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https://github.com/espressif/esp-idf.git
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Merge branch 'ci/enable_memprot_tests_for_esp32c61' into 'master'
Clear PMA entries before usage and enable tests for ESP32-C61 Closes IDF-10932 See merge request espressif/esp-idf!33438
This commit is contained in:
Mahavir Jain
commit
2a6be654cd
@ -34,44 +34,44 @@ static void esp_cpu_configure_invalid_regions(void)
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__attribute__((unused)) const unsigned PMA_RX = PMA_L | PMA_EN | PMA_R | PMA_X;
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__attribute__((unused)) const unsigned PMA_RWX = PMA_L | PMA_EN | PMA_R | PMA_W | PMA_X;
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// ROM uses some PMA entries, so we need to clear them before using them in ESP-IDF
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// 0. Gap at bottom of address space
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PMA_ENTRY_SET_NAPOT(0, 0, SOC_CPU_SUBSYSTEM_LOW, PMA_NAPOT | PMA_NONE);
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PMA_RESET_AND_ENTRY_SET_NAPOT(0, 0, SOC_CPU_SUBSYSTEM_LOW, PMA_NAPOT | PMA_NONE);
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// 1. Gap between debug region & IROM
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PMA_ENTRY_SET_TOR(1, SOC_CPU_SUBSYSTEM_HIGH, PMA_NONE);
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PMA_ENTRY_SET_TOR(2, SOC_IROM_MASK_LOW, PMA_TOR | PMA_NONE);
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PMA_RESET_AND_ENTRY_SET_TOR(1, SOC_CPU_SUBSYSTEM_HIGH, PMA_NONE);
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PMA_RESET_AND_ENTRY_SET_TOR(2, SOC_IROM_MASK_LOW, PMA_TOR | PMA_NONE);
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// 2. ROM has configured the ROM region to be cacheable, so we just need to lock the configuration
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PMA_ENTRY_SET_TOR(3, SOC_IROM_MASK_LOW, PMA_NONE);
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PMA_ENTRY_SET_TOR(4, SOC_DROM_MASK_HIGH, PMA_TOR | PMA_RX);
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PMA_RESET_AND_ENTRY_SET_TOR(3, SOC_IROM_MASK_LOW, PMA_NONE);
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PMA_RESET_AND_ENTRY_SET_TOR(4, SOC_DROM_MASK_HIGH, PMA_TOR | PMA_RX);
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// 3. Gap between ROM & RAM
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PMA_ENTRY_SET_TOR(5, SOC_DROM_MASK_HIGH, PMA_NONE);
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PMA_ENTRY_SET_TOR(6, SOC_IRAM_LOW, PMA_TOR | PMA_NONE);
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PMA_RESET_AND_ENTRY_SET_TOR(5, SOC_DROM_MASK_HIGH, PMA_NONE);
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PMA_RESET_AND_ENTRY_SET_TOR(6, SOC_IRAM_LOW, PMA_TOR | PMA_NONE);
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// 4. Gap between DRAM and I_Cache
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PMA_ENTRY_SET_TOR(7, SOC_IRAM_HIGH, PMA_NONE);
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PMA_ENTRY_SET_TOR(8, SOC_IROM_LOW, PMA_TOR | PMA_NONE);
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PMA_RESET_AND_ENTRY_SET_TOR(7, SOC_IRAM_HIGH, PMA_NONE);
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PMA_RESET_AND_ENTRY_SET_TOR(8, SOC_IROM_LOW, PMA_TOR | PMA_NONE);
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// 5. ROM has configured the MSPI region with RX permission, we should add W attribute for psram and lock the configuration
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// This function sets invalid regions but this is a valid memory region configuration that could have
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// been configured using PMP as well, but due to insufficient PMP entries we are configuring this using PMA.
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// This entry is also required to be set using PMA because the region needs to be configured as cacheable.
