/* * FreeRTOS Kernel V10.5.1 * Copyright (C) 2021 Amazon.com, Inc. or its affiliates. All Rights Reserved. * * SPDX-License-Identifier: MIT * * Permission is hereby granted, free of charge, to any person obtaining a copy of * this software and associated documentation files (the "Software"), to deal in * the Software without restriction, including without limitation the rights to * use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of * the Software, and to permit persons to whom the Software is furnished to do so, * subject to the following conditions: * * The above copyright notice and this permission notice shall be included in all * copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS * FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR * COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER * IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN * CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. * * https://www.FreeRTOS.org * https://github.com/FreeRTOS * */ #include "FreeRTOSConfig.h" #define portCONTEXT_SIZE 160 #define portEPC_STACK_LOCATION 152 #define portSTATUS_STACK_LOCATION 156 #define portFPCSR_STACK_LOCATION 0 #define portTASK_HAS_FPU_STACK_LOCATION 0 #define portFPU_CONTEXT_SIZE 264 /******************************************************************/ .macro portSAVE_FPU_REGS offset, base /* Macro to assist with saving just the FPU registers to the * specified address and base offset, * offset is a constant, base is the base pointer register */ sdc1 $f31, \offset + 248(\base) sdc1 $f30, \offset + 240(\base) sdc1 $f29, \offset + 232(\base) sdc1 $f28, \offset + 224(\base) sdc1 $f27, \offset + 216(\base) sdc1 $f26, \offset + 208(\base) sdc1 $f25, \offset + 200(\base) sdc1 $f24, \offset + 192(\base) sdc1 $f23, \offset + 184(\base) sdc1 $f22, \offset + 176(\base) sdc1 $f21, \offset + 168(\base) sdc1 $f20, \offset + 160(\base) sdc1 $f19, \offset + 152(\base) sdc1 $f18, \offset + 144(\base) sdc1 $f17, \offset + 136(\base) sdc1 $f16, \offset + 128(\base) sdc1 $f15, \offset + 120(\base) sdc1 $f14, \offset + 112(\base) sdc1 $f13, \offset + 104(\base) sdc1 $f12, \offset + 96(\base) sdc1 $f11, \offset + 88(\base) sdc1 $f10, \offset + 80(\base) sdc1 $f9, \offset + 72(\base) sdc1 $f8, \offset + 64(\base) sdc1 $f7, \offset + 56(\base) sdc1 $f6, \offset + 48(\base) sdc1 $f5, \offset + 40(\base) sdc1 $f4, \offset + 32(\base) sdc1 $f3, \offset + 24(\base) sdc1 $f2, \offset + 16(\base) sdc1 $f1, \offset + 8(\base) sdc1 $f0, \offset + 0(\base) .endm /******************************************************************/ .macro portLOAD_FPU_REGS offset, base /* Macro to assist with loading just the FPU registers from the * specified address and base offset, offset is a constant, * base is the base pointer register */ ldc1 $f0, \offset + 0(\base) ldc1 $f1, \offset + 8(\base) ldc1 $f2, \offset + 16(\base) ldc1 $f3, \offset + 24(\base) ldc1 $f4, \offset + 32(\base) ldc1 $f5, \offset + 40(\base) ldc1 $f6, \offset + 48(\base) ldc1 $f7, \offset + 56(\base) ldc1 $f8, \offset + 64(\base) ldc1 $f9, \offset + 72(\base) ldc1 $f10, \offset + 80(\base) ldc1 $f11, \offset + 88(\base) ldc1 $f12, \offset + 96(\base) ldc1 $f13, \offset + 104(\base) ldc1 $f14, \offset + 112(\base) ldc1 $f15, \offset + 120(\base) ldc1 $f16, \offset + 128(\base) ldc1 $f17, \offset + 136(\base) ldc1 $f18, \offset + 144(\base) ldc1 $f19, \offset + 152(\base) ldc1 $f20, \offset + 160(\base) ldc1 $f21, \offset + 168(\base) ldc1 $f22, \offset + 176(\base) ldc1 $f23, \offset + 184(\base) ldc1 $f24, \offset + 192(\base) ldc1 $f25, \offset + 200(\base) ldc1 $f26, \offset + 208(\base) ldc1 $f27, \offset + 216(\base) ldc1 $f28, \offset + 224(\base) ldc1 $f29, \offset + 232(\base) ldc1 $f30, \offset + 240(\base) ldc1 $f31, \offset + 248(\base) .endm /******************************************************************/ .macro portSAVE_CONTEXT /* Make room for the context. First save the current status so it can be manipulated, and the cause and EPC registers so their original values are captured. */ mfc0 k0, _CP0_CAUSE addiu sp, sp, -portCONTEXT_SIZE #if ( __mips_hard_float == 1 ) && ( configUSE_TASK_FPU_SUPPORT == 1 ) /* Test if we are already using the system stack. Only tasks may use the FPU so if we are already in a nested interrupt then the FPU context does not require saving. */ la k1, uxInterruptNesting lw k1, 0(k1) bne k1, zero, 2f nop /* Test if the current task needs the FPU context saving. */ la k1, ulTaskHasFPUContext lw k1, 0(k1) beq k1, zero, 1f nop /* Adjust the stack to account for the additional FPU context.*/ addiu sp, sp, -portFPU_CONTEXT_SIZE 1: /* Save the ulTaskHasFPUContext flag. */ sw k1, portTASK_HAS_FPU_STACK_LOCATION(sp) 2: #endif mfc0 k1, _CP0_STATUS /* Also save s7, s6 and s5 so they can be used. Any nesting interrupts should maintain the values of these registers across the ISR. */ sw s7, 48(sp) sw s6, 44(sp) sw s5, 40(sp) sw k1, portSTATUS_STACK_LOCATION(sp) /* Prepare to enable interrupts above the current priority. */ srl k0, k0, 0xa ins k1, k0, 10, 7 srl k0, k0, 0x7 /* This copies the MSB of the IPL, but it would be an error if it was set anyway. */ ins k1, k0, 18, 1 ins k1, zero, 1, 4 /* s5 is used as the frame pointer. */ add s5, zero, sp /* Check the nesting count value. */ la k0, uxInterruptNesting lw s6, (k0) /* If the nesting count is 0 then swap to the the system stack, otherwise the system stack is already being used. */ bne s6, zero, 1f nop /* Swap to the system stack. */ la sp, xISRStackTop lw sp, (sp) /* Increment and save the nesting count. */ 1: addiu s6, s6, 1 sw s6, 0(k0) /* s6 holds the EPC value, this is saved after interrupts are re-enabled. */ mfc0 s6, _CP0_EPC /* Re-enable interrupts. */ mtc0 k1, _CP0_STATUS /* Save the context into the space just created. s6 is saved again here as it now contains the EPC value. No other s registers need be saved. */ sw ra, 120(s5) sw s8, 116(s5) sw t9, 112(s5) sw t8, 108(s5) sw t7, 104(s5) sw t6, 100(s5) sw t5, 96(s5) sw t4, 92(s5) sw t3, 88(s5) sw t2, 84(s5) sw t1, 80(s5) sw t0, 76(s5) sw a3, 72(s5) sw a2, 68(s5) sw a1, 64(s5) sw a0, 60(s5) sw v1, 56(s5) sw v0, 52(s5) sw s6, portEPC_STACK_LOCATION(s5) sw $1, 16(s5) /* Save the AC0, AC1, AC2, AC3 registers from the DSP. s6 is used as a scratch register. */ mfhi s6, $ac1 sw s6, 128(s5) mflo s6, $ac1 sw s6, 124(s5) mfhi s6, $ac2 sw s6, 136(s5) mflo s6, $ac2 sw s6, 132(s5) mfhi s6, $ac3 sw s6, 144(s5) mflo s6, $ac3 sw s6, 140(s5) /* Save the DSP Control register */ rddsp s6 sw s6, 148(s5) /* ac0 is done separately to match the MX port. */ mfhi s6, $ac0 sw s6, 12(s5) mflo s6, $ac0 sw s6, 8(s5) /* Save the FPU context if the nesting count was zero. */ #if ( __mips_hard_float == 1 ) && ( configUSE_TASK_FPU_SUPPORT == 1 ) la s6, uxInterruptNesting lw s6, 0(s6) addiu s6, s6, -1 bne s6, zero, 1f nop /* Test if the current task needs the FPU context saving. */ lw s6, portTASK_HAS_FPU_STACK_LOCATION(s5) beq