(MCO_USE_VMEM_ALLOCATOR)) - #ifndef _WIN32_WINNT - #define _WIN32_WINNT 0x0400 - #endif - #ifndef WIN32_LEAN_AND_MEAN - #define WIN32_LEAN_AND_MEAN - #endif - #include +#ifndef _WIN32_WINNT +#define _WIN32_WINNT 0x0400 +#endif +#ifndef WIN32_LEAN_AND_MEAN +#define WIN32_LEAN_AND_MEAN +#endif +#include #endif #ifndef MCO_NO_DEFAULT_ALLOCATOR - #if defined(MCO_USE_VMEM_ALLOCATOR) && defined(_WIN32) - static void* mco_alloc(size_t size, void* allocator_data) { - _MCO_UNUSED(allocator_data); - return VirtualAlloc(NULL, size, MEM_RESERVE | MEM_COMMIT, PAGE_READWRITE); - } - static void mco_dealloc(void* ptr, size_t size, void* allocator_data) { - _MCO_UNUSED(allocator_data); - _MCO_UNUSED(size); - int res = VirtualFree(ptr, 0, MEM_RELEASE); - _MCO_UNUSED(res); - MCO_ASSERT(res != 0); - } - #elif defined(MCO_USE_VMEM_ALLOCATOR) /* POSIX virtual memory allocator */ - #include - static void* mco_alloc(size_t size, void* allocator_data) { - _MCO_UNUSED(allocator_data); - void *ptr = mmap(NULL, size, PROT_READ | PROT_WRITE, MAP_PRIVATE | MAP_ANONYMOUS, -1, 0); - return ptr != MAP_FAILED ? ptr : NULL; - } - static void mco_dealloc(void* ptr, size_t size, void* allocator_data) { - _MCO_UNUSED(allocator_data); - int res = munmap(ptr, size); - _MCO_UNUSED(res); - MCO_ASSERT(res == 0); - } - #else /* C allocator */ - #ifndef MCO_ALLOC - #include - /* We use calloc() so we give a chance for the OS to reserve virtual memory without really using physical memory, - calloc() also has the nice property of initializing the stack to zeros. */ - #define MCO_ALLOC(size) calloc(1, size) - #define MCO_DEALLOC(ptr, size) free(ptr) - #endif - static void* mco_alloc(size_t size, void* allocator_data) { - _MCO_UNUSED(allocator_data); - return MCO_ALLOC(size); - } - static void mco_dealloc(void* ptr, size_t size, void* allocator_data) { - _MCO_UNUSED(size); - _MCO_UNUSED(allocator_data); - MCO_DEALLOC(ptr, size); - } - #endif /* MCO_USE_VMEM_ALLOCATOR */ +#if defined(MCO_USE_VMEM_ALLOCATOR) && defined(_WIN32) +static void* mco_alloc(size_t size, void* allocator_data) { + _MCO_UNUSED(allocator_data); + return VirtualAlloc(NULL, size, MEM_RESERVE | MEM_COMMIT, PAGE_READWRITE); +} +static void mco_dealloc(void* ptr, size_t size, void* allocator_data) { + _MCO_UNUSED(allocator_data); + _MCO_UNUSED(size); + int res = VirtualFree(ptr, 0, MEM_RELEASE); + _MCO_UNUSED(res); + MCO_ASSERT(res != 0); +} +#elif defined(MCO_USE_VMEM_ALLOCATOR) /* POSIX virtual memory allocator */ +#include +static void* mco_alloc(size_t size, void* allocator_data) { + _MCO_UNUSED(allocator_data); + void* ptr = mmap(NULL, size, PROT_READ | PROT_WRITE, MAP_PRIVATE | MAP_ANONYMOUS, -1, 0); + return ptr != MAP_FAILED ? ptr : NULL; +} +static void mco_dealloc(void* ptr, size_t size, void* allocator_data) { + _MCO_UNUSED(allocator_data); + int res = munmap(ptr, size); + _MCO_UNUSED(res); + MCO_ASSERT(res == 0); +} +#else /* C allocator */ +#ifndef MCO_ALLOC +#include +/* We use calloc() so we give a chance for the OS to reserve virtual memory without really using + physical memory, calloc() also has the nice property of initializing the stack to zeros. */ +#define MCO_ALLOC(size) calloc(1, size) +#define MCO_DEALLOC(ptr, size) free(ptr) +#endif +static void* mco_alloc(size_t size, void* allocator_data) { + _MCO_UNUSED(allocator_data); + return MCO_ALLOC(size); +} +static void mco_dealloc(void* ptr, size_t size, void* allocator_data) { + _MCO_UNUSED(size); + _MCO_UNUSED(allocator_data); + MCO_DEALLOC(ptr, size); +} +#endif /* MCO_USE_VMEM_ALLOCATOR */ #endif /* MCO_NO_DEFAULT_ALLOCATOR */ #if defined(__has_feature) - #if __has_feature(address_sanitizer) - #define _MCO_USE_ASAN - #endif - #if __has_feature(thread_sanitizer) - #define _MCO_USE_TSAN - #endif +#if __has_feature(address_sanitizer) +#define _MCO_USE_ASAN +#endif +#if __has_feature(thread_sanitizer) +#define _MCO_USE_TSAN +#endif #endif #if defined(__SANITIZE_ADDRESS__) - #define _MCO_USE_ASAN +#define _MCO_USE_ASAN #endif #if defined(__SANITIZE_THREAD__) - #define _MCO_USE_TSAN +#define _MCO_USE_TSAN #endif #ifdef _MCO_USE_ASAN -void __sanitizer_start_switch_fiber(void** fake_stack_save, const void *bottom, size_t size); -void __sanitizer_finish_switch_fiber(void* fake_stack_save, const void **bottom_old, size_t *size_old); +void __sanitizer_start_switch_fiber(void** fake_stack_save, const void* bottom, size_t size); +void __sanitizer_finish_switch_fiber(void* fake_stack_save, const void** bottom_old, + size_t* size_old); #endif #ifdef _MCO_USE_TSAN void* __tsan_get_current_fiber(void); @@ -558,60 +596,61 @@ void __tsan_switch_to_fiber(void* fiber, unsigned flags); /* Utility for aligning addresses. */ static MCO_FORCE_INLINE size_t _mco_align_forward(size_t addr, size_t align) { - return (addr + (align-1)) & ~(align-1); + return (addr + (align - 1)) & ~(align - 1); } /* Variable holding the current running coroutine per thread. */ static MCO_THREAD_LOCAL mco_coro* mco_current_co = NULL; static MCO_FORCE_INLINE void _mco_prepare_jumpin(mco_coro* co) { - /* Set the old coroutine to normal state and update it. */ - mco_coro* prev_co = mco_running(); /* Must access through `mco_running`. */ - MCO_ASSERT(co->prev_co == NULL); - co->prev_co = prev_co; - if(prev_co) { - MCO_ASSERT(prev_co->state == MCO_RUNNING); - prev_co->state = MCO_NORMAL; - } - mco_current_co = co; + /* Set the old coroutine to normal state and update it. */ + mco_coro* prev_co = mco_running(); /* Must access through `mco_running`. */ + MCO_ASSERT(co->prev_co == NULL); + co->prev_co = prev_co; + if (prev_co) { + MCO_ASSERT(prev_co->state == MCO_RUNNING); + prev_co->state = MCO_NORMAL; + } + mco_current_co = co; #ifdef _MCO_USE_ASAN - if(prev_co) { - void* bottom_old = NULL; - size_t size_old = 0; - __sanitizer_finish_switch_fiber(prev_co->asan_prev_stack, (const void**)&bottom_old, &size_old); - prev_co->asan_prev_stack = NULL; - } - __sanitizer_start_switch_fiber(&co->asan_prev_stack, co->stack_base, co->stack_size); + if (prev_co) { + void* bottom_old = NULL; + size_t size_old = 0; + __sanitizer_finish_switch_fiber(prev_co->asan_prev_stack, (const void**)&bottom_old, + &size_old); + prev_co->asan_prev_stack = NULL; + } + __sanitizer_start_switch_fiber(&co->asan_prev_stack, co->stack_base, co->stack_size); #endif #ifdef _MCO_USE_TSAN - co->tsan_prev_fiber = __tsan_get_current_fiber(); - __tsan_switch_to_fiber(co->tsan_fiber, 0); + co->tsan_prev_fiber = __tsan_get_current_fiber(); + __tsan_switch_to_fiber(co->tsan_fiber, 0); #endif } static MCO_FORCE_INLINE void _mco_prepare_jumpout(mco_coro* co) { - /* Switch back to the previous running coroutine. */ - /* MCO_ASSERT(mco_running() == co); */ - mco_coro* prev_co = co->prev_co; - co->prev_co = NULL; - if(prev_co) { - /* MCO_ASSERT(prev_co->state == MCO_NORMAL); */ - prev_co->state = MCO_RUNNING; - } - mco_current_co = prev_co; + /* Switch back to the previous running coroutine. */ + /* MCO_ASSERT(mco_running() == co); */ + mco_coro* prev_co = co->prev_co; + co->prev_co = NULL; + if (prev_co) { + /* MCO_ASSERT(prev_co->state == MCO_NORMAL); */ + prev_co->state = MCO_RUNNING; + } + mco_current_co = prev_co; #ifdef _MCO_USE_ASAN - void* bottom_old = NULL; - size_t size_old = 0; - __sanitizer_finish_switch_fiber(co->asan_prev_stack, (const void**)&bottom_old, &size_old); - co->asan_prev_stack = NULL; - if(prev_co) { - __sanitizer_start_switch_fiber(&prev_co->asan_prev_stack, bottom_old, size_old); - } + void* bottom_old = NULL; + size_t size_old = 0; + __sanitizer_finish_switch_fiber(co->asan_prev_stack, (const void**)&bottom_old, &size_old); + co->asan_prev_stack = NULL; + if (prev_co) { + __sanitizer_start_switch_fiber(&prev_co->asan_prev_stack, bottom_old, size_old); + } #endif #ifdef _MCO_USE_TSAN - void* tsan_prev_fiber = co->tsan_prev_fiber; - co->tsan_prev_fiber = NULL; - __tsan_switch_to_fiber(tsan_prev_fiber, 0); + void* tsan_prev_fiber = co->tsan_prev_fiber; + co->tsan_prev_fiber = NULL; + __tsan_switch_to_fiber(tsan_prev_fiber, 0); #endif } @@ -619,9 +658,9 @@ static void _mco_jumpin(mco_coro* co); static void _mco_jumpout(mco_coro* co); static MCO_NO_INLINE void _mco_main(mco_coro* co) { - co->func(co); /* Run the coroutine function. */ - co->state = MCO_DEAD; /* Coroutine finished successfully, set state to dead. */ - _mco_jumpout(co); /* Jump back to the old context .*/ + co->func(co); /* Run the coroutine function. */ + co->state = MCO_DEAD; /* Coroutine finished successfully, set state to dead. */ + _mco_jumpout(co); /* Jump back to the old context .*/ } /* ---------------------------------------------------------------------------------------------- */ @@ -663,12 +702,12 @@ SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. #ifdef _WIN32 typedef struct _mco_ctxbuf { - void *rip, *rsp, *rbp, *rbx, *r12, *r13, *r14, *r15, *rdi, *rsi; - void* xmm[20]; /* xmm6, xmm7, xmm8, xmm9, xmm10, xmm11, xmm12, xmm13, xmm14, xmm15 */ - void* fiber_storage; - void* dealloc_stack; - void* stack_limit; - void* stack_base; + void *rip, *rsp, *rbp, *rbx, *r12, *r13, *r14, *r15, *rdi, *rsi; + void* xmm[20]; /* xmm6, xmm7, xmm8, xmm9, xmm10, xmm11, xmm12, xmm13, xmm14, xmm15 */ + void* fiber_storage; + void* dealloc_stack; + void* stack_limit; + void* stack_base; } _mco_ctxbuf; #if defined(__GNUC__) @@ -679,164 +718,167 @@ typedef struct _mco_ctxbuf { #endif _MCO_ASM_BLOB static unsigned char _mco_wrap_main_code[] = { - 0x4c, 0x89, 0xe9, /* mov %r13,%rcx */ - 0x41, 0xff, 0xe4, /* jmpq *%r12 */ - 0xc3, /* retq */ - 0x90, 0x90, 0x90, 0x90, 0x90, 0x90, 0x90, 0x90, 0x90 /* nop */ + 0x4c, 0x89, 0xe9, /* mov %r13,%rcx */ + 0x41, 0xff, 0xe4, /* jmpq *%r12 */ + 0xc3, /* retq */ + 0x90, 0x90, 0x90, 0x90, 0x90, 0x90, 0x90, 0x90, 0x90 /* nop */ }; _MCO_ASM_BLOB static unsigned char _mco_switch_code[] = { - 0x48, 0x8d, 0x05, 0x3e, 0x01, 0x00, 0x00, /* lea 0x13e(%rip),%rax */ - 0x48, 0x89, 0x01, /* mov %rax,(%rcx) */ - 0x48, 0x89, 0x61, 0x08, /* mov %rsp,0x8(%rcx) */ - 0x48, 0x89, 0x69, 0x10, /* mov %rbp,0x10(%rcx) */ - 0x48, 0x89, 0x59, 0x18, /* mov %rbx,0x18(%rcx) */ - 0x4c, 0x89, 0x61, 0x20, /* mov %r12,0x20(%rcx) */ - 0x4c, 0x89, 0x69, 0x28, /* mov %r13,0x28(%rcx) */ - 0x4c, 0x89, 0x71, 