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125 lines
5.2 KiB
ReStructuredText
125 lines
5.2 KiB
ReStructuredText
ULP coprocessor programming
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===========================
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.. warning:: ULP coprocessor programming approach described here is experimental. It is probable that once binutils support for ULP is done, this preprocessor-based approach may be deprecated. We welcome discussion about and contributions to ULP programming tools.
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ULP coprocessor is a simple FSM which is designed to perform measurements using ADC, temperature sensor, and external I2C sensors, while main processors are in deep sleep mode. ULP coprocessor can access RTC_SLOW_MEM memory region, and registers in RTC_CNTL, RTC_IO, and SARADC peripherals. ULP coprocessor uses fixed-width 32-bit instructions, 32-bit memory addressing, and has 4 general purpose 16-bit registers.
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ULP coprocessor doesn't have a dedicated binutils port yet. Programming ULP coprocessor is possible by embedding assembly-like macros into an ESP32 application.
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Here is an example how this can be done::
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const ulp_insn_t program[] = {
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I_MOVI(R3, 16), // R3 <- 16
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I_LD(R0, R3, 0), // R0 <- RTC_SLOW_MEM[R3 + 0]
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I_LD(R1, R3, 1), // R1 <- RTC_SLOW_MEM[R3 + 1]
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I_ADDR(R2, R0, R1), // R2 <- R0 + R1
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I_ST(R2, R3, 2), // R2 -> RTC_SLOW_MEM[R2 + 2]
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I_HALT()
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};
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size_t load_addr = 0;
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size_t size = sizeof(program)/sizeof(ulp_insn_t);
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ulp_process_macros_and_load(load_addr, program, &size);
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ulp_run(load_addr);
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The ``program`` array is an array of ``ulp_insn_t``, i.e. ULP coprocessor instructions. Each ``I_XXX`` preprocessor define translates into a single 32-bit instruction. Arguments of these preprocessor defines can be register numbers (``R0 — R3``) and literal constants. See `ULP coprocessor instruction defines`_ section for descriptions of instructions and arguments they take.
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Load and store instructions use addresses expressed in 32-bit words. Address 0 corresponds to the first word of ``RTC_SLOW_MEM`` (which is address 0x50000000 as seen by the main CPUs).
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To generate branch instructions, special ``M_`` preprocessor defines are used. ``M_LABEL`` define can be used to define a branch target. Label identifier is a 16-bit integer. ``M_Bxxx`` defines can be used to generate branch instructions with target set to a particular label.
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Implementation note: these ``M_`` preprocessor defines will be translated into two ``ulp_insn_t`` values: one is a token value which contains label number, and the other is the actual instruction. ``ulp_process_macros_and_load`` function resolves the label number to the address, modifies the branch instruction to use the correct address, and removes the the extra ``ulp_insn_t`` token which contains the label numer.
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Here is an example of using labels and branches::
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const ulp_insn_t program[] = {
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I_MOVI(R0, 34), // R0 <- 34
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M_LABEL(1), // label_1
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I_MOVI(R1, 32), // R1 <- 32
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I_LD(R1, R1, 0), // R1 <- RTC_SLOW_MEM[R1]
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I_MOVI(R2, 33), // R2 <- 33
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I_LD(R2, R2, 0), // R2 <- RTC_SLOW_MEM[R2]
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I_SUBR(R3, R1, R2), // R3 <- R1 - R2
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I_ST(R3, R0, 0), // R3 -> RTC_SLOW_MEM[R0 + 0]
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I_ADDI(R0, R0, 1), // R0++
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M_BL(1, 64), // if (R0 < 64) goto label_1
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I_HALT(),
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};
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RTC_SLOW_MEM[32] = 42;
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RTC_SLOW_MEM[33] = 18;
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size_t load_addr = 0;
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size_t size = sizeof(program)/sizeof(ulp_insn_t);
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ulp_process_macros_and_load(load_addr, program, &size);
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ulp_run(load_addr);
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Functions
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^^^^^^^^^
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.. doxygenfunction:: ulp_process_macros_and_load
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.. doxygenfunction:: ulp_run
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Error codes
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^^^^^^^^^^^
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.. doxygendefine:: ESP_ERR_ULP_BASE
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.. doxygendefine:: ESP_ERR_ULP_SIZE_TOO_BIG
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.. doxygendefine:: ESP_ERR_ULP_INVALID_LOAD_ADDR
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.. doxygendefine:: ESP_ERR_ULP_DUPLICATE_LABEL
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.. doxygendefine:: ESP_ERR_ULP_UNDEFINED_LABEL
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.. doxygendefine:: ESP_ERR_ULP_BRANCH_OUT_OF_RANGE
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ULP coprocessor registers
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^^^^^^^^^^^^^^^^^^^^^^^^^
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ULP co-processor has 4 16-bit general purpose registers. All registers have same functionality, with one exception. R0 register is used by some of the compare-and-branch instructions as a source register.
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These definitions can be used for all instructions which require a register.
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.. doxygengroup:: ulp_registers
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:content-only:
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ULP coprocessor instruction defines
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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.. doxygendefine:: I_DELAY
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.. doxygendefine:: I_HALT
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.. doxygendefine:: I_END
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.. doxygendefine:: I_ST
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.. doxygendefine:: I_LD
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.. doxygendefine:: I_WR_REG
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.. doxygendefine:: I_RD_REG
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.. doxygendefine:: I_BL
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.. doxygendefine:: I_BGE
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.. doxygendefine:: I_BXR
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.. doxygendefine:: I_BXI
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.. doxygendefine:: I_BXZR
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.. doxygendefine:: I_BXZI
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.. doxygendefine:: I_BXFR
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.. doxygendefine:: I_BXFI
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.. doxygendefine:: I_ADDR
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.. doxygendefine:: I_SUBR
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.. doxygendefine:: I_ANDR
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.. doxygendefine:: I_ORR
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.. doxygendefine:: I_MOVR
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.. doxygendefine:: I_LSHR
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.. doxygendefine:: I_RSHR
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.. doxygendefine:: I_ADDI
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.. doxygendefine:: I_SUBI
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.. doxygendefine:: I_ANDI
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.. doxygendefine:: I_ORI
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.. doxygendefine:: I_MOVI
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.. doxygendefine:: I_LSHI
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.. doxygendefine:: I_RSHI
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.. doxygendefine:: M_LABEL
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.. doxygendefine:: M_BL
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.. doxygendefine:: M_BGE
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.. doxygendefine:: M_BX
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.. doxygendefine:: M_BXZ
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.. doxygendefine:: M_BXF
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Defines
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^^^^^^^
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.. doxygendefine:: RTC_SLOW_MEM
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