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| author | Marti Bolivar <mbolivar@mit.edu> | 2010-09-27 00:40:44 -0400 |
|---|---|---|
| committer | Marti Bolivar <mbolivar@mit.edu> | 2010-09-27 00:40:44 -0400 |
| commit | 753f89de354eff212d84f3f2aff41146865da342 (patch) | |
| tree | 095e2183ce956bac028083d056c9c4b7ee8a8d84 /libmaple/rcc.c | |
| parent | 849bc0f8f6abf42567a152cf6e01bf7349902aac (diff) | |
| download | librambutan-753f89de354eff212d84f3f2aff41146865da342.tar.gz librambutan-753f89de354eff212d84f3f2aff41146865da342.zip | |
whitespace cleanups
Diffstat (limited to 'libmaple/rcc.c')
| -rw-r--r-- | libmaple/rcc.c | 190 |
1 files changed, 93 insertions, 97 deletions
diff --git a/libmaple/rcc.c b/libmaple/rcc.c index 9bd2663..582e9a9 100644 --- a/libmaple/rcc.c +++ b/libmaple/rcc.c @@ -1,4 +1,4 @@ -/* ***************************************************************************** +/****************************************************************************** * The MIT License * * Copyright (c) 2010 Perry Hung. @@ -20,11 +20,11 @@ * 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. - * ****************************************************************************/ + *****************************************************************************/ /** - * @brief Implements pretty much only the basic clock setup on the stm32, - * clock enable/disable and peripheral reset commands. + * @brief Implements pretty much only the basic clock setup on the + * stm32, clock enable/disable and peripheral reset commands. */ #include "libmaple.h" @@ -32,139 +32,135 @@ #include "rcc.h" enum { - APB1, - APB2, - AHB + APB1, + APB2, + AHB }; struct rcc_dev_info { - const uint8 clk_domain; - const uint8 line_num; + const uint8 clk_domain; + const uint8 line_num; }; /* device descriptor tables */ static const struct rcc_dev_info rcc_dev_table[] = { - [RCC_GPIOA] = { .clk_domain = APB2, .line_num = 2 }, - [RCC_GPIOB] = { .clk_domain = APB2, .line_num = 3 }, - [RCC_GPIOC] = { .clk_domain = APB2, .line_num = 4 }, - [RCC_GPIOD] = { .clk_domain = APB2, .line_num = 5 }, - [RCC_GPIOE] = { .clk_domain = APB2, .line_num = 6 }, // High-density devices only - [RCC_GPIOF] = { .clk_domain = APB2, .line_num = 7 }, // High-density devices only - [RCC_GPIOG] = { .clk_domain = APB2, .line_num = 8 }, // High-density devices only - [RCC_AFIO] = { .clk_domain = APB2, .line_num = 0 }, - [RCC_ADC1] = { .clk_domain = APB2, .line_num = 9 }, - [RCC_ADC2] = { .clk_domain = APB2, .line_num = 10 }, - [RCC_USART1] = { .clk_domain = APB2, .line_num = 14 }, - [RCC_USART2] = { .clk_domain = APB1, .line_num = 17 }, - [RCC_USART3] = { .clk_domain = APB1, .line_num = 18 }, - [RCC_USART4] = { .clk_domain = APB1, .line_num = 19 }, // High-density devices only - [RCC_USART5] = { .clk_domain = APB1, .line_num = 20 }, // High-density devices only - [RCC_TIMER1] = { .clk_domain = APB2, .line_num = 11 }, - [RCC_TIMER2] = { .clk_domain = APB1, .line_num = 0 }, - [RCC_TIMER3] = { .clk_domain = APB1, .line_num = 1 }, - [RCC_TIMER4] = { .clk_domain = APB1, .line_num = 2 }, - [RCC_TIMER5] = { .clk_domain = APB1, .line_num = 3 }, // High-density devices only - [RCC_TIMER6] = { .clk_domain = APB1, .line_num = 4 }, // High-density devices only - [RCC_TIMER7] = { .clk_domain = APB1, .line_num = 5 }, // High-density devices only - [RCC_TIMER8] = { .clk_domain = APB2, .line_num = 13 }, // High-density devices only - [RCC_SPI1] = { .clk_domain = APB2, .line_num = 12 }, - [RCC_SPI2] = { .clk_domain = APB1, .line_num = 14 }, - [RCC_FSMC] = { .clk_domain = AHB, .line_num = 8 }, // High-density devices only - [RCC_DAC] = { .clk_domain = APB1, .line_num = 9 }, // High-density devices only + [RCC_GPIOA] = { .clk_domain = APB2, .line_num = 2 }, + [RCC_GPIOB] = { .clk_domain = APB2, .line_num = 3 }, + [RCC_GPIOC] = { .clk_domain = APB2, .line_num = 4 }, + [RCC_GPIOD] = { .clk_domain = APB2, .line_num = 5 }, + [RCC_GPIOE] = { .clk_domain = APB2, .line_num = 6 }, // High-density only + [RCC_GPIOF] = { .clk_domain = APB2, .line_num = 7 }, // High-density only + [RCC_GPIOG] = { .clk_domain = APB2, .line_num = 8 }, // High-density only + [RCC_AFIO] = { .clk_domain = APB2, .line_num = 0 }, + [RCC_ADC1] = { .clk_domain = APB2, .line_num = 9 }, + [RCC_ADC2] = { .clk_domain = APB2, .line_num = 10 }, + [RCC_USART1] = { .clk_domain = APB2, .line_num = 14 }, + [RCC_USART2] = { .clk_domain = APB1, .line_num = 17 }, + [RCC_USART3] = { .clk_domain = APB1, .line_num = 18 }, + [RCC_USART4] = { .clk_domain = APB1, .line_num = 19 }, // High-density only + [RCC_USART5] = { .clk_domain = APB1, .line_num = 20 }, // High-density only + [RCC_TIMER1] = { .clk_domain = APB2, .line_num = 11 }, + [RCC_TIMER2] = { .clk_domain = APB1, .line_num = 0 }, + [RCC_TIMER3] = { .clk_domain = APB1, .line_num = 1 }, + [RCC_TIMER4] = { .clk_domain = APB1, .line_num = 2 }, + [RCC_TIMER5] = { .clk_domain = APB1, .line_num = 3 }, // High-density only + [RCC_TIMER6] = { .clk_domain = APB1, .line_num = 4 }, // High-density only + [RCC_TIMER7] = { .clk_domain = APB1, .line_num = 5 }, // High-density only + [RCC_TIMER8] = { .clk_domain = APB2, .line_num = 13 }, // High-density only + [RCC_SPI1] = { .clk_domain = APB2, .line_num = 12 }, + [RCC_SPI2] = { .clk_domain = APB1, .line_num = 14 }, + [RCC_FSMC] = { .clk_domain = AHB, .line_num = 8 }, // High-density only + [RCC_DAC] = { .clk_domain = APB1, .line_num = 9 }, // High-density only }; /** * @brief Initialize the clock control system. Initializes the system - * clock source to use the PLL driven by an external oscillator + * clock source to use the PLL driven by an external oscillator * @param sysclk_src system clock source, must be PLL * @param pll_src pll clock source, must be HSE * @param pll_mul pll multiplier */ void rcc_clk_init(uint32 sysclk_src, uint32 pll_src, uint32 pll_mul) { - /* Assume that we're going to clock the chip off the PLL, fed by - * the HSE */ - ASSERT(sysclk_src == RCC_CLKSRC_PLL && - pll_src == RCC_PLLSRC_HSE); - - uint32 cfgr = 0; - uint32 cr = RCC_READ_CR(); - - cfgr = (pll_src | pll_mul); - RCC_WRITE_CFGR(cfgr); - - /* Turn on the HSE */ - cr |= RCC_CR_HSEON; - RCC_WRITE_CR(cr); - while (!(RCC_READ_CR() & RCC_CR_HSERDY)) - ; - - /* Now the PLL */ - cr |= RCC_CR_PLLON; - RCC_WRITE_CR(cr); - while (!