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PMA_ENTRY_SET_NAPOT(9, SOC_IROM_LOW, (SOC_IROM_HIGH - SOC_IROM_LOW), PMA_NAPOT | PMA_RWX);
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PMA_RESET_AND_ENTRY_SET_NAPOT(9, SOC_IROM_LOW, (SOC_IROM_HIGH - SOC_IROM_LOW), PMA_NAPOT | PMA_RWX);
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// 6. Gap between D_Cache & LP_RAM
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PMA_ENTRY_SET_TOR(10, SOC_DROM_HIGH, PMA_NONE);
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PMA_ENTRY_SET_TOR(11, SOC_RTC_IRAM_LOW, PMA_TOR | PMA_NONE);
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PMA_RESET_AND_ENTRY_SET_TOR(10, SOC_DROM_HIGH, PMA_NONE);
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PMA_RESET_AND_ENTRY_SET_TOR(11, SOC_RTC_IRAM_LOW, PMA_TOR | PMA_NONE);
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// 7. Gap between LP memory & peripheral addresses
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PMA_ENTRY_SET_TOR(12, SOC_RTC_IRAM_HIGH, PMA_NONE);
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PMA_ENTRY_SET_TOR(13, SOC_PERIPHERAL_LOW, PMA_TOR | PMA_NONE);
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PMA_RESET_AND_ENTRY_SET_TOR(12, SOC_RTC_IRAM_HIGH, PMA_NONE);
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PMA_RESET_AND_ENTRY_SET_TOR(13, SOC_PERIPHERAL_LOW, PMA_TOR | PMA_NONE);
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// 8. End of address space
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PMA_ENTRY_SET_TOR(14, SOC_PERIPHERAL_HIGH, PMA_NONE);
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PMA_ENTRY_CFG_RESET(15);
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PMA_ENTRY_SET_TOR(15, UINT32_MAX, PMA_TOR | PMA_NONE);
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PMA_RESET_AND_ENTRY_SET_TOR(14, SOC_PERIPHERAL_HIGH, PMA_NONE);
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PMA_RESET_AND_ENTRY_SET_TOR(15, UINT32_MAX, PMA_TOR | PMA_NONE);
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}
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void esp_cpu_configure_region_protection(void)
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@ -35,34 +35,41 @@ static void esp_cpu_configure_invalid_regions(void)
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__attribute__((unused)) const unsigned PMA_RX = PMA_L | PMA_EN | PMA_R | PMA_X;
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__attribute__((unused)) const unsigned PMA_RWX = PMA_L | PMA_EN | PMA_R | PMA_W | PMA_X;
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// ROM uses some PMA entries, so we need to clear them before using them in ESP-IDF
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// 0. Gap at bottom of address space
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PMA_ENTRY_SET_NAPOT(0, 0, SOC_CPU_SUBSYSTEM_LOW, PMA_NAPOT | PMA_NONE);
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PMA_RESET_AND_ENTRY_SET_NAPOT(0, 0, SOC_CPU_SUBSYSTEM_LOW, PMA_NAPOT | PMA_NONE);
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// 1. Gap between debug region & IROM
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PMA_ENTRY_SET_TOR(1, SOC_CPU_SUBSYSTEM_HIGH, PMA_NONE);
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PMA_ENTRY_SET_TOR(2, SOC_IROM_MASK_LOW, PMA_TOR | PMA_NONE);
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PMA_RESET_AND_ENTRY_SET_TOR(1, SOC_CPU_SUBSYSTEM_HIGH, PMA_NONE);
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PMA_RESET_AND_ENTRY_SET_TOR(2, SOC_IROM_MASK_LOW, PMA_TOR | PMA_NONE);
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// 3. Gap between ROM & RAM
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PMA_ENTRY_SET_TOR(3, SOC_DROM_MASK_HIGH, PMA_NONE);
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PMA_ENTRY_SET_TOR(4, SOC_IRAM_LOW, PMA_TOR | PMA_NONE);
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PMA_RESET_AND_ENTRY_SET_TOR(3, SOC_DROM_MASK_HIGH, PMA_NONE);
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PMA_RESET_AND_ENTRY_SET_TOR(4, SOC_IRAM_LOW, PMA_TOR | PMA_NONE);
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// 4. Gap between DRAM and I_Cache
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PMA_ENTRY_SET_TOR(5, SOC_IRAM_HIGH, PMA_NONE);
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PMA_ENTRY_SET_TOR(6, SOC_IROM_LOW, PMA_TOR | PMA_NONE);
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PMA_RESET_AND_ENTRY_SET_TOR(5, SOC_IRAM_HIGH, PMA_NONE);
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PMA_RESET_AND_ENTRY_SET_TOR(6, SOC_IROM_LOW, PMA_TOR | PMA_NONE);
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// 5. ROM has configured the MSPI region with RX permission, we should add W attribute for psram and lock the configuration
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// This function sets invalid regions but this is a valid memory region configuration that could have
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// been configured using PMP as well, but due to insufficient PMP entries we are configuring this using PMA.
