--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/symbian-qemu-0.9.1-12/model-libraries/nvmemmory/NVMemory_HowTo.txt Thu May 27 00:38:17 2010 +0300
@@ -0,0 +1,73 @@
+========================================================================
+ NVMEMORY.DLL - A simple non volatile sector addressed memory device
+ - An example of a portable high abstraction model architecture.
+ This DLL is created to serve in multiple different modeling
+ environments and tools. Model portability should be taken into
+ account when further developing and maintaining this device.
+========================================================================
+
+========================================================================
+ USAGE nvmemory.dll
+ Example usage provided by syborg_nvmemorydevice.py
+
+ 1 - Create an instance of SyborgNVMemory class.
+ This can be performed either by instantiating the C++ class directly
+ by calling the constructor "new SyborgNVMemory( a_sectorsize );".
+ Or by using the C API to create an instance "nvmem_create( sector_size )".
+ As you can see you need to set the sector size for your device when you create it.
+
+ In fact each of the API functions are provided in form of both C and C++ API functions.
+ From this on only the C API is explained.
+
+ 2 - Reset the device by calling "nvmem_reset( self.obj )".
+ This function clears any information stored by the device instance except the sector size.
+
+ Note that for the C API you always need to specify the object which you wish to command.
+
+ 3 - Create handle to your image file by calling "nvmem_open( self.obj, imagepath )".
+ Image is opened in binary mode. Store the handle.
+
+ Note that you need to have an image stored to a path on your PC before you can call this function.
+ You must provide the image name and path when calling.
+
+ Note also that there is a service provided by this DLL which can create an image for you.
+ NVMEMORY_API int32_t nvmem_create_image( SyborgNVMemory* a_syborg_nvmemory, char* a_memoryarrayname, uint32_t a_sectorcount, uint32_t a_sectorsize = NVMEM_DEFAULT_SECTORSIZE_IN_BYTES );
+ nvmem_create_image function probably needs further development. You may also create image in your wrapper as done in example usage file.
+
+ You may get your memory device size by calling nvmem_get_sector_count( self.obj, nvmemhandle ).
+ nvmemhandle is the handle you got when calling nvmem_open.
+ nvmem_get_sector_count is handy in cases where you have provided a readymade image for the device.
+ In this case you don't need to go and hardcode the image size each time in your wrapper.
+
+ 4 - Initialize callback. Provide a callback function for the device by calling "nvmem_set_callback( self.obj, nvmem_callback )".
+ Where the callback is a function pointer of a type "int (*i_NVMemCallBack)(int);".
+ Callback is called by DLL when read and write operations are finished. Parameter is the amount of sectors succesfully read or written.
+
+ 5 - Start using your device.
+ nvmem_read( self.obj, nvmemory_sharedmemory_host_address, nvmemhandle, transaction_offset, transaction_size )
+ nvmem_write( self.obj, nvmemory_sharedmemory_host_address, nvmemhandle, transaction_offset, transaction_size )
+
+ See syborg_nvmemorydevice.py to learn more about device usage.
+
+========================================================================
+
+
+========================================================================
+ DYNAMIC LINK LIBRARY : nvmemmory Project Overview
+========================================================================
+
+Summary of what you will find in each of the files that
+make up your nvmemmory application.
+
+nvmemmory.vcproj
+ This is the main project file for VC++ projects generated using an Application Wizard.
+ It contains information about the version of Visual C++ that generated the file, and
+ information about the platforms, configurations, and project features selected with the
+ Application Wizard.
+
+nvmemmory.cpp
+ This is the main DLL source file.
+
+nvmemmory.h
+ This file contains a class declaration.
+