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# include "common.h"
# include "kernel/vc4_packet.h"
# include "../brcm/cle/v3d_decoder.h"
# include "../brcm/clif/clif_dump.h"
/*
* https : //www.khronos.org/registry/vulkan/specs/1.1-extensions/html/vkspec.html#commandbuffers-pools
* Command pools are opaque objects that command buffer memory is allocated from , and which allow the implementation to amortize the
* cost of resource creation across multiple command buffers . Command pools are externally synchronized , meaning that a command pool must
* not be used concurrently in multiple threads . That includes use via recording commands on any command buffers allocated from the pool ,
* as well as operations that allocate , free , and reset command buffers or the pool itself .
*/
VKAPI_ATTR VkResult VKAPI_CALL vkCreateCommandPool (
VkDevice device ,
const VkCommandPoolCreateInfo * pCreateInfo ,
const VkAllocationCallbacks * pAllocator ,
VkCommandPool * pCommandPool )
{
assert ( device ) ;
assert ( pCreateInfo ) ;
//VK_COMMAND_POOL_CREATE_TRANSIENT_BIT
//specifies that command buffers allocated from the pool will be short-lived, meaning that they will be reset or freed in a relatively short timeframe.
//This flag may be used by the implementation to control memory allocation behavior within the pool.
//--> definitely use pool allocator
//VK_COMMAND_POOL_CREATE_RESET_COMMAND_BUFFER_BIT
//allows any command buffer allocated from a pool to be individually reset to the initial state; either by calling vkResetCommandBuffer, or via the implicit reset when calling vkBeginCommandBuffer.
//If this flag is not set on a pool, then vkResetCommandBuffer must not be called for any command buffer allocated from that pool.
//TODO pool family ignored for now
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_commandPool * cp = ALLOCATE ( sizeof ( _commandPool ) , 1 , VK_SYSTEM_ALLOCATION_SCOPE_OBJECT ) ;
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if ( ! cp )
{
return VK_ERROR_OUT_OF_HOST_MEMORY ;
}
cp - > queueFamilyIndex = pCreateInfo - > queueFamilyIndex ;
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//TODO CTS fails as we can't allocate enough memory for some reason
//tweak system allocation as root using:
//make sure kernel denies memory allocation that it won't be able to serve
//sysctl -w vm.overcommit_memory="2"
//specify after how much memory used the kernel will start denying requests
//sysctl -w vm.overcommit_ratio="80"
//
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//initial number of command buffers to hold
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int numCommandBufs = 128 ;
int consecutivePoolSize = ARM_PAGE_SIZE * 128 ;
int consecutiveBlockSize = ARM_PAGE_SIZE > > 2 ;
static int counter = 0 ;
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//if(pCreateInfo->flags & VK_COMMAND_POOL_CREATE_TRANSIENT_BIT)
{
//use pool allocator
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void * pamem = ALLOCATE ( numCommandBufs * sizeof ( _commandBuffer ) , 1 , VK_SYSTEM_ALLOCATION_SCOPE_OBJECT ) ;
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if ( ! pamem )
{
return VK_ERROR_OUT_OF_HOST_MEMORY ;
}
cp - > pa = createPoolAllocator ( pamem , sizeof ( _commandBuffer ) , numCommandBufs * sizeof ( _commandBuffer ) ) ;
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void * cpamem = ALLOCATE ( consecutivePoolSize , 1 , VK_SYSTEM_ALLOCATION_SCOPE_OBJECT ) ;
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if ( ! cpamem )
{
return VK_ERROR_OUT_OF_HOST_MEMORY ;
}
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cp - > cpa = createConsecutivePoolAllocator ( cpamem , consecutiveBlockSize , consecutivePoolSize ) ;
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}
* pCommandPool = ( VkCommandPool ) cp ;
return VK_SUCCESS ;
}
/*
* https : //www.khronos.org/registry/vulkan/specs/1.1-extensions/html/vkspec.html#commandbuffer-allocation
* vkAllocateCommandBuffers can be used to create multiple command buffers . If the creation of any of those command buffers fails ,
* the implementation must destroy all successfully created command buffer objects from this command , set all entries of the pCommandBuffers array to NULL and return the error .