0x30, /* mov %r14,0x30(%rcx) */ - 0x4c, 0x89, 0x79, 0x38, /* mov %r15,0x38(%rcx) */ - 0x48, 0x89, 0x79, 0x40, /* mov %rdi,0x40(%rcx) */ - 0x48, 0x89, 0x71, 0x48, /* mov %rsi,0x48(%rcx) */ - 0x0f, 0x11, 0x71, 0x50, /* movups %xmm6,0x50(%rcx) */ - 0x0f, 0x11, 0x79, 0x60, /* movups %xmm7,0x60(%rcx) */ - 0x44, 0x0f, 0x11, 0x41, 0x70, /* movups %xmm8,0x70(%rcx) */ - 0x44, 0x0f, 0x11, 0x89, 0x80, 0x00, 0x00, 0x00, /* movups %xmm9,0x80(%rcx) */ - 0x44, 0x0f, 0x11, 0x91, 0x90, 0x00, 0x00, 0x00, /* movups %xmm10,0x90(%rcx) */ - 0x44, 0x0f, 0x11, 0x99, 0xa0, 0x00, 0x00, 0x00, /* movups %xmm11,0xa0(%rcx) */ - 0x44, 0x0f, 0x11, 0xa1, 0xb0, 0x00, 0x00, 0x00, /* movups %xmm12,0xb0(%rcx) */ - 0x44, 0x0f, 0x11, 0xa9, 0xc0, 0x00, 0x00, 0x00, /* movups %xmm13,0xc0(%rcx) */ - 0x44, 0x0f, 0x11, 0xb1, 0xd0, 0x00, 0x00, 0x00, /* movups %xmm14,0xd0(%rcx) */ - 0x44, 0x0f, 0x11, 0xb9, 0xe0, 0x00, 0x00, 0x00, /* movups %xmm15,0xe0(%rcx) */ - 0x65, 0x4c, 0x8b, 0x14, 0x25, 0x30, 0x00, 0x00, 0x00, /* mov %gs:0x30,%r10 */ - 0x49, 0x8b, 0x42, 0x20, /* mov 0x20(%r10),%rax */ - 0x48, 0x89, 0x81, 0xf0, 0x00, 0x00, 0x00, /* mov %rax,0xf0(%rcx) */ - 0x49, 0x8b, 0x82, 0x78, 0x14, 0x00, 0x00, /* mov 0x1478(%r10),%rax */ - 0x48, 0x89, 0x81, 0xf8, 0x00, 0x00, 0x00, /* mov %rax,0xf8(%rcx) */ - 0x49, 0x8b, 0x42, 0x10, /* mov 0x10(%r10),%rax */ - 0x48, 0x89, 0x81, 0x00, 0x01, 0x00, 0x00, /* mov %rax,0x100(%rcx) */ - 0x49, 0x8b, 0x42, 0x08, /* mov 0x8(%r10),%rax */ - 0x48, 0x89, 0x81, 0x08, 0x01, 0x00, 0x00, /* mov %rax,0x108(%rcx) */ - 0x48, 0x8b, 0x82, 0x08, 0x01, 0x00, 0x00, /* mov 0x108(%rdx),%rax */ - 0x49, 0x89, 0x42, 0x08, /* mov %rax,0x8(%r10) */ - 0x48, 0x8b, 0x82, 0x00, 0x01, 0x00, 0x00, /* mov 0x100(%rdx),%rax */ - 0x49, 0x89, 0x42, 0x10, /* mov %rax,0x10(%r10) */ - 0x48, 0x8b, 0x82, 0xf8, 0x00, 0x00, 0x00, /* mov 0xf8(%rdx),%rax */ - 0x49, 0x89, 0x82, 0x78, 0x14, 0x00, 0x00, /* mov %rax,0x1478(%r10) */ - 0x48, 0x8b, 0x82, 0xf0, 0x00, 0x00, 0x00, /* mov 0xf0(%rdx),%rax */ - 0x49, 0x89, 0x42, 0x20, /* mov %rax,0x20(%r10) */ - 0x44, 0x0f, 0x10, 0xba, 0xe0, 0x00, 0x00, 0x00, /* movups 0xe0(%rdx),%xmm15 */ - 0x44, 0x0f, 0x10, 0xb2, 0xd0, 0x00, 0x00, 0x00, /* movups 0xd0(%rdx),%xmm14 */ - 0x44, 0x0f, 0x10, 0xaa, 0xc0, 0x00, 0x00, 0x00, /* movups 0xc0(%rdx),%xmm13 */ - 0x44, 0x0f, 0x10, 0xa2, 0xb0, 0x00, 0x00, 0x00, /* movups 0xb0(%rdx),%xmm12 */ - 0x44, 0x0f, 0x10, 0x9a, 0xa0, 0x00, 0x00, 0x00, /* movups 0xa0(%rdx),%xmm11 */ - 0x44, 0x0f, 0x10, 0x92, 0x90, 0x00, 0x00, 0x00, /* movups 0x90(%rdx),%xmm10 */ - 0x44, 0x0f, 0x10, 0x8a, 0x80, 0x00, 0x00, 0x00, /* movups 0x80(%rdx),%xmm9 */ - 0x44, 0x0f, 0x10, 0x42, 0x70, /* movups 0x70(%rdx),%xmm8 */ - 0x0f, 0x10, 0x7a, 0x60, /* movups 0x60(%rdx),%xmm7 */ - 0x0f, 0x10, 0x72, 0x50, /* movups 0x50(%rdx),%xmm6 */ - 0x48, 0x8b, 0x72, 0x48, /* mov 0x48(%rdx),%rsi */ - 0x48, 0x8b, 0x7a, 0x40, /* mov 0x40(%rdx),%rdi */ - 0x4c, 0x8b, 0x7a, 0x38, /* mov 0x38(%rdx),%r15 */ - 0x4c, 0x8b, 0x72, 0x30, /* mov 0x30(%rdx),%r14 */ - 0x4c, 0x8b, 0x6a, 0x28, /* mov 0x28(%rdx),%r13 */ - 0x4c, 0x8b, 0x62, 0x20, /* mov 0x20(%rdx),%r12 */ - 0x48, 0x8b, 0x5a, 0x18, /* mov 0x18(%rdx),%rbx */ - 0x48, 0x8b, 0x6a, 0x10, /* mov 0x10(%rdx),%rbp */ - 0x48, 0x8b, 0x62, 0x08, /* mov 0x8(%rdx),%rsp */ - 0xff, 0x22, /* jmpq *(%rdx) */ - 0xc3, /* retq */ - 0x90, 0x90, 0x90, 0x90, 0x90, 0x90, 0x90, 0x90, /* nop */ - 0x90, 0x90, /* nop */ + 0x48, 0x8d, 0x05, 0x3e, 0x01, 0x00, 0x00, /* lea 0x13e(%rip),%rax */ + 0x48, 0x89, 0x01, /* mov %rax,(%rcx) */ + 0x48, 0x89, 0x61, 0x08, /* mov %rsp,0x8(%rcx) */ + 0x48, 0x89, 0x69, 0x10, /* mov %rbp,0x10(%rcx) */ + 0x48, 0x89, 0x59, 0x18, /* mov %rbx,0x18(%rcx) */ + 0x4c, 0x89, 0x61, 0x20, /* mov %r12,0x20(%rcx) */ + 0x4c, 0x89, 0x69, 0x28, /* mov %r13,0x28(%rcx) */ + 0x4c, 0x89, 0x71, 0x30, /* mov %r14,0x30(%rcx) */ + 0x4c, 0x89, 0x79, 0x38, /* mov %r15,0x38(%rcx) */ + 0x48, 0x89, 0x79, 0x40, /* mov %rdi,0x40(%rcx) */ + 0x48, 0x89, 0x71, 0x48, /* mov %rsi,0x48(%rcx) */ + 0x0f, 0x11, 0x71, 0x50, /* movups %xmm6,0x50(%rcx) */ + 0x0f, 0x11, 0x79, 0x60, /* movups %xmm7,0x60(%rcx) */ + 0x44, 0x0f, 0x11, 0x41, 0x70, /* movups %xmm8,0x70(%rcx) */ + 0x44, 0x0f, 0x11, 0x89, 0x80, 0x00, 0x00, 0x00, /* movups %xmm9,0x80(%rcx) */ + 0x44, 0x0f, 0x11, 0x91, 0x90, 0x00, 0x00, 0x00, /* movups %xmm10,0x90(%rcx) */ + 0x44, 0x0f, 0x11, 0x99, 0xa0, 0x00, 0x00, 0x00, /* movups %xmm11,0xa0(%rcx) */ + 0x44, 0x0f, 0x11, 0xa1, 0xb0, 0x00, 0x00, 0x00, /* movups %xmm12,0xb0(%rcx) */ + 0x44, 0x0f, 0x11, 0xa9, 0xc0, 0x00, 0x00, 0x00, /* movups %xmm13,0xc0(%rcx) */ + 0x44, 0x0f, 0x11, 0xb1, 0xd0, 0x00, 0x00, 0x00, /* movups %xmm14,0xd0(%rcx) */ + 0x44, 0x0f, 0x11, 0xb9, 0xe0, 0x00, 0x00, 0x00, /* movups %xmm15,0xe0(%rcx) */ + 0x65, 0x4c, 0x8b, 0x14, 0x25, 0x30, 0x00, 0x00, 0x00, /* mov %gs:0x30,%r10 */ + 0x49, 0x8b, 0x42, 0x20, /* mov 0x20(%r10),%rax */ + 0x48, 0x89, 0x81, 0xf0, 0x00, 0x00, 0x00, /* mov %rax,0xf0(%rcx) */ + 0x49, 0x8b, 0x82, 0x78, 0x14, 0x00, 0x00, /* mov 0x1478(%r10),%rax */ + 0x48, 0x89, 0x81, 0xf8, 0x00, 0x00, 0x00, /* mov %rax,0xf8(%rcx) */ + 0x49, 0x8b, 0x42, 0x10, /* mov 0x10(%r10),%rax */ + 0x48, 0x89, 0x81, 0x00, 0x01, 0x00, 0x00, /* mov %rax,0x100(%rcx) */ + 0x49, 0x8b, 0x42, 0x08, /* mov 0x8(%r10),%rax */ + 0x48, 0x89, 0x81, 0x08, 0x01, 0x00, 0x00, /* mov %rax,0x108(%rcx) */ + 0x48, 0x8b, 0x82, 0x08, 0x01, 0x00, 0x00, /* mov 0x108(%rdx),%rax */ + 0x49, 0x89, 0x42, 0x08, /* mov %rax,0x8(%r10) */ + 0x48, 0x8b, 0x82, 0x00, 0x01, 0x00, 0x00, /* mov 0x100(%rdx),%rax */ + 0x49, 0x89, 0x42, 0x10, /* mov %rax,0x10(%r10) */ + 0x48, 0x8b, 0x82, 0xf8, 0x00, 0x00, 0x00, /* mov 0xf8(%rdx),%rax */ + 0x49, 0x89, 0x82, 0x78, 0x14, 0x00, 0x00, /* mov %rax,0x1478(%r10) */ + 0x48, 0x8b, 0x82, 0xf0, 0x00, 0x00, 0x00, /* mov 0xf0(%rdx),%rax */ + 0x49, 0x89, 0x42, 0x20, /* mov %rax,0x20(%r10) */ + 0x44, 0x0f, 0x10, 0xba, 0xe0, 0x00, 0x00, 0x00, /* movups 0xe0(%rdx),%xmm15 */ + 0x44, 0x0f, 0x10, 0xb2, 0xd0, 0x00, 0x00, 0x00, /* movups 0xd0(%rdx),%xmm14 */ + 0x44, 0x0f, 0x10, 0xaa, 0xc0, 0x00, 0x00, 0x00, /* movups 0xc0(%rdx),%xmm13 */ + 0x44, 0x0f, 0x10, 0xa2, 0xb0, 0x00, 0x00, 0x00, /* movups 0xb0(%rdx),%xmm12 */ + 0x44, 0x0f, 0x10, 0x9a, 0xa0, 0x00, 0x00, 0x00, /* movups 0xa0(%rdx),%xmm11 */ + 0x44, 0x0f, 0x10, 0x92, 0x90, 0x00, 0x00, 0x00, /* movups 0x90(%rdx),%xmm10 */ + 0x44, 0x0f, 0x10, 0x8a, 0x80, 0x00, 0x00, 0x00, /* movups 0x80(%rdx),%xmm9 */ + 0x44, 0x0f, 0x10, 0x42, 0x70, /* movups 0x70(%rdx),%xmm8 */ + 0x0f, 0x10, 0x7a, 0x60, /* movups 0x60(%rdx),%xmm7 */ + 0x0f, 0x10, 0x72, 0x50, /* movups 0x50(%rdx),%xmm6 */ + 0x48, 0x8b, 0x72, 0x48, /* mov 0x48(%rdx),%rsi */ + 0x48, 0x8b, 0x7a, 0x40, /* mov 0x40(%rdx),%rdi */ + 0x4c, 0x8b, 0x7a, 0x38, /* mov 0x38(%rdx),%r15 */ + 0x4c, 0x8b, 0x72, 0x30, /* mov 0x30(%rdx),%r14 */ + 0x4c, 0x8b, 0x6a, 0x28, /* mov 0x28(%rdx),%r13 */ + 0x4c, 0x8b, 0x62, 0x20, /* mov 0x20(%rdx),%r12 */ + 0x48, 0x8b, 0x5a, 0x18, /* mov 0x18(%rdx),%rbx */ + 0x48, 0x8b, 0x6a, 0x10, /* mov 0x10(%rdx),%rbp */ + 0x48, 0x8b, 0x62, 0x08, /* mov 0x8(%rdx),%rsp */ + 0xff, 0x22, /* jmpq *(%rdx) */ + 0xc3, /* retq */ + 0x90, 0x90, 0x90, 0x90, 0x90, 0x90, 0x90, 0x90, /* nop */ + 0x90, 0x90, /* nop */ }; -void (*_mco_wrap_main)(void) = (void(*)(void))(void*)_mco_wrap_main_code; -void (*_mco_switch)(_mco_ctxbuf* from, _mco_ctxbuf* to) = (void(*)(_mco_ctxbuf* from, _mco_ctxbuf* to))(void*)_mco_switch_code; +void (*_mco_wrap_main)(void) = (void (*)(void))(void*)_mco_wrap_main_code; +void (*_mco_switch)(_mco_ctxbuf* from, + _mco_ctxbuf* to) = (void (*)(_mco_ctxbuf* from, + _mco_ctxbuf* to))(void*)_mco_switch_code; -static mco_result _mco_makectx(mco_coro* co, _mco_ctxbuf* ctx, void* stack_base, size_t stack_size) { - stack_size = stack_size - 32; /* Reserve 32 bytes for the shadow space. */ - void** stack_high_ptr = (void**)((size_t)stack_base + stack_size - sizeof(size_t)); - stack_high_ptr[0] = (void*)(0xdeaddeaddeaddead); /* Dummy return address. */ - ctx->rip = (void*)(_mco_wrap_main); - ctx->rsp = (void*)(stack_high_ptr); - ctx->r12 = (void*)(_mco_main); - ctx->r13 = (void*)(co); - void* stack_top = (void*)((size_t)stack_base + stack_size); - ctx->stack_base = stack_top; - ctx->stack_limit = stack_base; - ctx->dealloc_stack = stack_base; - return MCO_SUCCESS; +static mco_result _mco_makectx(mco_coro* co, _mco_ctxbuf* ctx, void* stack_base, + size_t stack_size) { + stack_size = stack_size - 32; /* Reserve 32 bytes for the shadow space. */ + void** stack_high_ptr = (void**)((size_t)stack_base + stack_size - sizeof(size_t)); + stack_high_ptr[0] = (void*)(0xdeaddeaddeaddead); /* Dummy return address. */ + ctx->rip = (void*)(_mco_wrap_main); + ctx->rsp = (void*)(stack_high_ptr); + ctx->r12 = (void*)(_mco_main); + ctx->r13 = (void*)(co); + void* stack_top = (void*)((size_t)stack_base + stack_size); + ctx->stack_base = stack_top; + ctx->stack_limit = stack_base; + ctx->dealloc_stack = stack_base; + return MCO_SUCCESS; } -#else /* not _WIN32 */ +#else /* not _WIN32 */ typedef struct _mco_ctxbuf { - void *rip, *rsp, *rbp, *rbx, *r12, *r13, *r14, *r15; + void *rip, *rsp, *rbp, *rbx, *r12, *r13, *r14, *r15; } _mco_ctxbuf; void _mco_wrap_main(void); int _mco_switch(_mco_ctxbuf* from, _mco_ctxbuf* to); -__asm__( - ".text\n" +__asm__(".text\n" #ifdef __MACH__ /* Mac OS X assembler */ - ".globl __mco_wrap_main\n" - "__mco_wrap_main:\n" -#else /* Linux assembler */ - ".globl _mco_wrap_main\n" - ".type _mco_wrap_main @function\n" - ".hidden _mco_wrap_main\n" - "_mco_wrap_main:\n" + ".globl __mco_wrap_main\n" + "__mco_wrap_main:\n" +#else /* Linux assembler */ + ".globl _mco_wrap_main\n" + ".type _mco_wrap_main @function\n" + ".hidden _mco_wrap_main\n" + "_mco_wrap_main:\n" #endif - " movq %r13, %rdi\n" - " jmpq *%r12\n" + " movq %r13, %rdi\n" + " jmpq *%r12\n" #ifndef __MACH__ - ".size _mco_wrap_main, .-_mco_wrap_main\n" + ".size _mco_wrap_main, .