s6, zero, 1f nop /* Save the FPU registers. */ portSAVE_FPU_REGS ( portCONTEXT_SIZE + 8 ), s5 /* Save the FPU status register */ cfc1 s6, $f31 sw s6, (portCONTEXT_SIZE + portFPCSR_STACK_LOCATION)(s5) 1: #endif /* Update the task stack pointer value if nesting is zero. */ la s6, uxInterruptNesting lw s6, (s6) addiu s6, s6, -1 bne s6, zero, 1f nop /* Save the stack pointer. */ la s6, uxSavedTaskStackPointer sw s5, (s6) 1: .endm /******************************************************************/ .macro portRESTORE_CONTEXT /* Restore the stack pointer from the TCB. This is only done if the nesting count is 1. */ la s6, uxInterruptNesting lw s6, (s6) addiu s6, s6, -1 bne s6, zero, 1f nop la s6, uxSavedTaskStackPointer lw s5, (s6) #if ( __mips_hard_float == 1 ) && ( configUSE_TASK_FPU_SUPPORT == 1 ) /* Restore the FPU context if required. */ lw s6, portTASK_HAS_FPU_STACK_LOCATION(s5) beq s6, zero, 1f nop /* Restore the FPU registers. */ portLOAD_FPU_REGS ( portCONTEXT_SIZE + 8 ), s5 /* Restore the FPU status register. */ lw s6, ( portCONTEXT_SIZE + portFPCSR_STACK_LOCATION )(s5) ctc1 s6, $f31 #endif 1: /* Restore the context. */ lw s6, 128(s5) mthi s6, $ac1 lw s6, 124(s5) mtlo s6, $ac1 lw s6, 136(s5) mthi s6, $ac2 lw s6, 132(s5) mtlo s6, $ac2 lw s6, 144(s5) mthi s6, $ac3 lw s6, 140(s5) mtlo s6, $ac3 /* Restore DSPControl. */ lw s6, 148(s5) wrdsp s6 lw s6, 8(s5) mtlo s6, $ac0 lw s6, 12(s5) mthi s6, $ac0 lw $1, 16(s5) /* s6 is loaded as it was used as a scratch register and therefore saved as part of the interrupt context. */ lw s7, 48(s5) lw s6, 44(s5) lw v0, 52(s5) lw v1, 56(s5) lw a0, 60(s5) lw a1, 64(s5) lw a2, 68(s5) lw a3, 72(s5) lw t0, 76(s5) lw t1, 80(s5) lw t2, 84(s5) lw t3, 88(s5) lw t4, 92(s5) lw t5, 96(s5) lw t6, 100(s5) lw t7, 104(s5) lw t8, 108(s5) lw t9, 112(s5) lw s8, 116(s5) lw ra, 120(s5) /* Protect access to the k registers, and others. */ di ehb /* Decrement the nesting count. */ la k0, uxInterruptNesting lw k1, (k0) addiu k1, k1, -1 sw k1, 0(k0) #if ( __mips_hard_float == 1 ) && ( configUSE_TASK_FPU_SUPPORT == 1 ) /* If the nesting count is now zero then the FPU context may be restored. */ bne k1, zero, 1f nop /* Restore the value of ulTaskHasFPUContext */ la k0, ulTaskHasFPUContext lw k1, 0(s5) sw k1, 0(k0) /* If the task does not have an FPU context then adjust the stack normally. */ beq k1, zero, 1f nop /* Restore the STATUS and EPC registers */ lw k0, portSTATUS_STACK_LOCATION(s5) lw k1, portEPC_STACK_LOCATION(s5) /* Leave the stack in its original state. First load sp from s5, then restore s5 from the stack. */ add sp, zero, s5 lw s5, 40(sp) /* Adjust the stack pointer to remove the FPU context */ addiu sp, sp, portFPU_CONTEXT_SIZE beq zero, zero, 2f nop 1: /* Restore the STATUS and EPC registers */ lw k0, portSTATUS_STACK_LOCATION(s5) lw k1, portEPC_STACK_LOCATION(s5) /* Leave the stack in its original state. First load sp from s5, then restore s5 from the stack. */ add sp, zero, s5 lw s5, 40(sp) 2: /* Adjust the stack pointer */ addiu sp, sp, portCONTEXT_SIZE #else /* Restore the frame when there is no hardware FP support. */ lw k0, portSTATUS_STACK_LOCATION(s5) lw k1, portEPC_STACK_LOCATION(s5) /* Leave the stack in its original state. First load sp from s5, then restore s5 from the stack. */ add sp, zero, s5 lw s5, 40(sp) addiu sp, sp, portCONTEXT_SIZE #endif // ( __mips_hard_float == 1 ) && ( configUSE_TASK_FPU_SUPPORT == 1 ) mtc0 k0, _CP0_STATUS mtc0 k1, _CP0_EPC ehb eret nop .endm