*/
VKAPI_ATTR VkResult VKAPI_CALL vkAllocateCommandBuffers (
VkDevice device ,
const VkCommandBufferAllocateInfo * pAllocateInfo ,
VkCommandBuffer * pCommandBuffers )
{
assert ( device ) ;
assert ( pAllocateInfo ) ;
assert ( pCommandBuffers ) ;
VkResult res = VK_SUCCESS ;
_commandPool * cp = ( _commandPool * ) pAllocateInfo - > commandPool ;
//if(cp->usePoolAllocator)
{
for ( int c = 0 ; c < pAllocateInfo - > commandBufferCount ; + + c )
{
pCommandBuffers [ c ] = poolAllocate ( & cp - > pa ) ;
if ( ! pCommandBuffers [ c ] )
{
res = VK_ERROR_OUT_OF_HOST_MEMORY ;
break ;
}
pCommandBuffers [ c ] - > shaderRecCount = 0 ;
pCommandBuffers [ c ] - > usageFlags = 0 ;
pCommandBuffers [ c ] - > state = CMDBUF_STATE_INITIAL ;
pCommandBuffers [ c ] - > cp = cp ;
clInit ( & pCommandBuffers [ c ] - > binCl , consecutivePoolAllocate ( & cp - > cpa , 1 ) ) ;
clInit ( & pCommandBuffers [ c ] - > handlesCl , consecutivePoolAllocate ( & cp - > cpa , 1 ) ) ;
clInit ( & pCommandBuffers [ c ] - > shaderRecCl , consecutivePoolAllocate ( & cp - > cpa , 1 ) ) ;
clInit ( & pCommandBuffers [ c ] - > uniformsCl , consecutivePoolAllocate ( & cp - > cpa , 1 ) ) ;
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pCommandBuffers [ c ] - > renderpass = 0 ;
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pCommandBuffers [ c ] - > fbo = 0 ;
pCommandBuffers [ c ] - > currentSubpass = 0 ;
pCommandBuffers [ c ] - > graphicsPipeline = 0 ;
pCommandBuffers [ c ] - > computePipeline = 0 ;
pCommandBuffers [ c ] - > firstDraw = 1 ;
pCommandBuffers [ c ] - > vertexBufferDirty = 1 ;
pCommandBuffers [ c ] - > indexBufferDirty = 1 ;
pCommandBuffers [ c ] - > viewportDirty = 1 ;
pCommandBuffers [ c ] - > lineWidthDirty = 1 ;
pCommandBuffers [ c ] - > depthBiasDirty = 1 ;
pCommandBuffers [ c ] - > graphicsPipelineDirty = 1 ;
pCommandBuffers [ c ] - > computePipelineDirty = 1 ;
pCommandBuffers [ c ] - > subpassDirty = 1 ;
pCommandBuffers [ c ] - > blendConstantsDirty = 1 ;
pCommandBuffers [ c ] - > scissorDirty = 1 ;
pCommandBuffers [ c ] - > depthBoundsDirty = 1 ;
pCommandBuffers [ c ] - > stencilCompareMaskDirty = 1 ;
pCommandBuffers [ c ] - > stencilWriteMaskDirty = 1 ;
pCommandBuffers [ c ] - > stencilReferenceDirty = 1 ;
pCommandBuffers [ c ] - > descriptorSetDirty = 1 ;
pCommandBuffers [ c ] - > pushConstantDirty = 1 ;
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if ( ! pCommandBuffers [ c ] - > binCl . buffer )
{
res = VK_ERROR_OUT_OF_HOST_MEMORY ;
break ;
}
if ( ! pCommandBuffers [ c ] - > handlesCl . buffer )
{
res = VK_ERROR_OUT_OF_HOST_MEMORY ;
break ;
}
if ( ! pCommandBuffers [ c ] - > shaderRecCl . buffer )
{
res = VK_ERROR_OUT_OF_HOST_MEMORY ;
break ;
}
if ( ! pCommandBuffers [ c ] - > uniformsCl . buffer )
{
res = VK_ERROR_OUT_OF_HOST_MEMORY ;
break ;
}
}
}
if ( res ! = VK_SUCCESS )
{
//if(cp->usePoolAllocator)
{
for ( int c = 0 ; c < pAllocateInfo - > commandBufferCount ; + + c )
{
consecutivePoolFree ( & cp - > cpa , & pCommandBuffers [ c ] - > binCl , pCommandBuffers [ c ] - > binCl . numBlocks ) ;
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consecutivePoolFree ( & cp - > cpa , & pCommandBuffers [ c ] - > handlesCl , pCommandBuffers [ c ] - > handlesCl . numBlocks ) ;