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// This entry is also required to be set using PMA because the region needs to be configured as cacheable.
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PMA_ENTRY_SET_NAPOT(7, SOC_IROM_LOW, (SOC_IROM_HIGH - SOC_IROM_LOW), PMA_NAPOT | PMA_RWX);
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PMA_RESET_AND_ENTRY_SET_NAPOT(7, SOC_IROM_LOW, (SOC_IROM_HIGH - SOC_IROM_LOW), PMA_NAPOT | PMA_RWX);
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// 6. Gap between D_Cache & peripheral addresses
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PMA_ENTRY_SET_TOR(8, SOC_DROM_HIGH, PMA_NONE);
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PMA_ENTRY_SET_TOR(9, SOC_PERIPHERAL_LOW, PMA_TOR | PMA_NONE);
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PMA_RESET_AND_ENTRY_SET_TOR(8, SOC_DROM_HIGH, PMA_NONE);
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PMA_RESET_AND_ENTRY_SET_TOR(9, SOC_PERIPHERAL_LOW, PMA_TOR | PMA_NONE);
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// 7. End of address space
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PMA_ENTRY_SET_TOR(10, SOC_PERIPHERAL_HIGH, PMA_NONE);
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PMA_ENTRY_SET_TOR(11, UINT32_MAX, PMA_TOR | PMA_NONE);
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PMA_RESET_AND_ENTRY_SET_TOR(10, SOC_PERIPHERAL_HIGH, PMA_NONE);
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PMA_RESET_AND_ENTRY_SET_TOR(11, UINT32_MAX, PMA_TOR | PMA_NONE);
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PMA_ENTRY_CFG_RESET(12);
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PMA_ENTRY_CFG_RESET(13);
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PMA_ENTRY_CFG_RESET(14);
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PMA_ENTRY_CFG_RESET(15);
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}
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void esp_cpu_configure_region_protection(void)
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@ -38,42 +38,44 @@ static void esp_cpu_configure_invalid_regions(void)
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__attribute__((unused)) const unsigned PMA_RX = PMA_L | PMA_EN | PMA_R | PMA_X;
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__attribute__((unused)) const unsigned PMA_RWX = PMA_L | PMA_EN | PMA_R | PMA_W | PMA_X;
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// ROM uses some PMA entries, so we need to clear them before using them in ESP-IDF
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// 0. Gap at bottom of address space
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PMA_ENTRY_SET_NAPOT(0, 0, SOC_CPU_SUBSYSTEM_LOW, PMA_NAPOT | PMA_NONE);
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PMA_RESET_AND_ENTRY_SET_NAPOT(0, 0, SOC_CPU_SUBSYSTEM_LOW, PMA_NAPOT | PMA_NONE);
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// 1. Gap between CPU subsystem region & HP TCM
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PMA_ENTRY_SET_TOR(1, SOC_CPU_SUBSYSTEM_HIGH, PMA_NONE);
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PMA_ENTRY_SET_TOR(2, SOC_TCM_LOW, PMA_TOR | PMA_NONE);
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PMA_RESET_AND_ENTRY_SET_TOR(1, SOC_CPU_SUBSYSTEM_HIGH, PMA_NONE);