(RCC_READ_CR() & RCC_CR_PLLRDY)) - ; - - /* Finally, let's switch over to the PLL */ - cfgr &= ~RCC_CFGR_SW; - cfgr |= RCC_CFGR_SW_PLL; - RCC_WRITE_CFGR(cfgr); - while ((RCC_READ_CFGR() & RCC_CFGR_SWS) != RCC_CFGR_SWS_PLL) - ; + /* Assume that we're going to clock the chip off the PLL, fed by + * the HSE */ + ASSERT(sysclk_src == RCC_CLKSRC_PLL && + pll_src == RCC_PLLSRC_HSE); + + uint32 cfgr = 0; + uint32 cr = RCC_READ_CR(); + + cfgr = (pll_src | pll_mul); + RCC_WRITE_CFGR(cfgr); + + /* Turn on the HSE */ + cr |= RCC_CR_HSEON; + RCC_WRITE_CR(cr); + while (!(RCC_READ_CR() & RCC_CR_HSERDY)) + ; + + /* Now the PLL */ + cr |= RCC_CR_PLLON; + RCC_WRITE_CR(cr); + while (!(RCC_READ_CR() & RCC_CR_PLLRDY)) + ; + + /* Finally, let's switch over to the PLL */ + cfgr &= ~RCC_CFGR_SW; + cfgr |= RCC_CFGR_SW_PLL; + RCC_WRITE_CFGR(cfgr); + while ((RCC_READ_CFGR() & RCC_CFGR_SWS) != RCC_CFGR_SWS_PLL) + ; } - - /** * @brief Turn on the clock line on a device * @param dev_num device to turn on */ void rcc_clk_enable(uint32 dev_num) { - static const uint32 enable_regs[] = { - [APB1] = RCC_APB1ENR, - [APB2] = RCC_APB2ENR, - [AHB] = RCC_AHBENR, - }; + static const uint32 enable_regs[] = { + [APB1] = RCC_APB1ENR, + [APB2] = RCC_APB2ENR, + [AHB] = RCC_AHBENR, + }; - uint8 clk_domain = rcc_dev_table[dev_num].clk_domain; + uint8 clk_domain = rcc_dev_table[dev_num].clk_domain; - __set_bits(enable_regs[clk_domain], BIT(rcc_dev_table[dev_num].line_num)); + __set_bits(enable_regs[clk_domain], BIT(rcc_dev_table[dev_num].line_num)); } - /** * @brief Set the divider on a device prescaler * @param prescaler prescaler to set * @param divider prescaler divider */ void rcc_set_prescaler(uint32 prescaler, uint32 divider) { - static const uint32 masks[] = { - [RCC_PRESCALER_AHB] = RCC_CFGR_HPRE, - [RCC_PRESCALER_APB1] = RCC_CFGR_PPRE1, - [RCC_PRESCALER_APB2] = RCC_CFGR_PPRE2, - [RCC_PRESCALER_USB] = RCC_CFGR_USBPRE, - [RCC_PRESCALER_ADC] = RCC_CFGR_ADCPRE, - }; - - uint32 cfgr = RCC_READ_CFGR(); - - cfgr &= ~masks[prescaler]; - cfgr |= divider; - RCC_WRITE_CFGR(cfgr); + static const uint32 masks[] = { + [RCC_PRESCALER_AHB] = RCC_CFGR_HPRE, + [RCC_PRESCALER_APB1] = RCC_CFGR_PPRE1, + [RCC_PRESCALER_APB2] = RCC_CFGR_PPRE2, + [RCC_PRESCALER_USB] = RCC_CFGR_USBPRE, + [RCC_PRESCALER_ADC] = RCC_CFGR_ADCPRE, + }; + + uint32 cfgr = RCC_READ_CFGR(); + + cfgr &= ~masks[prescaler]; + cfgr |= divider; + RCC_WRITE_CFGR(cfgr); } - /** * @brief reset a device * @param dev_num device to reset */ void rcc_reset_dev(uint32 dev_num) { - static const uint32 reset_regs[] = { - [APB1] = RCC_APB1RSTR, - [APB2] = RCC_APB2RSTR, - }; + static const uint32 reset_regs[] = { + [APB1] = RCC_APB1RSTR, + [APB2] = RCC_APB2RSTR, + }; - uint8 clk_domain = rcc_dev_table[dev_num].clk_domain; + uint8 clk_domain = rcc_dev_table[dev_num].clk_domain; - __set_bits(reset_regs[clk_domain], BIT(rcc_dev_table[dev_num].line_num)); - __clear_bits(reset_regs[clk_domain], BIT(rcc_dev_table[dev_num].line_num)); + __set_bits(reset_regs[clk_domain], BIT(rcc_dev_table[dev_num].line_num)); + __clear_bits(reset_regs[clk_domain], BIT(rcc_dev_table[dev_num].line_num)); } |