-_mco_wrap_main\n" #endif ); -__asm__( - ".text\n" +__asm__(".text\n" #ifdef __MACH__ /* Mac OS assembler */ - ".globl __mco_switch\n" - "__mco_switch:\n" -#else /* Linux assembler */ - ".globl _mco_switch\n" - ".type _mco_switch @function\n" - ".hidden _mco_switch\n" - "_mco_switch:\n" + ".globl __mco_switch\n" + "__mco_switch:\n" +#else /* Linux assembler */ + ".globl _mco_switch\n" + ".type _mco_switch @function\n" + ".hidden _mco_switch\n" + "_mco_switch:\n" #endif - " leaq 0x3d(%rip), %rax\n" - " movq %rax, (%rdi)\n" - " movq %rsp, 8(%rdi)\n" - " movq %rbp, 16(%rdi)\n" - " movq %rbx, 24(%rdi)\n" - " movq %r12, 32(%rdi)\n" - " movq %r13, 40(%rdi)\n" - " movq %r14, 48(%rdi)\n" - " movq %r15, 56(%rdi)\n" - " movq 56(%rsi), %r15\n" - " movq 48(%rsi), %r14\n" - " movq 40(%rsi), %r13\n" - " movq 32(%rsi), %r12\n" - " movq 24(%rsi), %rbx\n" - " movq 16(%rsi), %rbp\n" - " movq 8(%rsi), %rsp\n" - " jmpq *(%rsi)\n" - " ret\n" + " leaq 0x3d(%rip), %rax\n" + " movq %rax, (%rdi)\n" + " movq %rsp, 8(%rdi)\n" + " movq %rbp, 16(%rdi)\n" + " movq %rbx, 24(%rdi)\n" + " movq %r12, 32(%rdi)\n" + " movq %r13, 40(%rdi)\n" + " movq %r14, 48(%rdi)\n" + " movq %r15, 56(%rdi)\n" + " movq 56(%rsi), %r15\n" + " movq 48(%rsi), %r14\n" + " movq 40(%rsi), %r13\n" + " movq 32(%rsi), %r12\n" + " movq 24(%rsi), %rbx\n" + " movq 16(%rsi), %rbp\n" + " movq 8(%rsi), %rsp\n" + " jmpq *(%rsi)\n" + " ret\n" #ifndef __MACH__ - ".size _mco_switch, .-_mco_switch\n" + ".size _mco_switch, .-_mco_switch\n" #endif ); -static mco_result _mco_makectx(mco_coro* co, _mco_ctxbuf* ctx, void* stack_base, size_t stack_size) { - stack_size = stack_size - 128; /* Reserve 128 bytes for the Red Zone space (System V AMD64 ABI). */ - void** stack_high_ptr = (void**)((size_t)stack_base + stack_size - sizeof(size_t)); - stack_high_ptr[0] = (void*)(0xdeaddeaddeaddead); /* Dummy return address. */ - ctx->rip = (void*)(_mco_wrap_main); - ctx->rsp = (void*)(stack_high_ptr); - ctx->r12 = (void*)(_mco_main); - ctx->r13 = (void*)(co); - return MCO_SUCCESS; +static mco_result _mco_makectx(mco_coro* co, _mco_ctxbuf* ctx, void* stack_base, + size_t stack_size) { + stack_size = + stack_size - 128; /* Reserve 128 bytes for the Red Zone space (System V AMD64 ABI). */ + void** stack_high_ptr = (void**)((size_t)stack_base + stack_size - sizeof(size_t)); + stack_high_ptr[0] = (void*)(0xdeaddeaddeaddead); /* Dummy return address. */ + ctx->rip = (void*)(_mco_wrap_main); + ctx->rsp = (void*)(stack_high_ptr); + ctx->r12 = (void*)(_mco_main); + ctx->r13 = (void*)(co); + return MCO_SUCCESS; } #endif /* not _WIN32 */ @@ -844,15 +886,15 @@ static mco_result _mco_makectx(mco_coro* co, _mco_ctxbuf* ctx, void* stack_base, #elif defined(__riscv) typedef struct _mco_ctxbuf { - void* s[12]; /* s0-s11 */ - void* ra; - void* pc; - void* sp; + void* s[12]; /* s0-s11 */ + void* ra; + void* pc; + void* sp; #ifdef __riscv_flen #if __riscv_flen == 64 - double fs[12]; /* fs0-fs11 */ + double fs[12]; /* fs0-fs11 */ #elif __riscv_flen == 32 - float fs[12]; /* fs0-fs11 */ + float fs[12]; /* fs0-fs11 */ #endif #endif /* __riscv_flen */ } _mco_ctxbuf; @@ -860,394 +902,390 @@ typedef struct _mco_ctxbuf { void _mco_wrap_main(void); int _mco_switch(_mco_ctxbuf* from, _mco_ctxbuf* to); -__asm__( - ".text\n" - ".globl _mco_wrap_main\n" - ".type _mco_wrap_main @function\n" - ".hidden _mco_wrap_main\n" - "_mco_wrap_main:\n" - " mv a0, s0\n" - " jr s1\n" - ".size _mco_wrap_main, .-_mco_wrap_main\n" -); +__asm__(".text\n" + ".globl _mco_wrap_main\n" + ".type _mco_wrap_main @function\n" + ".hidden _mco_wrap_main\n" + "_mco_wrap_main:\n" + " mv a0, s0\n" + " jr s1\n" + ".size _mco_wrap_main, .-_mco_wrap_main\n"); -__asm__( - ".text\n" - ".globl _mco_switch\n" - ".type _mco_switch @function\n" - ".hidden _mco_switch\n" - "_mco_switch:\n" - #if __riscv_xlen == 64 - " sd s0, 0x00(a0)\n" - " sd s1, 0x08(a0)\n" - " sd s2, 0x10(a0)\n" - " sd s3, 0x18(a0)\n" - " sd s4, 0x20(a0)\n" - " sd s5, 0x28(a0)\n" - " sd s6, 0x30(a0)\n" - " sd s7, 0x38(a0)\n" - " sd s8, 0x40(a0)\n" - " sd s9, 0x48(a0)\n" - " sd s10, 0x50(a0)\n" - " sd s11, 0x58(a0)\n" - " sd ra, 0x60(a0)\n" - " sd ra, 0x68(a0)\n" /* pc */ - " sd sp, 0x70(a0)\n" - #ifdef __riscv_flen - #if __riscv_flen == 64 - " fsd fs0, 0x78(a0)\n" - " fsd fs1, 0x80(a0)\n" - " fsd fs2, 0x88(a0)\n" - " fsd fs3, 0x90(a0)\n" - " fsd fs4, 0x98(a0)\n" - " fsd fs5, 0xa0(a0)\n" - " fsd fs6, 0xa8(a0)\n" - " fsd fs7, 0xb0(a0)\n" - " fsd fs8, 0xb8(a0)\n" - " fsd fs9, 0xc0(a0)\n" - " fsd fs10, 0xc8(a0)\n" - " fsd fs11, 0xd0(a0)\n" - " fld fs0, 0x78(a1)\n" - " fld fs1, 0x80(a1)\n" - " fld fs2, 0x88(a1)\n" - " fld fs3, 0x90(a1)\n" - " fld fs4, 0x98(a1)\n" - " fld fs5, 0xa0(a1)\n" - " fld fs6, 0xa8(a1)\n" - " fld fs7, 0xb0(a1)\n" - " fld fs8, 0xb8(a1)\n" - " fld fs9, 0xc0(a1)\n" - " fld fs10, 0xc8(a1)\n" - " fld fs11, 0xd0(a1)\n" - #else - #error "Unsupported RISC-V FLEN" - #endif - #endif /* __riscv_flen */ - " ld s0, 0x00(a1)\n" - " ld s1, 0x08(a1)\n" - " ld s2, 0x10(a1)\n" - " ld s3, 0x18(a1)\n" - " ld s4, 0x20(a1)\n" - " ld s5, 0x28(a1)\n" - " ld s6, 0x30(a1)\n" - " ld s7, 0x38(a1)\n" - " ld s8, 0x40(a1)\n" - " ld s9, 0x48(a1)\n" - " ld s10, 0x50(a1)\n" - " ld s11, 0x58(a1)\n" - " ld ra, 0x60(a1)\n" - " ld a2, 0x68(a1)\n" /* pc */ - " ld sp, 0x70(a1)\n" - " jr a2\n" - #elif __riscv_xlen == 32 - " sw s0, 0x00(a0)\n" - " sw s1, 0x04(a0)\n" - " sw s2, 0x08(a0)\n" - " sw s3, 0x0c(a0)\n" - " sw s4, 0x10(a0)\n" - " sw s5, 0x14(a0)\n" - " sw s6, 0x18(a0)\n" - " sw s7, 0x1c(a0)\n" - " sw s8, 0x20(a0)\n" - " sw s9, 0x24(a0)\n" - " sw s10, 0x28(a0)\n" - " sw s11, 0x2c(a0)\n" - " sw ra, 0x30(a0)\n" - " sw ra, 0x34(a0)\n" /* pc */ - " sw sp, 0x38(a0)\n" - #ifdef __riscv_flen - #if __riscv_flen == 64 - " fsd fs0, 0x3c(a0)\n" - " fsd fs1, 0x44(a0)\n" - " fsd fs2, 0x4c(a0)\n" - " fsd fs3, 0x54(a0)\n" - " fsd fs4, 0x5c(a0)\n" - " fsd fs5, 0x64(a0)\n" - " fsd fs6, 0x6c(a0)\n" - " fsd fs7, 0x74(a0)\n" - " fsd fs8, 0x7c(a0)\n" - " fsd fs9, 0x84(a0)\n" - " fsd fs10, 0x8c(a0)\n" - " fsd fs11, 0x94(a0)\n" - " fld fs0, 0x3c(a1)\n" - " fld fs1, 0x44(a1)\n" - " fld fs2, 0x4c(a1)\n" - " fld fs3, 0x54(a1)\n" - " fld fs4, 0x5c(a1)\n" - " fld fs5, 0x64(a1)\n" - " fld fs6, 0x6c(a1)\n" - " fld fs7, 0x74(a1)\n" - " fld fs8, 0x7c(a1)\n" - " fld fs9, 0x84(a1)\n" - " fld fs10, 0x8c(a1)\n" - " fld fs11, 0x94(a1)\n" - #elif __riscv_flen == 32 - " fsw fs0, 0x3c(a0)\n" - " fsw fs1, 0x40(a0)\n" - " fsw fs2, 0x44(a0)\n" - " fsw fs3, 0x48(a0)\n" - " fsw fs4, 0x4c(a0)\n" - " fsw fs5, 0x50(a0)\n" - " fsw fs6, 0x54(a0)\n" - " fsw fs7, 0x58(a0)\n" - " fsw fs8, 0x5c(a0)\n" - " fsw fs9, 0x60(a0)\n" - " fsw fs10, 0x64(a0)\n" - " fsw fs11, 0x68(a0)\n" - " flw fs0, 0x3c(a1)\n" - " flw fs1, 0x40(a1)\n" - " flw fs2, 0x44(a1)\n" - " flw fs3, 0x48(a1)\n" - " flw fs4, 0x4c(a1)\n" - " flw fs5, 0x50(a1)\n" - " flw fs6, 0x54(a1)\n" - " flw fs7, 0x58(a1)\n" - " flw fs8, 0x5c(a1)\n" - " flw fs9, 0x60(a1)\n" - " flw fs10, 0x64(a1)\n" - " flw fs11, 0x68(a1)\n" - #else - #error "Unsupported RISC-V FLEN" - #endif - #endif /* __riscv_flen */ - " lw s0, 0x00(a1)\n" - " lw s1, 0x04(a1)\n" - " lw s2, 0x08(a1)\n" - " lw s3, 0x0c(a1)\n" - " lw s4, 0x10(a1)\n" - " lw s5, 0x14(a1)\n" - " lw s6, 0x18(a1)\n" - " lw s7, 0x1c(a1)\n" - " lw s8, 0x20(a1)\n" - " lw s9, 0x24(a1)\n" - " lw s10, 0x28(a1)\n" - " lw s11, 0x2c(a1)\n" - " lw ra, 0x30(a1)\n" - " lw a2, 0x34(a1)\n" /* pc */ - " lw sp, 0x38(a1)\n" - " jr a2\n" - #else - #error "Unsupported RISC-V XLEN" - #endif /* __riscv_xlen */ - ".size _mco_switch, .-_mco_switch\n" -); - -static mco_result _mco_makectx(mco_coro* co, _mco_ctxbuf* ctx, void* stack_base, size_t stack_size) { - ctx->s[0] = (void*)(co); - ctx->s[1] = (void*)(_mco_main); - ctx->pc = (void*)(_mco_wrap_main); +__asm__(".text\n" + ".globl _mco_switch\n" + ".type _mco_switch @function\n" + ".hidden _mco_switch\n" + "_mco_switch:\n" #if __riscv_xlen == 64 - ctx->ra = (void*)(0xdeaddeaddeaddead); -#elif __riscv_xlen == 32 - ctx->ra = (void*)(0xdeaddead); + " sd s0, 0x00(a0)\n" + " sd s1, 0x08(a0)\n" + " sd s2, 0x10(a0)\n" + " sd s3, 0x18(a0)\n" + " sd s4, 0x20(a0)\n" + " sd s5, 0x28(a0)\n" + " sd s6, 0x30(a0)\n" + " sd s7, 0x38(a0)\n" + " sd s8, 0x40(a0)\n" + " sd s9, 0x48(a0)\n" + " sd s10, 0x50(a0)\n" + " sd s11, 0x58(a0)\n" + " sd ra, 0x60(a0)\n" + " sd ra, 0x68(a0)\n" /* pc */ + " sd sp, 0x70(a0)\n" +#ifdef __riscv_flen +#if __riscv_flen == 64 + " fsd fs0, 0x78(a0)\n" + " fsd fs1, 0x80(a0)\n" + " fsd fs2, 0x88(a0)\n" + " fsd fs3, 0x90(a0)\n" + " fsd fs4, 0x98(a0)\n" + " fsd fs5, 0xa0(a0)\n" + " fsd fs6, 0xa8(a0)\n" + " fsd fs7, 0xb0(a0)\n" + " fsd fs8, 0xb8(a0)\n" + " fsd fs9, 0xc0(a0)\n" + " fsd fs10, 0xc8(a0)\n" + " fsd fs11, 0xd0(a0)\n" + " fld fs0, 0x78(a1)\n" + " fld fs1, 0x80(a1)\n" + " fld fs2, 0x88(a1)\n" + " fld fs3, 0x90(a1)\n" + " fld fs4, 0x98(a1)\n" + " fld fs5, 0xa0(a1)\n" + " fld fs6, 0xa8(a1)\n" + " fld fs7, 0xb0(a1)\n" + " fld fs8, 0xb8(a1)\n" + " fld fs9, 0xc0(a1)\n" + " fld fs10, 0xc8(a1)\n" + " fld fs11, 0xd0(a1)\n" +#else +#error "Unsupported RISC-V FLEN" #endif - ctx->sp = (void*)((size_t)stack_base + stack_size); - return MCO_SUCCESS; +#endif /* __riscv_flen */ + " ld s0, 0x00(a1)\n" + " ld s1, 0x08(a1)\n" + " ld s2, 0x10(a1)\n" + " ld s3, 0x18(a1)\n" + " ld s4, 0x20(a1)\n" + " ld s5, 0x28(a1)\n" + " ld s6, 0x30(a1)\n" + " ld s7, 0x38(a1)\n" + " ld s8, 0x40(a1)\n" + " ld s9, 0x48(a1)\n" + " ld s10, 0x50(a1)\n" + " ld s11, 0x58(a1)\n" + " ld ra, 0x60(a1)\n" + " ld a2, 0x68(a1)\n" /* pc */ + " ld sp, 0x70(a1)\n" + " jr a2\n" +#elif __riscv_xlen == 32 + " sw s0, 0x00(a0)\n" + " sw s1, 0x04(a0)\n" + " sw s2, 0x08(a0)\n" + " sw s3, 0x0c(a0)\n" + " sw s4, 0x10(a0)\n" + " sw s5, 0x14(a0)\n" + " sw s6, 0x18(a0)\n" + " sw s7, 0x1c(a0)\n" + " sw s8, 0x20(a0)\n" + " sw s9, 0x24(a0)\n" + " sw s10, 0x28(a0)\n" + " sw s11, 0x2c(a0)\n" + " sw ra, 0x30(a0)\n" + " sw ra, 0x34(a0)\n" /* pc */ + " sw sp, 0x38(a0)\n" +#ifdef __riscv_flen +#if __riscv_flen == 64 + " fsd fs0, 0x3c(a0)\n" + " fsd fs1, 0x44(a0)\n" + " fsd fs2, 0x4c(a0)\n" + " fsd fs3, 0x54(a0)\n" + " fsd fs4, 0x5c(a0)\n" + " fsd fs5, 0x64(a0)\n" + " fsd fs6, 0x6c(a0)\n" + " fsd fs7, 0x74(a0)\n" + " fsd fs8, 0x7c(a0)\n" + " fsd fs9, 0x84(a0)\n" + " fsd fs10, 0x8c(a0)\n" + " fsd fs11, 0x94(a0)\n" + " fld fs0, 0x3c(a1)\n" + " fld fs1, 0x44(a1)\n" + " fld fs2, 0x4c(a1)\n" + " fld fs3, 0x54(a1)\n" + " fld fs4, 0x5c(a1)\n" + " fld fs5, 0x64(a1)\n" + " fld fs6, 0x6c(a1)\n" + " fld fs7, 0x74(a1)\n" + " fld fs8, 0x7c(a1)\n" + " fld fs9, 0x84(a1)\n" + " fld fs10, 0x8c(a1)\n" + " fld fs11, 0x94(a1)\n" +#elif __riscv_flen == 32 + " fsw fs0, 0x3c(a0)\n" + " fsw fs1, 0x40(a0)\n" + " fsw fs2, 0x44(a0)\n" + " fsw fs3, 0x48(a0)\n" + " fsw fs4, 0x4c(a0)\n" + " fsw fs5, 0x50(a0)\n" + " fsw fs6, 0x54(a0)\n" + " fsw fs7, 0x58(a0)\n" + " fsw fs8, 0x5c(a0)\n" + " fsw fs9, 0x60(a0)\n" + " fsw fs10, 0x64(a0)\n" + " fsw fs11, 0x68(a0)\n" + " flw fs0, 0x3c(a1)\n" + " flw fs1, 0x40(a1)\n" + " flw fs2, 0x44(a1)\n" + " flw fs3, 0x48(a1)\n" + " flw fs4, 0x4c(a1)\n" + " flw fs5, 0x50(a1)\n" + " flw fs6, 0x54(a1)\n" + " flw fs7, 0x58(a1)\n" + " flw fs8, 0x5c(a1)\n" + " flw fs9, 0x60(a1)\n" + " flw fs10, 0x64(a1)\n" + " flw fs11, 0x68(a1)\n" +#else +#error "Unsupported RISC-V FLEN" +#endif +#endif /* __riscv_flen */ + " lw s0, 0x00(a1)\n" + " lw s1, 0x04(a1)\n" + " lw s2, 0x08(a1)\n" + " lw s3, 0x0c(a1)\n" + " lw s4, 0x10(a1)\n" + " lw s5, 0x14(a1)\n" + " lw s6, 0x18(a1)\n" + " lw s7, 0x1c(a1)\n" + " lw s8, 0x20(a1)\n" + " lw s9, 0x24(a1)\n" + " lw s10, 0x28(a1)\n" + " lw s11, 0x2c(a1)\n" + " lw ra, 0x30(a1)\n" + " lw a2, 0x34(a1)\n" /* pc */ + " lw sp, 0x38(a1)\n" + " jr a2\n" +#else +#error "Unsupported RISC-V XLEN" +#endif /* __riscv_xlen */ + ".size _mco_switch, .