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PMA_RESET_AND_ENTRY_SET_TOR(2, SOC_TCM_LOW, PMA_TOR | PMA_NONE);
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// 2. Gap between HP TCM and CPU Peripherals
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PMA_ENTRY_SET_TOR(3, SOC_TCM_HIGH, PMA_NONE);
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PMA_ENTRY_SET_TOR(4, CPU_PERIPH_LOW, PMA_TOR | PMA_NONE);
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PMA_RESET_AND_ENTRY_SET_TOR(3, SOC_TCM_HIGH, PMA_NONE);
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PMA_RESET_AND_ENTRY_SET_TOR(4, CPU_PERIPH_LOW, PMA_TOR | PMA_NONE);
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// 3. Gap between CPU Peripherals and I_Cache
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PMA_ENTRY_SET_TOR(5, CPU_PERIPH_HIGH, PMA_NONE);
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PMA_ENTRY_SET_TOR(6, SOC_IROM_LOW, PMA_TOR | PMA_NONE);
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PMA_RESET_AND_ENTRY_SET_TOR(5, CPU_PERIPH_HIGH, PMA_NONE);
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PMA_RESET_AND_ENTRY_SET_TOR(6, SOC_IROM_LOW, PMA_TOR | PMA_NONE);
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// 4. Gap between I_Cache and external memory range
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PMA_ENTRY_SET_NAPOT(7, SOC_DROM_HIGH, SOC_EXTRAM_LOW - SOC_DROM_HIGH, PMA_NAPOT | PMA_NONE);
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PMA_RESET_AND_ENTRY_SET_NAPOT(7, SOC_DROM_HIGH, SOC_EXTRAM_LOW - SOC_DROM_HIGH, PMA_NAPOT | PMA_NONE);
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// 5. Gap between external memory and ROM
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PMA_ENTRY_SET_TOR(8, SOC_EXTRAM_HIGH, PMA_NONE);
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PMA_ENTRY_SET_TOR(9, SOC_IROM_MASK_LOW, PMA_TOR | PMA_NONE);
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PMA_RESET_AND_ENTRY_SET_TOR(8, SOC_EXTRAM_HIGH, PMA_NONE);
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PMA_RESET_AND_ENTRY_SET_TOR(9, SOC_IROM_MASK_LOW, PMA_TOR | PMA_NONE);
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// 6. Gap between ROM and internal memory
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PMA_ENTRY_SET_TOR(10, SOC_IROM_MASK_HIGH, PMA_NONE);
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PMA_ENTRY_SET_TOR(11, SOC_IRAM_LOW, PMA_TOR | PMA_NONE);
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PMA_RESET_AND_ENTRY_SET_TOR(10, SOC_IROM_MASK_HIGH, PMA_NONE);
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PMA_RESET_AND_ENTRY_SET_TOR(11, SOC_IRAM_LOW, PMA_TOR | PMA_NONE);
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// 7. Gap between internal memory and HP peripherals
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PMA_ENTRY_SET_NAPOT(12, SOC_DRAM_HIGH, SOC_PERIPHERAL_LOW - SOC_DRAM_HIGH, PMA_NAPOT | PMA_NONE);
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PMA_RESET_AND_ENTRY_SET_NAPOT(12, SOC_DRAM_HIGH, SOC_PERIPHERAL_LOW - SOC_DRAM_HIGH, PMA_NAPOT | PMA_NONE);
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// 8. Special case - This whitelists the External flash/RAM, HP ROM and HP L2MEM regions and make them cacheable.
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// At the startup, this is done using PMA entry 15 by the ROM code.