consecutivePoolFree ( & cp - > cpa , & pCommandBuffers [ c ] - > shaderRecCl , pCommandBuffers [ c ] - > shaderRecCl . numBlocks ) ;
consecutivePoolFree ( & cp - > cpa , & pCommandBuffers [ c ] - > uniformsCl , pCommandBuffers [ c ] - > uniformsCl . numBlocks ) ;
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poolFree ( & cp - > pa , pCommandBuffers [ c ] ) ;
pCommandBuffers [ c ] = 0 ;
}
}
}
return res ;
}
/*
* https : //www.khronos.org/registry/vulkan/specs/1.1-extensions/html/vkspec.html#vkBeginCommandBuffer
*/
VKAPI_ATTR VkResult VKAPI_CALL vkBeginCommandBuffer (
VkCommandBuffer commandBuffer ,
const VkCommandBufferBeginInfo * pBeginInfo )
{
assert ( commandBuffer ) ;
assert ( pBeginInfo ) ;
//TODO
//VK_COMMAND_BUFFER_USAGE_ONE_TIME_SUBMIT_BIT
//specifies that each recording of the command buffer will only be submitted once, and the command buffer will be reset and recorded again between each submission.
//VK_COMMAND_BUFFER_USAGE_RENDER_PASS_CONTINUE_BIT
//specifies that a secondary command buffer is considered to be entirely inside a render pass. If this is a primary command buffer, then this bit is ignored
//VK_COMMAND_BUFFER_USAGE_SIMULTANEOUS_USE_BIT
//specifies that a command buffer can be resubmitted to a queue while it is in the pending state, and recorded into multiple primary command buffers
//When a command buffer begins recording, all state in that command buffer is undefined
struct drm_vc4_submit_cl submitCl =
{
. color_read . hindex = ~ 0 ,
. zs_read . hindex = ~ 0 ,
. color_write . hindex = ~ 0 ,
. msaa_color_write . hindex = ~ 0 ,
. zs_write . hindex = ~ 0 ,
. msaa_zs_write . hindex = ~ 0 ,
} ;
commandBuffer - > usageFlags = pBeginInfo - > flags ;
commandBuffer - > shaderRecCount = 0 ;
commandBuffer - > state = CMDBUF_STATE_RECORDING ;
commandBuffer - > submitCl = submitCl ;
return VK_SUCCESS ;
}
/*
* https : //www.khronos.org/registry/vulkan/specs/1.1-extensions/html/vkspec.html#vkEndCommandBuffer
* If there was an error during recording , the application will be notified by an unsuccessful return code returned by vkEndCommandBuffer .
* If the application wishes to further use the command buffer , the command buffer must be reset . The command buffer must have been in the recording state ,
* and is moved to the executable state .
*/
VKAPI_ATTR VkResult VKAPI_CALL vkEndCommandBuffer (
VkCommandBuffer commandBuffer )
{
assert ( commandBuffer ) ;
//Increment the semaphore indicating that binning is done and
//unblocking the render thread. Note that this doesn't act
//until the FLUSH completes.
//The FLUSH caps all of our bin lists with a
//VC4_PACKET_RETURN.
clFit ( commandBuffer , & commandBuffer - > binCl , V3D21_INCREMENT_SEMAPHORE_length ) ;
clInsertIncrementSemaphore ( & commandBuffer - > binCl ) ;
clFit ( commandBuffer , & commandBuffer - > binCl , V3D21_FLUSH_length ) ;
clInsertFlush ( & commandBuffer - > binCl ) ;
commandBuffer - > state = CMDBUF_STATE_EXECUTABLE ;
return VK_SUCCESS ;
}
/*
* https : //www.khronos.org/registry/vulkan/specs/1.1-extensions/html/vkspec.html#vkQueueSubmit
* vkQueueSubmit is a queue submission command , with each batch defined by an element of pSubmits as an instance of the VkSubmitInfo structure .
* Batches begin execution in the order they appear in pSubmits , but may complete out of order .
