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170 lines
7.1 KiB
C
170 lines
7.1 KiB
C
/*
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* SPDX-FileCopyrightText: 2021 Espressif Systems (Shanghai) CO LTD
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*
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* SPDX-License-Identifier: Apache-2.0
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*/
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/*
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* Parameterized Test Framework
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*
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* Peripherals like SPI has several parameters like: freq, mode, DMA, etc.
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* This framework helps to test different parameter sets with the same program.
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*
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* Each "parameter set" is a set with different parameters (freq, mode, etc.).
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* A parameter group is a group of several parameter sets. Each unit test performs
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* tests among the sets in a group.
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*
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* The test will be execute in the following sequence:
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* 1. ``pre_test``: initialize the context
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* 2. take a set out of the parameter group
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* 3. ``def_param``: fill in default value for the parameter set if not set
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* 4. ``loop``: execute test program for the set in the initialized context
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* 5. loop executing 2-4 until the last set
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* 6. ``post_test``: free the resources used.
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*
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* Usage example:
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*
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* 1. Define your own parameter set type:
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* typedef struct {
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* const char pset_name[PSET_NAME_LEN];
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* //The test work till the frequency below,
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* //set the frequency to higher and remove checks in the driver to know how fast the system can run.
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* const int *freq_list; // list of tested frequency, terminated by 0
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* int freq_limit; //freq larger (not equal) than this will be ignored
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* spi_dup_t dup;
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* int mode;
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* bool length_aligned;
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* int test_size;
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*
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* int master_limit; // the master disable dummy bits and discard readings over this freq
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* bool master_iomux;
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* int master_dma_chan;
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*
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* bool slave_iomux;
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* int slave_dma_chan;
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* int slave_tv_ns;
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* bool slave_unaligned_addr;
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* } spitest_param_set_t;
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*
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* 2. Define a parameter set:
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* spitest_param_set_t mode_pgroup[] = {
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* //non-DMA tests
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* { .pset_name = "mode 0, no DMA",
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* .freq_list = test_freq_mode,
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* .master_limit = FREQ_LIMIT_MODE,
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* .dup = FULL_DUPLEX,
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* .master_iomux= true,
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* .slave_iomux = true,
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* .slave_tv_ns = TV_WITH_ESP_SLAVE,
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* .mode = 0,
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* },
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* { .pset_name = "mode 1, no DMA",
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* .freq_list = test_freq_mode,
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* .master_limit = FREQ_LIMIT_MODE,
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* .dup = FULL_DUPLEX,
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* .master_iomux= true,
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* .slave_iomux = true,
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* .slave_tv_ns = TV_WITH_ESP_SLAVE,
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* .mode = 1,
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* },
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* // other configurations...
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* };
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*
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* 3. Define your test functions, and wrap them in the ``param_test_func_t``:
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* static const param_test_func_t master_test_func = {
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* .pre_test = test_master_init,
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* .post_test = test_master_deinit,
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* .loop = test_master_loop,
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* .def_param = spitest_def_param,
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* };
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*
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* 4. Declare the group by PARAM_GROUP_DECLARE right after the param group:
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* PARAM_GROUP_DECLARE(MODE, mode_pgroup)
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*
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* 5. Declare the test function by TEST_SINGLE_BOARD (for single board test), or TEST_MASTER_SLAVE(for multiboard test)
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* TEST_MASTER_SLAVE(MODE, mode_pgroup, "[spi][timeout=120]", &master_test_func, &slave_test_func)
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*
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* or
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* TEST_SINGLE_BOARD(TIMING, timing_pgroup, "[spi][timeout=120]", &local_test_func)
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*
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* NOTE: suggest to define your own macro to wrap 4 and 5 if your tag and test functions are the same. E.g.:
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* #define TEST_SPI_MASTER_SLAVE(name, pgroup) (backslash)
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* PARAM_GROUP_DECLARE(name, pgroup) (backslash)
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* TEST_MASTER_SLAVE(name, pgroup, "[spi][timeout=120]", &master_test_func, &slave_test_func)
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*
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* Then declare tests conveniently by:
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* TEST_SPI_MASTER_SLAVE(TIMING, timing_pgroup)
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* TEST_SPI_MASTER_SLAVE(MODE, mode_pgroup)
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*
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*/
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#define PGROUP_NAME_LEN 20 ///< name length of parameter group
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#define PGROUP_NAME(name) PGROUP_##name ///< param group name
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#define PTEST_MASTER_NAME(name) PTEST_MASTER_##name ///< test function name of master
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#define PTEST_SLAVE_NAME(name) PTEST_SLAVE_##name ///< test function name of slave
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/// Test set structure holding name, param set array pointer, item size and param set num.