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PMA_ENTRY_SET_NAPOT(13, SOC_IROM_LOW, SOC_PERIPHERAL_LOW - SOC_IROM_LOW, PMA_NAPOT | PMA_RWX);
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PMA_RESET_AND_ENTRY_SET_NAPOT(13, SOC_IROM_LOW, SOC_PERIPHERAL_LOW - SOC_IROM_LOW, PMA_NAPOT | PMA_RWX);
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// 9. Gap between Uncacheable L2 Mem and end of address space
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PMA_ENTRY_SET_TOR(14, CACHE_LL_L2MEM_NON_CACHE_ADDR(SOC_DRAM_HIGH), PMA_NONE);
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PMA_ENTRY_SET_TOR(15, UINT32_MAX, PMA_TOR | PMA_NONE);
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PMA_RESET_AND_ENTRY_SET_TOR(14, CACHE_LL_L2MEM_NON_CACHE_ADDR(SOC_DRAM_HIGH), PMA_NONE);
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PMA_RESET_AND_ENTRY_SET_TOR(15, UINT32_MAX, PMA_TOR | PMA_NONE);
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}
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void esp_cpu_configure_region_protection(void)
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@ -142,6 +142,18 @@ extern "C" {
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RV_WRITE_CSR((CSR_PMAADDR0) + (ENTRY) , 0); \
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} while(0)
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/* Reset and set the configuration of a particular TOR PMACFG entry */
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#define PMA_RESET_AND_ENTRY_SET_TOR(ENTRY, ADDR, CFG) do {\
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PMA_ENTRY_CFG_RESET(ENTRY); \
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PMA_ENTRY_SET_TOR(ENTRY, ADDR, CFG); \
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} while(0)
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/* Reset and set the configuration of a particular NAPOT PMACFG entry */
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#define PMA_RESET_AND_ENTRY_SET_NAPOT(ENTRY, ADDR, SIZE, CFG) do {\
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PMA_ENTRY_CFG_RESET(ENTRY); \
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PMA_ENTRY_SET_NAPOT(ENTRY, ADDR, SIZE, CFG); \
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} while(0)
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/********************************************************
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Trigger Module register fields (Debug specification)
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********************************************************/
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@ -628,13 +628,14 @@ def test_panic_delay(dut: PanicTestDut) -> None:
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#########################
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# Memprot-related tests are supported only on targets with PMS/PMA peripheral;
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# currently ESP32-S2, ESP32-C3, ESP32-C2, ESP32-H2, ESP32-C6, ESP32-P4 and ESP32-C5 are supported
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# currently ESP32-S2, ESP32-C3, ESP32-C2, ESP32-H2, ESP32-C6, ESP32-P4, ESP32-C5 and ESP32-C61 are supported
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CONFIGS_MEMPROT_IDRAM = [
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pytest.param('memprot_esp32s2', marks=[pytest.mark.esp32s2]),
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pytest.param('memprot_esp32c3', marks=[pytest.mark.esp32c3]),
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pytest.param('memprot_esp32c2', marks=[pytest.mark.esp32c2]),
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pytest.param('memprot_esp32c5', marks=[pytest.mark.esp32c5]),
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pytest.param('memprot_esp32c6', marks=[pytest.mark.esp32c6]),
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pytest.param('memprot_esp32c61', marks=[pytest.mark.esp32c61]),
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pytest.param('memprot_esp32h2', marks=[pytest.mark.esp32h2]),
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pytest.param('memprot_esp32p4', marks=[pytest.mark.esp32p4])
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]
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@ -659,6 +660,7 @@ CONFIGS_MEMPROT_RTC_SLOW_MEM = [
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CONFIGS_MEMPROT_FLASH_IDROM = [
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pytest.param('memprot_esp32c5', marks=[pytest.mark.esp32c5]),
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pytest.param('memprot_esp32c6', marks=[pytest.mark.esp32c6]),
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pytest.param('memprot_esp32c61', marks=[pytest.mark.esp32c61]),
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pytest.param('memprot_esp32h2', marks=[pytest.mark.esp32h2]),
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pytest.param('memprot_esp32p4', marks=[pytest.mark.esp32p4])
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]
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@ -666,6 +668,7 @@ CONFIGS_MEMPROT_FLASH_IDROM = [
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CONFIGS_MEMPROT_INVALID_REGION_PROTECTION_USING_PMA = [
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pytest.param('memprot_esp32c5', marks=[pytest.mark.esp32c5]),
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pytest.param('memprot_esp32c6', marks=[pytest.mark.esp32c6]),
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pytest.param('memprot_esp32c61', marks=[pytest.mark.esp32c61]),