* Fence and semaphore operations submitted with vkQueueSubmit have additional ordering constraints compared to other submission commands ,
* with dependencies involving previous and subsequent queue operations . Information about these additional constraints can be found in the semaphore and
* fence sections of the synchronization chapter .
* Details on the interaction of pWaitDstStageMask with synchronization are described in the semaphore wait operation section of the synchronization chapter .
* The order that batches appear in pSubmits is used to determine submission order , and thus all the implicit ordering guarantees that respect it .
* Other than these implicit ordering guarantees and any explicit synchronization primitives , these batches may overlap or otherwise execute out of order .
* If any command buffer submitted to this queue is in the executable state , it is moved to the pending state . Once execution of all submissions of a command buffer complete ,
* it moves from the pending state , back to the executable state . If a command buffer was recorded with the VK_COMMAND_BUFFER_USAGE_ONE_TIME_SUBMIT_BIT flag ,
* it instead moves back to the invalid state .
* If vkQueueSubmit fails , it may return VK_ERROR_OUT_OF_HOST_MEMORY or VK_ERROR_OUT_OF_DEVICE_MEMORY .
* If it does , the implementation must ensure that the state and contents of any resources or synchronization primitives referenced by the submitted command buffers and any semaphores
* referenced by pSubmits is unaffected by the call or its failure . If vkQueueSubmit fails in such a way that the implementation is unable to make that guarantee ,
* the implementation must return VK_ERROR_DEVICE_LOST . See Lost Device .
*/
VKAPI_ATTR VkResult VKAPI_CALL vkQueueSubmit (
VkQueue queue ,
uint32_t submitCount ,
const VkSubmitInfo * pSubmits ,
VkFence fence )
{
assert ( queue ) ;
for ( int c = 0 ; c < pSubmits - > waitSemaphoreCount ; + + c )
{
sem_wait ( ( sem_t * ) pSubmits - > pWaitSemaphores [ c ] ) ;
}
//TODO: deal with pSubmits->pWaitDstStageMask
//TODO wait for fence??
for ( int c = 0 ; c < pSubmits - > commandBufferCount ; + + c )
{
if ( pSubmits - > pCommandBuffers [ c ] - > state = = CMDBUF_STATE_EXECUTABLE )
{
pSubmits - > pCommandBuffers [ c ] - > state = CMDBUF_STATE_PENDING ;
}
}
for ( int c = 0 ; c < pSubmits - > commandBufferCount ; + + c )
{
VkCommandBuffer cmdbuf = pSubmits - > pCommandBuffers [ c ] ;
cmdbuf - > submitCl . bo_handles = cmdbuf - > handlesCl . buffer ;
cmdbuf - > submitCl . bo_handle_count = clSize ( & cmdbuf - > handlesCl ) / 4 ;
cmdbuf - > submitCl . bin_cl = cmdbuf - > binCl . buffer ;
cmdbuf - > submitCl . bin_cl_size = clSize ( & cmdbuf - > binCl ) ;
cmdbuf - > submitCl . shader_rec = cmdbuf - > shaderRecCl . buffer ;
cmdbuf - > submitCl . shader_rec_size = clSize ( & cmdbuf - > shaderRecCl ) ;
cmdbuf - > submitCl . shader_rec_count = cmdbuf - > shaderRecCount ;
cmdbuf - > submitCl . uniforms = cmdbuf - > uniformsCl . buffer ;
cmdbuf - > submitCl . uniforms_size = clSize ( & cmdbuf - > uniformsCl ) ;
printf ( " BCL: \n " ) ;
clDump ( cmdbuf - > submitCl . bin_cl , cmdbuf - > submitCl . bin_cl_size ) ;
printf ( " BO handles: " ) ;
for ( int d = 0 ; d < cmdbuf - > submitCl . bo_handle_count ; + + d )
{