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typedef struct {
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char name[PGROUP_NAME_LEN]; ///< Name of param group to print
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void *param_group; ///< Start of the param group array
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int pset_size; ///< Size of each param set
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int pset_num; ///< Total number of param sets
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} param_group_t;
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/// Test functions for the frameowrk
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typedef struct {
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void (*pre_test)(void** contxt); ///< Initialization function called before tests begin. Initial your context here
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void (*post_test)(void* context); ///< Deinit function called after all tests are done.
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void (*def_param)(void* inout_pset); ///< Function to fill each pset structure before executed, left NULL if not used.
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void (*loop)(const void* pset, void* context); ///< Function execute each param set
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} ptest_func_t;
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/**
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* Test framework to execute init, loop and deinit.
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*
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* @param param_group Parameter group holder to test in turns.
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* @param test_func Function set to execute.
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*/
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void test_serializer(const param_group_t *param_group, const ptest_func_t* test_func);
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#define PARAM_GROUP_DECLARE_TYPE(group_name, pset_type, pgroup) \
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static const param_group_t PGROUP_NAME(pgroup) = { \
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.name = #group_name, \
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.param_group = (void*)&pgroup, \
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.pset_size = sizeof(pset_type), \
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.pset_num = sizeof(pgroup)/sizeof(pset_type), \
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};
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/**
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* Declare parameter group
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*
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* @param group_name Parameter group name to print in the beginning of the test
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* @param param_group Parameter group structure, should be already defined above, and the size and type is defined.
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*/
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#define PARAM_GROUP_DECLARE(group_name, param_group) \
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PARAM_GROUP_DECLARE_TYPE(group_name, typeof(param_group[0]), param_group)
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/**
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* Test parameter group on one board.
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*
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* @param name Test name to be printed in the menu.
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* @param param_group Parameter group to be tested.
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* @param tag Tag for environment, etc. e.g. [spi][timeout=120]
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* @param test_func ``ptest_func_t`` to be executed.
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*/
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#define TEST_SINGLE_BOARD(name, param_group, tag, test_func) \
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TEST_CASE("single board test: "#name, tag) { test_serializer(&PGROUP_NAME(param_group), test_func); }
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/**
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* Test parameter group for master-slave framework
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*
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* @param name Test name to be printed in the menu.
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* @param param_group Parameter group to be tested.
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* @param tag Tag for environment, etc. e.g. [spi][timeout=120]
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* @param master_func ``ptest_func_t`` to be executed by master.
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* @param slave_func ``ptest_func_t`` to be executed by slave.
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*/
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#define TEST_MASTER_SLAVE(name, param_group, tag, master_func, slave_func) \
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static void PTEST_MASTER_NAME(name) (void) { test_serializer(&PGROUP_NAME(param_group), master_func); } \
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static void PTEST_SLAVE_NAME(name) (void) { test_serializer(&PGROUP_NAME(param_group), slave_func); } \
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TEST_CASE_MULTIPLE_DEVICES("master slave test: "#name, tag, PTEST_MASTER_NAME(name), PTEST_SLAVE_NAME(name))
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