Fork of mbed-dev build 137, last build before FAT file system appears to be broken. Also reduced HSE timeout time in STM4XX HAL
Fork of mbed-dev by
targets/TARGET_Maxim/TARGET_MAX32625/mxc/pmu.c
- Committer:
- kkado
- Date:
- 2017-06-20
- Revision:
- 167:356ef919c855
- Parent:
- 150:02e0a0aed4ec
File content as of revision 167:356ef919c855:
/******************************************************************************* * Copyright (C) 2016 Maxim Integrated Products, Inc., All Rights Reserved. * * 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 MAXIM INTEGRATED 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. * * Except as contained in this notice, the name of Maxim Integrated * Products, Inc. shall not be used except as stated in the Maxim Integrated * Products, Inc. Branding Policy. * * The mere transfer of this software does not imply any licenses * of trade secrets, proprietary technology, copyrights, patents, * trademarks, maskwork rights, or any other form of intellectual * property whatsoever. Maxim Integrated Products, Inc. retains all * ownership rights. * * $Date: 2016-06-21 16:19:28 -0500 (Tue, 21 Jun 2016) $ * $Revision: 23450 $ * ******************************************************************************/ #include <stdio.h> #include <stddef.h> #include "mxc_config.h" #include "mxc_assert.h" #include "pmu.h" #if (MXC_PMU_REV == 0) /* MAX32630 A1 & A2 Erratum #6: PMU only supports channels 0-4 -- workaround */ #include "clkman_regs.h" /* Channel 5 infinite loop program */ static const uint32_t pmu_0[] = { PMU_JUMP(0, 0, (uint32_t)pmu_0) }; #endif static void (*callbacks[MXC_CFG_PMU_CHANNELS])(int); /******************************************************************************/ void PMU_Handler(void) { int channel; uint32_t cfg1, cfg2; mxc_pmu_regs_t *MXC_PMUn; for (channel = 0; channel < MXC_CFG_PMU_CHANNELS; channel++) { MXC_PMUn = &MXC_PMU0[channel]; if (MXC_PMUn->cfg & MXC_F_PMU_CFG_INTERRUPT) { cfg1 = MXC_PMUn->cfg; /* Since any set flags will be cleared by the write-back below, mask them off */ cfg2 = cfg1 & ~(MXC_F_PMU_CFG_LL_STOPPED | MXC_F_PMU_CFG_BUS_ERROR | MXC_F_PMU_CFG_TO_STAT); /* Clear the interrupt flag */ MXC_PMUn->cfg = cfg2 | MXC_F_PMU_CFG_INTERRUPT; if (callbacks[channel]) { callbacks[channel](cfg1); } } } } /******************************************************************************/ int PMU_Start(unsigned int channel, const void *program_address, pmu_callback callback) { if(channel >= MXC_CFG_PMU_CHANNELS) return E_BAD_PARAM; mxc_pmu_regs_t *MXC_PMUn = &MXC_PMU0[channel]; uint32_t cfg = MXC_PMUn->cfg; /* is this channel already running? */ if (cfg & MXC_F_PMU_CFG_ENABLE) { return E_BUSY; } #if (MXC_PMU_REV == 0) /* MAX32630 A1 & A2 Erratum #6: PMU only supports channels 0-4 */ if (channel == 5) { /* Channel 5 is used for the work-around */ return E_BUSY; } /* Select always-ON clock for PMU */ MXC_CLKMAN->clk_gate_ctrl0 |= MXC_F_CLKMAN_CLK_GATE_CTRL0_PMU_CLK_GATER; /* Start channel 5 with infinite-loop program */ MXC_PMU5->cfg &= ~MXC_F_PMU_CFG_ENABLE; /* Clear enable and wipe W1C flags */ MXC_PMU5->dscadr = (uint32_t)pmu_0; MXC_PMU5->cfg = MXC_F_PMU_CFG_ENABLE | (0x1c << MXC_F_PMU_CFG_BURST_SIZE_POS); #endif /* Set callback */ callbacks[channel] = callback; /* Set start op-code */ MXC_PMUn->dscadr = (uint32_t)program_address; /* Configure the channel */ cfg = (cfg & ~(MXC_F_PMU_CFG_MANUAL | MXC_F_PMU_CFG_BURST_SIZE)) | (0x1c << MXC_F_PMU_CFG_BURST_SIZE_POS); /* Enable if necessary */ if (callback) { cfg |= MXC_F_PMU_CFG_INT_EN; } else { cfg &= ~MXC_F_PMU_CFG_INT_EN; } /* Start the channel */ cfg |= MXC_F_PMU_CFG_ENABLE; /*If any W1C flags are set, this write will clear them */ MXC_PMUn->cfg = cfg; return E_NO_ERROR; } /******************************************************************************/ void PMU_Stop(unsigned int channel) { mxc_pmu_regs_t *MXC_PMUn = &MXC_PMU0[channel]; uint32_t cfg = MXC_PMUn->cfg; /* Since any set flags will be cleared by the write-back below, mask them off */ cfg &= ~(MXC_F_PMU_CFG_LL_STOPPED | MXC_F_PMU_CFG_BUS_ERROR | MXC_F_PMU_CFG_TO_STAT | MXC_F_PMU_CFG_INTERRUPT); /* Clear the enable bit to stop the channel */ cfg &= ~MXC_F_PMU_CFG_ENABLE; MXC_PMUn->cfg = cfg; /* Remove callback */ callbacks[channel] = NULL; #if (MXC_PMU_REV == 0) /* MAX32630 A1 & A2 Erratum #6: PMU only supports channels 0-4 */ /* Check channels 0-4 for any running channels. If none found, stop channel 5 */ if ((MXC_PMU0->cfg & MXC_F_PMU_CFG_ENABLE) == 0 && (MXC_PMU1->cfg & MXC_F_PMU_CFG_ENABLE) == 0 && (MXC_PMU2->cfg & MXC_F_PMU_CFG_ENABLE) == 0 && (MXC_PMU3->cfg & MXC_F_PMU_CFG_ENABLE) == 0 && (MXC_PMU4->cfg & MXC_F_PMU_CFG_ENABLE) == 0) { MXC_PMU5->cfg &= ~MXC_F_PMU_CFG_ENABLE; } #endif } /******************************************************************************/ int PMU_SetCounter(unsigned int channel, unsigned int counter, uint16_t value) { if((channel >= MXC_CFG_PMU_CHANNELS) || counter > 1) return E_BAD_PARAM; mxc_pmu_regs_t *MXC_PMUn = &MXC_PMU0[channel]; if (counter == 0) { MXC_PMUn->loop = (MXC_PMUn->loop & ~MXC_F_PMU_LOOP_COUNTER_0) | (value << MXC_F_PMU_LOOP_COUNTER_0_POS); } else { MXC_PMUn->loop = (MXC_PMUn->loop & ~MXC_F_PMU_LOOP_COUNTER_1) | (value << MXC_F_PMU_LOOP_COUNTER_1_POS); } return E_NO_ERROR; } /******************************************************************************/ int PMU_SetTimeout(unsigned int channel, pmu_ps_sel_t timeoutClkScale, pmu_to_sel_t timeoutTicks) { if(channel >= MXC_CFG_PMU_CHANNELS) return E_BAD_PARAM; mxc_pmu_regs_t *MXC_PMUn = &MXC_PMU0[channel]; uint32_t cfg = MXC_PMUn->cfg; /* Since any set flags will be cleared by the write-back below, mask them off */ cfg &= ~(MXC_F_PMU_CFG_LL_STOPPED | MXC_F_PMU_CFG_BUS_ERROR | MXC_F_PMU_CFG_TO_STAT | MXC_F_PMU_CFG_INTERRUPT); /* Adjust timeout settings */ cfg &= ~(MXC_F_PMU_CFG_TO_SEL | MXC_F_PMU_CFG_PS_SEL); cfg |= ((timeoutClkScale << MXC_F_PMU_CFG_PS_SEL_POS) & MXC_F_PMU_CFG_PS_SEL) | ((timeoutTicks << MXC_F_PMU_CFG_TO_SEL_POS) & MXC_F_PMU_CFG_TO_SEL); MXC_PMUn->cfg = cfg; return E_NO_ERROR; } /******************************************************************************/ uint32_t PMU_GetFlags(unsigned int channel) { mxc_pmu_regs_t *MXC_PMUn = &MXC_PMU0[channel]; uint32_t cfg = MXC_PMUn->cfg; /* Mask off configuration bits leaving only flag bits */ cfg &= ~(MXC_F_PMU_CFG_ENABLE | MXC_F_PMU_CFG_MANUAL | MXC_F_PMU_CFG_TO_SEL | MXC_F_PMU_CFG_PS_SEL | MXC_F_PMU_CFG_INT_EN | MXC_F_PMU_CFG_BURST_SIZE); return cfg; } /******************************************************************************/ void PMU_ClearFlags(unsigned int channel, unsigned int mask) { mxc_pmu_regs_t *MXC_PMUn = &MXC_PMU0[channel]; uint32_t cfg = MXC_PMUn->cfg; /* Since any set flags will be cleared by the write-back below, mask them off */ cfg &= ~(MXC_F_PMU_CFG_LL_STOPPED | MXC_F_PMU_CFG_BUS_ERROR | MXC_F_PMU_CFG_TO_STAT | MXC_F_PMU_CFG_INTERRUPT); /* Now, apply the caller-supplied bits to clear */ cfg |= mask; MXC_PMUn->cfg = cfg; } /******************************************************************************/ uint32_t PMU_IsActive(unsigned int channel) { mxc_pmu_regs_t *MXC_PMUn = &MXC_PMU0[channel]; return (MXC_PMUn->cfg & MXC_F_PMU_CFG_ENABLE); }