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pytest.param('memprot_esp32h2', marks=[pytest.mark.esp32h2]),
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pytest.param('memprot_esp32p4', marks=[pytest.mark.esp32p4])
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]
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@ -704,7 +707,7 @@ def test_iram_reg1_write_violation(dut: PanicTestDut, test_func_name: str) -> No
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dut.expect_backtrace()
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elif dut.target == 'esp32c3':
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dut.expect_exact(r'Test error: Test function has returned')
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elif dut.target in ['esp32c2', 'esp32c5', 'esp32c6', 'esp32h2', 'esp32p4']:
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else:
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dut.expect_gme('Store access fault')
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dut.expect_reg_dump(0)
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dut.expect_stack_dump()
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@ -729,7 +732,7 @@ def test_iram_reg2_write_violation(dut: PanicTestDut, test_func_name: str) -> No
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dut.expect(r' operation type: (\S+)')
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dut.expect_reg_dump(0)
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dut.expect_stack_dump()
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elif dut.target in ['esp32c2', 'esp32c5', 'esp32c6', 'esp32h2', 'esp32p4']:
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else:
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dut.expect_gme('Store access fault')
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dut.expect_reg_dump(0)
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dut.expect_stack_dump()
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@ -754,7 +757,7 @@ def test_iram_reg3_write_violation(dut: PanicTestDut, test_func_name: str) -> No
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dut.expect(r' operation type: (\S+)')
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dut.expect_reg_dump(0)
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dut.expect_stack_dump()
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elif dut.target in ['esp32c2', 'esp32c5', 'esp32c6', 'esp32h2', 'esp32p4']:
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else:
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dut.expect_gme('Store access fault')
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dut.expect_reg_dump(0)
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dut.expect_stack_dump()
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@ -781,7 +784,7 @@ def test_iram_reg4_write_violation(dut: PanicTestDut, test_func_name: str) -> No
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dut.expect(r' operation type: (\S+)')
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dut.expect_reg_dump(0)
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dut.expect_stack_dump()
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elif dut.target in ['esp32c2', 'esp32c6', 'eps32h2']:
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else:
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dut.expect_gme('Store access fault')
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dut.expect_reg_dump(0)
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dut.expect_stack_dump()
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@ -801,7 +804,7 @@ def test_dram_reg1_execute_violation(dut: PanicTestDut, test_func_name: str) ->
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dut.expect(r'Unknown operation at address [0-9xa-f]+ not permitted \((\S+)\)')
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dut.expect_reg_dump(0)
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dut.expect_backtrace(corrupted=True)
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elif dut.target in ['esp32c3', 'esp32c2', 'esp32c5', 'esp32c6', 'esp32h2', 'esp32p4']:
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else:
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dut.expect_gme('Instruction access fault')
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dut.expect_reg_dump(0)
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dut.expect_stack_dump()
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@ -820,7 +823,7 @@ def test_dram_reg2_execute_violation(dut: PanicTestDut, test_func_name: str) ->
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dut.expect_gme('InstructionFetchError')
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dut.expect_reg_dump(0)
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dut.expect_backtrace(corrupted=True)
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elif dut.target in ['esp32c3', 'esp32c2', 'esp32c5', 'esp32c6', 'esp32h2', 'esp32p4']:
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||||
else:
|
||||
dut.expect_gme('Instruction access fault')
|
||||
dut.expect_reg_dump(0)
|
||||
dut.expect_stack_dump()
|
||||
@ -876,7 +879,7 @@ def test_rtc_fast_reg3_execute_violation(dut: PanicTestDut, test_func_name: str)
|
||||
dut.expect(r' operation type: (\S+)')
|
||||
dut.expect_reg_dump(0)
|
||||
dut.expect_stack_dump()
|
||||
elif dut.target in ['esp32c5', 'esp32c6', 'esp32h2', 'esp32p4']:
|
||||
else:
|
||||
dut.expect_gme('Instruction access fault')
|
||||
dut.expect_reg_dump(0)
|
||||
dut.expect_stack_dump()
|
||||
|
||||
Loading…
Reference in New Issue
Block a user