-_mco_switch\n"); + +static mco_result _mco_makectx(mco_coro* co, _mco_ctxbuf* ctx, void* stack_base, + size_t stack_size) { + ctx->s[0] = (void*)(co); + ctx->s[1] = (void*)(_mco_main); + ctx->pc = (void*)(_mco_wrap_main); +#if __riscv_xlen == 64 + ctx->ra = (void*)(0xdeaddeaddeaddead); +#elif __riscv_xlen == 32 + ctx->ra = (void*)(0xdeaddead); +#endif + ctx->sp = (void*)((size_t)stack_base + stack_size); + return MCO_SUCCESS; } #elif defined(__i386) || defined(__i386__) typedef struct _mco_ctxbuf { - void *eip, *esp, *ebp, *ebx, *esi, *edi; + void *eip, *esp, *ebp, *ebx, *esi, *edi; } _mco_ctxbuf; void _mco_switch(_mco_ctxbuf* from, _mco_ctxbuf* to); __asm__( #ifdef __DJGPP__ /* DOS compiler */ - "__mco_switch:\n" + "__mco_switch:\n" #else - ".text\n" - ".globl _mco_switch\n" - ".type _mco_switch @function\n" - ".hidden _mco_switch\n" - "_mco_switch:\n" + ".text\n" + ".globl _mco_switch\n" + ".type _mco_switch @function\n" + ".hidden _mco_switch\n" + "_mco_switch:\n" #endif - " call 1f\n" - " 1:\n" - " popl %ecx\n" - " addl $(2f-1b), %ecx\n" - " movl 4(%esp), %eax\n" - " movl 8(%esp), %edx\n" - " movl %ecx, (%eax)\n" - " movl %esp, 4(%eax)\n" - " movl %ebp, 8(%eax)\n" - " movl %ebx, 12(%eax)\n" - " movl %esi, 16(%eax)\n" - " movl %edi, 20(%eax)\n" - " movl 20(%edx), %edi\n" - " movl 16(%edx), %esi\n" - " movl 12(%edx), %ebx\n" - " movl 8(%edx), %ebp\n" - " movl 4(%edx), %esp\n" - " jmp *(%edx)\n" - " 2:\n" - " ret\n" + " call 1f\n" + " 1:\n" + " popl %ecx\n" + " addl $(2f-1b), %ecx\n" + " movl 4(%esp), %eax\n" + " movl 8(%esp), %edx\n" + " movl %ecx, (%eax)\n" + " movl %esp, 4(%eax)\n" + " movl %ebp, 8(%eax)\n" + " movl %ebx, 12(%eax)\n" + " movl %esi, 16(%eax)\n" + " movl %edi, 20(%eax)\n" + " movl 20(%edx), %edi\n" + " movl 16(%edx), %esi\n" + " movl 12(%edx), %ebx\n" + " movl 8(%edx), %ebp\n" + " movl 4(%edx), %esp\n" + " jmp *(%edx)\n" + " 2:\n" + " ret\n" #ifndef __DJGPP__ - ".size _mco_switch, .-_mco_switch\n" + ".size _mco_switch, .-_mco_switch\n" #endif ); -static mco_result _mco_makectx(mco_coro* co, _mco_ctxbuf* ctx, void* stack_base, size_t stack_size) { - void** stack_high_ptr = (void**)((size_t)stack_base + stack_size - 16 - 1*sizeof(size_t)); - stack_high_ptr[0] = (void*)(0xdeaddead); /* Dummy return address. */ - stack_high_ptr[1] = (void*)(co); - ctx->eip = (void*)(_mco_main); - ctx->esp = (void*)(stack_high_ptr); - return MCO_SUCCESS; +static mco_result _mco_makectx(mco_coro* co, _mco_ctxbuf* ctx, void* stack_base, + size_t stack_size) { + void** stack_high_ptr = (void**)((size_t)stack_base + stack_size - 16 - 1 * sizeof(size_t)); + stack_high_ptr[0] = (void*)(0xdeaddead); /* Dummy return address. */ + stack_high_ptr[1] = (void*)(co); + ctx->eip = (void*)(_mco_main); + ctx->esp = (void*)(stack_high_ptr); + return MCO_SUCCESS; } #elif defined(__ARM_EABI__) typedef struct _mco_ctxbuf { #ifndef __SOFTFP__ - void* f[16]; + void* f[16]; #endif - void *d[4]; /* d8-d15 */ - void *r[4]; /* r4-r11 */ - void *lr; - void *sp; + void* d[4]; /* d8-d15 */ + void* r[4]; /* r4-r11 */ + void* lr; + void* sp; } _mco_ctxbuf; void _mco_wrap_main(void); int _mco_switch(_mco_ctxbuf* from, _mco_ctxbuf* to); -__asm__( - ".text\n" +__asm__(".text\n" #ifdef __APPLE__ - ".globl __mco_switch\n" - "__mco_switch:\n" + ".globl __mco_switch\n" + "__mco_switch:\n" #else - ".globl _mco_switch\n" - ".type _mco_switch #function\n" - ".hidden _mco_switch\n" - "_mco_switch:\n" + ".globl _mco_switch\n" + ".type _mco_switch #function\n" + ".hidden _mco_switch\n" + "_mco_switch:\n" #endif #ifndef __SOFTFP__ - " vstmia r0!, {d8-d15}\n" + " vstmia r0!, {d8-d15}\n" #endif - " stmia r0, {r4-r11, lr}\n" - " str sp, [r0, #9*4]\n" + " stmia r0, {r4-r11, lr}\n" + " str sp, [r0, #9*4]\n" #ifndef __SOFTFP__ - " vldmia r1!, {d8-d15}\n" + " vldmia r1!, {d8-d15}\n" #endif - " ldr sp, [r1, #9*4]\n" - " ldmia r1, {r4-r11, pc}\n" + " ldr sp, [r1, #9*4]\n" + " ldmia r1, {r4-r11, pc}\n" #ifndef __APPLE__ - ".size _mco_switch, .-_mco_switch\n" + ".size _mco_switch, .-_mco_switch\n" #endif ); -__asm__( - ".text\n" +__asm__(".text\n" #ifdef __APPLE__ - ".globl __mco_wrap_main\n" - "__mco_wrap_main:\n" + ".globl __mco_wrap_main\n" + "__mco_wrap_main:\n" #else - ".globl _mco_wrap_main\n" - ".type _mco_wrap_main #function\n" - ".hidden _mco_wrap_main\n" - "_mco_wrap_main:\n" + ".globl _mco_wrap_main\n" + ".type _mco_wrap_main #function\n" + ".hidden _mco_wrap_main\n" + "_mco_wrap_main:\n" #endif - " mov r0, r4\n" - " mov ip, r5\n" - " mov lr, r6\n" - " bx ip\n" + " mov r0, r4\n" + " mov ip, r5\n" + " mov lr, r6\n" + " bx ip\n" #ifndef __APPLE__ - ".size _mco_wrap_main, .-_mco_wrap_main\n" + ".size _mco_wrap_main, .-_mco_wrap_main\n" #endif ); -static mco_result _mco_makectx(mco_coro* co, _mco_ctxbuf* ctx, void* stack_base, size_t stack_size) { - ctx->d[0] = (void*)(co); - ctx->d[1] = (void*)(_mco_main); - ctx->d[2] = (void*)(0xdeaddead); /* Dummy return address. */ - ctx->lr = (void*)(_mco_wrap_main); - ctx->sp = (void*)((size_t)stack_base + stack_size); - return MCO_SUCCESS; +static mco_result _mco_makectx(mco_coro* co, _mco_ctxbuf* ctx, void* stack_base, + size_t stack_size) { + ctx->d[0] = (void*)(co); + ctx->d[1] = (void*)(_mco_main); + ctx->d[2] = (void*)(0xdeaddead); /* Dummy return address. */ + ctx->lr = (void*)(_mco_wrap_main); + ctx->sp = (void*)((size_t)stack_base + stack_size); + return MCO_SUCCESS; } #elif defined(__aarch64__) typedef struct _mco_ctxbuf { - void *x[12]; /* x19-x30 */ - void *sp; - void *lr; - void *d[8]; /* d8-d15 */ + void* x[12]; /* x19-x30 */ + void* sp; + void* lr; + void* d[8]; /* d8-d15 */ } _mco_ctxbuf; void _mco_wrap_main(void); int _mco_switch(_mco_ctxbuf* from, _mco_ctxbuf* to); -__asm__( - ".text\n" +__asm__(".text\n" #ifdef __APPLE__ - ".globl __mco_switch\n" - "__mco_switch:\n" + ".globl __mco_switch\n" + "__mco_switch:\n" #else - ".globl _mco_switch\n" - ".type _mco_switch #function\n" - ".hidden _mco_switch\n" - "_mco_switch:\n" + ".globl _mco_switch\n" + ".type _mco_switch #function\n" + ".hidden _mco_switch\n" + "_mco_switch:\n" #endif - " mov x10, sp\n" - " mov x11, x30\n" - " stp x19, x20, [x0, #(0*16)]\n" - " stp x21, x22, [x0, #(1*16)]\n" - " stp d8, d9, [x0, #(7*16)]\n" - " stp x23, x24, [x0, #(2*16)]\n" - " stp d10, d11, [x0, #(8*16)]\n" - " stp x25, x26, [x0, #(3*16)]\n" - " stp d12, d13, [x0, #(9*16)]\n" - " stp x27, x28, [x0, #(4*16)]\n" - " stp d14, d15, [x0, #(10*16)]\n" - " stp x29, x30, [x0, #(5*16)]\n" - " stp x10, x11, [x0, #(6*16)]\n" - " ldp x19, x20, [x1, #(0*16)]\n" - " ldp x21, x22, [x1, #(1*16)]\n" - " ldp d8, d9, [x1, #(7*16)]\n" - " ldp x23, x24, [x1, #(2*16)]\n" - " ldp d10, d11, [x1, #(8*16)]\n" - " ldp x25, x26, [x1, #(3*16)]\n" - " ldp d12, d13, [x1, #(9*16)]\n" - " ldp x27, x28, [x1, #(4*16)]\n" - " ldp d14, d15, [x1, #(10*16)]\n" - " ldp x29, x30, [x1, #(5*16)]\n" - " ldp x10, x11, [x1, #(6*16)]\n" - " mov sp, x10\n" - " br x11\n" + " mov x10, sp\n" + " mov x11, x30\n" + " stp x19, x20, [x0, #(0*16)]\n" + " stp x21, x22, [x0, #(1*16)]\n" + " stp d8, d9, [x0, #(7*16)]\n" + " stp x23, x24, [x0, #(2*16)]\n" + " stp d10, d11, [x0, #(8*16)]\n" + " stp x25, x26, [x0, #(3*16)]\n" + " stp d12, d13, [x0, #(9*16)]\n" + " stp x27, x28, [x0, #(4*16)]\n" + " stp d14, d15, [x0, #(10*16)]\n" + " stp x29, x30, [x0, #(5*16)]\n" + " stp x10, x11, [x0, #(6*16)]\n" + " ldp x19, x20, [x1, #(0*16)]\n" + " ldp x21, x22, [x1, #(1*16)]\n" + " ldp d8, d9, [x1, #(7*16)]\n" + " ldp x23, x24, [x1, #(2*16)]\n" + " ldp d10, d11, [x1, #(8*16)]\n" + " ldp x25, x26, [x1, #(3*16)]\n" + " ldp d12, d13, [x1, #(9*16)]\n" + " ldp x27, x28, [x1, #(4*16)]\n" + " ldp d14, d15, [x1, #(10*16)]\n" + " ldp x29, x30, [x1, #(5*16)]\n" + " ldp x10, x11, [x1, #(6*16)]\n" + " mov sp, x10\n" + " br x11\n" #ifndef __APPLE__ - ".size _mco_switch, .-_mco_switch\n" + ".size _mco_switch, .-_mco_switch\n" #endif ); -__asm__( - ".text\n" +__asm__(".text\n" #ifdef __APPLE__ - ".globl __mco_wrap_main\n" - "__mco_wrap_main:\n" + ".globl __mco_wrap_main\n" + "__mco_wrap_main:\n" #else - ".globl _mco_wrap_main\n" - ".type _mco_wrap_main #function\n" - ".hidden _mco_wrap_main\n" - "_mco_wrap_main:\n" + ".globl _mco_wrap_main\n" + ".type _mco_wrap_main #function\n" + ".hidden _mco_wrap_main\n" + "_mco_wrap_main:\n" #endif - " mov x0, x19\n" - " mov x30, x21\n" - " br x20\n" + " mov x0, x19\n" + " mov x30, x21\n" + " br x20\n" #ifndef __APPLE__ - ".size _mco_wrap_main, .-_mco_wrap_main\n" + ".size _mco_wrap_main, .