printf ( " %u " , * ( ( uint32_t * ) ( cmdbuf - > submitCl . bo_handles ) + d ) ) ;
}
printf ( " \n width height: %u, %u \n " , cmdbuf - > submitCl . width , cmdbuf - > submitCl . height ) ;
printf ( " tile min/max: %u,%u %u,%u \n " , cmdbuf - > submitCl . min_x_tile , cmdbuf - > submitCl . min_y_tile , cmdbuf - > submitCl . max_x_tile , cmdbuf - > submitCl . max_y_tile ) ;
printf ( " color read surf: hindex, offset, bits, flags %u %u %u %u \n " , cmdbuf - > submitCl . color_read . hindex , cmdbuf - > submitCl . color_read . offset , cmdbuf - > submitCl . color_read . bits , cmdbuf - > submitCl . color_read . flags ) ;
printf ( " color write surf: hindex, offset, bits, flags %u %u %u %u \n " , cmdbuf - > submitCl . color_write . hindex , cmdbuf - > submitCl . color_write . offset , cmdbuf - > submitCl . color_write . bits , cmdbuf - > submitCl . color_write . flags ) ;
printf ( " zs read surf: hindex, offset, bits, flags %u %u %u %u \n " , cmdbuf - > submitCl . zs_read . hindex , cmdbuf - > submitCl . zs_read . offset , cmdbuf - > submitCl . zs_read . bits , cmdbuf - > submitCl . zs_read . flags ) ;
printf ( " zs write surf: hindex, offset, bits, flags %u %u %u %u \n " , cmdbuf - > submitCl . zs_write . hindex , cmdbuf - > submitCl . zs_write . offset , cmdbuf - > submitCl . zs_write . bits , cmdbuf - > submitCl . zs_write . flags ) ;
printf ( " msaa color write surf: hindex, offset, bits, flags %u %u %u %u \n " , cmdbuf - > submitCl . msaa_color_write . hindex , cmdbuf - > submitCl . msaa_color_write . offset , cmdbuf - > submitCl . msaa_color_write . bits , cmdbuf - > submitCl . msaa_color_write . flags ) ;
printf ( " msaa zs write surf: hindex, offset, bits, flags %u %u %u %u \n " , cmdbuf - > submitCl . msaa_zs_write . hindex , cmdbuf - > submitCl . msaa_zs_write . offset , cmdbuf - > submitCl . msaa_zs_write . bits , cmdbuf - > submitCl . msaa_zs_write . flags ) ;
printf ( " clear color packed rgba %u %u \n " , cmdbuf - > submitCl . clear_color [ 0 ] , cmdbuf - > submitCl . clear_color [ 1 ] ) ;
printf ( " clear z %u \n " , cmdbuf - > submitCl . clear_z ) ;
printf ( " clear s %u \n " , cmdbuf - > submitCl . clear_s ) ;
printf ( " flags %u \n " , cmdbuf - > submitCl . flags ) ;
//submit ioctl
static uint64_t lastFinishedSeqno = 0 ;
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vc4_cl_submit ( controlFd , & cmdbuf - > submitCl , & queue - > lastEmitSeqno , & lastFinishedSeqno ) ;
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}
for ( int c = 0 ; c < pSubmits - > commandBufferCount ; + + c )
{
if ( pSubmits - > pCommandBuffers [ c ] - > state = = CMDBUF_STATE_PENDING )
{
if ( pSubmits - > pCommandBuffers [ c ] - > usageFlags & VK_COMMAND_BUFFER_USAGE_ONE_TIME_SUBMIT_BIT )
{
pSubmits - > pCommandBuffers [ c ] - > state = CMDBUF_STATE_INVALID ;
}
else
{
pSubmits - > pCommandBuffers [ c ] - > state = CMDBUF_STATE_EXECUTABLE ;
}
}
}
for ( int c = 0 ; c < pSubmits - > signalSemaphoreCount ; + + c )
{
sem_post ( ( sem_t * ) pSubmits - > pSignalSemaphores [ c ] ) ;
}
return VK_SUCCESS ;
}
/*
* https : //www.khronos.org/registry/vulkan/specs/1.1-extensions/html/vkspec.html#vkFreeCommandBuffers
* Any primary command buffer that is in the recording or executable state and has any element of pCommandBuffers recorded into it , becomes invalid .
