#ifndef __ASMARM_CTI_H #define __ASMARM_CTI_H #include <asm/io.h> #include <asm/hardware/coresight.h> /* The registers' definition is from section 3.2 of * Embedded Cross Trigger Revision: r0p0 */ #define CTICONTROL 0x000 #define CTISTATUS 0x004 #define CTILOCK 0x008 #define CTIPROTECTION 0x00C #define CTIINTACK 0x010 #define CTIAPPSET 0x014 #define CTIAPPCLEAR 0x018 #define CTIAPPPULSE 0x01c #define CTIINEN 0x020 #define CTIOUTEN 0x0A0 #define CTITRIGINSTATUS 0x130 #define CTITRIGOUTSTATUS 0x134 #define CTICHINSTATUS 0x138 #define CTICHOUTSTATUS 0x13c #define CTIPERIPHID0 0xFE0 #define CTIPERIPHID1 0xFE4 #define CTIPERIPHID2 0xFE8 #define CTIPERIPHID3 0xFEC #define CTIPCELLID0 0xFF0 #define CTIPCELLID1 0xFF4 #define CTIPCELLID2 0xFF8 #define CTIPCELLID3 0xFFC /* The below are from section 3.6.4 of * CoreSight v1.0 Architecture Specification */ #define LOCKACCESS 0xFB0 #define LOCKSTATUS 0xFB4 /** * struct cti - cross trigger interface struct * @base: mapped virtual address for the cti base * @irq: irq number for the cti * @trig_out_for_irq: triger out number which will cause * the @irq happen * * cti struct used to operate cti registers. */ struct cti { void __iomem *base; int irq; int trig_out_for_irq; }; /** * cti_init - initialize the cti instance * @cti: cti instance * @base: mapped virtual address for the cti base * @irq: irq number for the cti * @trig_out: triger out number which will cause * the @irq happen * * called by machine code to pass the board dependent * @base, @irq and @trig_out to cti. */ static inline void cti_init(struct cti *cti, void __iomem *base, int irq, int trig_out) { cti->base = base; cti->irq = irq; cti->trig_out_for_irq = trig_out; } /** * cti_map_trigger - use the @chan to map @trig_in to @trig_out * @cti: cti instance * @trig_in: trigger in number * @trig_out: trigger out number * @channel: channel number * * This function maps one trigger in of @trig_in to one trigger * out of @trig_out using the channel @chan. */ static inline void cti_map_trigger(struct cti *cti, int trig_in, int trig_out, int chan) { void __iomem *base = cti->base; unsigned long val; val = __raw_readl(base + CTIINEN + trig_in * 4); val |= BIT(chan); __raw_writel(val, base + CTIINEN + trig_in * 4); val = __raw_readl(base + CTIOUTEN + trig_out * 4); val |= BIT(chan); __raw_writel(val, base + CTIOUTEN + trig_out * 4); } /** * cti_enable - enable the cti module * @cti: cti instance * * enable the cti module */ static inline void cti_enable(struct cti *cti) { __raw_writel(0x1, cti->base + CTICONTROL); } /** * cti_disable - disable the cti module * @cti: cti instance * * enable the cti module */ static inline void cti_disable(struct cti *cti) { __raw_writel(0, cti->base + CTICONTROL); } /** * cti_irq_ack - clear the cti irq * @cti: cti instance * * clear the cti irq */ static inline void cti_irq_ack(struct cti *cti) { void __iomem *base = cti->base; unsigned long val; val = __raw_readl(base + CTIINTACK); val |= BIT(cti->trig_out_for_irq); __raw_writel(val, base + CTIINTACK); } /** * cti_unlock - unlock cti module * @cti: cti instance * * unlock the cti module, or else any writes to the cti * module is not allowed. */ static inline void cti_unlock(struct cti *cti) { __raw_writel(CS_LAR_KEY, cti->base + LOCKACCESS); } /** * cti_lock - lock cti module * @cti: cti instance * * lock the cti module, so any writes to the cti * module will be not allowed. */ static inline void cti_lock(struct cti *cti) { __raw_writel(~CS_LAR_KEY, cti->base + LOCKACCESS); } #endif