-_mco_wrap_main\n" #endif ); -static mco_result _mco_makectx(mco_coro* co, _mco_ctxbuf* ctx, void* stack_base, size_t stack_size) { - ctx->x[0] = (void*)(co); - ctx->x[1] = (void*)(_mco_main); - ctx->x[2] = (void*)(0xdeaddeaddeaddead); /* Dummy return address. */ - ctx->sp = (void*)((size_t)stack_base + stack_size); - ctx->lr = (void*)(_mco_wrap_main); - return MCO_SUCCESS; +static mco_result _mco_makectx(mco_coro* co, _mco_ctxbuf* ctx, void* stack_base, + size_t stack_size) { + ctx->x[0] = (void*)(co); + ctx->x[1] = (void*)(_mco_main); + ctx->x[2] = (void*)(0xdeaddeaddeaddead); /* Dummy return address. */ + ctx->sp = (void*)((size_t)stack_base + stack_size); + ctx->lr = (void*)(_mco_wrap_main); + return MCO_SUCCESS; } #else @@ -1264,39 +1302,41 @@ typedef ucontext_t _mco_ctxbuf; #if defined(_LP64) || defined(__LP64__) static void _mco_wrap_main(unsigned int lo, unsigned int hi) { - mco_coro* co = (mco_coro*)(((size_t)lo) | (((size_t)hi) << 32)); /* Extract coroutine pointer. */ - _mco_main(co); + mco_coro* co = + (mco_coro*)(((size_t)lo) | (((size_t)hi) << 32)); /* Extract coroutine pointer. */ + _mco_main(co); } #else static void _mco_wrap_main(unsigned int lo) { - mco_coro* co = (mco_coro*)((size_t)lo); /* Extract coroutine pointer. */ - _mco_main(co); + mco_coro* co = (mco_coro*)((size_t)lo); /* Extract coroutine pointer. */ + _mco_main(co); } #endif static MCO_FORCE_INLINE void _mco_switch(_mco_ctxbuf* from, _mco_ctxbuf* to) { - int res = swapcontext(from, to); - _MCO_UNUSED(res); - MCO_ASSERT(res == 0); + int res = swapcontext(from, to); + _MCO_UNUSED(res); + MCO_ASSERT(res == 0); } -static mco_result _mco_makectx(mco_coro* co, _mco_ctxbuf* ctx, void* stack_base, size_t stack_size) { - /* Initialize ucontext. */ - if(getcontext(ctx) != 0) { - MCO_LOG("failed to get ucontext"); - return MCO_MAKE_CONTEXT_ERROR; - } - ctx->uc_link = NULL; /* We never exit from _mco_wrap_main. */ - ctx->uc_stack.ss_sp = stack_base; - ctx->uc_stack.ss_size = stack_size; - unsigned int lo = (unsigned int)((size_t)co); +static mco_result _mco_makectx(mco_coro* co, _mco_ctxbuf* ctx, void* stack_base, + size_t stack_size) { + /* Initialize ucontext. */ + if (getcontext(ctx) != 0) { + MCO_LOG("failed to get ucontext"); + return MCO_MAKE_CONTEXT_ERROR; + } + ctx->uc_link = NULL; /* We never exit from _mco_wrap_main. */ + ctx->uc_stack.ss_sp = stack_base; + ctx->uc_stack.ss_size = stack_size; + unsigned int lo = (unsigned int)((size_t)co); #if defined(_LP64) || defined(__LP64__) - unsigned int hi = (unsigned int)(((size_t)co)>>32); - makecontext(ctx, (void (*)(void))_mco_wrap_main, 2, lo, hi); + unsigned int hi = (unsigned int)(((size_t)co) >> 32); + makecontext(ctx, (void (*)(void))_mco_wrap_main, 2, lo, hi); #else - makecontext(ctx, (void (*)(void))_mco_wrap_main, 1, lo); + makecontext(ctx, (void (*)(void))_mco_wrap_main, 1, lo); #endif - return MCO_SUCCESS; + return MCO_SUCCESS; } #endif /* defined(MCO_USE_UCONTEXT) */ @@ -1307,72 +1347,71 @@ static mco_result _mco_makectx(mco_coro* co, _mco_ctxbuf* ctx, void* stack_base, typedef struct _mco_context { #ifdef MCO_USE_VALGRIND - unsigned int valgrind_stack_id; + unsigned int valgrind_stack_id; #endif - _mco_ctxbuf ctx; - _mco_ctxbuf back_ctx; + _mco_ctxbuf ctx; + _mco_ctxbuf back_ctx; } _mco_context; static void _mco_jumpin(mco_coro* co) { - _mco_context* context = (_mco_context*)co->context; - _mco_prepare_jumpin(co); - _mco_switch(&context->back_ctx, &context->ctx); /* Do the context switch. */ + _mco_context* context = (_mco_context*)co->context; + _mco_prepare_jumpin(co); + _mco_switch(&context->back_ctx, &context->ctx); /* Do the context switch. */ } static void _mco_jumpout(mco_coro* co) { - _mco_context* context = (_mco_context*)co->context; - _mco_prepare_jumpout(co); - _mco_switch(&context->ctx, &context->back_ctx); /* Do the context switch. */ + _mco_context* context = (_mco_context*)co->context; + _mco_prepare_jumpout(co); + _mco_switch(&context->ctx, &context->back_ctx); /* Do the context switch. */ } static mco_result _mco_create_context(mco_coro* co, mco_desc* desc) { - /* Determine the context and stack address. */ - size_t co_addr = (size_t)co; - size_t context_addr = _mco_align_forward(co_addr + sizeof(mco_coro), 16); - size_t storage_addr = _mco_align_forward(context_addr + sizeof(_mco_context), 16); - size_t stack_addr = _mco_align_forward(storage_addr + desc->storage_size, 16); - /* Initialize context. */ - _mco_context* context = (_mco_context*)context_addr; - memset(context, 0, sizeof(_mco_context)); - /* Initialize storage. */ - unsigned char* storage = (unsigned char*)storage_addr; - /* Initialize stack. */ - void *stack_base = (void*)stack_addr; - size_t stack_size = desc->stack_size; - /* Make the context. */ - mco_result res = _mco_makectx(co, &context->ctx, stack_base, stack_size); - if(res != MCO_SUCCESS) { - return res; - } + /* Determine the context and stack address. */ + size_t co_addr = (size_t)co; + size_t context_addr = _mco_align_forward(co_addr + sizeof(mco_coro), 16); + size_t storage_addr = _mco_align_forward(context_addr + sizeof(_mco_context), 16); + size_t stack_addr = _mco_align_forward(storage_addr + desc->storage_size, 16); + /* Initialize context. */ + _mco_context* context = (_mco_context*)context_addr; + memset(context, 0, sizeof(_mco_context)); + /* Initialize storage. */ + unsigned char* storage = (unsigned char*)storage_addr; + /* Initialize stack. */ + void* stack_base = (void*)stack_addr; + size_t stack_size = desc->stack_size; + /* Make the context. */ + mco_result res = _mco_makectx(co, &context->ctx, stack_base, stack_size); + if (res != MCO_SUCCESS) { + return res; + } #ifdef MCO_USE_VALGRIND - context->valgrind_stack_id = VALGRIND_STACK_REGISTER(stack_addr, stack_addr + stack_size); + context->valgrind_stack_id = VALGRIND_STACK_REGISTER(stack_addr, stack_addr + stack_size); #endif - co->context = context; - co->stack_base = stack_base; - co->stack_size = stack_size; - co->storage = storage; - co->storage_size = desc->storage_size; - return MCO_SUCCESS; + co->context = context; + co->stack_base = stack_base; + co->stack_size = stack_size; + co->storage = storage; + co->storage_size = desc->storage_size; + return MCO_SUCCESS; } static void _mco_destroy_context(mco_coro* co) { #ifdef MCO_USE_VALGRIND - _mco_context* context = (_mco_context*)co->context; - if(context && context->valgrind_stack_id != 0) { - VALGRIND_STACK_DEREGISTER(context->valgrind_stack_id); - context->valgrind_stack_id = 0; - } + _mco_context* context = (_mco_context*)co->context; + if (context && context->valgrind_stack_id != 0) { + VALGRIND_STACK_DEREGISTER(context->valgrind_stack_id); + context->valgrind_stack_id = 0; + } #else - _MCO_UNUSED(co); + _MCO_UNUSED(co); #endif } static MCO_FORCE_INLINE void _mco_init_desc_sizes(mco_desc* desc, size_t stack_size) { - desc->coro_size = _mco_align_forward(sizeof(mco_coro), 16) + - _mco_align_forward(sizeof(_mco_context), 16) + - _mco_align_forward(desc->storage_size, 16) + - stack_size + 16; - desc->stack_size = stack_size; /* This is just a hint, it won't be the real one. */ + desc->coro_size = _mco_align_forward(sizeof(mco_coro), 16) + + _mco_align_forward(sizeof(_mco_context), 16) + + _mco_align_forward(desc->storage_size, 16) + stack_size + 16; + desc->stack_size = stack_size; /* This is just a hint, it won't be the real one. */ } #endif /* defined(MCO_USE_UCONTEXT) || defined(MCO_USE_ASM) */ @@ -1384,87 +1423,90 @@ static MCO_FORCE_INLINE void _mco_init_desc_sizes(mco_desc* desc, size_t stack_s #ifdef _WIN32 typedef struct _mco_context { - void* fib; - void* back_fib; + void* fib; + void* back_fib; } _mco_context; static void _mco_jumpin(mco_coro* co) { - void *cur_fib = GetCurrentFiber(); - if(!cur_fib || cur_fib == (void*)0x1e00) { /* See http://blogs.msdn.com/oldnewthing/archive/2004/12/31/344799.aspx */ - cur_fib = ConvertThreadToFiber(NULL); - } - MCO_ASSERT(cur_fib != NULL); - _mco_context* context = (_mco_context*)co->context; - context->back_fib = cur_fib; - _mco_prepare_jumpin(co); - SwitchToFiber(context->fib); + void* cur_fib = GetCurrentFiber(); + if (!cur_fib || + cur_fib == + (void*)0x1e00) { /* See http://blogs.msdn.com/oldnewthing/archive/2004/12/31/344799.aspx + */ + cur_fib = ConvertThreadToFiber(NULL); + } + MCO_ASSERT(cur_fib != NULL); + _mco_context* context = (_mco_context*)co->context; + context->back_fib = cur_fib; + _mco_prepare_jumpin(co); + SwitchToFiber(context->fib); } static void CALLBACK _mco_wrap_main(void* co) { - _mco_main((mco_coro*)co); + _mco_main((mco_coro*)co); } static void _mco_jumpout(mco_coro* co) { - _mco_context* context = (_mco_context*)co->context; - void* back_fib = context->back_fib; - MCO_ASSERT(back_fib != NULL); - context->back_fib = NULL; - _mco_prepare_jumpout(co); - SwitchToFiber(back_fib); + _mco_context* context = (_mco_context*)co->context; + void* back_fib = context->back_fib; + MCO_ASSERT(back_fib != NULL); + context->back_fib = NULL; + _mco_prepare_jumpout(co); + SwitchToFiber(back_fib); } /* Reverse engineered Fiber struct, used to get stack base. */ typedef struct _mco_fiber { - LPVOID param; /* fiber param */ - void* except; /* saved exception handlers list */ - void* stack_base; /* top of fiber stack */ - void* stack_limit; /* fiber stack low-water mark */ - void* stack_allocation; /* base of the fiber stack allocation */ - CONTEXT context; /* fiber context */ - DWORD flags; /* fiber flags */ - LPFIBER_START_ROUTINE start; /* start routine */ - void **fls_slots; /* fiber storage slots */ + LPVOID param; /* fiber param */ + void* except; /* saved exception handlers list */ + void* stack_base; /* top of fiber stack */ + void* stack_limit; /* fiber stack low-water mark */ + void* stack_allocation; /* base of the fiber stack allocation */ + CONTEXT context; /* fiber context */ + DWORD flags; /* fiber flags */ + LPFIBER_START_ROUTINE start; /* start routine */ + void** fls_slots; /* fiber storage slots */ } _mco_fiber; static mco_result _mco_create_context(mco_coro* co, mco_desc* desc) { - /* Determine the context address. */ - size_t co_addr = (size_t)co; - size_t context_addr = _mco_align_forward(co_addr + sizeof(mco_coro), 16); - size_t storage_addr = _mco_align_forward(context_addr + sizeof(_mco_context), 16); - /* Initialize context. */ - _mco_context* context = (_mco_context*)context_addr; - memset(context, 0, sizeof(_mco_context)); - /* Initialize storage. */ - unsigned char* storage = (unsigned char*)storage_addr; - /* Create the fiber. */ - _mco_fiber* fib = (_mco_fiber*)CreateFiberEx(desc->stack_size, desc->stack_size, FIBER_FLAG_FLOAT_SWITCH, _mco_wrap_main, co); - if(!fib) { - MCO_LOG("failed to create fiber"); - return MCO_MAKE_CONTEXT_ERROR; - } - context->fib = fib; - co->context = context; - co->stack_base = (void*)((size_t)fib->stack_base - desc->stack_size); - co->stack_size = desc->stack_size; - co->storage = storage; - co->storage_size = desc->storage_size; - return MCO_SUCCESS; + /* Determine the context address. */ + size_t co_addr = (size_t)co; + size_t context_addr = _mco_align_forward(co_addr + sizeof(mco_coro), 16); + size_t storage_addr = _mco_align_forward(context_addr + sizeof(_mco_context), 16); + /* Initialize context. */ + _mco_context* context = (_mco_context*)context_addr; + memset(context, 0, sizeof(_mco_context)); + /* Initialize storage. */ + unsigned char* storage = (unsigned char*)storage_addr; + /* Create the fiber. */ + _mco_fiber* fib = (_mco_fiber*)CreateFiberEx(desc->stack_size, desc->stack_size, + FIBER_FLAG_FLOAT_SWITCH, _mco_wrap_main, co); + if (!fib) { + MCO_LOG("failed to create fiber"); + return MCO_MAKE_CONTEXT_ERROR; + } + context->fib = fib; + co->context = context; + co->stack_base = (void*)((size_t)fib->stack_base - desc->stack_size); + co->stack_size = desc->stack_size; + co->storage = storage; + co->storage_size = desc->storage_size; + return MCO_SUCCESS; } static void _mco_destroy_context(mco_coro* co) { - _mco_context* context = (_mco_context*)co->context; - if(context && context->fib) { - DeleteFiber(context->fib); - context->fib = NULL; - } + _mco_context* context = (_mco_context*)co->context; + if (context && context->fib) { + DeleteFiber(context->fib); + context->fib = NULL; + } } static MCO_FORCE_INLINE void _mco_init_desc_sizes(mco_desc* desc, size_t stack_size) { - desc->coro_size = _mco_align_forward(sizeof(mco_coro), 16) + - _mco_align_forward(sizeof(_mco_context), 16) + - _mco_align_forward(desc->storage_size, 16) + - 16; - desc->stack_size = stack_size; + desc->coro_size = _mco_align_forward(sizeof(mco_coro), 16) + + _mco_align_forward(sizeof(_mco_context), 16) + + _mco_align_forward(desc->storage_size, 16) + 16; + desc->stack_size = stack_size; } #elif defined(__EMSCRIPTEN__) @@ -1476,8 +1518,8 @@ static MCO_FORCE_INLINE void _mco_init_desc_sizes(mco_desc* desc, size_t stack_s #endif typedef struct _mco_context { - emscripten_fiber_t fib; - emscripten_fiber_t* back_fib; + emscripten_fiber_t fib; + emscripten_fiber_t* back_fib; } _mco_context; static emscripten_fiber_t* running_fib = NULL; @@ -1485,73 +1527,73 @@ static unsigned char main_asyncify_stack[MCO_ASYNCFY_STACK_SIZE]; static emscripten_fiber_t main_fib; static void _mco_wrap_main(void* co) { - _mco_main((mco_coro*)co); + _mco_main((mco_coro*)co); } static void _mco_jumpin(mco_coro* co) { - _mco_context* context = (_mco_context*)co->context; - emscripten_fiber_t* back_fib = running_fib; - if(!back_fib) { - back_fib = &main_fib; - emscripten_fiber_init_from_current_context(back_fib, main_asyncify_stack, MCO_ASYNCFY_STACK_SIZE); - } - running_fib = &context->fib; - context->back_fib = back_fib; - _mco_prepare_jumpin(co); - emscripten_fiber_swap(back_fib, &context->fib); /* Do the context switch. */ + _mco_context* context = (_mco_context*)co->context; + emscripten_fiber_t* back_fib = running_fib; + if (!back_fib) { + back_fib = &main_fib; + emscripten_fiber_init_from_current_context(back_fib, main_asyncify_stack, + MCO_ASYNCFY_STACK_SIZE); + } + running_fib = &context->fib; + context->back_fib = back_fib; + _mco_prepare_jumpin(co); + emscripten_fiber_swap(back_fib, &context->fib); /* Do the context switch. */ } static void _mco_jumpout(mco_coro* co) { - _mco_context* context = (_mco_context*)co->context; - running_fib = context->back_fib; - _mco_prepare_jumpout(co); - emscripten_fiber_swap(&context->fib, context->back_fib); /* Do the context switch. */ + _mco_context* context = (_mco_context*)co->context; + running_fib = context->back_fib; + _mco_prepare_jumpout(co); + emscripten_fiber_swap(&context->fib, context->back_fib); /* Do the context switch. */ } static mco_result _mco_create_context(mco_coro* co, mco_desc* desc) { - if(emscripten_has_asyncify() != 1) { - MCO_LOG("failed to create fiber because ASYNCIFY is not enabled"); - return MCO_MAKE_CONTEXT_ERROR; - } - /* Determine the context address. */ - size_t co_addr = (size_t)co; - size_t context_addr = _mco_align_forward(co_addr + sizeof(mco_coro), 16); - size_t storage_addr = _mco_align_forward(context_addr + sizeof(_mco_context), 16); - size_t stack_addr = _mco_align_forward(storage_addr + desc->storage_size, 16); - size_t asyncify_stack_addr = _mco_align_forward(stack_addr + desc->stack_size, 16); - /* Initialize context. */ - _mco_context* context = (_mco_context*)context_addr; - memset(context, 0, sizeof(_mco_context)); - /* Initialize storage. */ - unsigned char* storage = (unsigned char*)storage_addr; - /* Initialize stack. */ - void *stack_base = (void*)stack_addr; - size_t stack_size = asyncify_stack_addr - stack_addr; - void *asyncify_stack_base = (void*)asyncify_stack_addr; - size_t asyncify_stack_size = co_addr + desc->coro_size - asyncify_stack_addr; - /* Create the fiber. */ - emscripten_fiber_init(&context->fib, _mco_wrap_main, co, stack_base, stack_size, asyncify_stack_base, asyncify_stack_size); - co->context = context; - co->stack_base = stack_base; - co->stack_size = stack_size; - co->storage = storage; - co->storage_size = desc->storage_size; - return MCO_SUCCESS; + if (emscripten_has_asyncify() != 1) { + MCO_LOG("failed to create fiber because ASYNCIFY is not enabled"); + return MCO_MAKE_CONTEXT_ERROR; + } + /* Determine the context address. */ + size_t co_addr = (size_t)co; + size_t context_addr = _mco_align_forward(co_addr + sizeof(mco_coro), 16); + size_t storage_addr = _mco_align_forward(context_addr + sizeof(_mco_context), 16); + size_t stack_addr = _mco_align_forward(storage_addr + desc->storage_size, 16); + size_t asyncify_stack_addr = _mco_align_forward(stack_addr + desc->stack_size, 16); + /* Initialize context. */ + _mco_context* context = (_mco_context*)context_addr; + memset(context, 0, sizeof(_mco_context)); + /* Initialize storage. */ + unsigned char* storage = (unsigned char*)storage_addr; + /* Initialize stack. */ + void* stack_base = (void*)stack_addr; + size_t stack_size = asyncify_stack_addr - stack_addr; + void* asyncify_stack_base = (void*)asyncify_stack_addr; + size_t asyncify_stack_size = co_addr + desc->coro_size - asyncify_stack_addr; + /* Create the fiber. */ + emscripten_fiber_init(&context->fib, _mco_wrap_main, co, stack_base, stack_size, + asyncify_stack_base, asyncify_stack_size); + co->context = context; + co->stack_base = stack_base; + co->stack_size = stack_size; + co->storage = storage; + co->storage_size = desc->storage_size; + return MCO_SUCCESS; } static void _mco_destroy_context(mco_coro* co) { - /* Nothing to do. */ - _MCO_UNUSED(co); + /* Nothing to do. */ + _MCO_UNUSED(co); } static MCO_FORCE_INLINE void _mco_init_desc_sizes(mco_desc* desc, size_t stack_size) { - desc->coro_size = _mco_align_forward(sizeof(mco_coro), 16) + - _mco_align_forward(sizeof(_mco_context), 16) + - _mco_align_forward(desc->storage_size, 16) + - _mco_align_forward(stack_size, 16) + - _mco_align_forward(MCO_ASYNCFY_STACK_SIZE, 16) + - 16; - desc->stack_size = stack_size; /* This is just a hint, it won't be the real one. */ + desc->coro_size = + _mco_align_forward(sizeof(mco_coro), 16) + _mco_align_forward(sizeof(_mco_context), 16) + + _mco_align_forward(desc->storage_size, 16) + _mco_align_forward(stack_size, 16) + + _mco_align_forward(MCO_ASYNCFY_STACK_SIZE, 16) + 16; + desc->stack_size = stack_size; /* This is just a hint, it won't be the real one. */ } #else @@ -1567,90 +1609,91 @@ static MCO_FORCE_INLINE void _mco_init_desc_sizes(mco_desc* desc, size_t stack_s #ifdef MCO_USE_ASYNCIFY typedef struct _asyncify_stack_region { - void* start; - void* limit; + void* start; + void* limit; } _asyncify_stack_region; typedef struct _mco_context { - int rewind_id; - _asyncify_stack_region stack_region; + int rewind_id; + _asyncify_stack_region stack_region; } _mco_context; -__attribute__((import_module("asyncify"), import_name("start_unwind"))) void _asyncify_start_unwind(void*); -__attribute__((import_module("asyncify"), import_name("stop_unwind"))) void _asyncify_stop_unwind(); -__attribute__((import_module("asyncify"), import_name("start_rewind"))) void _asyncify_start_rewind(void*); -__attribute__((import_module("asyncify"), import_name("stop_rewind"))) void _asyncify_stop_rewind(); +__attribute__((import_module("asyncify"), import_name("start_unwind"))) void _asyncify_start_unwind( + void*); +__attribute__((import_module("asyncify"), import_name("stop_unwind"))) void _asyncify_stop_unwind(); +__attribute__((import_module("asyncify"), import_name("start_rewind"))) void _asyncify_start_rewind( + void*); +__attribute__((import_module("asyncify"), import_name("stop_rewind"))) void _asyncify_stop_rewind(); MCO_NO_INLINE void _mco_jumpin(mco_coro* co) { - _mco_context* context = (_mco_context*)co->context; - _mco_prepare_jumpin(co); - if(context->rewind_id > 0) { /* Begin rewinding until last yield point. */ - _asyncify_start_rewind(&context->stack_region); - } - _mco_main(co); /* Run the coroutine function. */ - _asyncify_stop_unwind(); /* Stop saving coroutine stack. */ + _mco_context* context = (_mco_context*)co->context; + _mco_prepare_jumpin(co); + if (context->rewind_id > 0) { /* Begin rewinding until last yield point. */ + _asyncify_start_rewind(&context->stack_region); + } + _mco_main(co); /* Run the coroutine function. */ + _asyncify_stop_unwind(); /* Stop saving coroutine stack. */ } static MCO_NO_INLINE void _mco_finish_jumpout(mco_coro* co, volatile int rewind_id) { - _mco_context* context = (_mco_context*)co->context; - int next_rewind_id = context->rewind_id + 1; - if(rewind_id == next_rewind_id) { /* Begins unwinding the stack (save locals and call stack to rewind later) */ - _mco_prepare_jumpout(co); - context->rewind_id = next_rewind_id; - _asyncify_start_unwind(&context->stack_region); - } else if(rewind_id == context->rewind_id) { /* Continue from yield point. */ - _asyncify_stop_rewind(); - } - /* Otherwise, we should be rewinding, let it continue... */ + _mco_context* context = (_mco_context*)co->context; + int next_rewind_id = context->rewind_id + 1; + if (rewind_id == next_rewind_id) { /* Begins unwinding the stack (save locals and call stack to + rewind later) */ + _mco_prepare_jumpout(co); + context->rewind_id = next_rewind_id; + _asyncify_start_unwind(&context->stack_region); + } else if (rewind_id == context->rewind_id) { /* Continue from yield point. */ + _asyncify_stop_rewind(); + } + /* Otherwise, we should be rewinding, let it continue... */ } MCO_NO_INLINE void _mco_jumpout(mco_coro* co) { - _mco_context* context = (_mco_context*)co->context; - /* - Save rewind point into a local, that should be restored when rewinding. - That is "rewind_id != co->rewind_id + 1" may be true when rewinding. - Use volatile here just to be safe from compiler optimizing this out. - */ - volatile int rewind_id = context->rewind_id + 1; - _mco_finish_jumpout(co, rewind_id); + _mco_context* context = (_mco_context*)co->context; + /* + Save rewind point into a local, that should be restored when rewinding. + That is "rewind_id != co->rewind_id + 1" may be true when rewinding. + Use volatile here just to be safe from compiler optimizing this out. + */ + volatile int rewind_id = context->rewind_id + 1; + _mco_finish_jumpout(co, rewind_id); } static mco_result _mco_create_context(mco_coro* co, mco_desc* desc) { - /* Determine the context address. */ - size_t co_addr = (size_t)co; - size_t context_addr = _mco_align_forward(co_addr + sizeof(mco_coro), 16); - size_t storage_addr = _mco_align_forward(context_addr + sizeof(_mco_context), 16); - size_t stack_addr = _mco_align_forward(storage_addr + desc->storage_size, 16); - /* Initialize context. */ - _mco_context* context = (_mco_context*)context_addr; - memset(context, 0, sizeof(_mco_context)); - /* Initialize storage. */ - unsigned char* storage = (unsigned char*)storage_addr; - /* Initialize stack. */ - void *stack_base = (void*)stack_addr; - size_t stack_size = desc->stack_size; - context->stack_region.start = stack_base; - context->stack_region.limit = (void*)((size_t)stack_base + stack_size); - co->context = context; - co->stack_base = stack_base; - co->stack_size = stack_size; - co->storage = storage; - co->storage_size = desc->storage_size; - return MCO_SUCCESS; + /* Determine the context address. */ + size_t co_addr = (size_t)co; + size_t context_addr = _mco_align_forward(co_addr + sizeof(mco_coro), 16); + size_t storage_addr = _mco_align_forward(context_addr + sizeof(_mco_context), 16); + size_t stack_addr = _mco_align_forward(storage_addr + desc->storage_size, 16); + /* Initialize context. */ + _mco_context* context = (_mco_context*)context_addr; + memset(context, 0, sizeof(_mco_context)); + /* Initialize storage. */ + unsigned char* storage = (unsigned char*)storage_addr; + /* Initialize stack. */ + void* stack_base = (void*)stack_addr; + size_t stack_size = desc->stack_size; + context->stack_region.start = stack_base; + context->stack_region.limit = (void*)((size_t)stack_base + stack_size); + co->context = context; + co->stack_base = stack_base; + co->stack_size = stack_size; + co->storage = storage; + co->storage_size = desc->storage_size; + return MCO_SUCCESS; } static void _mco_destroy_context(mco_coro* co) { - /* Nothing to do. */ - _MCO_UNUSED(co); + /* Nothing to do. */ + _MCO_UNUSED(co); } static MCO_FORCE_INLINE void _mco_init_desc_sizes(mco_desc* desc, size_t stack_size) { - desc->coro_size = _mco_align_forward(sizeof(mco_coro), 16) + - _mco_align_forward(sizeof(_mco_context), 16) + - _mco_align_forward(desc->storage_size, 16) + - _mco_align_forward(stack_size, 16) + - 16; - desc->stack_size = stack_size; /* This is just a hint, it won't be the real one. */ + desc->coro_size = + _mco_align_forward(sizeof(mco_coro), 16) + _mco_align_forward(sizeof(_mco_context), 16) + + _mco_align_forward(desc->storage_size, 16) + _mco_align_forward(stack_size, 16) + 16; + desc->stack_size = stack_size; /* This is just a hint, it won't be the real one. */ } #endif /* MCO_USE_ASYNCIFY */ @@ -1658,322 +1701,323 @@ static MCO_FORCE_INLINE void _mco_init_desc_sizes(mco_desc* desc, size_t stack_s /* ---------------------------------------------------------------------------------------------- */ mco_desc mco_desc_init(void (*func)(mco_coro* co), size_t stack_size) { - if(stack_size != 0) { - /* Stack size should be at least `MCO_MIN_STACK_SIZE`. */ - if(stack_size < MCO_MIN_STACK_SIZE) { - stack_size = MCO_MIN_STACK_SIZE; + if (stack_size != 0) { + /* Stack size should be at least `MCO_MIN_STACK_SIZE`. */ + if (stack_size < MCO_MIN_STACK_SIZE) { + stack_size = MCO_MIN_STACK_SIZE; + } + } else { + stack_size = MCO_DEFAULT_STACK_SIZE; } - } else { - stack_size = MCO_DEFAULT_STACK_SIZE; - } - stack_size = _mco_align_forward(stack_size, 16); /* Stack size should be aligned to 16 bytes. */ - mco_desc desc; - memset(&desc, 0, sizeof(mco_desc)); + stack_size = _mco_align_forward(stack_size, 16); /* Stack size should be aligned to 16 bytes. */ + mco_desc desc; + memset(&desc, 0, sizeof(mco_desc)); #ifndef MCO_NO_DEFAULT_ALLOCATOR - /* Set default allocators. */ - desc.alloc_cb = mco_alloc; - desc.dealloc_cb = mco_dealloc; + /* Set default allocators. */ + desc.alloc_cb = mco_alloc; + desc.dealloc_cb = mco_dealloc; #endif - desc.func = func; - desc.storage_size = MCO_DEFAULT_STORAGE_SIZE; - _mco_init_desc_sizes(&desc, stack_size); - return desc; + desc.func = func; + desc.storage_size = MCO_DEFAULT_STORAGE_SIZE; + _mco_init_desc_sizes(&desc, stack_size); + return desc; } static mco_result _mco_validate_desc(mco_desc* desc) { - if(!desc) { - MCO_LOG("coroutine description is NULL"); - return MCO_INVALID_ARGUMENTS; - } - if(!desc->func) { - MCO_LOG("coroutine function in invalid"); - return MCO_INVALID_ARGUMENTS; - } - if(desc->stack_size < MCO_MIN_STACK_SIZE) { - MCO_LOG("coroutine stack size is too small"); - return MCO_INVALID_ARGUMENTS; - } - if(desc->coro_size < sizeof(mco_coro)) { - MCO_LOG("coroutine size is invalid"); - return MCO_INVALID_ARGUMENTS; - } - return MCO_SUCCESS; + if (!desc) { + MCO_LOG("coroutine description is NULL"); + return MCO_INVALID_ARGUMENTS; + } + if (!desc->func) { + MCO_LOG("coroutine function in invalid"); + return MCO_INVALID_ARGUMENTS; + } + if (desc->stack_size < MCO_MIN_STACK_SIZE) { + MCO_LOG("coroutine stack size is too small"); + return MCO_INVALID_ARGUMENTS; + } + if (desc->coro_size < sizeof(mco_coro)) { + MCO_LOG("coroutine size is invalid"); + return MCO_INVALID_ARGUMENTS; + } + return MCO_SUCCESS; } mco_result mco_init(mco_coro* co, mco_desc* desc) { - if(!co) { - MCO_LOG("attempt to initialize an invalid coroutine"); - return MCO_INVALID_COROUTINE; - } - memset(co, 0, sizeof(mco_coro)); - /* Validate coroutine description. */ - mco_result res = _mco_validate_desc(desc); - if(res != MCO_SUCCESS) - return res; - /* Create the coroutine. */ - res = _mco_create_context(co, desc); - if(res != MCO_SUCCESS) - return res; - co->state = MCO_SUSPENDED; /* We initialize in suspended state. */ - co->dealloc_cb = desc->dealloc_cb; - co->coro_size = desc->coro_size; - co->allocator_data = desc->allocator_data; - co->func = desc->func; - co->user_data = desc->user_data; + if (!co) { + MCO_LOG("attempt to initialize an invalid coroutine"); + return MCO_INVALID_COROUTINE; + } + memset(co, 0, sizeof(mco_coro)); + /* Validate coroutine description. */ + mco_result res = _mco_validate_desc(desc); + if (res != MCO_SUCCESS) + return res; + /* Create the coroutine. */ + res = _mco_create_context(co, desc); + if (res != MCO_SUCCESS) + return res; + co->state = MCO_SUSPENDED; /* We initialize in suspended state. */ + co->dealloc_cb = desc->dealloc_cb; + co->coro_size = desc->coro_size; + co->allocator_data = desc->allocator_data; + co->func = desc->func; + co->user_data = desc->user_data; #ifdef _MCO_USE_TSAN - co->tsan_fiber = __tsan_create_fiber(0); + co->tsan_fiber = __tsan_create_fiber(0); #endif - co->magic_number = MCO_MAGIC_NUMBER; - return MCO_SUCCESS; + co->magic_number = MCO_MAGIC_NUMBER; + return MCO_SUCCESS; } mco_result mco_uninit(mco_coro* co) { - if(!co) { - MCO_LOG("attempt to uninitialize an invalid coroutine"); - return MCO_INVALID_COROUTINE; - } - /* Cannot uninitialize while running. */ - if(!(co->state == MCO_SUSPENDED || co->state == MCO_DEAD)) { - MCO_LOG("attempt to uninitialize a coroutine that is not dead or suspended"); - return MCO_INVALID_OPERATION; - } - /* The coroutine is now dead and cannot be used anymore. */ - co->state = MCO_DEAD; + if (!co) { + MCO_LOG("attempt to uninitialize an invalid coroutine"); + return MCO_INVALID_COROUTINE; + } + /* Cannot uninitialize while running. */ + if (!(co->state == MCO_SUSPENDED || co->state == MCO_DEAD)) { + MCO_LOG("attempt to uninitialize a coroutine that is not dead or suspended"); + return MCO_INVALID_OPERATION; + } + /* The coroutine is now dead and cannot be used anymore. */ + co->state = MCO_DEAD; #ifdef _MCO_USE_TSAN - if(co->tsan_fiber != NULL) { - __tsan_destroy_fiber(co->tsan_fiber); - co->tsan_fiber = NULL; - } + if (co->tsan_fiber != NULL) { + __tsan_destroy_fiber(co->tsan_fiber); + co->tsan_fiber = NULL; + } #endif - _mco_destroy_context(co); - return MCO_SUCCESS; + _mco_destroy_context(co); + return MCO_SUCCESS; } mco_result mco_create(mco_coro** out_co, mco_desc* desc) { - /* Validate input. */ - if(!out_co) { - MCO_LOG("coroutine output pointer is NULL"); - return MCO_INVALID_POINTER; - } - if(!desc || !desc->alloc_cb || !desc->dealloc_cb) { - *out_co = NULL; - MCO_LOG("coroutine allocator description is not set"); - return MCO_INVALID_ARGUMENTS; - } - /* Allocate the coroutine. */ - mco_coro* co = (mco_coro*)desc->alloc_cb(desc->coro_size, desc->allocator_data); - if(!co) { - MCO_LOG("coroutine allocation failed"); - *out_co = NULL; - return MCO_OUT_OF_MEMORY; - } - /* Initialize the coroutine. */ - mco_result res = mco_init(co, desc); - if(res != MCO_SUCCESS) { - desc->dealloc_cb(co, desc->coro_size, desc->allocator_data); - *out_co = NULL; - return res; - } - *out_co = co; - return MCO_SUCCESS; + /* Validate input. */ + if (!out_co) { + MCO_LOG("coroutine output pointer is NULL"); + return MCO_INVALID_POINTER; + } + if (!desc || !desc->alloc_cb || !desc->dealloc_cb) { + *out_co = NULL; + MCO_LOG("coroutine