*/
VKAPI_ATTR void VKAPI_CALL vkFreeCommandBuffers (
VkDevice device ,
VkCommandPool commandPool ,
uint32_t commandBufferCount ,
const VkCommandBuffer * pCommandBuffers )
{
assert ( device ) ;
assert ( commandPool ) ;
assert ( pCommandBuffers ) ;
_commandPool * cp = ( _commandPool * ) commandPool ;
for ( int c = 0 ; c < commandBufferCount ; + + c )
{
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if ( pCommandBuffers [ c ] )
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{
consecutivePoolFree ( & cp - > cpa , & pCommandBuffers [ c ] - > binCl , pCommandBuffers [ c ] - > binCl . numBlocks ) ;
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consecutivePoolFree ( & cp - > cpa , & pCommandBuffers [ c ] - > handlesCl , pCommandBuffers [ c ] - > handlesCl . numBlocks ) ;
consecutivePoolFree ( & cp - > cpa , & pCommandBuffers [ c ] - > shaderRecCl , pCommandBuffers [ c ] - > shaderRecCl . numBlocks ) ;
consecutivePoolFree ( & cp - > cpa , & pCommandBuffers [ c ] - > uniformsCl , pCommandBuffers [ c ] - > uniformsCl . numBlocks ) ;
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poolFree ( & cp - > pa , pCommandBuffers [ c ] ) ;
}
}
}
/*
* https : //www.khronos.org/registry/vulkan/specs/1.1-extensions/html/vkspec.html#vkDestroyCommandPool
* When a pool is destroyed , all command buffers allocated from the pool are freed .
* Any primary command buffer allocated from another VkCommandPool that is in the recording or executable state and has a secondary command buffer
* allocated from commandPool recorded into it , becomes invalid .
*/
VKAPI_ATTR void VKAPI_CALL vkDestroyCommandPool (
VkDevice device ,
VkCommandPool commandPool ,
const VkAllocationCallbacks * pAllocator )
{
assert ( device ) ;
_commandPool * cp = ( _commandPool * ) commandPool ;
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if ( cp )
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{
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FREE ( cp - > pa . buf ) ;
FREE ( cp - > cpa . buf ) ;
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destroyPoolAllocator ( & cp - > pa ) ;
destroyConsecutivePoolAllocator ( & cp - > cpa ) ;
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FREE ( cp ) ;
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}
}
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/*
* https : //www.khronos.org/registry/vulkan/specs/1.1-extensions/html/vkspec.html#vkTrimCommandPool
*/
VKAPI_ATTR void VKAPI_CALL vkTrimCommandPool (
VkDevice device ,
VkCommandPool commandPool ,
VkCommandPoolTrimFlags flags )
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{
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assert ( device ) ;
assert ( commandPool ) ;
_commandPool * cp = commandPool ;
//TODO??
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}
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/*
* https : //www.khronos.org/registry/vulkan/specs/1.1-extensions/html/vkspec.html#vkResetCommandPool
*/
VKAPI_ATTR VkResult VKAPI_CALL vkResetCommandPool (
VkDevice device ,
VkCommandPool commandPool ,
VkCommandPoolResetFlags flags )
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{
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assert ( device ) ;
assert ( commandPool ) ;
_commandPool * cp = commandPool ;
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for ( char * c = cp - > pa . buf ; c ! = cp - > pa . buf + cp - > pa . size ; c + = cp - > pa . blockSize )
{
char * d = cp - > pa . nextFreeBlock ;
while ( d )
{
if ( c = = d ) break ;
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d = * ( uint32_t * ) d ;
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}
if ( c = = d ) //block is free, as we found it in the free chain
{
continue ;
}
else
{
//we found a valid block
_commandBuffer * cb = c ;
assert ( cb - > state ! = CMDBUF_STATE_PENDING ) ;
cb - > state = CMDBUF_STATE_INITIAL ;
}
}
//TODO secondary command buffer stuff
//TODO reset flag
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}
/*
* https : //www.khronos.org/registry/vulkan/specs/1.1-extensions/html/vkspec.html#vkResetCommandBuffer
*/
VKAPI_ATTR VkResult VKAPI_CALL vkResetCommandBuffer (
VkCommandBuffer commandBuffer ,
VkCommandBufferResetFlags flags )
{
assert ( commandBuffer ) ;
_commandBuffer * cb = commandBuffer ;
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assert ( cb - > state ! = CMDBUF_STATE_PENDING ) ;
if ( cb - > state = = CMDBUF_STATE_RECORDING | | cb - > state = = CMDBUF_STATE_EXECUTABLE )
{
cb - > state = CMDBUF_STATE_INVALID ;
}
else
{
cb - > state = CMDBUF_STATE_INITIAL ;
}
//TODO flag?
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}