allocator description is not set"); + return MCO_INVALID_ARGUMENTS; + } + /* Allocate the coroutine. */ + mco_coro* co = (mco_coro*)desc->alloc_cb(desc->coro_size, desc->allocator_data); + if (!co) { + MCO_LOG("coroutine allocation failed"); + *out_co = NULL; + return MCO_OUT_OF_MEMORY; + } + /* Initialize the coroutine. */ + mco_result res = mco_init(co, desc); + if (res != MCO_SUCCESS) { + desc->dealloc_cb(co, desc->coro_size, desc->allocator_data); + *out_co = NULL; + return res; + } + *out_co = co; + return MCO_SUCCESS; } mco_result mco_destroy(mco_coro* co) { - if(!co) { - MCO_LOG("attempt to destroy an invalid coroutine"); - return MCO_INVALID_COROUTINE; - } - /* Uninitialize the coroutine first. */ - mco_result res = mco_uninit(co); - if(res != MCO_SUCCESS) - return res; - /* Free the coroutine. */ - if(!co->dealloc_cb) { - MCO_LOG("attempt destroy a coroutine that has no free callback"); - return MCO_INVALID_POINTER; - } - co->dealloc_cb(co, co->coro_size, co->allocator_data); - return MCO_SUCCESS; + if (!co) { + MCO_LOG("attempt to destroy an invalid coroutine"); + return MCO_INVALID_COROUTINE; + } + /* Uninitialize the coroutine first. */ + mco_result res = mco_uninit(co); + if (res != MCO_SUCCESS) + return res; + /* Free the coroutine. */ + if (!co->dealloc_cb) { + MCO_LOG("attempt destroy a coroutine that has no free callback"); + return MCO_INVALID_POINTER; + } + co->dealloc_cb(co, co->coro_size, co->allocator_data); + return MCO_SUCCESS; } mco_result mco_resume(mco_coro* co) { - if(!co) { - MCO_LOG("attempt to resume an invalid coroutine"); - return MCO_INVALID_COROUTINE; - } - if(co->state != MCO_SUSPENDED) { /* Can only resume coroutines that are suspended. */ - MCO_LOG("attempt to resume a coroutine that is not suspended"); - return MCO_NOT_SUSPENDED; - } - co->state = MCO_RUNNING; /* The coroutine is now running. */ - _mco_jumpin(co); - return MCO_SUCCESS; + if (!co) { + MCO_LOG("attempt to resume an invalid coroutine"); + return MCO_INVALID_COROUTINE; + } + if (co->state != MCO_SUSPENDED) { /* Can only resume coroutines that are suspended. */ + MCO_LOG("attempt to resume a coroutine that is not suspended"); + return MCO_NOT_SUSPENDED; + } + co->state = MCO_RUNNING; /* The coroutine is now running. */ + _mco_jumpin(co); + return MCO_SUCCESS; } mco_result mco_yield(mco_coro* co) { - if(!co) { - MCO_LOG("attempt to yield an invalid coroutine"); - return MCO_INVALID_COROUTINE; - } + if (!co) { + MCO_LOG("attempt to yield an invalid coroutine"); + return MCO_INVALID_COROUTINE; + } #ifdef MCO_USE_ASYNCIFY - /* Asyncify already checks for stack overflow. */ + /* Asyncify already checks for stack overflow. */ #else - /* This check happens when the stack overflow already happened, but better later than never. */ - volatile size_t dummy; - size_t stack_addr = (size_t)&dummy; - size_t stack_min = (size_t)co->stack_base; - size_t stack_max = stack_min + co->stack_size; - if(co->magic_number != MCO_MAGIC_NUMBER || stack_addr < stack_min || stack_addr > stack_max) { /* Stack overflow. */ - MCO_LOG("coroutine stack overflow, try increasing the stack size"); - return MCO_STACK_OVERFLOW; - } + /* This check happens when the stack overflow already happened, but better later than never. */ + volatile size_t dummy; + size_t stack_addr = (size_t)&dummy; + size_t stack_min = (size_t)co->stack_base; + size_t stack_max = stack_min + co->stack_size; + if (co->magic_number != MCO_MAGIC_NUMBER || stack_addr < stack_min || + stack_addr > stack_max) { /* Stack overflow. */ + MCO_LOG("coroutine stack overflow, try increasing the stack size"); + return MCO_STACK_OVERFLOW; + } #endif - if(co->state != MCO_RUNNING) { /* Can only yield coroutines that are running. */ - MCO_LOG("attempt to yield a coroutine that is not running"); - return MCO_NOT_RUNNING; - } - co->state = MCO_SUSPENDED; /* The coroutine is now suspended. */ - _mco_jumpout(co); - return MCO_SUCCESS; + if (co->state != MCO_RUNNING) { /* Can only yield coroutines that are running. */ + MCO_LOG("attempt to yield a coroutine that is not running"); + return MCO_NOT_RUNNING; + } + co->state = MCO_SUSPENDED; /* The coroutine is now suspended. */ + _mco_jumpout(co); + return MCO_SUCCESS; } mco_state mco_status(mco_coro* co) { - if(co != NULL) { - return co->state; - } - return MCO_DEAD; + if (co != NULL) { + return co->state; + } + return MCO_DEAD; } void* mco_get_user_data(mco_coro* co) { - if(co != NULL) { - return co->user_data; - } - return NULL; + if (co != NULL) { + return co->user_data; + } + return NULL; } mco_result mco_push(mco_coro* co, const void* src, size_t len) { - if(!co) { - MCO_LOG("attempt to use an invalid coroutine"); - return MCO_INVALID_COROUTINE; - } else if(len > 0) { - size_t bytes_stored = co->bytes_stored + len; - if(bytes_stored > co->storage_size) { - MCO_LOG("attempt to push too many bytes into coroutine storage"); - return MCO_NOT_ENOUGH_SPACE; + if (!co) { + MCO_LOG("attempt to use an invalid coroutine"); + return MCO_INVALID_COROUTINE; + } else if (len > 0) { + size_t bytes_stored = co->bytes_stored + len; + if (bytes_stored > co->storage_size) { + MCO_LOG("attempt to push too many bytes into coroutine storage"); + return MCO_NOT_ENOUGH_SPACE; + } + if (!src) { + MCO_LOG("attempt push a null pointer into coroutine storage"); + return MCO_INVALID_POINTER; + } + memcpy(&co->storage[co->bytes_stored], src, len); + co->bytes_stored = bytes_stored; } - if(!src) { - MCO_LOG("attempt push a null pointer into coroutine storage"); - return MCO_INVALID_POINTER; - } - memcpy(&co->storage[co->bytes_stored], src, len); - co->bytes_stored = bytes_stored; - } - return MCO_SUCCESS; + return MCO_SUCCESS; } mco_result mco_pop(mco_coro* co, void* dest, size_t len) { - if(!co) { - MCO_LOG("attempt to use an invalid coroutine"); - return MCO_INVALID_COROUTINE; - } else if(len > 0) { - if(len > co->bytes_stored) { - MCO_LOG("attempt to pop too many bytes from coroutine storage"); - return MCO_NOT_ENOUGH_SPACE; - } - size_t bytes_stored = co->bytes_stored - len; - if(dest) { - memcpy(dest, &co->storage[bytes_stored], len); - } - co->bytes_stored = bytes_stored; + if (!co) { + MCO_LOG("attempt to use an invalid coroutine"); + return MCO_INVALID_COROUTINE; + } else if (len > 0) { + if (len > co->bytes_stored) { + MCO_LOG("attempt to pop too many bytes from coroutine storage"); + return MCO_NOT_ENOUGH_SPACE; + } + size_t bytes_stored = co->bytes_stored - len; + if (dest) { + memcpy(dest, &co->storage[bytes_stored], len); + } + co->bytes_stored = bytes_stored; #ifdef MCO_ZERO_MEMORY - /* Clear garbage in the discarded storage. */ - memset(&co->storage[bytes_stored], 0, len); + /* Clear garbage in the discarded storage. */ + memset(&co->storage[bytes_stored], 0, len); #endif - } - return MCO_SUCCESS; + } + return MCO_SUCCESS; } mco_result mco_peek(mco_coro* co, void* dest, size_t len) { - if(!co) { - MCO_LOG("attempt to use an invalid coroutine"); - return MCO_INVALID_COROUTINE; - } else if(len > 0) { - if(len > co->bytes_stored) { - MCO_LOG("attempt to peek too many bytes from coroutine storage"); - return MCO_NOT_ENOUGH_SPACE; + if (!co) { + MCO_LOG("attempt to use an invalid coroutine"); + return MCO_INVALID_COROUTINE; + } else if (len > 0) { + if (len > co->bytes_stored) { + MCO_LOG("attempt to peek too many bytes from coroutine storage"); + return MCO_NOT_ENOUGH_SPACE; + } + if (!dest) { + MCO_LOG("attempt peek into a null pointer"); + return MCO_INVALID_POINTER; + } + memcpy(dest, &co->storage[co->bytes_stored - len], len); } - if(!dest) { - MCO_LOG("attempt peek into a null pointer"); - return MCO_INVALID_POINTER; - } - memcpy(dest, &co->storage[co->bytes_stored - len], len); - } - return MCO_SUCCESS; + return MCO_SUCCESS; } size_t mco_get_bytes_stored(mco_coro* co) { - if(co == NULL) { - return 0; - } - return co->bytes_stored; + if (co == NULL) { + return 0; + } + return co->bytes_stored; } size_t mco_get_storage_size(mco_coro* co) { - if(co == NULL) { - return 0; - } - return co->storage_size; + if (co == NULL) { + return 0; + } + return co->storage_size; } #ifdef MCO_NO_MULTITHREAD mco_coro* mco_running(void) { - return mco_current_co; + return mco_current_co; } #else static MCO_NO_INLINE mco_coro* _mco_running(void) { - return mco_current_co; + return mco_current_co; } mco_coro* mco_running(void) { - /* - Compilers aggressively optimize the use of TLS by caching loads. - Since fiber code can migrate between threads it’s possible for the load to be stale. - To prevent this from happening we avoid inline functions. - */ - mco_coro* (*volatile func)(void) = _mco_running; - return func(); + /* + Compilers aggressively optimize the use of TLS by caching loads. + Since fiber code can migrate between threads it’s possible for the load to be stale. + To prevent this from happening we avoid inline functions. + */ + mco_coro* (*volatile func)(void) = _mco_running; + return func(); } #endif const char* mco_result_description(mco_result res) { - switch(res) { + switch (res) { case MCO_SUCCESS: - return "No error"; + return "No error"; case MCO_GENERIC_ERROR: - return "Generic error"; + return "Generic error"; case MCO_INVALID_POINTER: - return "Invalid pointer"; + return "Invalid pointer"; case MCO_INVALID_COROUTINE: - return "Invalid coroutine"; + return "Invalid coroutine"; case MCO_NOT_SUSPENDED: - return "Coroutine not suspended"; + return "Coroutine not suspended"; case MCO_NOT_RUNNING: - return "Coroutine not running"; + return "Coroutine not running"; case MCO_MAKE_CONTEXT_ERROR: - return "Make context error"; + return "Make context error"; case MCO_SWITCH_CONTEXT_ERROR: - return "Switch context error"; + return "Switch context error"; case MCO_NOT_ENOUGH_SPACE: - return "Not enough space"; + return "Not enough space"; case MCO_OUT_OF_MEMORY: - return "Out of memory"; + return "Out of memory"; case MCO_INVALID_ARGUMENTS: - return "Invalid arguments"; + return "Invalid arguments"; case MCO_INVALID_OPERATION: - return "Invalid operation"; + return "Invalid operation"; case MCO_STACK_OVERFLOW: - return "Stack overflow"; - } - return "Unknown error"; + return "Stack overflow"; + } + return "Unknown error"; } #ifdef __cplusplus